CN206017195U - Press fan body height segmentation and adjust the azimuthal tower fan of air-out - Google Patents

Abstract

Press fan body height segmentation and adjust the azimuthal tower fan of air-out, including wind wheel component and upper and lower ducting assembly；Upper and lower ducting assembly includes main body and shell respectively；The end of upper and lower air channel shell is provided with mobile connection member；Wind wheel component axially penetrates through upper and lower ducting assembly；Upper and lower ducting assembly realizes the flexible connection that can be movable relatively by the air channel mobile connection member in its section of portion, after connection, upper and lower ducting assembly is formed through complete air channel, and can be movable relatively upper and lower ducting assembly, so that upper and lower duct main is respectively directed to different angles, the air-flow outbound course of the different angles formed when wind wheel component rotates air-supply, realizes multi-angle air-supply simultaneously.The ducting assembly of subsection setup can be relatively rotated, and different ducting assemblies can form the wind of different directions, multiple users synchronization all can direct feel to the air-flow exported from different air outlets.

Description

Press fan body height segmentation and adjust the azimuthal tower fan of air-out

【Technical field】

The utility model is related to the pumping installations that working fluid is air, is more particularly to used for tower fan, especially relates to And press the azimuthal tower fan of fan body height segmentation regulation air-out.

【Background technology】

Cross flow fan, is called cross flow fan, is that French engineer More the first chief executive of Special Administrative Region in 1892 first proposes, and impeller is multi-disc Formula, oval tubular, with forward multiple wing shape blade.Its structure is as shown in Figure 1.Impeller rotate when, air-flow from impeller open wide from enter Enter leaf grating, through impeller internal, spiral case is entered from another side leaf grating, discharged by air outlet, form working air current.Cross flow fan Main is that spiral case and three part of motor constitute by impeller, air channel.Impeller material is generally aluminium alloy or engineering plastics.Aluminium alloy leaf Intensity is high, lightweight for wheel, high temperature resistant, can keep permanent steady operating and indeformable.

Cross flow fan is popularized for civilian radiator fan, referred to as tower fan in recent years, and the advantage of this fan structure is outer Fashion is seen, longitudinal duct outlet is long, then coordinate oscillating mechanism to can achieve the azimuthal air-supply of certain limit, and noise also compares Conventional fan is much lower；But this fan also has weak point：Due to duct outlet vertically in elongate shape, in office in a flash Or in period of stopping of shaking the head, its azimuth coverage very little that blows；Give people direct feeling to be that one tiny wind is skimmed over, Experience during a lot of people's uses not good.

It is partially narrow for improving above-mentioned prior art wind direction, it is impossible to while multi-angle is experienced the nice and cool of air flow and had People is made that multiple improvement, and the improved technical scheme of a portion is to allow wind wheel in fan inner rotation, but outward appearance can not be very Intuitively see air outlet wherein；The improved technical scheme of another part is using multiple stage motor and wind wheel, utilizes Multiple power sources form the air-flow of multiply flowing.But these improvement projects have complex structure, make using with multiple electric motors Shortcoming into high cost.

【Utility model content】

There is provided in place of the technical problems to be solved in the utility model is to avoid above-mentioned the deficiencies in the prior art a kind of by Fan body height segmentation adjusts the azimuthal tower fan of air-out, controls the rotation of ducting assembly by rotating mechanism, adjusts The air outlet angle direction in the inside air channel that ducting assembly is formed, reaches the direction of adjustment tower fan air flow so that flow into Air in tower fan can be blown out from the air outlet of the difference angle of fore shell, the utility model tower fan simple structure, Easily operation and practicality are very strong.

It is that one kind adjusts air-out by fan body height segmentation that the utility model solves the technical scheme of the technical problem employing Azimuthal tower fan includes：Wind wheel component, upper air duct component and lower air duct component；The upper air duct component is included for setting The upper air duct main body for putting upper air duct air-out direction, the upper air duct shell circulated for inner air and outer air and upper air duct cap assembly；Institute State upper air duct main body to be connected to one with the upper air duct shell；One end of the upper air duct shell and the air channel top cover Component is fixedly connected, and the other end of the upper air duct shell is then provided with and is flexibly connected structure for the upper air duct that coaxial line is fitting to connection Part；The lower air duct component, under for arranging the lower air duct main body of lower air duct air-out direction, circulating for inner air and outer air Air channel shell and lower air duct chassis assembly；The lower air duct main body is connected to one with the lower air duct shell；Under described One end of air channel shell is fixedly connected with the lower air duct chassis assembly, the other end of the lower air duct shell be also equipped with for The lower air duct mobile connection member being adapted to upper air duct mobile connection member that coaxial line is fitting to connection；The wind wheel component bag Include wind wheel, for driving the wind wheel to provide the motor and motor bearing support of wind-power, the wind wheel is coaxially fixed on In the shaft extension of the motor, and motor is then fixedly mounted on motor bearing support；The upper end of the wind wheel component and institute State upper air duct cap assembly to be rotatably coupled, the motor bearing support of the wind wheel component other end and the lower air duct chassis Component is fixedly connected, and causes that the wind wheel component integrally axially penetrates through the upper air duct component and the lower air duct component is common The air channel cavity of composition；The upper air duct component and lower air duct component connect by the upper and lower air channel activity of the respective one end Connection member realizes the relatively turnable connection of coaxial line, so as to the upper air duct component has been constituted with the lower air duct component insertion Whole air channel, causes the upper air duct main body and the lower air duct main body each look onto different directions, in the wind wheel component During rotation air-supply, the blowout air-flow of different orientations is formed, multi-angle is realized while air-supply.

The mobile connection member of the lower air duct and upper air duct is the individual components for being fixed on the respectively air channel shell one end； The lower air duct mobile connection member and upper air duct mobile connection member are mutually to be adapted chimeric arc groove and arc raised line Snap-in structure；When the lower air duct mobile connection member is matrix draw-in groove, then should be can be with for the upper air duct mobile connection member Snap in the arc cord tissue in the connecting elements matrix draw-in groove；When the lower air duct mobile connection member is cord tissue, then The upper air duct mobile connection member should be the matrix card that the cord tissue of the lower air duct mobile connection member can be allowed to be embedded in Groove.

The lower air duct shell includes lower air duct fore shell and lower air duct back cover；One end of the lower air duct fore shell is provided with down Air channel fore shell mobile connection member, accordingly, one end of the lower air duct back cover is provided with lower air duct back cover mobile connection member； When the lower air duct fore shell and lower air duct back cover enclose to form the lower air duct shell, the lower air duct fore shell mobile connection member Enclose to form lower air duct mobile connection member with the lower air duct back cover mobile connection member.

The upper air duct shell includes upper air duct fore shell and upper air duct back cover；One end of the upper air duct fore shell is provided with Air channel fore shell mobile connection member, accordingly, one end of the upper air duct back cover is provided with upper air duct back cover mobile connection member； When the upper air duct fore shell and upper air duct back cover enclose to form the upper air duct shell, the upper air duct fore shell mobile connection member Enclose to form upper air duct mobile connection member with the upper air duct back cover mobile connection member.

Described tower fan also includes middle ducting assembly, and the middle ducting assembly includes middle duct main and centre Air channel shell, the middle duct main and the middle air channel shell fixed connection are integrated;The middle ducting assembly Two ends are respectively arranged with the component that can rotate connection with coaxial line；When only with a middle ducting assembly, the middle air channel Component is realized relatively rotating with the upper air duct component and the lower air duct component respectively by the mobile connection member at two ends Coaxial line connection；The middle ducting assembly, the upper air duct component and the lower air duct component insertion constitute complete wind Road；The upper air duct main body, the middle duct main and the lower air duct main body can respectively for different azimuths, During the wind wheel component rotation air-supply, the upper air duct main body, the middle duct main and the lower air duct main body are formed not With the air-flow blow-off direction of angle, multi-angle air-supply simultaneously is realized.

Described tower fan also includes two middle ducting assemblies, and respectively the middle ducting assembly includes middle duct main It is connected to one with middle air channel shell, the middle duct main and the middle air channel shell;The each middle air channel The two ends of component are respectively arranged with the component that can rotate connection with coaxial line；Described two middle ducting assemblies are by two ends activity Connecting elements realizes relatively turnable coaxial line connection；One in described two middle ducting assemblies and the upper air duct group Part realizes relatively turnable coaxial line connection by the mobile connection member of end；Another in described two middle ducting assemblies One and the lower air duct component, realize relatively turnable coaxial line connection by the mobile connection member of end；Described two Middle ducting assembly, the upper air duct component and the lower air duct component are formed through complete air channel；The upper air duct main body, Described two middle duct mains and the lower air duct main body can be rotated towards each different azimuths in the wind wheel component During air-supply, the upper air duct main body, described two middle duct mains and the lower air duct main body form the air-flow of different angles Blow-off direction, realizes multi-angle air-supply simultaneously.

Described tower fan also includes base assembly and the synchronous motor component for driving tower fan body；Institute Stating base assembly includes base and nut；The synchronous motor component include synchronous motor rotating assembly, synchronous motor, Eccentric wheel, connecting rod, cam and axle sleeve；The motor bearing support for driving wind wheel is fixed on the synchronous motor rotating assembly On；Rotatable cam is cased with the axle of the synchronous motor rotating assembly；It is provided with the axle of the synchronous motor partially Heart wheel；The eccentric wheel is connected with cam by the connecting rod；Also covered on the axle of the synchronous motor rotating assembly simultaneously There are axle sleeve and connector；The connector is fixedly connected with base by nut.

The upper air duct cap assembly includes knob lid, the oiliness bearing for the wind wheel component that is rotatably connected and contains Oil bearing support；The knob lid is fixed on one end of the upper air duct shell, and the oil-containing bearing support is fixed on the rotation In button lid；The oiliness bearing is fixed on the oil-containing bearing support again.

Described for preventing the upper air duct Air Filter that external dust enters the upper air duct component to be removably attached to In air channel shell；Described for preventing the lower air duct Air Filter that external dust enters the lower air duct component to be removably attached to On lower air duct shell.

Compared with the existing technology compared with the beneficial effects of the utility model are：1. the ducting assembly due to subsection setup, air channel Component can be relatively rotated, and different ducting assemblies can form the air-flow of different directions, and synchronization, fan can export multiple The air-flow in direction；2. it is to be flexibly connected between different ducting assemblies, pointing to for duct main can pass through turning for ducting assembly Move and flexibly adjusted, convenient use；3. each section of duct main and cage connection are integrally formed ducting assembly, air channel with Shell is fixed as one and can adjust together, and during regulation, the air inlet in air channel is not with position of the air outlet on shell Become, mutually support, simplify structure, and be arranged on the different air ports on shell and be easy to be identified, allow user clearly to know The direction of the air outlet that each section of road；4. the connected mode being mutually twisted using concave groove, junction have certain frictional force, can Meet the needs for adjusting, have certain steadiness again, attachment structure is simply efficient；5. dismountable Air Filter is blocked simultaneously Dust is again convenient to be cleaned.

【Description of the drawings】

Fig. 1 is the operation principle schematic diagram of cross flow fan in prior art；

Fig. 2 is the overall appearance axonometric projection schematic diagram of the tower fan preferred embodiment one;

Fig. 3 is the decomposing state axonometric projection schematic diagram of the tower fan preferred embodiment one；

Fig. 4 is that the tower fan preferred embodiment one removes upper air duct component 300, the decomposition of lower air duct component 200 State axonometric projection schematic diagram；

Fig. 5 is the 200 decomposing state axonometric projection schematic diagram of lower air duct component of the tower fan preferred embodiment one；

Fig. 6 is the 300 decomposing state axonometric projection schematic diagram of upper air duct component of the tower fan preferred embodiment one；

Fig. 7 is the connection limit between one upper air duct component 300 of the tower fan preferred embodiment, lower air duct component 200 Position schematic diagram, in figure, the circle of tower fan top tape arrow is illustrated for the rotation of tower fan；

Fig. 8 is that schematic diagram is moved towards in the inlet and outlet of the tower fan preferred embodiment one and air-supply, with arrow in figure Line is illustrated for the direction of air flow.

【Specific embodiment】

The utility model is described in further detail with reference to each accompanying drawing.

A kind of being embodied as by the fan body height segmentation regulation azimuthal tower fan 10 of air-out as shown in Fig. 1 to 8 Example include, wind wheel component 100, upper air duct component 300, lower air duct component 200；The upper air duct component 300 is included for setting Put upper air duct main body 350, the upper air duct shell 360 for inner air and outer air circulation and the upper air duct top cover group of upper air duct air-out direction Part 320；The upper air duct main body 350 is connected to one with the upper air duct shell 360；The upper air duct shell 360 One end is fixedly connected with the air channel cap assembly 320, and the other end of the upper air duct shell 360 is then provided with for coaxial line The upper air duct mobile connection member 361 of fitting connection；The lower air duct component 200, including for arranging lower air duct air-out direction Lower air duct main body 250, for inner air and outer air circulation lower air duct shell 260 and lower air duct chassis assembly 220；The lower air duct Main body 250 is connected to one with the lower air duct shell 260；One end of the lower air duct shell 260 and the lower air duct Chassis assembly 220 is fixedly connected, that the other end of the lower air duct shell 260 is also equipped with being fitting to connection for coaxial line and The lower air duct mobile connection member 261 of the adaptation of upper air duct mobile connection member 361；The wind wheel component 100 include wind wheel 101, For driving the wind wheel 101 to provide the motor 102 and motor bearing support 103 of wind-power, the wind wheel 101 is coaxially solid It is scheduled in the shaft extension of the motor 102, and motor 102 is then fixedly mounted on the supporting of 103 upper motor of motor bearing support Frame 103；The upper end of the wind wheel component 100 is rotatably coupled with the upper air duct cap assembly 320, the wind wheel component The motor bearing support 103 of 100 other ends is fixedly connected with the lower air duct chassis assembly 220, causes the wind wheel component 100 Air channel cavity that the upper air duct component 300 and the lower air duct component 200 collectively form integrally is axially penetrated through；The windward Road component 300 and lower air duct component 200 are realized by the upper and lower air channel mobile connection member 361,261 of the respective one end The relatively turnable connection of coaxial line, complete so as to have the upper air duct component 300 and 200 insertion of lower air duct component to constitute Air channel, cause the upper air duct main body 350 and the lower air duct main body 250 each look onto different directions, in the wind wheel During the rotation air-supply of component 100, the blowout air-flow of different orientations is formed, multi-angle is realized while air-supply.

In certain embodiments, the mobile connection member 261,361 of the lower air duct and upper air duct is to be fixed on and respectively should Air channel shell 260, the individual components of 360 one end；The lower air duct mobile connection member 261 and upper air duct mobile connection member 361 is mutually to be adapted chimeric arc groove and arc raised line snap-in structure；When the lower air duct mobile connection member 261 is recessed Type draw-in groove, then to should be the arc that can be snapped in the 261 matrix draw-in groove of connecting elements convex for the upper air duct mobile connection member 361 Bar structure；When the lower air duct mobile connection member 261 is cord tissue, then the upper air duct mobile connection member 361 should be The matrix draw-in groove that the cord tissue of the lower air duct mobile connection member 261 can be allowed to be embedded in.In certain embodiments, under described Air channel mobile connection member 261 is the individual components for being fixed on described 260 one end of lower air duct shell；The upper air duct is flexibly connected Component 361 is the individual components for being fixed on described 360 one end of upper air duct shell；The lower air duct mobile connection member 261 and upper Air channel mobile connection member 361 is the arc groove and arc raised line snap-in structure that can be worked in coordination；When the lower air duct is lived Dynamic connecting elements 261 is groove, then the upper air duct mobile connection member 361 is flexibly connected structure for snapping in the lower air duct The arc raised line of the groove of part 261；When the lower air duct mobile connection member 261 is arc raised line, then the upper air duct activity Connecting elements 361 be can allow the lower air duct mobile connection member 261 arc raised line groove, this kind of situation be not in accompanying drawing In illustrate.

In embodiment as shown in Figs. 5 to 7, the lower air duct mobile connection member 261 is to be arranged on outside the lower air duct The arc groove of 260 one end of shell and arc raised line snap-in structure；The upper air duct mobile connection member 361 is to be arranged on described The arc groove of 360 one end of air channel shell and arc raised line snap-in structure；The lower air duct mobile connection member 261 and upper air duct Mobile connection member 361 is the arc groove and arc raised line snap-in structure that can be worked in coordination；When lower air duct activity connects Connection member 261 is groove, then the upper air duct mobile connection member 361 is to snap in the lower air duct mobile connection member 261 raised line；When the lower air duct mobile connection member 261 is raised line, then the upper air duct mobile connection member 361 is for can be with The groove for allowing 261 raised line of lower air duct mobile connection member to snap in.

In embodiment as shown in Figure 5, the lower air duct shell 260 includes lower air duct fore shell 262 and lower air duct back cover 264；One end of the lower air duct fore shell 262 is provided with lower air duct fore shell mobile connection member 2612, accordingly, the lower air duct One end of back cover 264 is provided with lower air duct back cover mobile connection member 2614；The lower air duct fore shell 262 and lower air duct back cover 264 when enclosing to form the lower air duct shell 260, the lower air duct fore shell mobile connection member 2612 and the lower air duct back cover Mobile connection member 2614 encloses to form lower air duct mobile connection member 261.

In embodiment as shown in Figure 6, the upper air duct shell 360 includes upper air duct fore shell 362 and upper air duct back cover 364；One end of the upper air duct fore shell 362 is provided with upper air duct fore shell mobile connection member 3612, accordingly, the upper air duct One end of back cover 364 is provided with upper air duct back cover mobile connection member 3614；The upper air duct fore shell 362 and upper air duct back cover 364 when enclosing to form the upper air duct shell 360, the upper air duct fore shell mobile connection member 3612 and the upper air duct back cover Mobile connection member 3614 encloses to form upper air duct mobile connection member 361.

In certain embodiments, the tower fan also includes that a middle ducting assembly, the middle ducting assembly include Middle duct main and middle air channel shell, the middle duct main and the middle air channel shell fixed connection are integrated; The two ends of the middle ducting assembly are respectively arranged with the component that can rotate connection with coaxial line；When only with a middle air channel group During part, the middle ducting assembly by the mobile connection member at two ends respectively with the upper air duct component 300 and the leeward Relatively turnable coaxial line connection realized by road component 200；The middle ducting assembly, the upper air duct component 300 and described 200 insertion of lower air duct component constitutes complete air channel；The upper air duct main body 350, the middle duct main and the leeward Road main body 250 can be respectively for different azimuths, in the wind wheel component 100 rotation air-supply, the upper air duct main body 350th, the middle duct main and the lower air duct main body 250 form the air-flow blow-off direction of different angles, realize simultaneously many Angle is blown.This kind of situation is not shown in figures.

In further embodiments, two middle ducting assemblies are also included, respectively the middle ducting assembly includes middle air channel Main body and middle air channel shell, the middle duct main and the middle air channel shell fixed connection are integrated;Respectively in the middle of this The two ends of ducting assembly are respectively arranged with the component that can rotate connection with coaxial line；Described two middle ducting assemblies pass through two ends Mobile connection member realizes relatively turnable coaxial line connection；One in described two middle ducting assemblies and the windward Road component 300 realizes relatively turnable coaxial line connection by the mobile connection member of end；Described two middle air channel groups Another and the lower air duct component 200 in part, realizes relatively turnable coaxial line by the mobile connection member of end Connection；The two middle ducting assembly, the upper air duct component 300 and the lower air duct component 200 are formed through complete wind Road；The upper air duct main body 350, described two middle duct mains and the lower air duct main body 250 can be towards each different Azimuth, in the wind wheel component 100 rotation air-supply, the upper air duct main body 350, described two middle duct mains and institute The air-flow blow-off direction that lower air duct main body 250 forms different angles is stated, multi-angle air-supply simultaneously is realized.This kind of situation be not in accompanying drawing In illustrate.

Certainly described middle ducting assembly can also be two or more, that is, have the N number of middle air channel group more than or equal to three Part, N number of middle ducting assembly coaxially can be rotatably connected to form the middle ducting assembly of N segmentations successively, in the N The two ends of the middle ducting assembly of segmentation are coaxially rotatably connected upper air duct component 300 respectively and lower air duct component 200 is passed through Lead to and form complete air channel, with difference, the sensing of the duct main in each section of ducting assembly can realize that multi-angle is blown, when So in some cases, it is also possible to allow each section duct main sensing identical, consentrated air supply on a certain specific direction.This These situations in paragraph are not shown in figures.

In the tower fan embodiment as shown in Figure 4, also include base assembly 510 and drive for tower fan fan body Dynamic synchronous motor component 520；The base assembly 510 includes base 511 and nut 512；The synchronous motor component 520 include synchronous motor rotating assembly 524, synchronous motor 525, eccentric wheel 526, connecting rod 527, cam 528 and axle sleeve 529；The motor bearing support 103 is fixed on the synchronous motor rotating assembly 524；The synchronous motor rotating shaft group Rotatable cam 528 is cased with the axle of part 524；Eccentric wheel 526 is installed on the axle of the synchronous motor 525；The bias Wheel 526 is connected with cam 528 by the connecting rod 527；Also it is cased with the axle of the synchronous motor rotating assembly 524 simultaneously Axle sleeve 529 and connector 521；The connector 521 is fixedly connected with base 511 by nut 512.

In the tower fan embodiment as shown in Figure 6, the upper air duct cap assembly 320 includes knob lid 321, uses Oiliness bearing 324 and oil-containing bearing support 323 come the wind wheel component 100 that is rotatably connected；The knob lid 321 is fixed on One end of the upper air duct shell 360, the oil-containing bearing support 323 are fixed in the knob lid 321；The oiliness bearing 324 are fixed on the oil-containing bearing support 323 again.

In the tower fan embodiment as illustrated in Figures 5 and 6, for preventing external dust from entering the upper air duct component 300 upper air duct Air Filter 367 is removably attached on the upper air duct shell 360；For preventing external dust from entering institute The lower air duct Air Filter 267 for stating lower air duct component 200 is removably attached on the lower air duct shell 260.

Compared with the existing technology compared with, the 1. ducting assembly due to subsection setup, ducting assembly can be relatively rotated, different Ducting assembly can form the air-flow of different directions, and synchronization, fan can export the air-flow of multiple directions；2. different air channel It is to be flexibly connected between component, the sensing of duct main can flexibly be adjusted by the rotation of ducting assembly, conveniently be made With；3. each section of duct main and cage connection are integrally formed ducting assembly, and air channel is fixed as one with shell and can be adjusted together Whole, during regulation, the air inlet in air channel is constant with position of the air outlet on shell, mutually supports, and simplification finishes Structure, and be arranged on the different air ports on shell and be easy to be identified, allow user clearly to know the direction of each section of air outlet；4. The connected mode being mutually twisted using concave groove, junction have certain frictional force, can meet the needs of regulation, have again certain Steadiness, attachment structure is simply efficient；5. dismountable Air Filter blocks dust convenient cleaning again simultaneously.

The sectional that the utility model is related to adjusts the tower fan of air outlet angle includes wind wheel component and upper and lower air channel group Part；Upper and lower ducting assembly includes main body and shell respectively；The end of upper and lower air channel shell is provided with mobile connection member；Wind wheel Component axially penetrates through upper and lower ducting assembly；Upper and lower ducting assembly is realized by the air channel mobile connection member in its section of portion can be relative The flexible connection of motion, after connection, upper and lower ducting assembly is formed through complete air channel, and makes upper and lower ducting assembly relative Motion, so that upper and lower duct main is respectively directed to different angles, the different angles formed when wind wheel component rotates air-supply Air-flow outbound course, realize simultaneously multi-angle air-supply.The ducting assembly of subsection setup can be relatively rotated, different air channel group Part can form the wind of different directions, multiple users synchronization all can direct feel to exporting from different air outlets Air-flow.

The sectional that the utility model is related to adjusts the tower fan of air outlet angle, by adjusting air channel master in ducting assembly Being differently directed for body, forms different air outlet angle directions by rotating adjustment ducting assembly to different positions, reaches segmentation Adjustment flows into the flow direction of air in tower fan so that the air flowed in tower fan being capable of going out from fixed angle Air port blows out, and the utility model tower fan simple structure, easily operation and practicality are very strong.

Embodiment described above only expresses preferred embodiment of the present utility model, and its description is more concrete and detailed, But therefore can not be interpreted as the restriction to the utility model the scope of the claims；It should be pointed out that common for this area For technical staff, without departing from the concept of the premise utility, some deformations and improvement can also be made, these all belong to In protection domain of the present utility model；Therefore, all equivalents that is done with the utility model right and modification, The covering scope of the utility model claim should be belonged to.

Claims (9)

1. one kind press fan body height segmentation regulation air-out azimuthal tower fan (10), it is characterised in that include：Wind wheel component (100), upper air duct component (300) and lower air duct component (200)；

Upper air duct component (300) are included for arranging the upper air duct main body (350) of upper air duct air-out direction, for interior outer space The logical upper air duct shell (360) of air-flow and upper air duct cap assembly (320)；Upper air duct main body (350) and the upper air duct Shell (360) is connected to one；The one end of upper air duct shell (360) is fixed with described air channel cap assembly (320) Connection, the other end of the upper air duct shell (360) are then provided with the upper air duct mobile connection member being fitting to connection for coaxial line (361)；

Lower air duct component (200), including for arranging the lower air duct main body (250) of lower air duct air-out direction, for inside and outside The lower air duct shell (260) and lower air duct chassis assembly (220) of air circulation；Lower air duct main body (250) and the leeward Road shell (260) is connected to one；The one end of lower air duct shell (260) and lower air duct chassis assembly (220) It is fixedly connected, the other end of lower air duct shell (260) is also equipped with being fitting to connection for coaxial line and upper air duct activity The lower air duct mobile connection member (261) that connecting elements (361) is adapted to；

Described wind wheel component (100) include wind wheel (101), for drive the wind wheel (101) provide wind-power motor (102) And motor bearing support (103), wind wheel (101) are coaxially fixed in the shaft extension of the motor (102), and electronic Machine (102) is then fixedly mounted on motor bearing support (103)；The upper end of wind wheel component (100) and the upper air duct top Cap assemblies (320) are rotatably coupled, the motor bearing support (103) of wind wheel component (100) other end and the leeward Road chassis assembly (220) is fixedly connected, and causes wind wheel component (100) integrally to axially penetrate through the upper air duct component And the air channel cavity that collectively forms of the lower air duct component (200) (300)；

Upper air duct component (300) and lower air duct component (200) are flexibly connected by the upper and lower air channel of the respective one end The relatively turnable connection of coaxial line realized by component (361,261), so as to upper air duct component (300) and the lower air duct group Part (200) insertion constitutes complete air channel, causes upper air duct main body (350) and the lower air duct main body (250) distinguish Different directions are faced, in described wind wheel component (100) rotation air-supply, the blowout air-flow of different orientations is formed, is realized polygonal Degree is blown simultaneously.

2. tower fan according to claim 1, it is characterised in that：

The mobile connection member (261,361) of the lower air duct and upper air duct is and is fixed on the respectively air channel shell (260,360) The individual components of one end；Lower air duct mobile connection member (261) and upper air duct mobile connection member (361) are mutually to be adapted Chimeric arc groove and arc raised line snap-in structure；

When described lower air duct mobile connection member (261) are matrix draw-in groove, then upper air duct mobile connection member (361) should be The arc cord tissue in the connecting elements (261) matrix draw-in groove can be snapped in；

When described lower air duct mobile connection member (261) are cord tissue, then upper air duct mobile connection member (361) should be The matrix draw-in groove that the cord tissue of lower air duct mobile connection member (261) can be allowed to be embedded in.

3. tower fan according to claim 2, it is characterised in that：

Described lower air duct shell (260) include lower air duct fore shell (262) and lower air duct back cover (264)；The lower air duct fore shell (262) one end is provided with lower air duct fore shell mobile connection member (2612), accordingly, the one of lower air duct back cover (264) End is provided with lower air duct back cover mobile connection member (2614)；

When lower air duct fore shell (262) and lower air duct back cover (264) enclose to form lower air duct shell (260), described under Air channel fore shell mobile connection member (2612) and the lower air duct back cover mobile connection member (2614) enclose to form lower air duct work Dynamic connecting elements (261).

4. tower fan according to claim 2, it is characterised in that：

Described upper air duct shell (360) include upper air duct fore shell (362) and upper air duct back cover (364)；The upper air duct fore shell (362) one end is provided with upper air duct fore shell mobile connection member (3612), accordingly, the one of upper air duct back cover (364) End is provided with upper air duct back cover mobile connection member (3614)；

When upper air duct fore shell (362) and upper air duct back cover (364) enclose to form upper air duct shell (360), described on Air channel fore shell mobile connection member (3612) and the upper air duct back cover mobile connection member (3614) enclose to form upper air duct work Dynamic connecting elements (361).

5. tower fan according to claim 2, it is characterised in that：

Also include middle ducting assembly, the middle ducting assembly includes middle duct main and middle air channel shell, the centre Duct main and the middle air channel shell fixed connection are integrated；

The two ends of the middle ducting assembly are respectively arranged with the component that can rotate connection with coaxial line；

When only with ducting assembly in the middle of, the middle ducting assembly by the mobile connection member at two ends respectively with described Relatively turnable coaxial line connection realized by upper air duct component (300) and the lower air duct component (200)；The middle air channel group Part, the upper air duct component (300) and the lower air duct component (200) insertion constitute complete air channel；

Upper air duct main body (350), the middle duct main and the lower air duct main body (250) can be respectively for differences Azimuth, described wind wheel component (100) rotation air-supply when, upper air duct main body (350), the middle duct main and Described lower air duct main body (250) form the air-flow blow-off direction of different angles, realize multi-angle air-supply simultaneously.

6. tower fan according to claim 2, it is characterised in that：

Also include two middle ducting assemblies, respectively the middle ducting assembly includes middle duct main and middle air channel shell, institute State middle duct main and the middle air channel shell is connected to one；Respectively the two ends of the middle ducting assembly are respectively provided with Have the component that connection can be rotated with coaxial line；

Described two middle ducting assemblies realize relatively turnable coaxial line connection by two ends mobile connection member；Described two Realize relative turning by the mobile connection member of end in individual middle ducting assembly and described upper air duct component (300) Dynamic coaxial line connection；Another and lower air duct component (200) in described two middle ducting assemblies, by end Mobile connection member realizes relatively turnable coaxial line connection；

The two middle ducting assembly, the upper air duct component (300) and the lower air duct component (200) are formed through complete Air channel；

Upper air duct main body (350), described two middle duct mains and the lower air duct main body (250) can be towards each not Same azimuth, in described wind wheel component (100) rotation air-supply, upper air duct main body (350), described two middle air channels Main body and the air-flow blow-off direction of the different angles of described lower air duct main body (250) formation, realize multi-angle air-supply simultaneously.

7. tower fan according to claim 1, it is characterised in that：

Also include base assembly (510) and the synchronous motor component (520) for driving tower fan body；

Described base assembly (510) include base (511) and nut (512)；Described synchronous motor component (520) include synchronous Motor rotary shaft component (524), synchronous motor (525), eccentric wheel (526), connecting rod (527), cam (528) and axle sleeve (529)；

The motor bearing support (103) for driving wind wheel is fixed on synchronous motor rotating assembly (524)；

Rotatable cam (528) is cased with the axle of synchronous motor rotating assembly (524)；

Eccentric wheel (526) is installed on the axle of synchronous motor (525)；Described eccentric wheel (526) pass through the connecting rod (527) it is connected with cam (528)；

Axle sleeve (529) and connector (521) are also cased with simultaneously on the axle of synchronous motor rotating assembly (524)；Described Connector (521) is fixedly connected with base (511) by nut (512).

8. tower fan according to claim 1, it is characterised in that：

Described upper air duct cap assembly (320) include knob lid (321), are used for being rotatably connected wind wheel component (100) Oiliness bearing (324) and oil-containing bearing support (323)；

Knob lid (321) are fixed on the one end of upper air duct shell (360), and described oil-containing bearing support (323) are fixed In knob lid (321)；Oiliness bearing (324) are fixed on the oil-containing bearing support (323) again.

9. tower fan according to claim 1, it is characterised in that：

Upper air duct Air Filter (367) for preventing external dust from entering upper air duct component (300) is removably attached to On upper air duct shell (360)；

Lower air duct Air Filter (267) for preventing external dust from entering lower air duct component (200) is removably attached to On lower air duct shell (260).