CN212178671U

CN212178671U - Bladeless fan lamp assembly

Info

Publication number: CN212178671U
Application number: CN202020482629.5U
Authority: CN
Inventors: 范奇林
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-06
Filing date: 2020-04-06
Publication date: 2020-12-18
Anticipated expiration: 2030-04-06

Abstract

The utility model aims to provide a bladeless fan lamp assembly, which aims to solve the defects that after the existing bladeless fan lamp is installed at the top of a ceiling of a room, parts such as an air inlet device, an internal unit element, an air filtering device and the like are difficult to replace and are difficult to disassemble, install, replace and clean; the defect that the service life of a light source is influenced by overhigh temperature after a heating component is installed in the conventional bladeless fan lamp is overcome; the defect that noise is large after the motor of the conventional bladeless fan lamp without a sound insulation structure rotates is overcome.

Description

Bladeless fan lamp assembly

Technical Field

The utility model relates to the technical field of fan lamps; and more particularly to a bladeless fan lamp assembly.

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;

taking a bladeless fan lamp with the publication number of CN108895039A and an environment-friendly cold-warm bladeless fan lamp with the publication number of CN209763005U as examples, the conventional bladeless fan lamp describes a lamp body structure for hiding blades, and the hidden blades are used to generate airflow which is ejected from an air outlet and drive the air to flow, so that part of the defects of the conventional bladeless fan lamp can be solved, but in the structure described in the conventional bladeless fan lamp, an air inlet device or an air inlet hole is arranged at the upper part of a bladeless fan lamp base or the upper part of a bladeless fan lamp main body, so that after the bladeless fan lamp is installed at the top of a ceiling of a room, the air inlet device, an internal unit element, an air filtering device and other parts are difficult to replace, and the defects of disassembly, installation and cleaning are difficult;

the structure described by the existing bladeless fan lamp is free of noise blocking parts, and the noise is high after the motor rotates, so that the physical and psychological health of people is influenced;

the heat is directly transferred to the illumination light source due to the fact that no heat insulation structure or heat insulation material is arranged between a heating component and the illumination light source of the structure described by the existing bladeless fan lamp, and the service life of the illumination light source is affected due to the characteristic that the material of the illumination light source is easy to age in a high-temperature environment.

Disclosure of Invention

The utility model aims to provide a bladeless fan lamp assembly, which aims to solve the defects that after the existing bladeless fan lamp is installed at the top of a ceiling of a room, parts such as an air inlet device, an internal unit element, an air filtering device and the like are difficult to replace and are difficult to disassemble, install, replace and clean; the defect that the service life of a light source is influenced by overhigh temperature after a heating component is installed in the conventional bladeless fan lamp is overcome; the defect that the noise is high after the motor of the conventional bladeless fan lamp without a sound insulation structure rotates is overcome;

in order to solve the above problem, the utility model provides a bladeless fan banks spare, bladeless fan banks spare includes:

a fixed mount;

a base assembly;

a middle air outlet channel;

an outer ring air outlet channel component;

an air heater assembly;

the fixing frame is arranged on the top of the base component or the upper part of the base component and is used for fixing the bladeless fan lamp component to the ceiling or the cement board of the top surface;

the upper part of the base component comprises a 1/2 part of the upper part of the integral structure of the base component;

the utility model preferably has 2 fixing frames, which are respectively a telescopic rod fixing frame and an outer structure shell fixing frame;

when the telescopic rod fixing frame is installed on the base component, the outer structure shell fixing frame is not installed; when the outer structure shell fixing frame is installed on the base component, the telescopic rod fixing frame is not installed;

the telescopic rod fixing frame has a telescopic function and can adjust the height above the ground after the bladeless fan lamp assembly is installed;

the outer structure shell fixing frame is used for reducing the height size of the outer structure of the bladeless fan lamp assembly when the bladeless fan lamp assembly is installed, and can be used for installation when the height of a room layer is high or low;

when the outer structure shell fixing frame is installed on the base component, the whole shape of the outer part of the base component is partially changed, when the outer structure shell fixing frame is installed on the base component, the whole height size of the outer shell of the base component is in the range of 50mm to 700mm, and when the outer structure shell fixing frame is installed on the base component, the whole height size of the outer shell of the base component is in the range of 150mm to 350 mm;

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 housing;

an air intake hood;

an air purifier assembly;

a turbine power assembly;

a noise reduction and sound insulation device;

an intelligent hardware module;

the base component shell is used for protecting the internal unit element structure and fixing the internal unit element structure;

preferably, the air inlet cover is arranged at the lower part of the base assembly, so that the replacement, the removal and the cleaning of the unit element and the air inlet cover in the base assembly are convenient;

the lower part of the base component comprises a part 3/4 of the lower part of the integral structure of the base component;

the air inlet cover is an air inlet device of airflow, and a detachable structure is arranged at the connecting position of the air inlet cover and the base shell;

the detachable structure has the function of detaching or installing the air inlet cover connected with the base shell;

the air inlet cover is provided with an air inlet hole which can lead air to circulate, and the air inlet hole at least comprises 1 air vent which can lead air flow to pass through; at least part of air in the base component enters from the air inlet hood and then is conveyed to the middle air outlet channel; the air inlet cover has an insect prevention function and has a replaceable, detachable and washable function; the air inlet of the air inlet cover of the utility model is preferably composed of a plurality of air inlets, and more than 90% of the air flow in the base component enters from the air inlet cover;

the air purifier assembly is arranged inside the base assembly, and the air purifier assembly comprises a base assembly and a base assembly, wherein the base assembly comprises a base and a base assembly, the base assembly comprises a base body, the base assembly comprises a base and a base seat, the base assembly comprises a base seat, the base: 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, air anion generator and anion discharge needle combination, and as the utility model discloses preferred air purifier subassembly has the function that can filter 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 preferred air purifier subassembly is arranged in base subassembly lower part;

the HEPA high-efficiency material is mainly used for trapping particle dust and various suspended matters above 0.5um in the prior art; the utility model discloses preferred air purifier subassembly is arranged around the air inlet hood;

the turbine power assembly is arranged on or around the axis of the base assembly, is provided with a device for providing accelerated airflow for the bladeless fan lamp assembly, adopts the principles of an airplane turbine engine and an automobile turbine, and utilizes a turbine motor to drive turbine blades to generate high-pressure accelerated airflow, and comprises a turbine power assembly and a turbine power assembly, wherein the turbine power assembly is arranged on or around the axis of the base assembly;

a turbine inlet passage;

a turbine motor;

a turbine blade;

the turbine air inlet channel is an air inlet channel of air flow, has the function of conveying accelerated air flow, and conveys the air flow entering from the air inlet cover to the middle air outlet channel after passing through the turbine air inlet channel;

the turbine motor is a direct-current brushless motor between DC5V and DC100V, and is a device for providing power transmission operation for the turbine blades; the utility model discloses the preferred turbine motor is DC 24V's direct current brushless motor;

the turbine blades are arranged in the turbine air inlet channel, have the functions of transmitting, compressing and accelerating air flow, at least comprise 1 blade, and can continuously compress and accelerate the air to be transmitted into the middle air outlet channel after operation; the utility model discloses preferred turbine blade comprises 7 blades;

preferably, the noise reduction and sound insulation means is composed of a material capable of insulating noise and reducing noise or a sound-absorbing material, such as; 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 block at least part of noise in the base component, so that the sound generated by the motor can be heard outside no more than 65 decibels, and the noise reduction and sound insulation device is arranged around the turbine power component and used for blocking the sound generated when the turbine motor and the turbine blade operate so as to achieve the purpose of reducing the noise;

the noise reduction and sound insulation device can at least isolate noise within the range of 1-80 dB;

the utility model discloses the preferred noise reduction and sound insulation device is composed of sound insulation foam or sound insulation cotton, and the sound generated by the motor can be heard outside no more than 45 decibels;

the intelligent hardware module is arranged on the upper part of the base component and has at least one of the functions of data acquisition, data analysis, data transmission, data storage, electric energy voltage reduction, electric energy rectification, electric energy conversion, power supply short circuit protection, overload protection, overvoltage protection, undervoltage protection, overcurrent protection and the like; the utility model discloses preferred intelligent hardware module has the functions such as data acquisition, analysis data, transmission data, data storage, electric energy step-down, electric energy rectification, electric energy conversion, power short-circuit protection, overload protection, overvoltage protection, undervoltage protection, overcurrent protection;

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

the intelligent hardware module is used for remotely controlling the controllable unit assembly of the bladeless fan lamp assembly through at least one mode of a power line, WIFI, Bluetooth, infrared remote control, Zigbee, Zwave, RF, an 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, and if the light can be adjusted and controlled in a stepless manner, the light can be adjusted and controlled; the utility model discloses preferred intelligent hardware 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 banks spare through modes such as power cord, WIFI, infrared remote control, aerial network (5G, 4G, 3G);

the middle air outlet channel has the function of transmitting accelerated airflow and has the function of conveying the accelerated airflow generated in the base assembly to the outer ring air outlet channel assembly;

the middle air outlet channel is a communication channel between the base assembly and the outer ring air flow channel;

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 assembly, the optimal number of the middle air outlet channels is 3;

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

outer lane air outlet channel subassembly includes:

an outer ring airflow channel;

an airflow outlet;

a thermal insulation layer structure;

an outer ring illumination light source;

the outer ring airflow channel is communicated with the middle air outlet channel;

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; air outside the outer ring air outlet 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, at least partially 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 2-50 times of the airflow consumption of the airflow outlet; the utility model discloses the preferred air flow that blows off downwards is about 2 times to 20 times of the gas consumption of air outlet;

the airflow outlet is provided with at least one airflow outlet, the minimum cross section opening size of the airflow outlet is in the range of 0.5mm to 20mm in width, and the optimal minimum cross section opening size of the airflow outlet of the utility model is about 4mm in width;

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 of the outer ring airflow channel, so that at least part of the temperature in the outer ring airflow channel 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 temperature which can be isolated by the heat insulation layer structure is between 1 and 200 ℃; the utility model discloses the temperature that the preferred insulating layer structure can keep apart is between 1 degree to 150 degrees centigrade;

the outer ring illumination light source is arranged on the outer ring airflow channel 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 arranged 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 outer ring illumination light source can be controlled by an intelligent hardware module to control color temperature, brightness, on and off;

the air heater assembly is an existing air heating technology and is arranged in the middle air outlet channel or the outer ring air outlet channel assembly; the utility model discloses preferred air heater subassembly is arranged in middle air outlet channel, makes outer lane illumination light source not direct contact heater subassembly to effectively protect outer lane illumination light source, make outer lane illumination light source not influenced by heater subassembly temperature;

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

the heating body of the air heater assembly is at least partially positioned inside the middle air outlet channel or the outer ring air outlet channel assembly and is partially contacted with the air flow in the middle air outlet channel or the outer ring air outlet channel assembly, the utility model discloses preferred air heater assembly is arranged in the middle air outlet channel, and at least one part extends around the middle air outlet channel;

the air heater assembly heats the air contacting the air heater assembly to the temperature ranging from 1 degree to 197 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 60 degrees;

the utility model discloses preferably, the air current temperature that blows to the human body after the air current that has heated through air heater subassembly and outside air mix is no longer than 50 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 front view of a bladeless fan lamp assembly;

FIG. 2 is a bottom view of a bladeless fan lamp assembly;

FIG. 3 is a view of the outer housing of the base assembly of the bladeless fan lamp assembly, with lines F-F and K-K in FIG. 3 being the central axis of the base assembly;

3 FIG. 34 3 is 3 a 3 right 3 side 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 31 3 illustrating 3 a 3 cross 3- 3 section 3 of 3 the 3 base 3 assembly 3, 3 the 3 middle 3 outlet 3 channel 3, 3 and 3 the 3 outer 3 ring 3 outlet 3 channel 3 assembly 3 of 3 the 3 bladeless 3 fan 3 lamp 3 assembly 3; 3

FIG. 5 is an underside cross-sectional view taken along line B-B in FIG. 1, illustrating a cross-section of the base assembly, the middle outlet channel, and the outer ring outlet channel assembly of the bladeless fan lamp assembly;

FIG. 6 is a right side cross-sectional view taken along line C-C of FIG. 2; this view shows a cross-section of the middle outlet channel of the bladeless fan lamp assembly;

FIG. 7 is a right side cross-sectional view taken along line D-D in FIG. 2; this view shows a cross-section of the outer ring outlet channel assembly of the bladeless fan lamp assembly;

FIG. 8 is a left side cross-sectional view taken along line E-E of FIG. 2, illustrating a cross-section of an outer ring outlet channel assembly of the bladeless fan lamp assembly and a portion of an outer housing surface;

FIG. 9 is a top view of the outer structural shell mount;

FIG. 10 is a front view of the outer structural shell mount;

FIG. 11 is a cross-sectional view of an outer structural shell mount

FIG. 12 is a front view of the outer housing after the outer structural housing mount is mounted to the base assembly;

fig. 13 is an internal cross-sectional view of the outer structural shell mount after it has been mounted to the base assembly.

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 front view of a bladeless fan light assembly showing a front view outer housing of a base assembly, an outer ring outlet channel assembly and a telescoping rod mount, comprising:

a fixing member 1101 of the telescopic rod fixing frame for fixing the bladeless fan lamp assembly to the ceiling or the ceiling cement panel; the telescopic piece 1102 of the telescopic rod fixing frame has a telescopic function and has the size capable of adjusting the height above the ground after the bladeless fan lamp assembly is installed;

a susceptor assembly housing 1001 for protecting and fixing the susceptor assembly internal unit assembly;

an outer-ring airflow channel 3100 having a function of receiving an accelerated airflow generated in the base member and circulating the accelerated airflow in the outer-ring airflow channel 3100;

an outer ring illumination source 3200 for generating artificial illumination; a user sends a control signal to the intelligent hardware module 1003 through control equipment or a device, and the intelligent hardware module 1003 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 light assembly;

FIG. 2 illustrates a bottom view of the bladeless fan lamp assembly showing the bottom outer housing of the base assembly, the intermediate outlet channel, and the outer ring outlet channel assembly, including:

an air intake shroud 1002 disposed in the lower portion of the base assembly, said lower portion of the base assembly comprising a 3/4 portion of the lower portion of the base assembly overall structure;

the air inlet cover 1002 is an air inlet device for airflow, and the air inlet cover 1002 is provided with an air inlet hole for air to flow through, and the air inlet hole at least comprises 1 air vent for airflow to pass through; at least part of the air in the base assembly enters from the air inlet hood 1002 and is conveyed to the middle air outlet channel 2001; the air inlet of the air inlet cover 1002 of the utility model is preferably composed of a plurality of air inlets, and more than 90% of the air flow in the base component enters from the air inlet cover 1002;

the air inlet cover 1002 can be detached or installed, when the base assembly internal unit element and the air inlet cover 1002 need to be replaced, detached and cleaned, a user only needs to operate below the bladeless fan lamp assembly, and the air inlet cover is simple and convenient;

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. 3 illustrates a base assembly outer housing configuration view of a bladeless fan lamp assembly, including:

a base assembly housing 1001 for protecting and fixing the internal unit assembly;

lines F-F and K-K in FIG. 3 are central axes of the base assembly;

3 FIG. 34 3 illustrates 3 a 3 right 3 side 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 31 3, 3 showing 3 a 3 cross 3- 3 section 3 of 3 a 3 base 3 assembly 3, 3 a 3 middle 3 outlet 3 channel 3, 3 and 3 an 3 outer 3 ring 3 outlet 3 channel 3 assembly 3 of 3 a 3 bladeless 3 fan 3 lamp 3 assembly 3, 3 including 3: 3

The intelligent hardware module 1003 is used for implementing and controlling each power utilization unit and has at least one of the functions of data acquisition, data analysis, data transmission, data storage, electric energy voltage reduction, electric energy rectification, electric energy conversion, power supply short circuit protection, overload protection, overvoltage protection, undervoltage protection, overcurrent protection and the like; a user sends a control signal to the intelligent hardware module 1003 through a control device or device, and the intelligent hardware module 1003 controls each electric unit to control the bladeless fan lamp assembly;

a turbine power assembly for providing an accelerated airflow to a bladeless fan lamp assembly, using an aircraft turbine engine principle and an automotive turbine principle, using a turbine motor 1004 to drive turbine blades 1005 to generate an accelerated airflow at a high pressure, the turbine power assembly comprising: turbine motor 1004, turbine blades 1005, turbine intake passage 1006;

the turbine motor 1004 is a DC brushless motor between DC5V and DC100V, and the present invention preferably has the turbine motor 1004 being a DC brushless motor of DC 24V; has the function of providing power transmission operation for the turbine blade 1005; a user sends a control signal to the intelligent hardware module 1003 through control equipment or a device, and then the intelligent hardware module 1003 controls and adjusts the rotating speed of the turbine motor 1004 to achieve adjustment and control of the air quantity of the air outlet of the bladeless fan lamp assembly;

the turbine blades 1005, which are used for transmitting, compressing and accelerating the air flow, are composed of at least 1 blade, and can continuously compress and accelerate the air to be transmitted into the middle air outlet channel 2001 after operation; the preferred turbine blades 1005 of the present invention are comprised of 7 blades;

the turbine inlet channel 1006 is an inlet channel for air flow, has the function of conveying accelerated air flow, and when air entering from the inlet cover 1002 passes through the turbine inlet channel 1006, the air is pressurized and accelerated by the turbine blades 1005 and then conveyed to the middle outlet channel 2001;

the noise reduction and sound insulation device 1007 is used for noise reduction and sound insulation and is made of materials capable of sound insulation and noise reduction or sound absorption materials, if 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 block at least part of noise in the base component, so that the sound generated by the turbine motor 1004 can be heard outside within 65 decibels, and the noise reduction and sound insulation device 1007 is arranged around the turbine power component and used for blocking the sound generated by the turbine motor 1004 and the turbine blade 1005 during operation so as to achieve the purpose of reducing the noise;

the noise reduction and sound insulation device 1007 can isolate at least noise within the range of 1 db to 80 db;

the utility model discloses the preferred noise reduction sound insulation device 1007 is made of sound insulation foam or sound insulation cotton, and the sound generated by the motor can be heard outside no more than 45 decibels;

the air purifier component is used for purifying air, filtering air and generating negative ions; the utility model discloses preferred air purifier subassembly comprises air anion generator 1008, anion discharge needle 1009, HEPA high efficiency material 1010 etc. air anion generator 1008, anion discharge needle 1009 are prior art, utilize high voltage corona to increase the anion composition in the air to improve the air quality, can promote healthy; the HEPA high-efficiency material 1010 is mainly used for trapping particle dust and various suspended matters above 0.5um in the prior art;

the air inlet cover 1002 is an air inlet device for airflow and is arranged at the lower part of the base assembly so as to facilitate the replacement, the removal and the cleaning of a unit element and the air inlet cover in the base assembly;

the connection position of the air inlet cover 1002 and the base shell 1001 is provided with a detachable structure 1011;

the detachable structure 1011 has the function of detaching or installing the air intake cover 1002 connected with the base housing 1001; when the internal unit elements of the base assembly and the air inlet cover 1002 need to be replaced, detached and cleaned, a user only needs to operate below the bladeless fan lamp assembly, and the operation is simple and convenient;

the air inlet cover 1002 is provided with an air inlet hole for air to flow through, and the air inlet hole at least comprises 1 air vent for air flow to pass through; at least part of the air inside the base assembly enters from the air inlet hood 1002 and is conveyed to the middle air outlet channel 2001; the air inlet cover 1002 has an insect prevention function and has a replaceable, detachable and washable function; the air inlet of the air inlet cover 1002 of the utility model is preferably composed of a plurality of air inlets, and more than 90% of the air flow in the base component enters from the air inlet cover 1002;

an air heater assembly 2002 for heating an air flow in the bladeless fan lamp assembly;

the air heater assembly 2002 is composed of a heating element (a metal body, a heat conductor, a heating tube or other heating materials without limitation) and a wire connecting line;

the air heater assembly 2002 is arranged on the middle air outlet channel 2001, so that the outer ring illumination light source 3200 does not directly contact the air heater assembly 2002, and the outer ring illumination light source 3200 is effectively protected, and the outer ring illumination light source 3200 is not influenced by the temperature of the air heater assembly 2002;

a user sends a control signal to the intelligent hardware module 1003 through a control device or a device, and then the intelligent hardware module 1003 controls and adjusts the temperature of the air heater assembly 2002, so that the adjustment and control of the air outlet temperature of the bladeless fan lamp assembly are realized;

an outer-ring airflow channel 3100 for receiving an accelerated airflow generated in the base member, circulating the accelerated airflow, and feeding the airflow to the airflow outlet 3400;

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 side cross-sectional view taken along line B-B of FIG. 1, illustrating a cross-section of the base assembly, the middle outlet channel, and the outer ring outlet channel assembly of the bladeless fan lamp assembly, including:

the turbine motor 1004 is a DC brushless motor between DC5V and DC100V, and functions to provide power transmission operation for the turbine blade 1005; a user sends a control signal to the intelligent hardware module 1003 through control equipment or a device, and then the intelligent hardware module 1003 controls and adjusts the rotating speed of the turbine motor 1004 to achieve adjustment and control of the air quantity of the air outlet of the bladeless fan lamp assembly;

turbine blades 1005, for delivering, compressing and accelerating the air flow, consisting of at least 1 blade, which will continue to compress and accelerate the air delivered into the intermediate outlet passage 2001 after operation; the preferred turbine blades 1005 of the present invention are comprised of 7 blades;

an airflow outlet 3400 for ejecting an accelerated airflow in the outer-ring airflow passage 3100; air outside the outer ring air outlet channel assembly is attracted and mixed by the accelerated airflow jetted from the airflow outlet 3400 and then is jetted out, so that larger airflow is generated;

FIG. 6 is a right side cross-sectional view taken along line C-C of FIG. 2, illustrating a cross-section of a middle outlet channel of the bladeless fan lamp assembly, including:

an air heater assembly 2002 arranged on the intermediate air outlet channel 2001 for heating the air flow within the intermediate air outlet channel 2001; a user sends a control signal to the intelligent hardware module 1003 through a control device or a device, and then the intelligent hardware module 1003 controls and adjusts the temperature of the air heater assembly 2002 to implement adjustment and control on the air outlet temperature of the bladeless fan lamp assembly;

FIGS. 7 and 8 show cross-sections and exterior housing surfaces of an outer ring outlet channel assembly of a bladeless fan lamp assembly, including:

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 outer ring airflow channel 3100;

the insulation layer structure 3300 includes: a middle vacuum structure 3301 or a thermal insulation material 3302 or both; the utility model discloses preferred insulating layer structure 3300 comprises insulating material 3301 and middle part vacuum structure 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 temperature that the insulating layer structure 3300 can isolate is between 1 ° and 200 °; the utility model discloses the temperature that insulating layer structure 3300 can keep apart is preferred to be between 1 degree to 150 degrees centigrade;

the outer ring illumination light source 3200 includes: a light source 3201 and a lighting housing 3202;

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 lighting housing 3202 has the function of protecting and shielding the light source 3201 and the circuit board element inside;

the illumination housing 3202 is made of a fully transparent or translucent material, and the illumination housing 3202 is preferably made of a translucent material;

FIGS. 9-13 illustrate top, front, cross-sectional views of the outer structural shell mount, and front and inner cross-sectional views of the outer shell mount after it is mounted to the base assembly; which comprises the following steps:

a top housing 1201 for securing and mounting the outer housing 1200 and securing the bladeless fan light assembly to a ceiling or ceiling floor slab;

fixing holes 1202, which are disposed on the top case 1201, for fixing screws, which are used by a user to fix the top case 1201 to the ceiling or the ceiling floor slab through the fixing holes 1203 when the bladeless fan is installed;

an outer housing 1200 connected to the top housing 1201 for securing and mounting the base assembly and base housing 1001;

a threading hole 1203 for passing a power cord; when a user installs the bladeless fan, the top power line is connected with an external power supply through the threading hole 1202;

a dismounting structure 1204 for dismounting or mounting the outer structure housing fixing frame on the base assembly or the base housing 1001;

a bladeless fan lamp assembly substantially as described with reference to the accompanying drawings of figures 1 to 13;

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 assembly, comprising:

a base assembly;

a middle air outlet channel;

an outer ring airflow channel;

the base assembly is composed of: the device comprises a base shell, an air inlet cover, a turbine air inlet channel, a turbine motor, turbine blades and an intelligent hardware module, wherein the base shell is composed of at least 5 components or devices;

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

the air inlet cover is arranged at the lower part of the base component and is an air inlet device of airflow;

the connecting position of the air inlet cover and the base component is provided with a detachable structure;

the detachable structure has the function of detaching or installing the air inlet cover connected with the base component;

the air inlet cover is provided with an air inlet hole which can lead air to circulate, and the air inlet hole at least comprises 1 air vent which can lead air flow to pass through; at least part of air flow in the base assembly enters from the air inlet hood and is conveyed to the middle air outlet channel;

the turbine air inlet channel is used as an air inlet channel of air flow, has the function of conveying accelerated air flow, and conveys the air entering from the air inlet cover to the middle air outlet channel after passing through the turbine air inlet channel;

the turbine motor has the function of providing power transmission for the turbine blades;

the turbine blades are arranged in the turbine air inlet channel, have the functions of transmitting and accelerating air flow, at least comprise 1 blade, and can continuously accelerate and transmit air into the middle air outlet channel after operation;

the intelligent hardware module has at least one of the functions of data acquisition, data analysis, data transmission, data storage, electric energy voltage reduction, electric energy rectification, electric energy conversion, power supply short circuit protection, overload protection, overvoltage protection, undervoltage protection and overcurrent protection;

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 has the function of conveying accelerated airflow generated in the base assembly to the outer ring airflow channel;

the number of the middle air outlet channels ranges from 1 to 10;

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 airflow outlet has the function of spraying accelerated airflow in the outer ring airflow channel.

2. The bladeless fan lamp assembly of claim 1, wherein the base housing dimensions range from a width in a range of 50mm to 370mm, and a height in a range of 60mm to 570 mm;

the turbine motor is a direct-current brushless motor between DC5V and DC100V, and is a device for providing power transmission operation for the turbine blades;

the turbine inlet passage, the turbine motor, the curved turbine blades, and the turbine inlet passage are arranged on or around a central axis of the base assembly;

the intelligent hardware module is at least partially arranged on the upper part of the base component;

the number of the air inlet hoods is between 1 and 7, and the overall structure size is between 50mm and 370mm in width and 60mm and 470mm in height.

3. The bladeless fan lamp assembly of claim 1, wherein the base assembly has noise reducing and sound insulating means therein;

the noise reduction and sound insulation device has the function of blocking noise transmission in the base component, at least part of noise is blocked in the base component, and the sound generated by the motor can be heard outside no more than 65 decibels;

the noise reduction and sound insulation device is at least partially arranged around the turbine air inlet channel, the turbine motor and the turbine blade device, and can block the sound generated by the operation of the turbine motor and the turbine blade to achieve the purpose of reducing the noise, and the noise reduction and sound insulation device can insulate the noise at least in the range of 1-80 dB.

4. The bladeless fan lamp assembly of claim 1, wherein the intermediate outlet channel has an air heater assembly therein;

the air heater assembly is arranged on an inner or outer wall of the intermediate air outlet channel and extends at least partially around the intermediate 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 ranging from 1 degree to 197 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 assembly is mixed with the external air is not more than 60 degrees;

the air heater assembly comprises at least one heating body.

5. The bladeless fan lamp assembly of claim 1, wherein an outer ring of illumination sources is disposed on the outer ring of airflow channels;

the outer ring illumination light source has the function of generating artificial illumination;

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 and an energy-saving lamp;

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

the outer ring illumination light source extends at least partially around the outer ring airflow channel, and the cross-sectional dimension of the smallest position of the overall structure is in the range of 5mm to 270mm in width and height.

6. The bladeless fan lamp assembly of claim 1, wherein the airflow outlet is in communication with an outer-ring airflow channel;

the number of airflow outlets comprises at least 1 air outlet;

the minimum cross-sectional opening size of the airflow outlet is in the range of 0.5mm to 20mm in width, and at least part of air outside the bladeless fan lamp assembly is sucked by the accelerated airflow jetted from the airflow outlet, mixed and jetted, so that larger airflow is generated.

7. The bladeless fan lamp assembly of claim 1, wherein the base assembly has a telescoping pole mount or an outer structural housing mount mounted thereon;

when the telescopic rod fixing frame is arranged on the base component, the outer structure shell fixing frame is not arranged; when the outer structure shell fixing frame is arranged on the base component, the telescopic rod fixing frame is not arranged;

the cross section of the telescopic rod fixing frame is 5mm to 400mm wide;

the overall structure size of the outer structure shell fixing frame is in the range of 50mm to 500mm in width and 50mm to 700mm in height; the overall structural height dimension of the base assembly when the outer structural shell mount is mounted on the base assembly ranges from 50mm to 700 mm.

8. The bladeless fan lamp assembly of claim 1, wherein the base assembly has an air cleaner assembly therein;

the air cleaner assembly is disposed within the base assembly about the intake shroud, and is made of prior art materials: the air negative ion generator, the negative ion discharge needle, the catalyst, the active carbon, the synthetic fiber, HEPA high efficiency material, wherein at least 1 technical material.

9. A thermal insulation layer structure for a bladeless fan lamp assembly, wherein the thermal insulation layer structure is disposed between an outer ring airflow channel and an outer ring illumination light source;

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

the temperature which can be isolated by the heat insulation layer structure is between 1 and 200 ℃;

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

the heat insulation layer structure has a cross-sectional height dimension in the range of 1mm to 200mm in height and a width dimension in the range of 1mm to 200mm in width.