CN103542506B - Transmission device and air conditioner - Google Patents

Abstract

The invention discloses a transmission device and an air conditioner comprising the transmission device. The transmission device comprises a first connecting rod, a second connecting rod, air guiding blades and a horizontal transmission mechanism. A second sliding part of the second connecting rod is slidably connected with a first sliding part of the first connecting rod, and the horizontal transmission mechanism drives the air guiding blades connected to the second connecting rod to perform lateral deflection through the first connecting rod. When the air guiding blades perform longitudinal movement up and down in air outlet, the air guiding blades are adjusted to the appropriate position according to a running mode of the air conditioner so as to overcome influence on wind direction adjustment caused by adjustment of density difference between air flow and indoor air. Simultaneously, when left and right swing is not needed, the air guiding blades can all descend into an air conditioner base below the air outlet to be hidden; simultaneously, when swing is not needed, the air guiding blades can move downwards until the air guiding blades are hidden; the air conditioner is intelligently controlled to supply air in a three-dimensional mode through the transmission device, manual poking is not needed, and accidents in the operation process are avoided.

Description

A kind of actuating device and air-conditioning

Technical field

The present invention relates to a kind of actuating device of field of air conditioning, more particularly, to air-conditioning and the air-conditioning including this actuating device.

Background technology

The wind guiding mechanism of the indoor set of wall-hanging air conditioner is divided into longitudinal wind deflector and horizontal wind guide vane, in air-supply, permissible Respectively upper and lower and left and right wind direction is adjusted with horizontal wind guide vane by longitudinal wind deflector.

In the prior art, as shown in Figures 1 and 2, Fig. 1 is the structural representation of linkage one embodiment in prior art Figure；Fig. 2 is the structural representation of horizontal wind guide vane one embodiment of linkage in prior art；Laterally wind guide vane 1001 passes through Connecting rod 1002 connects in groups, is arranged on the side of air outlet, to realize left and right directions by the mode of manually adjustment position Airflow direction changes, and the Main Function of air-conditioning inside connecting rod is to connect in groups scattered horizontal wind guide vane, if desired realizes air-conditioning Left and right pendulum wind it is necessary to manually stir connecting rod, drive horizontal wind guide vane deflect, when using its position of manual change, The finger of people does not slightly note touching the axial-flow fan of air-conditioning, leads to finger injuries.

And longitudinal direction wind deflector is typically curved, it is arranged on the air outlet of air-conditioning by rotary shaft, described rotary shaft is usual It is fastened in the connecting rod ganging up horizontal wind guide vane, because the leaving air temp of air-conditioning is change, by thermal shock and gravitional force Impact, the assembling structure of longitudinal wind deflector and connecting rod is very easy to lose efficacy, thus leading to dropping of longitudinal wind deflector, and manually When stirring connecting rod, also easily cause coming off of longitudinal wind deflector.

Meanwhile, when air conditioner refrigerating runs, the density of air-conditioning air-flow is more than the density of space air, now, air-supply Air-flow sinks, and affects the adjustment to wind direction for the horizontal wind guide vane, needs horizontal wind guide vane to move down and is sent with preferably carrying out three-dimensional Wind；When air-conditioning heating runs, the density of air-conditioning air-flow is less than space air density, and now, air-supply air-flow floats upwards, Affect the adjustment to wind direction for the horizontal wind guide vane, need wind blade to move up preferably to carry out three-dimensional blowing, but existing In technology, horizontal wind guide vane is arranged on the top of air outlet, and cannot be carried out lifting the adjustment making horizontal wind guide vane to wind direction More accurate.

Content of the invention

The main object of the present invention is the air-conditioning providing a kind of actuating device and comprising this actuating device, described actuating device Including the second connecting rod of first connecting rod and slip relative with described first connecting rod, when air-conditioning wind blade in air outlet on, Under when vertically moving, due to being slidably connected of described first connecting rod and described second connecting rod, described second connecting rod can be followed described Wind blade moves up and down, and described wind blade can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome tune The impact that density variation between solar term stream and room air is brought to wind direction adjustment.Meanwhile, when not needing left and right pendulum wind, It is also possible that state in the base plate of air conditioner that wind blade all drops to below air outlet hiding；And described actuating device achieves Intelligent control air-conditioning three-dimensional blowing is it is not necessary to manually stir, it is to avoid the accident in operating process occurs.And described actuating device Achieve intelligent control air-conditioning three-dimensional blowing it is not necessary to manually stir, it is to avoid the accident in operating process occurs.

The present invention provides a kind of actuating device, comprising:

First connecting rod, including drive rod, the first sliding part of being arranged at described drive rod one end；

Second connecting rod, including the second sliding part being arranged at described second connecting rod one end, described second sliding part with described First sliding part is slidably connected, and described second sliding part can rotate against with described first sliding part；

Wind blade, is rotatably connected in described second connecting rod；

Transverse transmission mechanism, is connected with one end of described drive rod, is automatically connected in described by described first connecting rod band Described wind blade lateral deflection in described air outlet on two connecting rods.

Preferably, described first sliding part is the slide bar vertical with described drive rod；Described second sliding part be with described The collar of the first sliding part adaptation.

Preferably, described slide bar is cylinder, and the internal ring of the described collar is adapted to the external diameter of described slide bar.

Preferably, the side away from described second connecting rod on the described collar, is provided with installing port.

Preferably, the quantity of the described collar is two or more.

Preferably, described first connecting rod also includes supporting part, and described supporting part is roughly parallel to described slide bar, and is located at institute State the side away from described second connecting rod for the slide bar.

Preferably, described supporting part is l shape, and its one end is fixedly connected on the bottom surface of described drive rod, and the other end is fixing even It is connected to the bottom of described slide bar.

Preferably, described transverse transmission mechanism includes crank and the first motor, and described crank one end is rotatably connected in described First motor, one end is rotatably connected in described drive rod.

Preferably, also include being connected to longitudinal drive mechanism of described wind blade, when described longitudinal drive mechanism drives When described wind blade vertically moves in the air outlet of described air-conditioning, described second sliding part is along described first sliding part longitudinally Slide.

The present invention also provides a kind of air-conditioning, and described air-conditioning comprises described actuating device.

Actuating device of the present invention includes: first connecting rod, including drive rod, be arranged at described drive rod one end first slip Portion；Second connecting rod, including the second sliding part being arranged at described second connecting rod one end, described second sliding part is sliding with described first Dynamic portion is slidably connected, and described second sliding part can rotate against with described first sliding part；Wind blade, is rotatably connected in institute State second connecting rod；Transverse transmission mechanism, is connected with one end of described drive rod, is automatically connected in described by described first connecting rod band Described wind blade lateral deflection in described air outlet on second connecting rod.The wind blade of air-conditioning of the present invention is in air outlet Upper and lower when vertically moving, due to being slidably connected of described first connecting rod and described second connecting rod, described second connecting rod can follow institute State wind blade to move up and down, described wind blade can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome Adjust the impact that the density variation between air-flow and room air is brought to wind direction adjustment.Meanwhile, do not needing left and right pendulum wind When, it is also possible that state in the base plate of air conditioner that wind blade all drops to below air outlet hiding；And described actuating device is real Show intelligent control air-conditioning three-dimensional blowing it is not necessary to manually stir, it is to avoid the accident in operating process occurs.

Brief description

Fig. 1 is the structural representation of linkage one embodiment in prior art；

Fig. 2 is the structural representation of horizontal wind guide vane one embodiment of linkage in prior art；

Fig. 3 is the structural representation of actuating device one embodiment of the present invention；

Fig. 4 is another viewing angle constructions view of actuating device shown in Fig. 3；

Fig. 5 is the part-structure schematic diagram of actuating device shown in Fig. 3；

Fig. 6 is second connecting rod one example structure schematic diagram of actuating device of the present invention；

Fig. 7 is the structural representation of third connecting rod one embodiment of actuating device of the present invention；

Fig. 8 is the structural representation of wind blade one embodiment of actuating device of the present invention；

Fig. 9 is the structural representation of air-conditioning first embodiment of the present invention；

Figure 10 is the part-structure schematic diagram of air-conditioning shown in Fig. 9；

Figure 11 is another part structural representation of air-conditioning shown in Fig. 9；

Figure 12 is the another part-structure schematic diagram of air-conditioning shown in Fig. 9；

Figure 13 is that the wind blade of air-conditioning is in the structural representation of air outlet tip position；

Figure 14 is that the wind blade of air-conditioning is in the structural representation of air outlet bottom position；

Figure 15 is the sectional view of Figure 13；

Figure 16 is the sectional view of Figure 14；

Figure 17 is that the wind blade of air-conditioning second embodiment of the present invention drops to the sectional view in base；

Figure 18 is the flow chart of control method one embodiment of air-conditioning of the present invention.

The realization of the object of the invention, functional characteristics and advantage will be described further in conjunction with the embodiments referring to the drawings.

Specific embodiment

Further illustrate technical scheme below in conjunction with Figure of description and specific embodiment.It should be appreciated that this The described specific embodiment in place, only in order to explain the present invention, is not intended to limit the present invention.

The present invention provides a kind of actuating device.

With reference to Fig. 3 to Fig. 6, Fig. 3 is the structural representation of actuating device one embodiment of the present invention；Fig. 4 is transmission shown in Fig. 3 Another viewing angle constructions view of device；Fig. 5 is the part-structure schematic diagram of actuating device shown in Fig. 3；Fig. 6 is the present invention Second connecting rod one example structure schematic diagram of actuating device；The present embodiment actuating device includes first connecting rod 10, second connecting rod 20th, wind blade 30 and transverse transmission mechanism 40.

Described first connecting rod 10 includes drive rod 101, is arranged at first sliding part 102 of described drive rod 101 one end；Institute State second connecting rod 20 and include being arranged at second sliding part 201 of described second connecting rod 20 one end, described second sliding part 201 and institute State the first sliding part 102 to be slidably connected, and described second sliding part 201 can rotate against with described first sliding part 102；This In bright preferred embodiment, described first sliding part 102 is the slide bar vertical with described drive rod 101；And as shown in Figure 3, In the present embodiment, the bottom of described drive rod 101 is fixed on the top of described slide bar, but in the present invention it is also possible to be set to The top of described drive rod 101 is fixed in the bottom of described slide bar.Described second sliding part 201 is and described first sliding part The collar of 102 adaptations.In the same manner, in another embodiment of the invention, described second sliding part 201 is and described second connecting rod 20 Vertical slide bar；Described first sliding part 102 is the collar being adapted to described second sliding part 201.

Further, described slide bar is cylinder, and the internal ring of the described collar is adapted to the external diameter of described slide bar, the described collar Internal diameter is slightly larger than described slide bar external diameter, and the described collar after assembling along described sliding bar, and can be able to rotate against between the two. Meanwhile, the side away from described second connecting rod 20 on the described collar, is provided with installing port 2011, is installed the described collar with facilitating To described slide bar.The quantity of the described collar be two or more so that uniform force, and it is more smart to move up and down the control in direction Really.When described second connecting rod 20 is subject to upper and lower pulling force upwards, described second sliding part 201 is along described first sliding part 102 move up and down, in the present invention, described move up and down refer to upper and lower as shown in Figure 4 to movement.

As shown in Fig. 3 is to 6, described wind blade 30 is rotatably connected in described second connecting rod 20；Due to described wind blade 30 are limited by described second installing hole 302, therefore when described second connecting rod 20 is driven by described first connecting rod 10, described wind-guiding Blade 30 is laterally pulled with described second connecting rod 20, and when the second sliding part 201 of described second connecting rod 20 is with described first During sliding part 102 upper and lower slip, described wind blade 30 moves up and down therewith.

Described transverse transmission mechanism 40 is connected with one end of described drive rod 101, described transverse transmission mechanism 40 pass through according to The described first connecting rod 10 of secondary connection, described second connecting rod 20 drive described wind blade 30 horizontal in the air outlet of described air-conditioning To deflection, in the present invention, described lateral deflection refers to the deflection in left and right direction as shown in Figure 4.Above-mentioned air outlet refers to set Put in heat exchanger front end, for discharging through overregulating the outlet of the air of (freeze, heat, humidifying), i.e. the air-supply of air-conditioning Mouthful.In addition, as shown in figure 9, indoor apparatus of air conditioner generally utilizes wind deflector 11 to close air outlet in a non-operative state.

Further, as shown in figure 3, described first connecting rod 10 also includes supporting part 103, described supporting part 103 is substantially flat Row is in described slide bar, and is located at the side away from described second connecting rod 20 for the described slide bar, for supporting described slide bar, the present embodiment In, described supporting part 103 is l shape, and its one end is fixedly connected on the bottom surface of described drive rod 101, and the other end is fixedly connected on institute State the bottom of slide bar, make the connection of described slide bar more firm.

Further, as shown in figure 5, in the present embodiment, described transverse transmission mechanism 40 includes crank 401 and the first electricity Machine 402, described crank 401 one end is rotatably connected in described first motor 402, and one end is rotatably connected in described drive rod 101, institute State crank 401 and be ± 15 degree with the relative range of deflection angles of described first motor 402.Described first motor 402 drives described Crank 401 moves, and the direction of motion of described crank 401 is to contrary both direction rotation, and described transverse transmission mechanism 40 On be additionally provided with block, the range of movement of described crank 401 is limited, in the present embodiment, the range of movement of restriction ± 15 degree it Between it is clear that the present invention be not limited to above-mentioned range of movement or ± 20 degree, ± 10 degree etc., as long as can reach make described The angle of wind blade 30 lateral deflection meets demand.Certainly, transverse transmission mechanism 40 can also be existing using other First connecting rod 10 and the left and right toggle moving back and forth of second connecting rod 20 can be driven.

Described actuating device also includes being connected to longitudinal drive mechanism 50 of described wind blade 30, is longitudinally driven when described When mechanism 50 drives described wind blade 30 to vertically move in the air outlet of described air-conditioning, described second sliding part 201 is along institute State the first sliding part 102 longitudinal sliding motion；That is, described longitudinal drive mechanism 50 drives described wind blade 30 to move up and down, this When, because described wind blade 30 is rotatably connected in described second connecting rod 20, described second connecting rod 20 is with described wind blade 30 Move up and down, thus, described second sliding part 201 is along the longitudinal sliding motion of described first sliding part 102.Now, described wind blade 30 positions in the air outlet of described air-conditioning are changed, and described wind blade 30 can be at the bottom of air outlet and two, top Move between position, when not needing left and right pendulum wind, wind blade 30 all can also be dropped to the air-conditioning below air outlet Hide in base 13, therefore, described wind blade 30 can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome Adjust the impact that the density variation between air-flow and room air is brought to wind direction adjustment.Above-mentioned wind blade 30 is in air outlet Vertically move refer to wind blade 30 can by near air outlet bottom position be moved adjacent to air outlet top position or Person is moved adjacent to the position of air outlet bottom by the position near air outlet top, upper and lower as shown in Figure 4 to.As Shown in Figure 13 to Figure 17, Figure 13 is that the wind blade of air-conditioning is in the structural representation of air outlet tip position；Figure 14 is air-conditioning Wind blade be in the structural representation of air outlet bottom position；Figure 15 is the sectional view of Figure 13；Figure 16 is the section view of Figure 14 Figure.When air-conditioning heating runs, the bottom that longitudinal drive mechanism 50 drive wind blade 30 moves to air-conditioner air outlet is (i.e. close The position of base), wind blade 30 location as shown in Figure 14 and Figure 16；When air conditioner refrigerating runs, longitudinal driver Structure 50 drives wind blade 30 to move to the top of air-conditioner air outlet, the position residing for wind blade 30 as shown in Figure 13 and Figure 15 Put；When not needing left and right pendulum wind, longitudinal drive mechanism 50 can also drive the accommodated inside that wind blade 30 moves down into base In space, until wind blade Hide All is in base, as shown in figure 17, Figure 17 is leading of air-conditioning second embodiment of the present invention Air blade drops to the sectional view in base, now needs to be provided for housing second connecting rod 20 and wind-guiding on described base 13 The opening of blade 30.

The invention provides a kind of air-conditioning, described air-conditioning comprises above-mentioned actuating device.

With reference to Fig. 3 to Fig. 9, Fig. 7 is the structural representation of third connecting rod one embodiment of actuating device of the present invention；Fig. 8 is The structural representation of wind blade one embodiment of actuating device of the present invention；Fig. 9 is the structure of air-conditioning first embodiment of the present invention Schematic diagram；As shown in Figures 3 to 8, described air-conditioning includes wind blade 30 and longitudinal drive mechanism 50, described longitudinal direction to the present embodiment Drive mechanism 50 drives described wind blade 30 to vertically move in the air outlet of described air-conditioning.In the present embodiment, described longitudinal direction Drive mechanism 50 drives described wind blade 30 to move between the bottom of described air outlet and top Liang Ge position.Described wind-guiding Blade 30 can be adjusted to suitable position according to the operational mode of air-conditioning, close between regulation air-flow and room air to overcome The impact that degree difference is brought to wind direction adjustment.When air-conditioning heating runs, longitudinal drive mechanism 50 drives wind blade 30 mobile To the bottom of air-conditioner air outlet, wind blade 30 location as shown in Figure 14 and Figure 16；When air conditioner refrigerating runs, longitudinally Drive mechanism 50 drives wind blade 30 to move to the top of air-conditioner air outlet, residing for wind blade 30 as shown in Figure 13 and Figure 15 Position；When not needing left and right pendulum wind, longitudinal drive mechanism 50 can also drive the inside that wind blade 30 moves down into base In accommodation space, until wind blade Hide All is in base.

Described air-conditioning also includes the first installing plate 60, and described wind blade 30 is rotatably connected in described first installing plate 60； Described longitudinal drive mechanism 50 connects described first installing plate 60 and drives described wind blade by described first installing plate 60 30 move in described air outlet；That is, because described wind blade 30 is rotatably connected in described first installing plate 60 and is limited Fixed, therefore when described first installing plate 60 is driven and vertically moves, described wind blade 30 also produces length travel therewith.

Described air-conditioning also includes: first connecting rod 10, second connecting rod 20 and transverse transmission mechanism 40.Described first connecting rod 10 wraps Include the first sliding part 102；Described second connecting rod 20 includes the second sliding part 201, and described second sliding part 201 is sliding with described first Dynamic portion 102 is slidably connected, and described second sliding part 201 can rotate against with described first sliding part 102；The present invention's is preferred Implement for example shown in Fig. 3 to Fig. 7, first connecting rod 10 also includes drive rod 101, and the first sliding part 102 is arranged at drive rod 101 One end, the second sliding part 201 be arranged on second connecting rod 20 near the first sliding part 102 one end, when described second connecting rod 20 when being subject to upper and lower pulling force upwards, and described second sliding part 201 moves up and down along described first sliding part 102.

As shown in Fig. 3 is to 6, described wind blade 30 is rotatably connected in described second connecting rod 20；Due to described wind blade 30 are limited by described second installing hole 302, therefore when described second connecting rod 20 is driven by described first connecting rod 10, described wind-guiding Blade 30 is laterally pulled with described second connecting rod 20, and when the second sliding part 201 of described second connecting rod 20 is with described first During sliding part 102 upper and lower slip, described wind blade 30 moves up and down therewith.

Described transverse transmission mechanism 40 is connected with described first connecting rod 10, is automatically connected in institute by described first connecting rod 10 band State described wind blade 30 lateral deflection in described air outlet on second connecting rod 20.

Further, as shown in figure 5, described transverse transmission mechanism 40 includes crank 401 and the first motor 402, described song Handle 401 one end is rotatably connected in described first motor 402, and one end is rotatably connected in described drive rod 101, described crank 401 with The relative range of deflection angles of described first motor 402 is ± 15 degree.Described first motor 402 drives described crank 401 to move, The direction of motion of described crank 401 is to contrary both direction rotation, and is additionally provided with block on described transverse transmission mechanism 40, The range of movement of described crank 401 is limited, in the present embodiment, the range of movement of restriction is between ± 15 degree it is clear that the present invention Be not limited to above-mentioned range of movement or ± 20 degree, ± 10 degree etc., as long as can reach making described wind blade 30 horizontal The angle of deflection meets demand.

Further, with reference to Fig. 4, in the present embodiment, described first installing plate 60 is provided with the first tooth bar of longitudinal extension 601.Described longitudinal drive mechanism 50 includes gear 501 and the second motor 502 being connected to described gear 501, described gear 501 It is connected with described first tooth bar 601 adaptation.Described second motor 502 drives described gear 501 to rotate, now, due to described One tooth bar 601 is engaged with described gear 501, and therefore, in the case of the rotation of described gear 501, described first tooth bar 601 is therewith Upwardly or downwardly move, thus driving the upper and lower motion of described first installing plate 60, now, due to described wind blade 30 Installation axle 302 is limited by described second installing hole 602, when described first installing plate 60 is driven and vertically moves, described wind-guiding Blade 30 also produces length travel therewith.

Further, described second connecting rod 20 is additionally provided with the first installing hole 202；Described first installing plate 60 is provided with Two installing holes 602；Described wind blade 30 include being rotatably connected in described first installing hole 202 pitman shaft 301 and rotation It is connected to the installation axle 302 of described second installing hole 602；Installation axle 302 due to described wind blade 30 is pacified by described second Dress hole 602 limits, and therefore when described second connecting rod 20 is driven by described first connecting rod 10, described wind blade 30 is by described the Two connecting rods 20 laterally pull, and when described first installing plate 60 is driven and vertically moves, described wind blade 30 also produces therewith Raw length travel.

Further, with reference to Fig. 3, Fig. 4 and Fig. 7, described air-conditioning also includes third connecting rod 70 and the second installing plate 80, described Third connecting rod 70 one end is rotatably connected in described second connecting rod 20, and described third connecting rod 70 is driven by described second connecting rod 20, and Described third connecting rod 70 is provided with the 3rd installing hole 701, and described 3rd installing hole 701 is rotatably connected in described pitman shaft 301；Institute State transverse transmission mechanism 40 to be automatically connected on described second connecting rod 20 and described third connecting rod 70 by described first connecting rod 10 band Described wind blade 30 lateral deflection in described air outlet.As shown in FIG. 6 and 7, described second connecting rod 20 and described Three connecting rods 70 are provided with mounting groove 203, described mounting groove 203 respectively with described first installing hole 202 and described 3rd installing hole 701 communicate, and when being dismounted, described mounting groove 203 facilitates the carrying out of disassembly process.Described first installing plate 60 is provided with First tooth bar 601 of longitudinal extension.Described second installing plate 80 is provided with the second tooth bar 801 of longitudinal extension, described second tooth bar 801 are connected with gear 501 engagement on described longitudinal drive mechanism 50；Described second installing plate 80 is provided with the 4th installing hole 802；Described 4th installing hole 802 is rotatably connected in described installation axle 302；Described longitudinal drive mechanism 50 is pacified by described first Dress plate 60 and described second installing plate 80 drive described wind blade 30 to produce length travel.Peace due to described wind blade 30 Dress axle 302 is limited by described 4th installing hole 802, therefore when described third connecting rod 70 is driven by described second connecting rod 20, institute State wind blade 30 laterally to be pulled by described third connecting rod 70, and when described second installing plate 80 is driven and vertically moves, institute State wind blade 30 and also produce length travel therewith.

Further, as shown in figure 9, the air-conditioning of the present invention also includes wind deflector 11 and is used for driving described wind deflector 11 to revolve The rotary shaft (not shown) turning, described rotary shaft is arranged at the two ends of described wind deflector 11, and described rotary shaft is roughly parallel to Described second connecting rod 20；Described air-conditioning also includes being connected to the 3rd motor (not shown) of described wind deflector 11, in starting of air conditioner During with running, rotary shaft rotation described in described 3rd Motor drive, described rotary shaft drives described wind deflector rotation, opening or Person closes the air outlet of air-conditioning, and additionally it is possible to rotation by described wind deflector 11 under the open mode of described wind deflector 11 Turn and execute upper and lower pendulum wind.

Further, described longitudinal driver 50 is arranged in the base 13 of described air-conditioning with described first installing plate 60, Opening (not shown) is set at the position of corresponding described wind blade 30 on described base 13, described wind blade 30 described go out When vertically moving in air port, described wind blade 30 partially or wholly through described opening enter described base 13 in.As Fig. 8 To shown in Figure 16, Figure 10 is the part-structure schematic diagram of air-conditioning shown in Fig. 9；Figure 11 is another part of air-conditioning shown in Fig. 9 Structural representation；Figure 12 is the another part-structure schematic diagram of air-conditioning shown in Fig. 9；It is sliding that described installation axle 302 is provided with the 3rd Dynamic portion 3021；In the present embodiment, the described base 13 below air-conditioner air outlet is provided with some openings, the position of these openings Corresponding with each described wind blade 30 respectively, described longitudinal drive mechanism 50 and described first installing plate 60 are arranged on described base In cavity in 13, described wind blade 30 is arranged on air outlet, described 3rd sliding part 3021 of described wind blade 30 It is connected with described first installing plate 60 through above-mentioned opening and can vertically move under the driving of longitudinal drive mechanism 50.Further Ground, the edge of described opening forms the wind-guiding fin 12 to air outlet inner projection, and described wind-guiding fin 12 can be to air outlet Air-flow refined.

As shown in figure 17, in the present embodiment, described longitudinal drive mechanism 50 is used for driving described wind blade 30 in institute State and move between base, described air outlet bottom and three, described air outlet top position.That is, described wind blade 30 except Can move outer between the bottom of air outlet and top Liang Ge position, the sky in described base 13 can also be further lowered into In chamber, so that described wind blade 30 all leaves air outlet, it is hidden in base.Because described second connecting rod 20 is horizontal The bar-like member of setting, therefore, except being provided for guiding described wind blade 30 entire lowering to institute on described base 13 State outside the opening in base, there is provision of for guiding described second connecting rod 20 to drop to the opening in described base 13.Work as institute State wind blade 30 and after described second connecting rod 20 takes in described base 13, air outlet all opens wide, and is not needing left and right pendulum wind When can improve air-out effect.

The present invention also provides a kind of control method of air-conditioning.

With reference to Figure 18, Figure 18 is the flow chart of air conditioning control method one embodiment of the present invention.The present invention provides a kind of air-conditioning Control method, move to the air outlet of described air-conditioning according to the wind blade 30 that the operational mode of air-conditioning controls described air-conditioning Bottom or top, adjust, to overcome, the impact that the density variation between air-flow and room air is brought to wind direction adjustment.

The control method of described air-conditioning specifically includes:

S100, when air-conditioning heating runs, control described wind blade to move to the top of described air outlet；As Figure 13 and Shown in Figure 15, when air-conditioning heating runs, the density that air-conditioning adjusts air-flow (air through after heat exchanger heat temperature raising) is less than room Between atmospheric density, adjust air-flow float upwards, control described longitudinal drive mechanism 50 promote described first installing plate 60 to transport upwards Dynamic, thus drive moving on the described wind blade 30 being connected to described first installing plate 60；Meanwhile, described 3rd sliding part 3021 Move along described opening upwards, and drive described second connecting rod 20 to transport upwards along the first sliding part 102 of described first connecting rod 10 Dynamic, now, move on the air guide hole between wind blade 30 described in adjacent two with the regulation air-flow synchronization floating up, thus Make described air-conditioning more accurate for the control of wind direction.

S200, when air conditioner refrigerating runs, control described wind blade to move to the bottom of described air outlet.As Figure 14 and Shown in 16, when air conditioner refrigerating runs, the density that air-conditioning adjusts air-flow (air through after heat exchanger absorbing and cooling temperature) is more than room The density of air, adjusts air-flow and sinks, and controls described longitudinal drive mechanism 50 to pull described first installing plate 60 to move downward, from And drive the described wind blade 30 being connected to described first installing plate 60 to move down；Meanwhile, described 3rd sliding part 3021 is along institute It is mobile to state that Open Side Down, drives described second connecting rod 20 to move downward along the first sliding part 102 of described first connecting rod 10, this When, synchronously move down with the regulation air-flow sinking positioned at the air guide hole between wind blade 30 described in adjacent two, so that described Air-conditioning is more accurate for the control of wind direction.

Further, the operational mode that the control method of described air-conditioning is also included according to air-conditioning controls described wind blade to move Move in the base of described air-conditioning.As shown in Figure 14 and 16, described longitudinal drive mechanism 50 controls the first installing plate 60 to pull institute State wind blade 30 to move downward, that Open Side Down is mobile along described for described 3rd sliding part 3021, drives described wind blade 30 Move downward and move in the base of described air-conditioning.It is shape when described wind blade 30 is partly hidden shown in Figure 14 and 16 State.

Further, when described operation of air conditioner is not when needing the pattern of left and right pendulum wind, control described wind blade overall Move in the base of described air-conditioning.With reference to Figure 17, in the present embodiment, when described operation of air conditioner is in the mould not needing left and right pendulum wind During formula, described first installing plate 60 is controlled to pull described wind blade 30 to move downward, described 3rd sliding part 3021 is along described It is mobile that Open Side Down, and Open Side Down moves along described to drive described wind blade 30, final controls described wind blade 30 overall Move in the base 13 of described air-conditioning, be completely hidden in the base 13 of described air-conditioning, now, the air outlet of described air-conditioning is complete Open, will not be affected for adjusting air-flow by described wind blade 30.

Further, described air-conditioning also includes being connected to the transverse transmission mechanism 40 of described wind blade 30, described horizontal Drive mechanism 40 drives described wind blade 30 lateral deflection in the air outlet of described air-conditioning；The control method of described air-conditioning is also Including: when air-conditioning needs left and right pendulum wind, control described transverse transmission mechanism 40 to be automatically connected in by described first connecting rod 10 band Described wind blade 30 on described second connecting rod 20 produces deflection, enters the regulation gas between wind blade 30 described in adjacent two Stream is adjusted wind direction with the deflection of described wind blade 30, makes described air-conditioning execute left and right pendulum wind.

Further, described air-conditioning also includes wind deflector 11 and the rotary shaft for driving described wind deflector 11 rotation, institute State the two ends that rotary shaft is arranged at described wind deflector 11；The control method of described air-conditioning also includes: when air-conditioning needs upper and lower pendulum wind When, control described rotary shaft to drive described wind deflector 11 to rotate.Specifically, in the present embodiment, in starting of air conditioner and operation, institute State rotary shaft rotation described in the 3rd Motor drive, described rotary shaft drives described wind deflector 11 to rotate, to open or to close sky The air outlet adjusted, and under the open mode of described wind deflector 11 additionally it is possible to by the rotation of described wind deflector 11 execution, Bottom wind.

Above-mentioned action parameter carries out program setting control by the cpu of described air-conditioning, and sends control instruction, the present invention therewith Embodiment drives bottom and two, the top of the air outlet in described air-conditioning for the described wind blade 30 using longitudinal drive mechanism 50 Vertically move between position, to change position in air outlet for the described wind blade 30, when not needing left and right pendulum wind, also Hide in the base plate of air conditioner 13 that described wind blade 30 all can be dropped to below air outlet, described wind blade 30 is permissible Suitable position is adjusted to according to the operational mode of air-conditioning, to overcome the density variation between regulation air-flow and room air to wind The impact bringing to adjustment；Drive the lateral deflection of described wind blade 30 to realize sky using described transverse transmission mechanism 40 simultaneously The left and right pendulum wind adjusted；Described wind deflector 11 is driven to rotate different angles to coordinate the lateral deflection of wind blade using rotary shaft, Realize the upper and lower pendulum wind of air-conditioning；Present invention achieves intelligent control air-conditioning three-dimensional blowing is it is not necessary to manually stir, it is to avoid behaviour Accident during work occurs, and improves the precision of the wind direction adjustment to the air-flow entering air-conditioning.

The foregoing is only the preferred embodiments of the present invention, not thereby limit its scope of the claims, every utilization present invention Equivalent structure or equivalent flow conversion that description and accompanying drawing content are made, are directly or indirectly used in other related technology necks Domain, is included within the scope of the present invention.

Claims (10)

1. a kind of actuating device is it is characterised in that include:

First connecting rod, including drive rod, the first sliding part of being arranged at described drive rod one end；

Second connecting rod, including the second sliding part being arranged at described second connecting rod one end, described second sliding part and described first Sliding part is slidably connected, and described second sliding part can rotate against with described first sliding part；

Wind blade, is rotatably connected in described second connecting rod；

Transverse transmission mechanism, is connected with one end of described drive rod, is automatically connected in described second even by described first connecting rod band Described wind blade lateral deflection on bar.

2. actuating device according to claim 1 is it is characterised in that described first sliding part is vertical with described drive rod Slide bar；Described second sliding part is the collar being adapted to described first sliding part.

3. actuating device according to claim 2 is it is characterised in that described slide bar is cylinder, the internal ring of the described collar It is adapted to the external diameter of described slide bar.

4. actuating device according to claim 2 it is characterised in that on the described collar away from described second connecting rod one Side, is provided with installing port.

5. actuating device according to claim 2 is it is characterised in that the quantity of the described collar is two or more.

6. actuating device according to claim 2 is it is characterised in that described first connecting rod also includes supporting part, described Support part is roughly parallel to described slide bar, and is located at the side away from described second connecting rod for the described slide bar.

7. it is characterised in that described supporting part is l shape, its one end is fixedly connected on actuating device according to claim 6 The bottom surface of described drive rod, the other end is fixedly connected on the bottom of described slide bar.

8. actuating device according to claim 1 is it is characterised in that described transverse transmission mechanism includes crank and the first electricity Machine, described crank one end is rotatably connected in described first motor, and one end is rotatably connected in described drive rod.

9. actuating device according to claim 1 is it is characterised in that the longitudinal direction also including being connected to described wind blade passes Motivation structure, when described longitudinal drive mechanism drives described wind blade to vertically move, described second sliding part is along described first Sliding part longitudinal sliding motion.

10. a kind of air-conditioning is it is characterised in that described air-conditioning comprises the actuating device described in any one of claim 1 to 9.