CN212319534U

CN212319534U - Bladeless fan lamp, outer ring airflow channel assembly, arc middle air outlet channel structure and airflow outlet nozzle assembly

Info

Publication number: CN212319534U
Application number: CN202020500356.2U
Authority: CN
Inventors: 范奇林
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-08
Filing date: 2020-04-08
Publication date: 2021-01-08
Anticipated expiration: 2030-04-08

Abstract

The utility model relates to the technical field of fan lamps; and more particularly to a bladeless fan lamp. The bladeless fan lamp includes: a base assembly including: the device comprises a base shell, an intelligent control module, an air inlet cover, a turbine air inlet channel, a motor, a curved turbine blade and a noise reduction and sound insulation device; the middle air outlet channel has the function of conveying accelerated airflow generated in the base assembly to an outer ring airflow channel positioned on the outer ring of the bladeless fan lamp; the outer ring airflow channel is communicated with the middle air outlet channel and the airflow outlet and has the function of conveying the airflow in the outer ring airflow channel to the airflow outlet; the airflow outlet has the function of ejecting accelerated airflow in the outer ring airflow channel; the external air of the bladeless fan lamp is sucked by the accelerated airflow jetted from the airflow outlet, mixed and jetted, and accordingly larger airflow is generated; an illumination source, the illumination source comprising: the shell bottom lighting source or the outer ring lighting source or both have the function of generating artificial lighting.

Description

Bladeless fan lamp, outer ring airflow channel assembly, arc middle air outlet channel structure and airflow outlet nozzle assembly

Technical Field

The utility model relates to the technical field of fan lamps; especially relates to a bladeless fan lamp, outer lane air current channel subassembly, arc middle air outlet channel structure and air current export nozzle assembly, but has intelligent remote control, the music broadcast, buzzing alarm during the conflagration, double dynamical big amount of wind, filtration and anion dual purification, blow warm braw and comfortable bass function etc..

Background

Most products in the market at present adopt fan lamps with blades, the structure of the fan lamps is not easy to scrub, certain potential safety hazards exist, air is not stably exhausted, the fan lamps are hung in a room without comfort, and the sleeping quality cannot be guaranteed;

the no-blade fan lamp with the publication number of CN108895039A describes a lamp body structure for hiding blades, high-speed airflow generated by the hidden blades is directly sprayed out from an air outlet and drives air to flow, and partial defects of the existing fan lamp with blades can be solved, but the described structure has the advantages that the lighting light source is designed at the bottom of the base at the middle part, and a relatively large lighting light source volume has to be designed due to lighting requirements, so that too much air flowing space is occupied, and the air volume which can be driven by the high-speed airflow is small; the air outlet mode between the three-way structure and the intersection of the annular main air duct is approximately 90-degree right-angle air outlet, so that the air outlet of the three-way structure directly faces the inner side wall of the annular main air duct, airflow rebounds, energy loss caused by mutual collision of the airflows is caused, and power consumption is increased;

in an environment-friendly cooling and heating bladeless fan lamp with the publication number of CN209763005U, the same problem also occurs in the described structure, and the outlet of the air outlet pipeline directly faces the inner wall of the lower side of the annular air collecting pipe, so that airflow rebounds; the height of most of the existing commodity rooms is generally low and is only about 2.8M, if the bladeless fan lamp is required to meet the installation requirement of the modern commodity rooms, the height size of the lamp needs to be reduced as much as possible, the preferred size is within 40cm, and the described bladeless fan lamp structure can cause the middle power installation device and the shell to be reduced once the lamp main body is reduced, so that the area of an upper air inlet mesh is reduced, the air intake amount is small, the wind power is insufficient, the middle main structure space of the lamp main body is limited, and the requirement for installing most functions of the bladeless fan lamp cannot be met;

taking the structure described in publication No. CN108895039A and publication No. CN209763005U as an example, the drawbacks of the existing bladeless fan lamp include:

the motor has the function of noise blocking, and the noise is high after the motor rotates, so that the physical and psychological health of people is influenced;

the power is small, only single power and single blade are provided, the quantity of air which can be compressed and accelerated is small, the air flow is low, and the requirement of partial people on large air quantity cannot be met;

no heat insulation structure or heat insulation material is arranged between the heating structure and the illumination light source, so that heat is directly transferred to the illumination light source, and the service life of the illumination light source is influenced due to the characteristic that the material of the illumination light source is easy to age in a high-temperature environment;

the high-speed airflow is not driven by any component after being sprayed out of the air outlet, so that the air quantity driven by the high-speed airflow is small, the air quantity blown downwards is small, and the effect of an air amplifier and a coanda effect principle cannot be well achieved;

the music playing function is not available, and the habit that modern people like to listen to music cannot be met;

the smoke-free monitoring alarm function can not automatically sense the smoke of the fire and buzz and alarm.

Disclosure of Invention

The utility model aims to provide a bladeless fan lamp to solve current bladeless fan lamp, have naked flabellum, no intelligent control function, the air-out is unstable, can not supply hot-blast, can not filter the air-purifying, and solve current bladeless fan lamp, there is not sound insulation structure, there is not thermal insulation structure between heating structure and the light source, no music broadcast, no smoke monitoring alarm, the air output is little, the replacement of internal component is difficult after the installation, the air inlet hood can not unpick and wash, there are not multiple air-out modes, and the air-out mode of air outlet can not gather powerful defect;

especially commodity suite room does not possess fire-proof equipment with a lot of interior space top surfaces of building oneself in the modern building, and many people's fire prevention consciousness is weak moreover, and there is not smoke detector alarm in the family, especially when taking place the conflagration late after the night sleep, can not in time discover, leads to delaying the optimum time of escaping, so the utility model discloses combine bladeless fan lamp and smog monitoring alarm function, implement the bladeless fan lamp that has auto-induction conflagration smog and buzz alarm function.

In order to solve the above problem, the utility model provides a bladeless fan lamp, the bladeless fan lamp includes:

the fixing frame is used for fixing the bladeless fan lamp to the top ceiling or the top cement board;

the base component is used for protecting the internal components, fixing the integral structure, providing air circulation, generating accelerated airflow, providing airflow power and controlling each unit component;

the base assembly includes:

a base assembly housing for protecting the internal unit structure, fixing the internal unit structure; in order to facilitate maintenance and replacement of the internal unit element, the base assembly shell is designed into a detachable structure and is divided into an upper part shell and a lower part shell, and the detachable structure is positioned at the connecting part of the upper part shell and the lower part shell of the base assembly;

the shell body on the upper part of the base component is internally provided with:

a hardware unit mount;

a voltage reduction and rectification bridge power supply module;

a DC-DC power supply module;

an intelligent control module;

the intelligent sound box hardware module;

a smoke detection main control chip module;

the hardware unit fixing frame is used for fixing each unit hardware module;

the step-down and rectifier bridge power supply module is in the prior art, converts AC220V alternating current into DC within DC120V or DC120V, and transmits the converted DC to the DC-DC power supply module;

the DC-DC power supply module is in the prior art, and has the functions of providing short circuit, overload, overvoltage, undervoltage and overcurrent protection for the electric appliance units and transmitting direct current to the intelligent control module and each electric appliance unit;

the intelligent control module can be controlled by at least one control device or device of a manual switch, an intelligent mobile phone, a remote control, a computer, an intelligent watch, an intelligent voice device, a plug and the like, and the intelligent hardware module can be controlled by the control device or device of the intelligent control module;

the intelligent control module has at least one of functions of data acquisition, data analysis, data transmission, data storage and the like, and can remotely control the controllable unit assembly of the bladeless fan lamp in at least one mode of WIFI, Bluetooth, infrared remote control, Zigbee, Zwave, RF, air network (5G, 4G, 3G) and the like; controllable items such as air heating temperature, lighting source switch, timing switch, air volume and the like, of course, the above are only schematic and cannot be understood as the limitation of the utility model, such as volume of the intelligent sound box, switching music, stepless regulation and control light and the like can be controlled; the utility model discloses preferred intelligent control module has functions such as data acquisition, analysis data, transmission data, data storage, and can implement remote control to the steerable unit subassembly of bladeless fan lamp through modes such as WIFI, infrared remote control, aerial network (5G, 4G, 3G);

the intelligent sound box hardware module is composed of a circuit board and an electronic element and has at least one of the functions of audio output, data transmission, data analysis and data storage, receiving a smoke detection main control chip signal, receiving an intelligent control module signal, sending a signal to a loudspeaker and the like; the utility model discloses preferred intelligent audio amplifier hardware module has audio output, transmission data, analysis data, data storage, receives smog and detects main control chip signal, receives intelligent control module signal, sends functions such as signal for the speaker;

the smoke detection main control chip module consists of a circuit board and an electronic element, is connected with the intelligent sound box hardware module, and has the functions of receiving the signal change of the smoke sampling induction device, judging the signal change quantity to confirm whether a fire alarm occurs and transmitting the signal to the intelligent sound box hardware module;

the base component lower part casing is provided with:

an air intake hood;

a smoke sampling sensing device;

an air purifier assembly;

a primary air heater assembly;

a noise reduction and sound insulation device;

a dual power turbine assembly;

a speaker;

a shell bottom lighting source;

the air inlet cover is a detachable device, is arranged at the upper part of the lower shell of the base assembly, is an air inlet device of airflow, has the function of fixing the upper shell and the lower shell of the base assembly, and consists of a detachable structure and an arc-shaped surface structure, wherein the arc-shaped surface structure is provided with an air inlet hole for air circulation, and the air inlet hole at least consists of a vent through which the airflow can pass, has an insect prevention function, and has a replaceable unpicking and washing function; the air inlet hole of the preferred air inlet cover of the utility model consists of a plurality of circular air inlets;

the smoke sampling sensing device is arranged in the space in the air inlet hood, and at least part of the structure is in contact with unfiltered air; the smoke sampling sensing device is in the prior art, comprises an infrared transmitting tube, a receiving photoelectric tube, a lead and the like, and has the functions of sensing the air smoke concentration and sending a signal to a smoke detection main control chip module;

the air purifier assembly is disposed inside an intake hood, by prior art: the air negative ion generator, the negative ion discharge needle, the catalyst, the active carbon, the synthetic fiber, the HEPA high-efficiency material and so on, at least 1 technology; the utility model discloses preferred air purifier subassembly is formed by HEPA high efficiency material, catalyst, air anion generator and anion discharge needle combination, and as the utility model discloses preferred air purifier subassembly has the function that can air-purifying, filtered air and produce the anion;

the air negative ion generator is in the prior art, and the negative ion components in the air are increased by utilizing high-voltage corona, so that the air quality is improved, and the health of a human body can be promoted; the utility model discloses it is preferred that air anion generator is arranged in the casing of the upper part of the base component;

the catalysts are prior art and are used for the oxidative decomposition of volatile organic compounds, such as: decomposing formaldehyde;

the HEPA high-efficiency material is mainly used for trapping particle dust and various suspended matters above 0.5um in the prior art;

the primary air heater assembly is the existing air heating technology, is arranged in the inner space of the air inlet cover and consists of a heating body (a metal body, a heat conductor, a heating pipe or other heat-generating materials without limitation) and a lead;

the primary air heater assembly has a range of heating air contacting the primary air heater assembly to a temperature between 5 deg. to 97 deg.,

the utility model discloses the air temperature that the preferred primary air heater subassembly heats is in 15 to 57 ranges;

preferably, the noise reduction and sound insulation means is composed of a material capable of insulating and reducing noise or a sound-absorbing material, as schematically used; materials having a sound-insulating or sound-absorbing effect such as sound-insulating foam, sound-insulating cotton, sound-insulating board, and sound-insulating felt; the material can at least block part of noise in the base component, so that the sound generated by the motor can be heard outside no more than 70 decibels, and the noise reduction and sound insulation device is arranged around the double-power turbine component and blocks the sound generated when the motor and the turbine blade run, thereby achieving the purpose of reducing the noise;

the utility model discloses the preferred noise reduction and sound insulation device is composed of sound insulation foam or sound insulation cotton;

preferably, the double-power turbine assembly adopts an airplane turbine engine principle and an automobile turbine principle, two groups of motors are used for driving two groups of turbine blades to generate high-pressure accelerated airflow, compared with the traditional single-motor single-blade, the double-power turbine assembly has the characteristic of generating more air inlet amount and air pressure, and the air outlet of the bladeless fan lamp is also provided with more air outlet amount so as to generate larger wind power;

a turbine inlet passage;

impeller blades;

an impeller motor;

a fixing device frame;

a curved turbine blade;

a turbine motor;

a turbo motor mount;

the turbine air inlet channel is arranged in the lower shell of the base component, is an air inlet channel of air flow and is also a fixing device of the impeller blades and the impeller motor; the turbine air inlet channel is divided into an air inlet and an air outlet, the air inlet is positioned at the front end of the impeller blade, the air outlet is positioned behind the air outlet of the curved turbine blade, and the inner wall of the device is of a curved surface cylinder or a cambered surface cylinder structure;

the minimum cross-sectional dimension of the turbine air inlet channel ranges from 20mm to 270mm in width and from 20mm to 570mm in height, the utility model preferably selects the minimum cross-sectional dimension of the turbine air inlet channel ranges from 50mm to 150mm in width and from 60mm to 270mm in height;

the impeller blades are arranged in the turbine air inlet channel and connected with an impeller motor; the impeller blade is a transmission device of airflow and consists of a plurality of inclined blades with curved surfaces; after the impeller blades operate, more air can be continuously compressed and transmitted into the curved turbine blade device in an accelerating manner, so that a larger air inflow is generated;

the impeller motor is arranged in the turbine air inlet channel and is connected with the impeller blades and the fixing device frame;

the impeller motor is a direct-current brushless motor between DC5V and DC120V, and is a device for providing power transmission operation for impeller blades;

the fixing device frame is arranged in the turbine air inlet channel and has the functions of fixing the impeller blades and the impeller motor;

the curved turbine blades are arranged in the turbine air inlet channel, are connected with a turbine motor, are used for compressing and accelerating air flow, consist of a plurality of curved inclined blades, and can continuously compress and accelerate the air to be transmitted into the middle air outlet channel after operation;

the turbine motor is arranged at the lower part of the turbine air inlet channel and is connected with a turbine motor fixing frame; the turbine motor is a direct-current brushless motor between DC5V and DC120V, and is a device for providing power transmission operation for curved turbine blades;

the turbine motor fixing frame is fixedly connected with the bottom of the lower shell of the base component and has the function of fixing the turbine motor;

the loudspeaker is in the prior art, has the functions of receiving signals of the intelligent sound box hardware module and converting the electric signals into sound signals, and has the functions of playing music and starting buzzing alarm in case of fire; the utility model discloses preferred speaker is arranged in base subassembly bottom;

the shell bottom lighting source is composed of at least one material or light source of a Light Emitting Diode (LED), a fluorescent lamp, a semiconductor fluorescent lamp, an energy-saving lamp and the like; the utility model discloses preferred casing bottom illumination light source comprises emitting diode (LED) and is arranged in base subassembly bottom and around the speaker;

the illumination light source at the bottom of the shell can be controlled by the intelligent control module to be switched on and off;

preferably, the middle air outlet channel has the function of transmitting accelerated air flow, and conveys the accelerated air flow generated in the base assembly to an outer ring air flow channel assembly positioned on the outer ring of the bladeless fan lamp;

the middle air outlet channel is connected with the side surface or the bottom surface of the lower shell of the base assembly and is communicated with the turbine air inlet channel; the utility model preferably selects the middle air outlet channel to be connected with the side surface of the lower shell of the base component;

the middle air outlet channel can be manufactured into a single middle air outlet channel or a plurality of middle air outlet channels according to the product requirement of the bladeless fan lamp, the utility model discloses the preferred number of middle air outlet channels arranged is 2;

the cross section of the inner wall of the middle air outlet channel and the extension surface can be at least one of curved, arc-shaped, oval, round, special-shaped or polyhedral structures according to the product requirement, the utility model discloses the preferred inner wall cross section is special-shaped, and the extension surface is arc-shaped; in order to ensure smooth circulation of accelerated airflow, the connecting structure of the inner wall and the base component is approximately of an arc structure; the outer wall can be curved, arc, oval, round, special-shaped or polyhedral according to the product demand, the utility model discloses the preferred outer wall extension structure is roughly the arc structure, and the connection structure of outer wall and base subassembly roughly arc structure;

preferably, the intermediate air outlet channel is of an arc-shaped structure, and the accelerated airflow entering the intermediate air outlet channel enters the outer ring airflow channel assembly positioned on the outer ring of the bladeless fan lamp in an arc-shaped motion mode, so that the accelerated airflow in the outer ring airflow channel assembly has a motion mode in a single direction, and the accelerated airflow in the outer ring airflow channel assembly flows in a counterclockwise single direction or a clockwise single direction, so that the accelerated airflow is not easy to collide, the energy loss of the accelerated airflow is reduced, and the power consumption of the bladeless fan lamp is reduced; the utility model is preferably that the middle air outlet channel is arranged in an arc clockwise direction, so that the accelerated airflow in the middle air outlet channel enters the outer ring airflow channel component in the clockwise direction;

preferably, the outer ring airflow channel assembly has the functions of transmitting accelerated airflow, jetting accelerated airflow and providing artificial illumination;

the outer ring airflow channel assembly is communicated with the middle air outlet channel and guides the accelerated airflow in the channel to the airflow outlet;

the outer ring airflow passage assembly includes:

an outer ring airflow channel;

an airflow outlet;

an airflow outlet transmission;

an airflow outlet nozzle assembly;

a thermal insulation layer structure;

an outer ring illumination light source;

the outer ring airflow channel has the function of receiving accelerated airflow generated in the base assembly and accelerates the airflow to circulate in the outer ring airflow channel;

the airflow outlet has the function of ejecting accelerated airflow in the outer ring airflow channel; the air outside the outer ring airflow channel assembly is attracted by the accelerated airflow jetted from the airflow outlet, mixed and jetted, and accordingly larger airflow is generated;

the airflow outlet is arranged on the inner wall or the outer wall of the outer ring airflow channel and at least partially extends around the outer ring airflow channel, the cross section of the airflow outlet is in at least one structural shape of a straight bar shape, an arc shape, a curved shape, a special shape, a polygon and the like, the utility model discloses the preferred airflow outlet is arranged on the inner wall or the outer wall of the outer ring airflow channel, part of the airflow outlet extends around the airflow channel, and the cross section is approximately in an arc shape;

the airflow outlet is arranged in a structure with an air amplifier principle, a small amount of compressed air is used as a power source to drive surrounding air to flow to form high-pressure and high-speed airflow, and the downward blowing airflow is 2-57 times of the airflow consumption of the airflow outlet; the utility model discloses the preferred air flow that blows off downwards is about 5 times to 27 times of the gas consumption of air outlet;

the airflow outlet is provided with at least one airflow outlet, the utility model preferably has 2 airflow outlets, namely an airflow outlet I and an airflow outlet II; preferably, the first airflow outlet and the second airflow outlet have the function of ejecting airflow simultaneously or only a single airflow outlet ejects airflow; when only one airflow outlet ejects airflow, the airflow is sprayed in a centralized mode, the spraying distance is long, and the range is small; when the first airflow outlet and the second airflow outlet are simultaneously sprayed, the airflow is sprayed in a diffusion mode, the spraying distance is short, and the range is large;

the minimum cross section opening size of the airflow outlet is in the range of 0.5mm to 27mm in width, the minimum cross section opening size of the first preferable airflow outlet of the utility model is about 1.3mm in width, and the minimum cross section opening size of the second preferable airflow outlet of the utility model is about 5mm in width;

the airflow outlet transmission device is arranged inside the outer ring airflow channel assembly and at least consists of a motor and a transmission structural part, and the transmission structural part at least partially extends around the outer ring airflow channel; the utility model discloses the preferred air current outlet transmission's motor and transmission structure spare are arranged 2 in quantity;

the airflow outlet transmission device has the function of closing and opening the airflow outlet I or the airflow outlet II;

the airflow outlet transmission device enables the airflow outlet I or the airflow outlet II to have the opening and closing functions through the movement of the motor and the transmission structural part;

the airflow outlet transmission device has the function of guiding the accelerated airflow in the outer ring airflow channel to the airflow outlet I or the airflow outlet II or simultaneously guiding the accelerated airflow to the airflow outlet I and the airflow outlet II;

preferably, the airflow outlet nozzle assembly has the function of enabling the accelerated airflow in the outer ring airflow channel to be annularly ejected according to a certain angle, and has the function of guiding the external air;

the airflow outlet nozzle assembly is arranged on the surface of the airflow outlet or the outer ring airflow channel assembly shell; the gas flow outlet nozzle assembly comprises:

the nozzle plate is provided with a bevel nozzle plate which enables air flow to perform annular injection at a certain angle;

an inclined plane structure on the upper part of the inclined plane nozzle plate;

the lower part of the inclined nozzle plate is provided with a guide surface structure with a coanda effect;

the number of the inclined nozzle plates is between 1 and 2770, the airflow is divided into 1 to 2770 strands, and the divided airflow is sprayed to the guide surface structure with the coanda effect at the lower part of the inclined nozzle plates; the utility model discloses the preferred inclined plane nozzle plate quantity is 57, cuts apart the air current into 57 strands;

the inclined nozzle plate forms an included angle with a line R-R of a substantially horizontal plane of the bladeless fan lamp, the included angle has an angle range of 0-90 degrees, and when the included angle is 30-60 degrees, the inclined nozzle plate enables at least a part of accelerated airflow to be ejected out in an inclined angle and drives surrounding air to form annular rotating airflow; the utility model has the advantages that the preferred spraying angle is 45 degrees;

the size of the bevel nozzle plate ranges from 0.5mm to 50mm in height, and ranges from 0.2mm to 10mm in width and ranges from 1mm to 77mm in length; the cross section minimum dimension of the inclined plane nozzle plate is preferably 1.2mm high, 1mm wide and 17mm long;

the inclined plane structure is arranged to be a plane or cambered surface structure with a certain inclination angle, the structure is a structure with an air amplifier principle, and the structure is provided with a guide surface structure which can guide air outside the bladeless fan lamp assembly to the air outlet, mix with accelerated air ejected from the air outlet and blow to the lower part of the inclined plane nozzle plate;

the guide surface structure is arranged as a planar or cambered surface structure with a certain inclination angle; the guide surface structure is a structure with a coanda effect principle; at least part of accelerated airflow jetted by the airflow outlet is blown out after being guided by the guide surface structure;

the guide surface structure comprises at least a part of the outer surface of the outer ring airflow channel or a part of the outer surface of the outer ring illumination light source;

the air flow outlet nozzle assembly is arranged to have an air amplifier principle structure with coanda effect, a small amount of compressed air is used as a power source to drive the ambient air of the bladeless fan to flow to form high-pressure and high-speed air flow, and the air flow quantity blown out from the lower part of the bladeless fan lamp is 2 to 57 times of the air flow outlet air consumption quantity;

preferably, the airflow outlet nozzle assembly is arranged in a structure with a cyclone acceleration principle, inclined accelerated airflow is sprayed by the inclined nozzle plate to rotate the airflow in a ring shape, so that the cyclone acceleration principle similar to tornado is generated, and the sprayed accelerated airflow is more energy and power, so that more air around the bladeless fan lamp is driven to blow downwards to generate larger air volume;

preferably, the heat insulation layer structure is arranged between the outer ring airflow channel and the outer ring illumination light source, and has the function of blocking the temperature inside the outer ring airflow channel, so that at least part of the temperature is not transmitted to the outer ring illumination light source;

the material of the lighting source is easy to age under the environment with higher temperature, so that the service life is influenced, and the heat insulation layer structure has the function of protecting the lighting source;

the heat insulation layer structure is composed of at least one material or structure of heat insulation materials, a middle vacuum structure and the like, and the optimal heat insulation layer structure of the utility model is composed of both the heat insulation materials and the middle vacuum structure;

the heat insulation material is made of materials in the prior art, such as porous materials, heat reflection materials, vacuum materials and the like;

the middle vacuum structure is an existing heat insulation technology, the cross section of the middle vacuum structure is an annular hollow structure, and air in the middle space of the structure is extracted to form an approximately vacuum state;

the middle vacuum structure extends at least partially around the outer ring airflow channel;

the outer ring illumination light source is arranged on the heat insulation layer structure and at least partially extends around the outer ring airflow channel;

the outer ring illumination light source consists of an illumination shell and a light source;

the lighting shell has the functions of protecting and shielding the light source and the circuit board element inside the lighting shell;

the illumination shell can be round, square, oval, polygonal, annular, special-shaped, strip-shaped annular, strip-shaped oval, strip-shaped special-shaped, flat-shaped annular and the like according to the product requirement, and the illumination shell is made of a fully transparent or semitransparent material, so that the illumination shell is preferably of an annular round structure and made of a semitransparent material;

the light source is inside the illumination housing;

the light source is the prior lighting technology and is composed of at least one material or light source of a Light Emitting Diode (LED), a fluorescent lamp, a semiconductor fluorescent lamp, an energy-saving lamp and the like; the utility model discloses preferred light source comprises emitting diode (LED);

the illumination light source at the bottom of the shell can be controlled to be on or off by the intelligent control module;

preferably, the secondary air heater assembly is an existing air heating technology and is arranged in the middle air outlet channel or the outer ring airflow channel assembly, the utility model discloses the secondary air heater assembly is preferably arranged in the inner space of the middle air outlet channel, and at least one part extends around the middle air outlet channel;

the secondary air heater component consists of a heating body (a metal body, a heat conductor, a heating tube or other heating materials without limitation) and a lead connecting wire;

the heating body of the secondary air heater assembly is at least partially positioned inside the middle air outlet channel or the outer ring airflow channel assembly and is partially contacted with airflow in the middle air outlet channel or the outer ring airflow channel assembly;

the secondary air heater assembly heats the air contacting with the secondary air heater assembly to the temperature ranging from 5 degrees to 220 degrees, and the temperature of the air flow blown to the human body after the accelerated air flow blown out from the air flow outlet is mixed with the external air is not more than 65 degrees;

the utility model discloses preferably, the air current temperature that blows off after the air current that has heated through secondary air heater subassembly and outside air mix is no longer than 55 degrees.

Drawings

Embodiments of the invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a top view of a bladeless fan lamp;

FIG. 2 is a front view of a bladeless fan lamp;

FIG. 3 is a bottom view of a bladeless fan lamp;

FIG. 4 is a right side cross-sectional view taken along line A-A of FIG. 2;

FIG. 5 is an underside cross-sectional view taken along line B-B in FIG. 2;

FIG. 6 is a right side cross-sectional view taken along line C-C of FIG. 3;

FIG. 7 is a right side cross-sectional view taken along line D-D in FIG. 3;

FIG. 8 is a left side cross-sectional view taken along line E-E in FIG. 3;

fig. 9 is a close-up view of the internal structure of the region H shown in fig. 8;

fig. 1 to 9 wherein the line R-R is the line of the substantially horizontal plane of the bladeless fan lamp.

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail below with reference to the accompanying drawings in the embodiments of the present invention, and the described embodiments are only some embodiments, not all embodiments, of the present invention;

FIG. 1 illustrates a top view of a bladeless fan lamp showing a top outer housing of a base assembly, a middle outlet channel, and an outer ring airflow channel assembly, comprising:

a fixing bracket 1001 for fixing the bladeless fan lamp to a ceiling or a ceiling cement panel;

a susceptor assembly upper housing 1002 for protecting and fixing the susceptor assembly inner unit;

a middle air outlet channel 2001 for delivering the accelerated air flow generated in the susceptor assembly to the outer ring air flow channel 3100;

FIG. 2 illustrates a front view of a bladeless fan lamp showing the side outer housing of the base assembly and outer ring airflow channel assembly, including:

a base assembly upper case 1002 and a base assembly lower case 1003 for protecting and fixing the internal unit assembly;

an air inlet cover 1004 disposed on the lower housing 1003 of the base assembly and having functions of air circulation, insect prevention, replaceable washing, etc., wherein the air inlet cover 1004 is composed of at least one air inlet, and the air flow inside the base assembly is mostly entered from the air inlet cover 1004;

an outer-ring airflow channel 3100 for receiving and circulating an accelerated airflow generated in the susceptor assembly;

an outer ring illumination source 3200 for generating artificial illumination; a user sends a control signal to the intelligent control module 1010 through control equipment or a device, and the intelligent control module 1010 controls and adjusts the on, off, brightness and color temperature of the outer ring illumination light source 3200 to adjust and control the light source of the bladeless fan lamp assembly;

FIG. 3 illustrates a bottom view of the bladeless fan lamp showing the bottom outer housing of the base assembly, the intermediate air outlet channel, and the outer ring air flow channel assembly, including:

a housing bottom illumination source 1005 for producing artificial illumination; a user sends a control signal to the intelligent control module 1010 through control equipment or a device, and the intelligent control module 1010 controls and adjusts the on, off, brightness and color temperature of the illumination light source 100 at the bottom of the shell so as to adjust and control the light source of the bladeless fan lamp assembly;

a speaker 1006 for activating a buzzer alarm when music and fire are played; a user sends a control signal to the intelligent control module 1010 through a control device or a device, and the intelligent control module 1010 controls the signal output of the intelligent sound box hardware module 1011 and the volume of the loudspeaker 1006, so as to realize the adjustment control of the volume of the bladeless fan lamp;

FIG. 4 shows a right side cross-sectional view taken along line A-A of FIG. 2, showing a cross-section of a fixture, a base assembly, an intermediate air outlet channel, and an outer ring air flow channel assembly of a bladeless fan lamp, including:

a hardware unit fixing frame 1007 disposed in the base assembly upper case 1002 for fixing each unit hardware module;

the step-down and rectifier bridge power module 1008 is used for converting the AC220V alternating current into the direct current within the DC120V or DC120V, and transmitting the converted direct current to the DC-DC power module 1009;

a DC-DC power supply module 1009, configured to provide short circuit, overload, overvoltage, undervoltage, and overcurrent protection for the electrical equipment units, and transmit the direct current to the intelligent control module and each electrical equipment unit;

the intelligent control module 1010 is used for implementing and controlling each power utilization unit and has the functions of data acquisition, data analysis, data transmission, data storage and the like;

the intelligent sound box hardware module 1011 is used for implementing control of the sound box assembly and has the functions of audio output, data transmission, data storage, smoke detection main control chip 1012 signal receiving, intelligent control module 1010 signal receiving, signal transmission to the loudspeaker 1006 and the like;

the smoke detection main control chip module 1012 is used for receiving the signal change of the smoke sampling sensing device 1013, judging the signal change amount to determine whether a fire alarm occurs or not, and transmitting the signal to the intelligent sound box hardware module 1011;

a smoke sampling sensing device 1013 for sensing the smoke concentration in the air and sending the signal to the smoke detection main control chip module 1012;

the detachable structure 1100 is used for detaching and assembling the upper housing 1002 and the lower housing 1003 of the base assembly so as to facilitate the replacement and maintenance of the internal units of the base assembly;

the air purifier component is used for purifying air, filtering air and generating negative ions, and comprises an air negative ion generator 1014, a negative ion discharge needle 1015, a catalyst 1016, an HEPA high-efficiency material 1017 and the like, wherein the air negative ion generator 1014 and the negative ion discharge needle 1015 are in the prior art, and the negative ion components in the air are increased by utilizing high-voltage corona, so that the air quality is improved, and the health of a human body can be promoted; the catalyst 1016 is prior art for oxidative decomposition of volatile organic compounds such as: decomposing formaldehyde; the HEPA high-efficiency material 1017 is mainly used for trapping particle dust and various suspended matters above 0.5um in the prior art;

a primary air heater assembly 1018 for heating the airflow within the base assembly, the airflow entering by the intake hood 1004 and the air cleaner assembly being heated by the primary air heater assembly 1018; a user sends a control signal to the intelligent control module 1010 through a control device or device, and the intelligent control module 1010 controls and adjusts the temperature of the primary air heater assembly 2002, so that adjustment and control of the outlet air temperature of the bladeless fan lamp are achieved;

the noise reduction and sound insulation device 1019 is used for noise reduction and sound insulation, at least part of noise is blocked in the base component, and the sound generated by the motor can be heard outside within 70 decibels, the noise reduction and sound insulation device is arranged around the double-power turbine component and used for blocking the impeller blade 1021, the impeller motor 1022, the curved turbine blade 1024 and the turbine motor 1025, and the sound generated during operation achieves the purpose of noise reduction;

double dynamical turbine subassembly for producing the accelerated air current that has pressure, adopt aircraft turbine engine principle and automobile turbine principle, utilize two sets of motors to drive two sets of turbine blades and produce the accelerated air current that has pressure, make the air outlet more have the airflow, thereby make bladeless fan lamp have bigger wind-force, double dynamical turbine subassembly includes:

the turbine air inlet channel 1020 is used as an air inlet channel of air flow and is divided into an air inlet and an air outlet, the air inlet is positioned at the front end of the impeller blade 1021, the air outlet is positioned behind the air outlet of the curved turbine blade 1024, and air flow enters from the air inlet, is compressed and accelerated by the impeller blade 1021 and the curved turbine blade 1024 and then is conveyed to the middle air outlet channel 2001 from the air outlet;

the impeller blade 1021 is used for transmitting, compressing and accelerating air flow, consists of a plurality of curved inclined blades, and can continuously compress and accelerate more air to be transmitted into the curved turbine blade 1024 after operation so as to generate larger air inflow;

the impeller motor 1022 is a DC brushless motor between DC5V and DC120V, and has a function of providing power transmission operation for the impeller blade 1021; a user sends a control signal to the intelligent control module 1010 through control equipment or a device, and the intelligent control module 1010 controls and adjusts the rotating speed of the impeller motor 1022 to realize adjustment and control of the air quantity of the air outlet of the bladeless fan lamp;

a fixture frame 1023 disposed in the turbine intake passage 1020 for fixing the impeller blades and the impeller motor;

curved turbine blades 1024, which are used to transmit, compress and accelerate the air flow, are composed of a plurality of curved inclined blades, and continuously compress and accelerate the air to be transmitted into the middle air outlet passage 2001 after operation;

the turbo motor 1025 is a direct current brushless motor between DC5V and DC120V, and has the function of providing power transmission operation for the curved turbine blades 1024; a user sends a control signal to the intelligent control module 1010 through control equipment or a control device, and the intelligent control module 1010 controls and adjusts the rotating speed of the turbine motor 1025 so as to realize adjustment and control of the air quantity of the air outlet of the bladeless fan lamp;

a turbine motor mount 1026; for fixing the turbine motor;

a housing bottom illumination source 1005 for producing artificial illumination; a user sends a control signal to the intelligent control module 1010 through control equipment or a device, and the intelligent control module 1010 controls and adjusts the on/off, the brightness and the color temperature of the illumination light source 1005 at the bottom of the shell so as to adjust and control the light source of the bladeless fan lamp assembly;

the speaker 1006, the user sends a control signal to the intelligent control module 1010 through a control device or apparatus, and the intelligent control module 1010 controls the signal output of the intelligent sound box hardware module 1011 and the volume of the speaker 1006, so as to adjust and control the volume of the bladeless fan lamp;

a secondary air heater assembly 2002 mounted on the intermediate air outlet passage 2001 for heating the air flow in the intermediate air outlet passage 2001; a user sends a control signal to the intelligent control module 1010 through a control device or a device, and the intelligent control module 1010 controls and adjusts the temperature of the secondary air heater assembly 2002, so that the adjustment and control of the air outlet temperature of the bladeless fan lamp are realized;

the outer ring airflow channel 3100 is used for receiving the accelerated airflow generated in the base assembly, circulating the accelerated airflow and conveying the accelerated airflow to the airflow outlet I3501 and the airflow outlet II 3502;

the heat insulation layer structure 3300 is used for blocking the temperature of the outer ring airflow channel 3100, at least partial temperature is not transmitted to the outer ring illumination light source 3200, and the outer ring illumination light source 3200 is not influenced by the temperature of the airflow in the outer ring airflow channel 3100;

FIG. 5 is a lower cross-sectional view taken along line B-B of FIG. 2, illustrating a cross-section of the base assembly, the intermediate air outlet channel, and the outer ring air flow channel assembly of the bladeless fan lamp, including:

the outer ring airflow channel 3100 is used for receiving the accelerated airflow generated in the base assembly, circulating the accelerated airflow and conveying the circulated accelerated airflow to the first airflow outlet 3501 and the second airflow outlet 3502;

the airflow outlet transmission device consists of a motor 3401 and a transmission structure 3402, and enables an airflow outlet II 3502 to have a closing or opening function through the movement of the motor 3401 and the transmission structure 3402; the accelerated flow in the outer perimeter flow channel 3100 is directed through the transmission 3402, having the effect of delivering to both the first air flow outlet 3501 and the second air flow outlet 3502, or to the first air flow outlet 3501 alone; a user sends a control signal to the intelligent control module 1010 through a control device or a device, the intelligent control module 1010 controls and adjusts the forward and reverse rotation direction of the motor 3401 and drives the transmission structural member 3402 to move, so that the adjustment control of the air outlet mode of the bladeless fan lamp air outlet is realized;

FIG. 6 is a right side cross-sectional view taken along line C-C of FIG. 3, illustrating a cross-section of a center outlet channel of the bladeless fan lamp, including:

a secondary air heater assembly 2002 disposed on the intermediate air outlet passage 2001 for heating the air flow within the intermediate air outlet passage 2001; a user sends a control signal to the intelligent control module 1010 through a control device or a device, and the intelligent control module 1010 controls and adjusts the temperature of the secondary air heater assembly 2002, so that the adjustment and control of the air outlet temperature of the bladeless fan lamp are realized;

fig. 7-9 illustrate a cross-section of an outer ring airflow passage assembly, an outer housing surface, and an airflow outlet nozzle assembly of a bladeless fan lamp, including:

the outer ring airflow channel 3100 includes: a right outer surface 3101, a top side outer surface 3102, a left guide surface structure 3104, a top side inclined surface structure 3103, etc. of the outer ring airflow channel 3100;

an airflow outlet for ejecting the accelerated airflow in the outer-ring airflow channel 3100; the air outside the outer ring airflow channel assembly is attracted by the accelerated airflow jetted from the airflow outlet, mixed and jetted, and accordingly larger airflow is generated;

the airflow outlet includes: a first air flow outlet 3501 and a second air flow outlet 3502;

the airflow outlet nozzle assembly is used for enabling the accelerated airflow in the outer ring airflow channel 3100 to be annularly ejected according to a certain angle and has the function of guiding the external air;

the gas flow outlet nozzle assembly comprises:

a bevel nozzle plate 3601 capable of leading the accelerated airflow to carry out annular injection according to a certain angle,

An inclined surface structure 3103 on the upper part of the inclined nozzle plate 3601,

The lower portion of the beveled nozzle plate 3601 has a coanda effect guide surface structure 3104,

the lower portion of the gas flow outlet two 3502 has a coanda effect guide surface structure 3105,

the inclined nozzle plate 3601 forms an included angle Y with a line R-R of a substantially horizontal plane of the bladeless fan lamp, the included angle Y has an angle range of 0-90 degrees, and when the included angle is 30-60 degrees, the inclined nozzle plate 3601 enables at least a part of accelerated airflow to be ejected at an inclined angle and drives surrounding air to form annular airflow; the angle Y of the preferred included angle of the utility model is 45 degrees;

the inclined surface structure 3103 is arranged as a plane or arc surface structure having a certain inclination angle, which is a structure having the air amplifier principle, and has a guide surface structure 3104 or guide surface structure 3105 that guides the air outside the bladeless fan lamp toward the air flow outlet one 3501 or the air flow outlet two 3502 or both, and mixes with the accelerated air flow ejected from the air flow outlet one 3501 or the air flow outlet two 3502 or both, and blows the mixture toward the lower part of the inclined nozzle plate 3601;

the guide surface structure 3104 and the guide surface structure 3105 are arranged as a plane or arc surface structure having a certain inclination angle, which is a structure having the principle of the coanda effect;

the air outlet nozzle assembly is arranged to have a coanda effect air amplifier principle structure, a small amount of compressed air is used as a power source to drive surrounding air to flow to form high-pressure and high-speed air flow, and the air flow blown downwards is 2 to 57 times of the air consumption of the air outlet, so that the preferred air flow blown downwards is about 2 to 27 times of the air consumption of the air outlet I3501 and the air outlet II 3502;

the airflow outlet nozzle assembly is arranged in a structure with a cyclone acceleration principle, inclined acceleration airflow is sprayed by the inclined nozzle plate 3601 to enable the airflow to generate annular rotation, and therefore the cyclone acceleration principle similar to tornado is generated, the sprayed acceleration airflow is more energy and power, and more air around the bladeless fan lamp is driven to blow downwards to generate larger air volume;

the insulation layer structure 3300 includes: a middle vacuum structure 3301 and a heat insulation material 3302;

the heat insulation material 3302 is made of materials in the prior art such as porous materials, heat reflection materials, vacuum materials and the like;

the middle vacuum structure 3301 is a prior art heat insulation technology, and air in the middle space of the structure is extracted to form an approximately vacuum state;

the outer ring illumination light source 3200 includes: light source 3201 and illumination housing

The light source 3201 is a conventional lighting technology, and is composed of at least one material or light source of a Light Emitting Diode (LED), a fluorescent lamp, a semiconductor fluorescent lamp, an energy saving lamp, and the like; the preferred light source 3201 of the present invention is composed of Light Emitting Diodes (LEDs);

the illumination housing includes: a right side illumination housing surface 3202, a bottom side illumination housing surface 3203, and a left side illumination housing surface 3204;

the illumination shell is made of a fully transparent or semitransparent material, and the illumination shell is preferably made of the semitransparent material;

a bladeless fan lamp substantially as hereinbefore described with reference to the accompanying drawings of figures 1 to 9;

the above embodiments are not intended to limit the scope of the present invention, and those skilled in the art can modify and change equally without departing from the overall concept of the present invention, which is intended to be covered by the present invention.

Claims

1. A bladeless fan lamp, comprising:

a base assembly;

a middle air outlet channel;

an outer ring airflow channel;

an airflow outlet;

an illumination light source;

the base component has the functions of protecting internal components, blocking internal noise transmission, fixing the whole structure, facilitating assembly and disassembly, providing air circulation, generating compressed accelerated airflow and controlling each unit component; the base assembly comprises; the device comprises a base shell, an intelligent control module, an air inlet cover, a turbine air inlet channel, a motor, a curved turbine blade and a noise reduction and sound insulation device;

the base shell is used for protecting and fixing the internal unit element of the base assembly;

the intelligent control module is used for controlling each power utilization unit and has at least one of the functions of data acquisition, data analysis, data transmission, data storage and the like;

the air inlet hood is arranged at the upper part of the base shell and has the function of circulating air, the air inlet hood at least consists of an air inlet, and at least part of air flow in the base component enters from the air inlet hood;

the turbine air inlet channel is used as an air inlet channel of air flow, has the function of conveying accelerated air flow, and is divided into an air inlet and an air outlet, and the air flow enters from the air inlet, is compressed and accelerated by the curved turbine blades and then is conveyed to the middle air outlet channel from the air outlet;

the motor is arranged in the turbine air inlet channel and has the function of providing power transmission for the curved turbine blade;

the curved turbine blades are arranged in the turbine air inlet channel, have the functions of transmitting, compressing and accelerating air flow, consist of a plurality of curved inclined blades, and can continuously compress and accelerate the air to be transmitted into the middle air outlet channel after operation;

the noise reduction and sound insulation device has the function of blocking noise transmission in the base component, at least partial noise is blocked in the base component, and the sound generated by the motor can be heard outside no more than 70 decibels;

the noise reduction and sound insulation device is at least partially arranged around the turbine air inlet channel, the motor and the curved turbine blade assembly, and can block the sound generated by the motor and the curved turbine blade during operation to achieve the purpose of reducing the noise, and the noise reduction and sound insulation device can at least isolate the noise within the range of 1-87 decibels;

the height difference between the lower bottom surface of the base component and the lower bottom surface of the outer ring airflow channel is in the range of 0mm to 270 mm;

the side surface or the bottom surface of the base assembly is connected with the middle air outlet channel, and the turbine air inlet channel in the base assembly is communicated with the middle air outlet channel;

the base component has a fixing function for at least one of the lighting source, the smoke monitoring alarm, the intelligent sound box component, the heating component, the air purifier component and the like;

the middle air outlet channel is a communication channel between the base assembly and the outer ring air flow channel and has the function of transmitting and accelerating air flow; the middle air outlet channel conveys accelerated airflow generated in the base assembly to an outer ring airflow channel positioned on the outer ring of the bladeless fan lamp;

the middle air outlet channel is connected with the side surface or the bottom surface of the lower shell of the base component;

the middle air outlet channel has the functions of fixing, supporting or supporting the outer ring air flow channel and the outer ring lighting source;

the number of the intermediate air outlet channels ranges from 1 to 17;

the outer ring airflow channel is communicated with the middle air outlet channel and the airflow outlet, and conveys airflow in the outer ring airflow channel to the airflow outlet;

the outer ring airflow channel has the function of enabling airflow to flow in the anticlockwise direction or the clockwise direction;

the outer ring air flow channel has a fixing function for an outer ring lighting source;

the outer ring airflow channel has an outer wall and an inner wall;

the outer wall or the inner wall of the outer ring airflow channel has the function of guiding the external air of the bladeless fan lamp to the airflow outlet;

the minimum cross-sectional dimension of the inner wall of the outer ring airflow channel ranges from 3mm to 270mm in width and height;

the minimum cross-sectional dimension of the outer wall of the outer ring airflow channel ranges from 7mm to 277mm in width and height;

the airflow outlet has the function of ejecting accelerated airflow in the outer ring airflow channel; the external air of the bladeless fan lamp is sucked by the accelerated airflow jetted from the airflow outlet, mixed and jetted, and accordingly larger airflow is generated;

the airflow outlets are communicated with the outer ring airflow channel, the number of the airflow outlets comprises at least 1 air outlet, and the minimum cross-sectional opening size of the airflow outlets is in the range of 0.5mm to 25mm in width;

the airflow outlet has the function of enabling airflow to be annularly sprayed;

the airflow outlet is arranged on the inner wall or the outer wall of the outer ring airflow channel and at least partially extends around the outer ring airflow channel, the cross section of the airflow outlet is in at least one structural shape of arc, polygon and the like,

the airflow outlet is arranged in a structure with an air amplifier principle, a small amount of compressed air is used as a power source to drive surrounding air to flow to form high-pressure and high-speed airflow, and the downward blowing airflow is in a range of 2-57 times of the airflow consumption of the airflow outlet;

the illumination light source includes: the shell bottom lighting source or the outer ring lighting source or both have the function of generating artificial lighting;

the illumination light source consists of an illumination shell and a light source;

the lighting shell has the function of protecting and shielding the light source or the circuit board element inside the lighting shell;

the illumination shell is made of a fully transparent or semitransparent material;

the light source is arranged in the lighting shell and is composed of at least one material or light source of a Light Emitting Diode (LED), a fluorescent lamp, a semiconductor fluorescent lamp, an energy-saving lamp and the like;

the lighting source comprises at least 1 lighting source arranged on the structure of the outer ring airflow channel;

the outer ring illumination source extends at least partially around the outer ring airflow channel and has a minimum cross-sectional dimension in the range of 5mm to 300mm in width and height;

the bladeless fan lamp is characterized in that at least 1 electric unit element is provided with at least one control device or device which can be controlled by a manual switch, a smart phone, a remote controller, a computer, a smart watch, a smart voice device, a plug and the like, and the intelligent hardware module can be controlled, and at least 1 electric unit element in the bladeless fan lamp is controlled by at least one control mode of manual control, automatic control, intelligent control, remote control and the like;

the space between the base component and the outer ring airflow channel of the bladeless fan lamp and the upper part and the lower part of the space between the base component and the outer ring airflow channel are hollow structures which can allow airflow to flow up and down except the space occupied by the middle air outlet channel;

the bladeless fan lamp is provided with a device capable of providing illumination and generating air flow simultaneously.

2. The bladeless fan lamp of claim 1, wherein the base housing is of a large upper and small lower approximately cylindrical or elliptical cylindrical configuration, or of an approximately cylindrical or elliptical cylindrical configuration;

the base housing cross-sectional diameter dimension is in the range of 50mm to 470mm wide and the base housing height dimension is in the range of 70mm to 700mm high;

the base component shell consists of a base component upper shell and a base component lower shell;

the base component shell is provided with a detachable structure which is convenient for maintaining and replacing the internal unit element, and the detachable structure is positioned at the connecting part of the upper shell and the lower shell;

at least one of a voltage reduction and rectification bridge power supply module, a DC-DC power supply module, an intelligent control module, an intelligent sound box hardware module, a smoke detection main control chip module and the like is arranged in the upper shell of the base component;

at least one of a smoke sampling induction device, an air purifier component, a heating component, a noise reduction and sound insulation device, a motor, a curved turbine blade, an air inlet channel and the like is arranged in the lower shell of the base component;

the air inlet cover is a detachable device, is arranged at the upper part of the lower shell of the base assembly, is an air inlet device of airflow, has the function of fixing the upper shell and the lower shell of the base assembly, and consists of a detachable structure and an arc-shaped surface structure, wherein the arc-shaped surface structure is provided with an air inlet hole for air circulation, and the air inlet hole at least consists of 1 vent through which the airflow can pass, has an insect prevention function, and has a replaceable unpicking and washing function;

the number of the air inlet hoods is between 1 and 10, and the cross-sectional structure size is between the width of 107mm and 470mm and the height of 10mm and 470 mm.

3. The bladeless fan lamp in claim 1, wherein the minimum cross-sectional dimension of the inner wall of the middle air outlet channel is in a range of 3mm to 270mm in width and height;

the minimum cross-sectional dimension of the outer wall of the middle air outlet channel ranges from 7mm to 277mm in width and height;

the middle air outlet channel extends for a length with a length dimension ranging from 20mm to 670 mm;

the middle air outlet channel has the function of enabling the accelerated airflow to flow in the outer ring air flow channel in the anticlockwise or clockwise direction;

the extension surface structure of the inner wall and the outer wall of the middle air outlet channel has at least one structure of a circle, an ellipse, an arc, a polygon and the like;

the connecting structure of the middle air outlet channel and the inner wall of the base is of at least one structure of a circle, an ellipse, a polygon, an arc and the like.

4. The bladeless fan lamp according to claim 1, wherein at least a part of the outer wall or the inner wall of the outer-ring air flow passage is arranged in an inclined surface structure which is arranged in a plane or a curved surface having a certain inclination angle, the inclined surface structure has a structure of an air amplifier principle having a guide surface structure which guides the external air of the bladeless fan lamp toward the air flow outlet and blows toward the lower portion of the inclined nozzle plate after being mixed with the accelerated air flow ejected from the air flow outlet;

the guide surface structure is arranged as a plane or arc structure with a certain inclination angle, and is arranged as a structure with the coanda effect principle;

the connection structure of the outer ring airflow channel and the inner wall of the middle air outlet channel has at least one structure of a circle, an ellipse, a polygon, an arc and the like.

5. The bladeless fan lamp of claim 1 or 4, wherein a thermal insulation layer structure is provided between the outer-ring airflow channel and the outer-ring illumination light source;

the heat insulation layer structure has the function of isolating the temperature in the outer ring airflow channel, so that at least part of the temperature is not transmitted to the outer ring illumination light source;

the heat insulation layer structure is made of at least one material or structure of heat insulation materials, a middle part vacuum structure and the like, and at least part of the structure extends around the outer ring airflow channel;

the height dimension of the cross section of the heat insulation layer structure ranges from 1mm to 270mm, and the width dimension ranges from 7mm to 277 mm;

the outer ring illumination source is disposed on the insulation layer structure and extends at least partially around the outer ring airflow channel.

6. The bladeless fan lamp of claim 1, wherein a dual power turbine assembly is disposed in the base assembly;

the dual power turbine assembly having the effect of enhancing the pressure and velocity of the accelerating airflow in the bladeless fan lamp, the dual power turbine assembly comprising:

a turbine inlet passage;

impeller blades;

an impeller motor;

a fixing device frame;

a curved turbine blade;

a turbine motor;

a turbo motor mount;

the minimum cross-sectional dimension of the turbine air inlet channel is in the range of 20mm to 270mm in width and 20mm to 570mm in height;

the dual power turbine assembly is disposed inside the base assembly.

7. The bladeless fan lamp of claim 1, wherein a smart sound box assembly is disposed in the base assembly,

the intelligent sound box assembly has a sound box playing function and a smoke monitoring and alarming function; the smart sound box assembly comprises:

the intelligent sound box hardware module;

a smoke detection main control chip module;

a smoke sampling sensing device;

a speaker;

the intelligent sound box hardware module is composed of a circuit board and an electronic element and has at least one of the functions of audio output, data transmission, data analysis and data storage, receiving a smoke detection main control chip signal, receiving an intelligent control module signal, sending a signal to a loudspeaker and the like;

at least part of the structure of the smoke sampling sensing device is contacted with unfiltered air, so that the smoke sampling sensing device has the functions of sensing the smoke concentration of the air and sending a signal to the smoke detection main control chip module;

the smoke sampling induction device is composed of at least one of an infrared transmitting tube, a receiving photoelectric tube, a lead and the like;

the loudspeaker has the functions of receiving the signal of the intelligent sound box hardware module and converting the electric signal into an acoustic signal;

the loudspeaker plays music and starts a buzzing alarm in case of fire;

at least one of the intelligent sound box hardware module, the smoke detection main control chip module, the smoke sampling induction device, the loudspeaker and the like is arranged in the base component.

8. The bladeless fan lamp of claim 1, wherein an air purifier assembly is disposed in the base assembly, and an air heater assembly is disposed in the intermediate air outlet channel;

the air purifier component has the functions of filtering air in the bladeless fan lamp and purifying negative ions; the air heater assembly has the function of heating air in the bladeless fan lamp;

the air purifier assembly is disposed within the base assembly and extends at least partially around a space within the base assembly;

the air purifier component comprises a negative ion generator and at least one of active carbon, synthetic fiber, HEPA high-efficiency material, catalyst and the like;

the air heater assembly is arranged on the inner wall or the outer wall of the middle air outlet channel, and at least one part of the air heater assembly extends around the middle air outlet channel;

the air heater assembly is at least partially positioned in the middle air outlet channel and at least partially contacted with the air in the middle air outlet channel;

the air heater assembly heats the air entering the middle air outlet channel to the temperature in the range of 5-200 degrees, and the temperature of the air flow blown to the human body after the accelerated air flow blown out from the air flow outlet of the bladeless fan lamp is mixed with the external air is not more than 65 degrees;

the air heater assembly comprises at least one heating body;

the air heater assembly and the air purifier assembly have the function of heating after purifying and filtering air in the bladeless fan lamp.

9. A peripheral air flow channel assembly for a bladeless fan lamp according to claim 1 or 4, wherein the peripheral air flow channel assembly has two air outlets, the two air outlets having the function of being able to emit air flows simultaneously under actuator control or of only a single outlet under actuator control, the peripheral air flow channel assembly comprising;

an outer ring airflow channel;

a first airflow outlet;

an airflow outlet II;

an airflow outlet transmission;

the first airflow outlet has the function of ejecting accelerated airflow in the outer-ring airflow channel, and air outside the outer-ring airflow channel assembly is sucked and mixed by the accelerated airflow ejected by the first airflow outlet and then ejected, so that larger airflow is generated;

the first airflow outlet is provided with at least one airflow outlet, and the minimum cross-section opening size of the airflow outlet is in the range of 0.5mm to 27mm in width;

the air flow outlet II has the function of ejecting accelerated air flow in the outer ring air flow channel, and air outside the outer ring air flow channel assembly is sucked by high-speed air flow ejected from the air flow outlet II, mixed and ejected, so that larger air flow is generated;

the second airflow outlet is provided with at least one airflow outlet, and the minimum cross section opening size of the airflow outlet is in the range of 0.5mm to 27mm in width;

the first airflow outlet and the second airflow outlet have the functions of simultaneously ejecting airflow or ejecting airflow only through a single airflow outlet;

the airflow outlet transmission device is arranged inside the outer ring airflow channel, at least consists of one motor, and the formed structural part at least partially extends around the outer ring airflow channel;

the airflow outlet transmission device has the function of closing or opening the airflow outlet I or the airflow outlet II;

the airflow outlet transmission device enables the first airflow outlet or the second airflow outlet to have the opening and closing functions through the movement of the structural part.

10. An arc-shaped middle air outlet channel structure for the bladeless fan lamp according to claim 1 or 3, wherein the arc-shaped middle air outlet channel structure is arranged between the outer ring air flow channel and the base assembly and is connected with the outer ring air flow channel and the base assembly, has an arc-shaped or curved structure with an integral inner wall extending surface, and has a function of conveying accelerated air flow generated in the base assembly into the outer ring air flow channel in an arc-shaped motion manner so that the accelerated air flow in the outer ring air flow channel flows in a counterclockwise single direction or a clockwise single direction; the arc-shaped middle air outlet channel structure comprises:

an air inlet structure;

an intermediate structure;

an air outlet arrangement;

the air inlet structure is connected with the base component, and accelerated airflow in the base component enters from the air inlet structure and is then conveyed to the middle structure;

the size relationship between the air inlet structure and the middle structure is that the maximum cross section width dimension of the inner wall of the air inlet structure is larger than the minimum cross section width dimension of the inner wall of the middle structure;

the connecting structure of the inner wall of the air inlet structure and the inner wall of the base component is an arc-shaped structure;

the size relationship between the air outlet structure and the middle structure is that the maximum cross section width dimension of the inner wall of the air outlet structure is larger than the minimum cross section width dimension of the inner wall of the middle structure;

and the inner wall of the air outlet structure and the inner wall of the outer ring airflow channel are connected in an arc structure.

11. An airflow outlet nozzle assembly for a bladeless fan lamp according to claim 1 or 4, wherein the airflow outlet nozzle assembly is arranged in the outer circumferential airflow channel and has the effect of at least partially generating an annular rotation of the airflow emitted by the airflow outlet, the airflow outlet nozzle assembly comprising:

a guide surface structure of a lower portion of the inclined nozzle plate;

the number of the inclined nozzle plates is between 1 and 2770, the airflow is divided into 1 to 2770 strands, and the divided airflow is sprayed to the guide surface structure at the lower part of the inclined nozzle plates;

the inclined nozzle plate forms an included angle with a line R-R of a substantially horizontal plane of the bladeless fan lamp, the included angle has an angle range of 0-90 degrees, and when the included angle is 30-60 degrees, the inclined nozzle plate enables at least a part of accelerated airflow to be ejected out in an inclined angle and drives surrounding air to form annular rotating airflow;

the size of the bevel nozzle plate ranges from 0.5mm to 50mm in height, and ranges from 0.2mm to 10mm in width and ranges from 1mm to 77mm in length;

the inclined plane structure is arranged to be a plane or cambered surface structure with a certain inclination angle, the structure is a structure with an air amplifier principle, and the structure is provided with a guide surface structure which can guide air outside the bladeless fan lamp assembly to the air flow outlet, mix with accelerated air flow sprayed by the air flow outlet and blow to the lower part of the inclined plane nozzle plate;

the guide surface structure is arranged as a planar or cambered surface structure with a certain inclination angle; at least part of the accelerated airflow jetted out from the airflow outlet is blown out after being guided by the guide surface structure;

the guide surface structure comprises a part of the outer surface of the outer ring airflow channel or a part of the outer surface of the outer ring illumination light source;

the airflow outlet nozzle assembly is arranged to use a small amount of compressed air as a power source to drive the ambient air of the bladeless fan lamp to flow to form a high-pressure and high-speed airflow, and the airflow quantity blown out of the lower portion of the bladeless fan lamp is 2-57 times of the airflow consumption of the airflow outlet.