CN205448213U - Air supply mechanism and wind -guiding equipment - Google Patents

Abstract

The utility model discloses an air supply mechanism and wind -guiding equipment, wherein, air supply mechanism includes a plurality of rectangular shape blades, is used for supplying rooting -in of blades's mesochite to and be used for driving a plurality of blade relative movement's drive arrangement, be provided with sliding shaft and axis of rotation on the side of blade one end, the axis of rotation is connected with drive arrangement and is removed along with drive arrangement's rotation, offering the first ventilation hole of intercommunication air supply mechanism air inlet side and air -out side on the mesochite, corresponding the sliding shaft on the mesochite of first ventilation hole periphery and offered first sliding tray, the sliding shaft is installed in first sliding tray to make a plurality of blades keep away from one end around the formation air outlet of axis of rotation, drive arrangement driving vane's axis of rotation moves, and the blade uses the sliding shaft to rotate as the pivot to adjust the size of air outlet. The utility model discloses a setting up of mechanism of blowing makes the regional area of air supply that has the air conditioner of this air supply mechanism adjustable to better satisfy the demand that the user adjusted to air conditioner air supply scope.

Description

Wind pushing mechanism and wind-guiding equipment

Technical field

This utility model relates to wind-guiding technical field, particularly to a kind of wind pushing mechanism and wind-guiding equipment.

Background technology

The size of the air outlet of existing air-conditioner is non-adjustable so that the adjustability of air-conditioner air-supply region area is poor, it is difficult to meet the demand that air-conditioner blowing range is regulated by user.

Utility model content

Main purpose of the present utility model is to provide a kind of wind pushing mechanism, it is intended to convenient is controlled air supply areas.

For achieving the above object, the wind pushing mechanism that the utility model proposes includes some strip blades, for installing the mesochite of described blade, and for driving the driving means of relative movement between described blade；

The length direction arrangement along described blade of sliding axle and rotary shaft, described sliding axle and described rotary shaft it is provided with on the side of described blade one end；

Described rotary shaft is connected with described driving means and mobile with the rotation of described driving means；

The described wind pushing mechanism inlet side of connection and the first air vent of air side is offered on described mesochite, on the described mesochite of described first air vent periphery, corresponding described sliding axle offers the first sliding tray, described sliding axle is installed in described first sliding tray so that some described blades away from described rotary shaft one end around formed air outlet；

Described driving means drives the rotary shaft of described blade to move, and described blade is with sliding axle as axis of rotation, to regulate the size of described air outlet.

Preferably, the straight line intersection at all described first sliding tray length direction places is in a bit.

Preferably, all described first sliding trays are uniformly along same circle distribution, and the center of circle that the extended line of described first sliding tray is by described circumference.

Preferably, described wind pushing mechanism also includes that fore shell, the side that described fore shell is provided with described sliding tray with described mesochite are connected；Corresponding described first air vent of described fore shell offers the second air vent, described first air vent and described second air vent coaxial line；

Described rotary shaft and described sliding axle all run through described blade, and on described fore shell, corresponding described rotary shaft offers slide rail, and described rotary shaft is installed in described slide rail away from one end of described driving means；

On described fore shell, corresponding described sliding axle offers the second sliding tray, and described sliding axle is installed in described second sliding tray away from one end of described first sliding tray.

Preferably, described driving means includes gear ring, and described gear ring offers axis hole towards the corresponding described rotary shaft in side of described blade, and described rotary shaft is arranged in described axis hole away from one end of described blade.

Preferably, described driving means also includes driving gear；Being provided with driven tooth on all sides of described gear ring, the corresponding described driven tooth of described driving gear arranges to drive described gear ring to rotate.

Preferably, described driving means also includes gear motor and for installing the electric machine support of described gear motor；Described electric machine support and described mesochite cooperatively form installing space, described driving gear and described gear ring away from the side of described first sliding tray and are mounted in described installing space.

Preferably, described wind pushing mechanism also includes back cover, and described back cover and described mesochite are connected formation receiving space away from one end of blade；Described driving gear, gear ring, gear motor and electric machine support are mounted in described receiving space；

On described back cover, corresponding described first air vent is provided with third venting hole, and described third venting hole connects with described first air vent.

Preferably, described wind pushing mechanism also includes that ajutage, one end of described ajutage connect with wind regime, and the other end connects with described air outlet.

Preferably, described wind pushing mechanism also includes that wind-guiding support, described wind-guiding support have the first revolution space rotated for described mesochite；On described mesochite, the first radial direction along described ajutage is provided with the first rotary shaft, and described first rotary shaft is rotationally connected with the sidewall of described first revolution space.

Preferably, described wind pushing mechanism also includes that fixed mount, described fixed mount have the second revolution space for described wind-guiding holder pivots；On described wind-guiding support, the second radial direction along described ajutage is provided with the second rotary shaft, and described second rotary shaft is arranged in a mutually vertical manner with described first rotary shaft, and described second rotary shaft is rotationally connected with the sidewall of described second revolution space.

Preferably, described wind pushing mechanism also includes the first rotary electric machine driving described first rotary shaft, and in order to drive the second rotary electric machine of described second rotary shaft；Corresponding described first rotary shaft of described first rotary electric machine is installed on described back cover, and corresponding described second rotary shaft of described second rotary electric machine is installed on described fixed mount.

This utility model is it is further proposed that a kind of wind-guiding equipment, and this wind-guiding equipment includes that wind pushing mechanism, described wind pushing mechanism connect with the exhaust air flue of described wind-guiding equipment, and described wind-guiding equipment is air-conditioner, hair-dryer, fan, air cooler or air purifier；

Wherein, described wind pushing mechanism includes some strip blades, the mesochite installed for the described blade of confession, and for driving the driving means of some described blade relative movements；It is provided with sliding axle and rotary shaft on the side of described blade one end；Described rotary shaft is connected with described driving means and mobile with the rotation of described driving means；The described wind pushing mechanism inlet side of connection and the first air vent of air side is offered on described mesochite, on the described mesochite of described first air vent periphery, corresponding described sliding axle offers the first sliding tray, described sliding axle is installed in described first sliding tray so that some described blades away from described rotary shaft one end around formed air outlet；Described driving means drives the rotary shaft of described blade to move, and described blade is with sliding axle as axis of rotation, to regulate the size of described air outlet.

This utility model, setting by some blades, driving means and mesochite, the one end making each blade forms crank block structure, the other end of some blades surrounds air outlet, blade is made to realize the adjustment to air outlet size during rotating around sliding axle and move along the first sliding tray, so that the air-supply region area with the air-conditioner of this wind pushing mechanism is adjustable, thus better meet the demand that air-conditioner blowing range is regulated by user.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the structure shown in these accompanying drawings.

Fig. 1 is the structural representation of this utility model wind pushing mechanism one embodiment；

Fig. 2 is the structural representation of this utility model another embodiment of wind pushing mechanism；

Fig. 3 is the structural representation of another angle of Fig. 2；

Fig. 4 is the structural representation of this utility model wind pushing mechanism mesochite；

Fig. 5 is the structural representation of this utility model wind pushing mechanism gear ring；

Fig. 6 is the structural representation of this utility model wind pushing mechanism fore shell；

Fig. 7 is the structural representation of the another embodiment of this utility model wind pushing mechanism；

Fig. 8 is the structural representation of this utility model wind pushing mechanism another embodiment.

Drawing reference numeral illustrates:

Label	Title	Label	Title
				100	Mesochite	110	Installing plate
120	First sliding tray	130	First rotary shaft
				200	Blade	210	Sliding axle
220	Rotary shaft	300	Driving means
				310	Gear ring	311	Axis hole
312	Tooth section	320	Drive gear
				330	Gear motor	340	Electric machine support
400	Fore shell	410	Second sliding tray
				420	Slide rail	430	Screw pole
500	Ajutage	510	Locating part
				600	Back cover	700	Wind-guiding support
710	First rotary electric machine	800	Fixed mount
				810	Second rotary electric machine

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

Need explanation, in this utility model embodiment, directional instruction (such as up, down, left, right, before and after ...) is only used for explanation relative position relation under a certain particular pose (as shown in drawings) between each parts, motion conditions etc., if this particular pose changes, then directionality instruction changes the most therewith.

It addition, the description relating to " first ", " second " etc. in this utility model is only used for describing purpose, and it is not intended that indicate or imply its relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature.Additionally; technical scheme between each embodiment can be combined with each other; but must be based on those of ordinary skill in the art are capable of; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this technical scheme does not exists, the most not this utility model require protection domain within.

The utility model proposes a kind of wind pushing mechanism.

Referring to figs. 1 through the structural representation that Fig. 4, Fig. 1 are this utility model wind pushing mechanism one embodiment；Fig. 2 is the structural representation of this utility model another embodiment of wind pushing mechanism；Fig. 3 is the structural representation of another angle of Fig. 2；Fig. 4 is the structural representation of this utility model wind pushing mechanism mesochite.

In this utility model embodiment, this wind pushing mechanism includes some strip blades 200, the mesochite 100 installed for the described blade 200 of confession, and for driving the driving means 300 of some described blades 200 relative movement.The length direction arrangement along described blade 200 of sliding axle 210 and rotary shaft 220, described sliding axle 210 and described rotary shaft 220 it is provided with on the side of described blade 200 one end.Described rotary shaft 220 is connected with described driving means 300 and mobile with the rotation of described driving means 300.The described wind pushing mechanism inlet side of connection and the first air vent of air side is offered on described mesochite 100, on the described mesochite 100 of described first air vent periphery, corresponding described sliding axle 210 offers the first sliding tray 120, described sliding axle 210 is installed in described first sliding tray 120 so that some described blades 200 away from described rotary shaft 220 one end around formed air outlet.Described driving means 300 drives the rotary shaft 220 of described blade 200 to move, and described blade 200 is with sliding axle 210 as axis of rotation, to regulate the size of described air outlet.

Specifically, in the present embodiment, blade 200 is strip thin slice, and the linear of blade 200 edge can be the shapes such as linear, arc-shaped or waveform, in the present embodiment as a example by smooth camber line.It is provided with rotary shaft 220 and sliding axle 210, rotary shaft 220 and sliding axle 210 on the plate face of blade 200 one end and is each perpendicular to the plate face of blade 200, and extend towards the direction away from blade 200.The energy of driving means 300, by being connected with driving means 300, is transferred to blade 200 by rotary shaft 220, makes blade 200 rotate with sliding axle 210 for axle.During blade 200 rotates, its energy rotated slides along the first sliding tray 120 during rotating from rotary shaft 220, sliding axle 210.Mesochite 100 is frustum of a cone housing, and one end that its diameter is less is provided with installing plate 110.First air vent is circular port, the axis of the first air vent and the axis collinear of mesochite 100.First sliding tray 120 is opened on installing plate 110 uniformly with the center of circle of the first air vent for the center of circle, and the corresponding sliding axle 210 of the first sliding tray 120 is offered, and the first sliding tray 120 is waist type groove.In the present embodiment, wind pushing mechanism includes that six blades 200, the sliding axle 210 of each blade 200 are arranged in the first sliding tray 120, and six blades 200 surround air outlet away from one end of sliding axle 210.The edge of air outlet is made up of the curved edge of six blades 200.The structure of driving means 300 has a lot, such as gear structure, bar linkage structure etc., only rotary shaft 220 need to be driven to rotate.When driving means 300 drives six blades 200 to rotate, the area of air outlet becomes larger, and when driving means 300 drives six blades 200 to rotate in the opposite direction, the area of air outlet is gradually reduced.

In the present embodiment, by some blades 200, driving means 300 and the setting of mesochite 100, the one end making each blade 200 forms crank block structure, the other end of some blades 200 surrounds air outlet, blade 200 is made to realize the adjustment to air outlet size during rotating around sliding axle 210 and moving along the first sliding tray 120, so that the air-supply region area with the air-conditioner of this wind pushing mechanism is adjustable, thus better meet the demand that air-conditioner blowing range is regulated by user.

Further, with reference to the structural representation that Fig. 5 to Fig. 6, Fig. 5 are this utility model wind pushing mechanism gear ring 310；Fig. 6 is the structural representation of this utility model wind pushing mechanism fore shell 400.On the basis of above-described embodiment, the straight line intersection at all described first sliding tray 120 length direction places is in a bit.In the present embodiment, the first sliding tray 120 is straight-line groove, naturally it is also possible to for arcuate groove, during for arcuate groove, the bearing of trend of arcuate groove meets at same point.The straight line intersection at all first sliding tray 120 places crosses same point in same point, the straight line at the track place that even dry-charged plates axle 210 moves.The first some sliding trays 120 can be along different shape arrangements, such as circle, ellipse, square, polygon etc..Wherein as a example by circle, specifically, some described first sliding trays 120 are uniformly along same circle distribution, and the center of circle that the extended line of described first sliding tray 120 is by described circumference.In this embodiment, the sliding axle 210 of each blade 200 is equal to the distance in the circumference center of circle, and the most each blade 200 same position is equal to the distance in the circumference center of circle, and during blade 200 moves and rotates, air outlet zooms in or out uniformly.

In the present embodiment, by some blades 200 are arranged on same circumference, some blades 200 are made to be uniformly coordinated motion, make air outlet become big or diminish simultaneously, the adjustment making air outlet size is more uniform, be conducive to preferably controlling the size of air outlet, thus advantageously control the air-out area of air-conditioner in user.

Further, with reference to Fig. 5 and Fig. 6, described wind pushing mechanism also includes that fore shell 400, the side that described fore shell 400 is provided with described sliding tray with described mesochite 100 are connected.Corresponding described first air vent of described fore shell 400 offers the second air vent, described first air vent and described second air vent coaxial line.Described rotary shaft 220 and described sliding axle 210 all run through described blade 200, and on described fore shell 400, corresponding described rotary shaft 220 offers slide rail 420, and described rotary shaft 220 is installed in described slide rail 420 away from one end of described driving means 300.On described fore shell 400, corresponding described sliding axle 210 offers the second sliding tray 410, and described sliding axle 210 is installed in described second sliding tray 410 away from one end of described first sliding tray 120.

Specifically, in the present embodiment, the profile of mesochite 100 is frustum of a cone housing, one end that the shape and size of fore shell 400 are less with mesochite 100 diameter is adaptive, fore shell 400 has circular substrate, and the centre in the plate face of substrate offers the second air vent, the second air vent and the first air vent and is correspondingly arranged.The periphery of the second air vent offers the second sliding tray 410, and the shape and size of the second sliding tray 410 are identical with the shape and size of the first sliding tray 120.After mesochite 100 and fore shell 400 connect, the first sliding tray 120 is concordant with the second sliding tray 410.The mode that fore shell 400 and mesochite 100 connect has a lot, as snapped connection, threaded, glued connection etc..As a example by threaded, at fore shell 400, the side of mesochite 100 being provided with screw pole 430, on mesochite 100, the position of corresponding screw pole 430 offers screw hole, and bolts through bolt holes is threadeded with screw pole 430.Slide rail 420 is ring-shaped guide rail, and certainly, the shape of slide rail 420 can also be segmental arc in certain embodiments, and the motion track of the corresponding rotary shaft 220 of slide rail 420 is arranged.The width of slide rail 420 and rotary shaft 220 diameter are adaptive, and the degree of depth of slide rail 420 and rotary shaft 220 extend to the length adaptation in slide rail 420, so that rotary shaft 220 can be stablized, reliably, move along the rail accurately.

In the present embodiment, by the setting of fore shell 400, and on fore shell 400, offer second sliding tray 410 corresponding with the first sliding tray 120, so that the movement of sliding axle 210 and rotation are more reliable and more stable；On fore shell 400, the movement locus of corresponding rotary shaft 220 offers guide rail, so that the movement of rotary shaft 220 is more reliable and more stable, so that the movement of blade 200 and rotation are more reliable and more stable, is conducive to the most stable opening and closing controlling air outlet.

On the basis of above-described embodiment, described driving means 300 includes gear ring 310, described gear ring 310 offers axis hole 311 towards the corresponding described rotary shaft 220 in side of described blade 200, and described rotary shaft 220 is arranged in described axis hole 311 away from one end of described blade 200.Described driving means 300 also includes driving gear；Being provided with driven tooth on all sides of described gear ring 310, the corresponding described driven tooth of described driving gear arranges to drive described gear ring 310 to rotate.Described driving means 300 also includes gear motor 330 and for installing the electric machine support 340 of described gear motor 330, described electric machine support 340 and described mesochite 100 cooperatively form installing space, described driving gear and described gear ring 310 away from the side of described first sliding tray 120 and are mounted in described installing space.

Specifically, in the present embodiment, driving means 300 includes two gear motors 330, for installing the electric machine support 340 of gear motor 330, two driving gears and a gear ring 310, being provided with two tooth sections 312 on the lateral wall of gear ring 310, two tooth section 312 intervals are arranged.Driving gear engages with tooth section 312 respectively, and the rotating shaft of gear motor 330 coordinates with driving gear to drive driving gear, and electric machine support 340 is provided with the installation position for installing gear motor 330, and gear motor 330 is installed on electric machine support 340.Electric machine support 340 is annular support, one end that this support is relatively large in diameter with mesochite 100 is connected, driving gear 320, gear motor 330 and gear ring 310 to be arranged between electric machine support 340 and mesochite 100, electric machine support 340, driving gear 320, gear motor 330 and gear ring 310 are installed in mesochite 100 simultaneously.Gear motor 330 is servomotor, and driving gear is spur gear.Gear ring 310 is a section of cylindrical shell, its axis and the dead in line of the first air vent, and gear ring 310 is slidably connected with the medial wall of mesochite 100, and its connected mode has a lot, as arranged the gathering sill etc. of gear ring 310 in mesochite 100.Rotary shaft 220 is inserted in the axis hole 311 of gear ring 310, and mobile with the rotation of gear ring 310, thus drives one section of movement of blade 200, and now, sliding axle 210 rotates and moves along the first sliding tray 120 in the first sliding tray 120 and the second slip.

Certainly, in certain embodiments, on gear ring 310, tooth section 312 can be one section, it is also possible to for multistage, and the quantity of driving gear is determined according to the quantity of tooth section 312 on gear ring 310, and the quantity of gear motor 330 is determined according to the quantity of driving gear；Gear segment can be located on the medial wall of gear ring 310, and now driving gear is also corresponding is arranged in ring.

In the present embodiment, by gear ring 310, drive gear 320, gear motor 330 and the setting of electric machine support 340, the driving making blade 200 is reliable and stable, the position making each blade 200 obtains the restriction of science, so that the regulation of air outlet size is reliable and stable, beneficially user preferably uses air-conditioner.

Further, described wind pushing mechanism also includes back cover 600, described back cover 600 and described mesochite 100 are connected formation receiving space away from one end of blade 200, and described driving gear 320, gear ring 310, gear motor 330 and electric machine support 340 are mounted in described receiving space.On described back cover 600, corresponding described first air vent is provided with third venting hole, and described third venting hole connects with described first air vent.

Specifically, in the present embodiment, one end that the shape and size of back cover 600 and mesochite 100 are relatively large in diameter is adaptive.Third venting hole is opened in the central authorities of back cover 600, the axis in third venting hole and the first air vent and the dead in line of the second air vent.Connect between third venting hole, the second air vent and the first air vent.Back cover 600 has a lot with the connected mode of mesochite 100, as snapped connection, threaded, glued connection etc..In the present embodiment as a example by snapping connection, towards the side of mesochite 100 on the back cover 600 of third venting hole periphery, being provided with some buckles, on mesochite 100, the position of corresponding buckle is provided with button bit, back cover 600 and mesochite 100 being connected by buckle and button bit.After back cover 600 and mesochite 100 connect, the first air vent is only left in the space between back cover 600 and mesochite 100 and third venting leads to outside.Reduce the outside environmental elements impact on driving means 300, the work that beneficially driving means 300 is reliable and stable.

Further, on the basis of above-described embodiment, described wind pushing mechanism also includes that ajutage 500, one end of described ajutage 500 connect with wind regime, and the other end connects with described air outlet.

Specifically, in the present embodiment, ajutage 500 is cylindric body, and the diameter in the diameter of ajutage 500 and the first air vent, the second air vent and third venting hole is adaptive.Certainly, in other embodiments, ventilation duct can also be other shape, such as square, regular polygon etc..One end of ventilation duct connects through the first air vent, the second air vent and third venting hole with air outlet, and the other end connects with wind regime, to guide the wind of wind regime to air outlet.The source of wind regime has a lot, such as air-conditioner, fan, depurator etc..Being provided with locating part 510 on the lateral wall of ventilation duct, the both sides of locating part 510 abut with back cover 600 and mesochite 100 respectively, i.e. locating part 510 is clamped by back cover 600 and mesochite 100.In the present embodiment, locating part 510 is limit rib, and limit rib was around the lateral wall of ajutage 500 one week.

In the present embodiment, by the setting of ajutage 500 so that the wind at wind regime can be transferred to air outlet in the case of loss is less, i.e. ajutage 500 improves the transmission efficiency of wind, beneficially wind pushing mechanism and wind is preferably delivered to the position that user specifies.

Further, on the basis of above-described embodiment, with reference to the structural representation that Fig. 7 and Fig. 8, Fig. 7 are the another embodiment of this utility model wind pushing mechanism；Fig. 8 is the structural representation of this utility model wind pushing mechanism another embodiment.Described wind pushing mechanism also includes that wind-guiding support 700, described wind-guiding support 700 have the first revolution space rotated for described mesochite 100.On described mesochite 100, the first radial direction along described ajutage 500 is provided with the first rotary shaft 130, and described first rotary shaft 130 is rotationally connected with the sidewall of described first revolution space.Described wind pushing mechanism also includes that fixed mount 800, described fixed mount 800 have the second revolution space rotated for described wind-guiding support 700.On described wind-guiding support 700, the second radial direction along described ajutage 500 is provided with the second rotary shaft, and described second rotary shaft is arranged in a mutually vertical manner with described first rotary shaft 130, and described second rotary shaft is rotationally connected with the sidewall of described second revolution space.Described wind pushing mechanism also includes the first rotary electric machine 710 driving described first rotary shaft 130, and in order to drive the second rotary electric machine 810 of described second rotary shaft.Corresponding described first rotary shaft 130 of described first rotary electric machine 710 is installed on described back cover 600, and corresponding described second rotary shaft of described second rotary electric machine 810 is installed on described fixed mount 800.

Specifically, in the present embodiment, in order to make the air supply direction scalable of wind pushing mechanism, it is provided with wind-guiding support 700 and fixed mount 800, wind-guiding support 700 provides the first revolution space that mesochite 100 rotates, and fixed mount 800 provides the second revolution space that wind-guiding support 700 rotates.First rotary shaft 130 and the second rotary shaft are arranged in a mutually vertical manner so that mesochite 100 can universal rotational, thus the air-supply of any angle direction in realizing certain space.Certainly, in certain embodiments, the first rotary shaft 130 and the second rotary shaft also can be arranged at an angle, arbitrarily angled between 0 degree to 90 degree of the scope of this angle.First rotary shaft 130 includes the first linkage section being connected with the first rotary electric machine 710 and is rotationally connected the first construction section with wind-guiding support 700, in like manner, the second rotary shaft includes the second linkage section being connected with the second rotary electric machine 810 and is rotationally connected the second construction section with fixed mount 800.Such as the rectangular coordinate system set up in Fig. 7, the first rotary electric machine 710 drives mesochite 100 to rotate with X-axis for axis, and the second rotary electric machine 810 drives wind-guiding support 700 to rotate with Y-axis for axis.It addition, fixed mount 800 has, and wind pushing mechanism is installed fixing mounting structure, wind pushing mechanism can be installed the position specified to user by this mounting structure.

In the present embodiment, by wind-guiding support 700 and the setting of fixed mount 800 so that the wind multi-angle after air-conditioner heat exchange can be sent by wind pushing mechanism, and beneficially user preferably controls air-out direction, to meet the demand of user.

This utility model also proposes a kind of wind-guiding equipment, this wind-guiding equipment has exhaust air flue and wind pushing mechanism, the concrete structure of this wind pushing mechanism is with reference to above-described embodiment, owing to this wind-guiding equipment have employed whole technical schemes of above-mentioned all embodiments, the most at least having all beneficial effects that the technical scheme of above-described embodiment is brought, this is no longer going to repeat them.Wherein, wind pushing mechanism connects with exhaust air flue, and the wind in wind-guiding equipment exhaust air flue is guided the position specified to user by wind pushing mechanism.Described wind-guiding equipment can be air-conditioner, hair-dryer, fan, air cooler or air purifier etc..

In the present embodiment, can be by wind pushing mechanism modularity, can arrange at same room diverse location according to actual needs and wind pushing mechanism is set, so that the air outlet angle of wind-guiding equipment and scope can regulate more freely, can also control to be turned on and off corresponding wind pushing mechanism by Feedback Mechanism simultaneously, realize multiple spot air-supply, and then reach the air-supply effect of efficient energy-saving.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every under inventive concept of the present utility model; utilize the equivalent structure transformation that this utility model description and accompanying drawing content are made, or directly/be indirectly used in other relevant technical fields and be included in scope of patent protection of the present utility model.

Claims (13)

1. a wind pushing mechanism, it is characterised in that include some strip blades, for installing the mesochite of described blade, and for driving the driving means of relative movement between described blade；

The length direction arrangement along described blade of sliding axle and rotary shaft, described sliding axle and described rotary shaft it is provided with on the side of described blade one end；

Described rotary shaft is connected with described driving means and mobile with the rotation of described driving means；

The described wind pushing mechanism inlet side of connection and the first air vent of air side is offered on described mesochite, on the described mesochite of described first air vent periphery, corresponding described sliding axle offers the first sliding tray, described sliding axle is installed in described first sliding tray so that some described blades away from described rotary shaft one end around formed air outlet；

Described driving means drives the rotary shaft of described blade to move, and described blade is with described sliding axle as axis of rotation, to regulate the size of described air outlet.

2. wind pushing mechanism as claimed in claim 1, it is characterised in that the straight line intersection at all described first sliding tray length direction places is in a bit.

3. wind pushing mechanism as claimed in claim 2, it is characterised in that all described first sliding trays are uniformly along same circle distribution, and the center of circle that the extended line of described first sliding tray is by described circumference.

4. wind pushing mechanism as claimed in claim 1, it is characterised in that described wind pushing mechanism also includes that fore shell, the side that described fore shell is provided with described sliding tray with described mesochite are connected；Corresponding described first air vent of described fore shell offers the second air vent, described first air vent and described second air vent coaxial line；

Described rotary shaft and described sliding axle all run through described blade, and on described fore shell, corresponding described rotary shaft offers slide rail, and described rotary shaft is installed in described slide rail away from one end of described driving means；

On described fore shell, corresponding described sliding axle offers the second sliding tray, and described sliding axle is installed in described second sliding tray away from one end of described first sliding tray.

5. wind pushing mechanism as claimed in claim 1, it is characterised in that described driving means includes gear ring, described gear ring offers axis hole towards the corresponding described rotary shaft in side of described blade, and described rotary shaft is arranged in described axis hole away from one end of described blade.

6. wind pushing mechanism as claimed in claim 5, it is characterised in that described driving means also includes driving gear；Being provided with driven tooth on all sides of described gear ring, the corresponding described driven tooth of described driving gear arranges to drive described gear ring to rotate.

7. wind pushing mechanism as claimed in claim 6, it is characterised in that described driving means also includes gear motor and for installing the electric machine support of described gear motor；Described electric machine support and described mesochite cooperatively form installing space, described driving gear and described gear ring away from the side of described first sliding tray and are mounted in described installing space.

8. wind pushing mechanism as claimed in claim 7, it is characterised in that described wind pushing mechanism also includes back cover, described back cover and described mesochite are connected away from one end of blade and form receiving space；Described driving gear, gear ring, gear motor and electric machine support are mounted in described receiving space；

On described back cover, corresponding described first air vent is provided with third venting hole, and described third venting hole connects with described first air vent.

9. wind pushing mechanism as claimed in any of claims 1 to 8 in one of claims, it is characterised in that described wind pushing mechanism also includes that ajutage, one end of described ajutage connect with wind regime, and the other end connects with described air outlet.

10. wind pushing mechanism as claimed in claim 9, it is characterised in that described wind pushing mechanism also includes that wind-guiding support, described wind-guiding support have the first revolution space rotated for described mesochite；On described mesochite, the first radial direction along described ajutage is provided with the first rotary shaft, and described first rotary shaft is rotationally connected with the sidewall of described first revolution space.

11. wind pushing mechanisms as claimed in claim 10, it is characterised in that described wind pushing mechanism also includes that fixed mount, described fixed mount have the second revolution space for described wind-guiding holder pivots；On described wind-guiding support, the second radial direction along described ajutage is provided with the second rotary shaft, and described second rotary shaft is arranged in a mutually vertical manner with described first rotary shaft, and described second rotary shaft is rotationally connected with the sidewall of described second revolution space.

12. wind pushing mechanisms as claimed in claim 8, it is characterised in that described wind pushing mechanism also includes that ajutage, one end of described ajutage connect with wind regime, and the other end connects with described air outlet；

Described wind pushing mechanism also includes that wind-guiding support, described wind-guiding support have the first revolution space rotated for described mesochite；On described mesochite, the first radial direction along described ajutage is provided with the first rotary shaft, and described first rotary shaft is rotationally connected with the sidewall of described first revolution space；

Described wind pushing mechanism also includes that fixed mount, described fixed mount have the second revolution space for described wind-guiding holder pivots；On described wind-guiding support, the second radial direction along described ajutage is provided with the second rotary shaft, and described second rotary shaft is arranged in a mutually vertical manner with described first rotary shaft, and described second rotary shaft is rotationally connected with the sidewall of described second revolution space；

Described wind pushing mechanism also includes the first rotary electric machine driving described first rotary shaft, and in order to drive the second rotary electric machine of described second rotary shaft；Corresponding described first rotary shaft of described first rotary electric machine is installed on described back cover, and corresponding described second rotary shaft of described second rotary electric machine is installed on described fixed mount.

13. 1 kinds of wind-guiding equipment, it is characterized in that, including weighed the wind pushing mechanism required as described in any one in 1 to 12, described wind pushing mechanism connects with the exhaust air flue of described wind-guiding equipment, and described wind-guiding equipment is air-conditioner, hair-dryer, fan, air cooler or air purifier.