CN210771534U - Pressure boost heat dissipation air purification lamp - Google Patents

Pressure boost heat dissipation air purification lamp Download PDF

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Publication number
CN210771534U
CN210771534U CN201921991670.9U CN201921991670U CN210771534U CN 210771534 U CN210771534 U CN 210771534U CN 201921991670 U CN201921991670 U CN 201921991670U CN 210771534 U CN210771534 U CN 210771534U
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CN
China
Prior art keywords
shell
air
module
lamp
auxiliary flow
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Expired - Fee Related
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CN201921991670.9U
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Chinese (zh)
Inventor
陈千智
邱庆彬
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Stratospheric Composite Water Ions Shenzhen Co Ltd
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Individual
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Priority to CN201921991670.9U priority Critical patent/CN210771534U/en
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Publication of CN210771534U publication Critical patent/CN210771534U/en
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Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a pressure boost heat dissipation air purification lamp, assist and flow the shell and wrap up outside fan air-out shell, assist the lateral wall that flows the shell and seted up a plurality of assistance in the top of convulsions import and flow the shell air intake, assist the bottom of flowing the shell and seted up the exhaust vent, assist and form between the inner wall of flowing the shell and the outer wall of fan air-out shell and assist and flow the wind channel, lamps and lanterns unit mount is in the outer wall of assisting a shell, cold and hot wind module and air purification module are all installed outside assisting a shell, set up cold and hot wind pipeline between the output of cold and hot wind module and the assistance wind channel, set up between the output of air purification module and the assistance wind channel and purify. The utility model discloses pressure boost heat dissipation air purification lamp simple structure is compact, and low in manufacturing cost and outward appearance have more the aesthetic feeling.

Description

Pressure boost heat dissipation air purification lamp
Technical Field
The utility model relates to a household electrical appliances field especially relates to a pressure boost heat dissipation air purification lamp.
Background
The supercharging air ducts of the supercharging purifying fans on the market are generally distributed with the outer air ducts in a crossed manner, the structure is complex, the manufacturing cost is high, in addition, the supercharging fans are generally arranged on the lamp panel, the overall height is high, and the appearance is not attractive.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a pressure boost heat dissipation air purification lamp to solve above-mentioned technical problem.
In order to realize the purpose, the technical scheme of the utility model is that: the utility model provides a supercharging heat dissipation air purification lamp, which comprises a fully-enclosed fan installation inner shell, a fully-enclosed fan air-out outer shell, a turbine motor, turbine blades, a fully-enclosed auxiliary flow outer shell, a lamp component cold and hot air module and an air purification module, wherein the top of the fan installation inner shell is provided with a motor installation hole, the turbine motor is fixedly installed in the fan installation inner shell, an output shaft of the turbine motor upwards penetrates through the motor installation hole to be connected with the turbine blades, the top of the fan air-out outer shell is provided with an air draft inlet, the fan air-out outer shell is wrapped outside the fan installation inner shell and is fixedly connected with the fan installation inner shell, a supercharging air channel is formed between the inner wall of the fan air-out outer shell and the outer wall of the fan installation inner shell, and the bottom of the fan air-out outer shell is just opposite to, the turbine blade is positioned in the supercharging air channel, the auxiliary flow shell is wrapped outside the fan air outlet shell, a plurality of auxiliary flow shell air inlets are formed in the position, above the air draft inlet, of the side wall of the auxiliary flow shell, an air outlet hole is formed in the bottom of the auxiliary flow shell, an auxiliary flow air channel is formed between the inner wall of the auxiliary flow shell and the outer wall of the fan air outlet shell, an auxiliary flow air outlet is formed between the lower end of the side wall of the fan air outlet shell and the edge of the air outlet hole, the lamp assembly is installed on the outer wall of the auxiliary flow shell, the cold and hot air module and the air purification module are both installed outside the auxiliary flow shell, a cold and hot air pipeline is arranged between the output end of the cold and hot air module and the auxiliary flow air channel, a purification air pipeline is arranged between the output end of the air purification module and the auxiliary flow air channel, and the air purification module is a nano water ion module or a nano water ion The module or the water ion module or the hydroxyl radical water molecule group generating device or the nanometer water ion photocatalyst module or the nanometer water ion electric catalyst module or the nanometer water ion and nanometer silver ion compound module or the filtering and purifying module.
The lamp assembly comprises a lamp panel, a lamp source and a lamp shade, the lamp panel is annular, the edge of the inner wall of the lamp panel is fixedly connected with the middle of the outer wall of the auxiliary flow shell, the lamp source is installed at the bottom of the lamp panel, the lamp shade is in a downward convex annular shape, the inner edge of the lamp shade is fixedly connected with the edge of the air outlet hole, the outer edge of the lamp shade is fixedly connected with the outer edge of the lamp panel, and the cold and hot air module and the air purification module are installed at the top of the lamp panel.
The pressure boost heat dissipation air purification lamp still includes motor control module, lighting drive module and whole machine control module, motor control module install in assist in the shell of flowing in the top of convulsions import, motor control module with the turbine motor electrical property meets, whole machine control module all install in the top of lamp panel, lighting drive module install in the top or the bottom of lamp panel, the lamp source reaches whole machine control module all with lighting drive module electrical property meets, cold and hot wind module reaches air purification module all with whole machine control module electrical property meets.
And the top of the auxiliary flow shell is also sleeved with a top absorbing cover.
And the bottom of the auxiliary flow shell is provided with an LED digital display control module on the inner side of the pressurizing air outlet, and the LED digital display control module is electrically connected with the complete machine control module.
And a decorative ring is sleeved at the joint of the outer edge of the lamp panel and the outer edge of the lamp shade.
And a reinforcing rib is arranged between the top of the lamp panel and the auxiliary flow shell.
The pressure boost heat dissipation air purification lamp still includes annular end cover ring, the outward flange of end cover ring with assist the lower limb of flowing the shell and meet, the upper edge of end cover ring with the lower part of the outer wall of fan air-out shell meets, it goes out the wind hole to have seted up a plurality of assistance on the end cover ring.
The whole control module is also provided with a voice control unit or a WIFI control unit or an infrared control unit or a Bluetooth control unit or an induction control unit or an internet of things control unit or a local area network control unit or an intelligent networking control unit. Compared with the prior art, the utility model discloses pressure boost heat dissipation air purification lamp simple structure is compact, and low in manufacturing cost and outward appearance have more the aesthetic feeling.
The invention will become more apparent from the following description when taken in conjunction with the accompanying drawings which illustrate embodiments of the invention.
Drawings
Fig. 1 is the structure diagram of the first angle of the pressurized heat dissipation air purification lamp of the present invention.
Fig. 2 is a structural diagram of the second angle of the pressurized heat dissipation air purification lamp of the present invention.
Fig. 3 is the structure diagram of the third angle of the pressurized heat dissipation air purification lamp of the present invention.
Fig. 4 is a cross-sectional view taken along section line a-a in fig. 3.
Detailed Description
Referring to fig. 1 to 4, the pressurized heat dissipation air purification lamp 100 of the present invention includes a fully-enclosed fan mounting inner shell 10, a fully-enclosed fan outlet housing 15, a turbine motor 20, a turbine blade 30, a fully-enclosed auxiliary flow housing 35, a lamp assembly, a hot and cold air module 65, and an air purification module 70. The cold and hot air module 65 may be a cold and hot exchange device formed by semiconductor cooling fins, or may be an electric heating device or other cold and hot air devices.
The top of the fan mounting inner shell 10 is provided with a motor mounting hole 101. The turbine motor 20 is fixedly installed in the fan installation inner casing 10, and an output shaft of the turbine motor 20 passes through the motor installation hole 101 upward to be connected with the turbine blade 30. The top of fan air-out shell 15 has been seted up convulsions import 151, fan air-out shell 15 wrap up in outside fan installation inner shell 10 and with fan installation inner shell 10 is fixed to be met, the inner wall of fan air-out shell 15 with form pressure boost wind channel 13 between the outer wall of fan installation inner shell 10. The bottom of the fan air outlet casing 15 is opposite to the pressurizing air duct 13 and is evenly provided with a plurality of pressurizing air outlet holes 152. The turbine blades 30 are located in the plenum duct 13. The auxiliary flow housing 35 is wrapped outside the fan outlet housing 15 and is fixedly connected with the fan outlet housing 15. The side wall of the auxiliary flow shell 35 is provided with a plurality of auxiliary flow shell air inlets 351 above the air draft inlet 151. The bottom of the auxiliary flow shell 35 is provided with an air outlet 352. An auxiliary air duct 14 is formed between the inner wall of the auxiliary air flow housing 35 and the outer wall of the fan air outlet housing 15. The motor control module 55 is installed inside the auxiliary flow housing 35 above the air draft inlet 151 and electrically connected to the turbine motor 20. An auxiliary air outlet 145 is formed between the lower end of the sidewall of the fan outlet housing 15 and the edge of the air outlet 352. The lamp assembly is installed on the outer wall of the auxiliary flow housing 35, and the cold and hot air module 65, the air purification module 70 and the whole machine control module 75 are all installed on the top of the lamp panel 40. The cold and hot air module 65 and the air purification module 70 are installed outside the auxiliary flow housing 35, the output end of the cold and hot air module 65 and the cold and hot air pipeline 16 are arranged between the auxiliary flow channels 14, and the output end of the air purification module 70 and the purified air pipeline 17 are arranged between the auxiliary flow channels 14. The air purification module 70 is a nano water ion module or a nano water ion and anion composite module or an electrostatic water atomization module or a water ion module or a hydroxyl radical water molecular group generation device or a nano water ion photocatalyst module or a nano water ion electric catalyst module or a nano water ion and nano silver ion composite module or a filtration purification module. The turbine motor 20, the light source 45, the air purification module 70 and the cold and hot air module 65 are all automatically controlled by a control circuit.
Specifically, the lamp assembly includes a lamp panel 40, a lamp source 45, and a lamp housing 50. The lamp panel 40 is annular, the edge of the inner wall of the lamp panel 40 is fixedly connected with the middle of the outer wall of the auxiliary flow shell 35, the lamp source 45 is installed at the bottom of the lamp panel 40, the lampshade 50 is in a downward convex annular shape, the inner edge of the lampshade 50 is fixedly connected with the edge of the air outlet 352, the outer edge of the lampshade 50 is fixedly connected with the outer edge of the lamp panel 40, and the cold and hot air module 65 and the air purification module 70 are both installed at the top of the lamp panel.
Preferably, the forced air cooling lamp 100 further comprises a motor control module 55, an illumination driving module 60 and a whole machine control module 75. The motor control module 55 is mounted within the auxiliary flow housing 35 above the suction inlet 151. The motor control module 55 is electrically connected to the turbine motor 20, the integral control module 75 is mounted on the top of the lamp panel 40, and the illumination driving module 60 is mounted on the top or bottom of the lamp panel, in this embodiment, the illumination driving module 60 is mounted on the top and bottom of the lamp panel 40. The lamp source and the whole machine control module are electrically connected with the illumination driving module, and the cold and hot air module and the air purification module are electrically connected with the whole machine control module.
Preferably, the top of the auxiliary flow housing 35 is covered with a suction cap 353. The bottom of the auxiliary flow housing 35 is provided with an LED digital display control module 354 on the inner side of the pressurizing air outlet 152, and the LED digital display control module 354 is electrically connected with the whole machine control module 75. The joint of the outer edge of the lamp panel 40 and the outer edge of the lamp shade 50 is also sleeved with a decorative ring 18. A reinforcing rib 19 is further arranged between the top of the lamp panel 40 and the auxiliary flow housing 35.
Preferably, the utility model discloses pressure boost heat dissipation air purification lamp 100 still includes annular end cover ring 355, the outward flange of end cover ring 355 with assist the lower limb of flowing shell 35 and meet, the upper edge of end cover ring 355 with the lower part of the outer wall of fan air-out shell 15 meets, a plurality of assistance play wind holes 3551 have been seted up on end cover ring 355.
Preferably, the whole control module 75 is further provided with a voice control unit, a WIFI control unit, an infrared control unit, a bluetooth control unit, an induction control unit, an internet of things control unit, a local area network control unit, or an intelligent networking control unit. This pressure boost heat dissipation air purification lamp 100 except by LED digital display control module 354 control, can also be through intelligent mode control such as bluetooth, wifi, thing networking, internet, infrared ray, app.
When the pressurized heat dissipation air purification lamp 100 of the present invention works, the turbine motor 20 drives the turbine blade 30 to rotate to generate negative pressure, so as to suck external air from the auxiliary flow shell air inlet 351 and eject the air from the pressurized air outlet 152 through the pressurized air duct 13; meanwhile, the turbine blade 30 rotates to generate negative pressure to suck a part of external air flow into the auxiliary air duct 14, and the purified air flow generated by the air purifying module 70 and the cold and hot air flow generated by the cold and hot air module 65 are converged into the auxiliary air duct 14 and discharged from the auxiliary air outlet hole 3551 together with the air flow sucked from the auxiliary air inlet 351, thereby purifying and cooling the indoor air.
The utility model discloses pressure boost heat dissipation air purification lamp simple structure is compact, and low in manufacturing cost and outward appearance have more the aesthetic feeling.
The present invention has been described in connection with the preferred embodiments, but the present invention is not limited to the embodiments disclosed above, and various modifications, equivalent combinations, which are made according to the essence of the present embodiment, should be covered.

Claims (9)

1. The utility model provides a pressure boost heat dissipation air purification lamp which characterized in that: the lamp assembly comprises a fully-enclosed fan installation inner shell, a fully-enclosed fan air outlet shell, a turbine motor, turbine blades, a fully-enclosed auxiliary flow shell, a lamp assembly cold and hot air module and an air purification module, wherein a motor installation hole is formed in the top of the fan installation inner shell, the turbine motor is fixedly installed in the fan installation inner shell, an output shaft of the turbine motor upwards penetrates through the motor installation hole to be connected with the turbine blades, an air draft inlet is formed in the top of the fan air outlet shell, the fan air outlet shell is wrapped outside the fan installation inner shell and is fixedly connected with the fan installation inner shell, a pressurization air channel is formed between the inner wall of the fan air outlet shell and the outer wall of the fan installation inner shell, a plurality of pressurization air outlet holes are uniformly formed in the position, right opposite to the pressurization air channel, of the bottom of the fan air outlet shell, and the, the auxiliary flow shell is wrapped outside the fan air-out shell, the side wall of the auxiliary flow shell is arranged above the air draft inlet, a plurality of auxiliary flow shell air inlets are formed in the upper portion of the air draft inlet, an air outlet is formed in the bottom of the auxiliary flow shell, an auxiliary flow air channel is formed between the inner wall of the auxiliary flow shell and the outer wall of the fan air-out shell, an auxiliary flow air outlet is formed between the lower end of the side wall of the fan air-out shell and the edge of the air outlet, the lamp assembly is installed on the outer wall of the auxiliary flow shell, the cold and hot air module and the air purification module are both located outside the auxiliary flow shell, a cold and hot air pipeline is arranged between the output end of the cold and hot air module and the auxiliary flow air channel, a purification air pipeline is arranged between the output end of the air purification module and the auxiliary flow air channel, and the air purification module is a nano water ion module or a nano water ion and anion composite module or A molecular group generating device, a nanometer water ion photocatalyst module, a nanometer water ion electric catalyst module, a nanometer water ion and nanometer silver ion composite module or a filtering and purifying module.
2. A forced air cooled lamp as recited in claim 1, wherein: the lamp assembly comprises a lamp panel, a lamp source and a lamp shade, the lamp panel is annular, the edge of the inner wall of the lamp panel is fixedly connected with the middle of the outer wall of the auxiliary flow shell, the lamp source is installed at the bottom of the lamp panel, the lamp shade is in a downward convex annular shape, the inner edge of the lamp shade is fixedly connected with the edge of the air outlet hole, the outer edge of the lamp shade is fixedly connected with the outer edge of the lamp panel, and the cold and hot air module and the air purification module are installed at the top of the lamp panel.
3. A forced air cooled lamp as recited in claim 2, wherein: still include motor control module, illumination drive module and whole machine control module, motor control module install in assist the shell in the top of convulsions import, motor control module with the turbine motor electrical property meets, whole machine control module all install in the top of lamp panel, illumination drive module install in the top or the bottom of lamp panel, the lamp source reaches whole machine control module all with illumination drive module electrical property meets, cold and hot wind module reaches air purification module all with whole machine control module electrical property meets.
4. A forced air cooled lamp as recited in claim 1, wherein: and the top of the auxiliary flow shell is also sleeved with a top absorbing cover.
5. A forced air cooled lamp as recited in claim 3, wherein: and the bottom of the auxiliary flow shell is provided with an LED digital display control module on the inner side of the pressurizing air outlet, and the LED digital display control module is electrically connected with the complete machine control module.
6. A forced air cooled lamp as recited in claim 2, wherein: and a decorative ring is sleeved at the joint of the outer edge of the lamp panel and the outer edge of the lamp shade.
7. A forced air cooled lamp as recited in claim 2, wherein: and a reinforcing rib is arranged between the top of the lamp panel and the auxiliary flow shell.
8. A forced air cooled lamp as recited in claim 1, wherein: the fan air outlet structure is characterized by further comprising an annular end cover ring, the outer edge of the end cover ring is connected with the lower edge of the auxiliary flow shell, the upper edge of the end cover ring is connected with the lower portion of the outer wall of the fan air outlet shell, and a plurality of auxiliary air outlet holes are formed in the end cover ring.
9. A forced air cooled lamp as recited in claim 3, wherein: the whole control module is also provided with a voice control unit or a WIFI control unit or an infrared control unit or a Bluetooth control unit or an induction control unit or an internet of things control unit or a local area network control unit or an intelligent networking control unit.
CN201921991670.9U 2019-11-18 2019-11-18 Pressure boost heat dissipation air purification lamp Expired - Fee Related CN210771534U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921991670.9U CN210771534U (en) 2019-11-18 2019-11-18 Pressure boost heat dissipation air purification lamp

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921991670.9U CN210771534U (en) 2019-11-18 2019-11-18 Pressure boost heat dissipation air purification lamp

Publications (1)

Publication Number Publication Date
CN210771534U true CN210771534U (en) 2020-06-16

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Application Number Title Priority Date Filing Date
CN201921991670.9U Expired - Fee Related CN210771534U (en) 2019-11-18 2019-11-18 Pressure boost heat dissipation air purification lamp

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CN (1) CN210771534U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110715191A (en) * 2019-11-18 2020-01-21 陈千智 Pressure boost heat dissipation air purification lamp

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110715191A (en) * 2019-11-18 2020-01-21 陈千智 Pressure boost heat dissipation air purification lamp

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Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant
TR01 Transfer of patent right
TR01 Transfer of patent right

Effective date of registration: 20210330

Address after: 1712e, feiyada science and technology building, 002 Gaoxin South 1st Road, high tech Zone community, Yuehai street, Nanshan District, Shenzhen, Guangdong 518000

Patentee after: Stratospheric composite water ions (Shenzhen) Co., Ltd

Address before: No.1, 20th floor, unit 1, building 15, no.468, Section 1, Xiehe Shunxing Road, Shuangliu County, Chengdu, Sichuan 610200

Patentee before: Chen Qianzhi

Patentee before: Qiu Qingbin

CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200616

Termination date: 20201118