CN103542506A - 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 transmission device and air-conditioning

Technical field

The present invention relates to field of air conditioning, relate in particular to a kind of transmission device of air-conditioning and comprise the air-conditioning of this transmission 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, when air-supply, can to upper and lower and left and right wind direction, adjust respectively by longitudinal wind deflector and horizontal wind guide vane.

In the prior art, as shown in Figures 1 and 2, 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; Laterally wind guide vane 1001 connects in groups by connecting rod 1002, be arranged on the side of air outlet, the airflow direction of being realized left and right directions by the mode of adjusting manually position changes, the Main Function of air-conditioning inside connecting rod is that the horizontal wind guide vane disperseing is connected in groups, if desired realize the left and right pendulum wind of air-conditioning, just need to manually stir connecting rod, drive horizontal wind guide vane to deflect, when using its position of manual change, people's finger slightly does not note touching the axial-flow fan of air-conditioning, causes finger injuries.

And longitudinally wind deflector is generally curved, by rotating shaft, be arranged on the air outlet of air-conditioning, described rotating shaft is fastened in the connecting rod of ganging up horizontal wind guide vane conventionally, because the leaving air temp of air-conditioning changes, be subject to the impact of thermal shock and gravitional force, longitudinally the assembly structure of wind deflector and connecting rod is very easy to lose efficacy, thereby causes dropping of longitudinal wind deflector, and while manually stirring connecting rod, be also easy to cause coming off of longitudinal wind deflector.

Meanwhile, when air conditioner refrigerating moves, the density of air-conditioning air-flow is greater than the density of space air, and now, air-supply air-flow sinks, and affects the adjustment of horizontal wind guide vane to wind direction, needs horizontal wind guide vane to move down to carry out better three-dimensional blowing; When air-conditioning heating moves, the density of air-conditioning air-flow is lower than space air density, now, air-supply air-flow upwards floats, affect the adjustment of horizontal wind guide vane to wind direction, need wind blade to move up to carry out better three-dimensional blowing, but in the prior art, laterally wind guide vane is arranged on the top of air outlet, and cannot carry out lifting and make horizontal wind guide vane more accurate to the adjustment of wind direction.

Summary of the invention

The air-conditioning that main purpose of the present invention is to provide a kind of transmission device and comprises this transmission device, described transmission device comprise first connecting rod and with the second connecting rod of described first connecting rod relative sliding, on the wind blade of air-conditioning is in air outlet, under while vertically moving, due to being slidably connected of described first connecting rod and described second connecting rod, described second connecting rod can be followed on described wind blade, lower movement, described wind blade can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome the density variation impact that adjustment brings on wind direction regulating between air-flow and room air.Meanwhile, when not needing left and right pendulum wind, described wind blade all can also be dropped in the base plate of air conditioner of air outlet below and hide; And described transmission device has been realized intelligent control air-conditioning three-dimensional blowing, do not need manually to stir, avoided the accident in operating process to occur.And described transmission device has been realized intelligent control air-conditioning three-dimensional blowing, do not need manually to stir, avoided the accident in operating process to occur.

The invention provides a kind of transmission device, comprising:

First connecting rod, comprises drive rod, is arranged at first sliding part of described drive rod one end;

Second connecting rod, comprises the second sliding part that is arranged at described second connecting rod one end, and described the second sliding part and described the first sliding part are slidably connected, and described the second sliding part can rotate relatively with described the 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, by described first connecting rod band, is automatically connected in the described wind blade lateral deflection in described air outlet on described second connecting rod.

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

Preferably, described slide bar is cylindrical, and the interior ring of the described collar and the external diameter of described slide bar are adaptive.

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

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

Preferably, described first connecting rod also comprises support portion, and described support portion is roughly parallel to described slide bar, and is positioned at described slide bar away from a side of described second connecting rod.

Preferably, described support portion is L shaped, and its one end is fixedly connected on the bottom surface of described drive rod, and the other end is fixedly connected on the bottom of described slide bar.

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

Preferably, also comprise the longitudinal transmission mechanism that is connected in described wind blade, while vertically moving in described longitudinal transmission mechanism drives the air outlet of described wind blade at described air-conditioning, described the second sliding part is along described the first sliding part longitudinal sliding motion.

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

Transmission device of the present invention comprises: first connecting rod, comprises drive rod, is arranged at first sliding part of described drive rod one end; Second connecting rod, comprises the second sliding part that is arranged at described second connecting rod one end, and described the second sliding part and described the first sliding part are slidably connected, and described the second sliding part can rotate relatively with described the 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, by described first connecting rod band, is automatically connected in the described wind blade lateral deflection in described air outlet on described second connecting rod.The wind blade of air-conditioning of the present invention is in air outlet during upper and lower 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 and be moved up and down, described wind blade can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome the density variation impact that adjustment brings on wind direction regulating between air-flow and room air.Meanwhile, when not needing left and right pendulum wind, described wind blade all can also be dropped in the base plate of air conditioner of air outlet below and hide; And described transmission device has been realized intelligent control air-conditioning three-dimensional blowing, do not need manually to stir, avoided the accident in operating process to occur.

Accompanying drawing explanation

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 transmission device one embodiment of the present invention;

Fig. 4 is another visual angle configuration state schematic diagram of transmission device shown in Fig. 3;

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

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

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

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

Fig. 9 is the structural representation of air-conditioning the 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 the wind blade of the air-conditioning structural representation in air outlet tip position;

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

Figure 15 is the cutaway view of Figure 13;

Figure 16 is the cutaway view of Figure 14;

Figure 17 is that the wind blade of air-conditioning the second embodiment of the present invention drops to the cutaway 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, in connection with embodiment, are described further with reference to accompanying drawing.

The specific embodiment

Below in conjunction with Figure of description and specific embodiment, further illustrate technical scheme of the present invention.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

The invention provides a kind of transmission device.

With reference to Fig. 3 to Fig. 6, Fig. 3 is the structural representation of transmission device one embodiment of the present invention; Fig. 4 is another visual angle configuration state schematic diagram of transmission device shown in Fig. 3; Fig. 5 is the part-structure schematic diagram of transmission device shown in Fig. 3; Fig. 6 is the second connecting rod one example structure schematic diagram of transmission device of the present invention; The present embodiment transmission device comprises first connecting rod 10, second connecting rod 20, wind blade 30 and transverse transmission mechanism 40.

Described first connecting rod 10 comprises drive rod 101, is arranged at first sliding part 102 of described drive rod 101 one end; Described second connecting rod 20 comprises the second sliding part 201 that is arranged at described second connecting rod 20 one end, and described the second sliding part 201 is slidably connected with described the first sliding part 102, and described the second sliding part 201 can rotate relatively with described the first sliding part 102; In the preferred embodiments of the present invention, described the 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, the top of described drive rod 101 is fixed in the bottom that also can be set to described slide bar.Described the second sliding part 201 is the collar with described the first sliding part 102 adaptations.In like manner, in another embodiment of the present invention, described the second sliding part 201 is the slide bar vertical with described second connecting rod 20; Described the first sliding part 102 is the collar with described the second sliding part 201 adaptations.

Further, described slide bar is cylindrical, and the interior ring of the described collar and the external diameter of described slide bar are adaptive, and described collar internal diameter is slightly larger than described slide bar external diameter, and the described collar after assembling can slide along described slide bar, and can relatively rotate between the two.Meanwhile, on the described collar, away from a side of described second connecting rod 20, be provided with installing port 2011, to facilitate, the described collar be mounted to described slide bar.The quantity of the described collar is more than two, make stressed evenly, and it is more accurate to move up and down the control of direction.When described second connecting rod 20 is subject to pulling force that upper and lower makes progress, described the second sliding part 201 moves up and down along described the first sliding part 102, in the present invention, described in move up and down refer to upper and lower as shown in Figure 4 to movement.

As shown in Fig. 3 to 6, described wind blade 30 is rotatably connected in described second connecting rod 20; Because described wind blade 30 is limited by described the second installing hole 302, therefore when described second connecting rod 20 is driven by described first connecting rod 10, described wind 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 during with the upper and lower slip of described the first sliding part 102, described wind blade 30 moves up and down thereupon.

Described transverse transmission mechanism 40 is connected with one end of described drive rod 101, described transverse transmission mechanism 40 drives the lateral deflection in the air outlet of described air-conditioning of described wind blade 30 by the described first connecting rod 10 connecting successively, described second connecting rod 20, in the present invention, described lateral deflection refers to the deflection of left and right direction as shown in Figure 4.Above-mentioned air outlet refers to and is arranged on heat exchanger front end, the outlet of the air of (freeze, heat, humidification etc.), the i.e. air outlet of air-conditioning for discharging through overregulating.In addition, as shown in Figure 9, indoor apparatus of air conditioner conventionally utilizes wind deflector 11 sealing air outlets under off working state.

Further, as shown in Figure 3, described first connecting rod 10 also comprises support portion 103, and described support portion 103 is roughly parallel to described slide bar, and is positioned at described slide bar away from a side of described second connecting rod 20, be used for supporting described slide bar, in the present embodiment, described support portion 103 is L shaped, and its one end is fixedly connected on the bottom surface of described drive rod 101, the other end is fixedly connected on the bottom of described slide bar, makes the connection of described slide bar more firm.

Further, as shown in Figure 5, in the present embodiment, described transverse transmission mechanism 40 comprises crank 401 and the first motor 402, described crank 401 one end are rotatably connected in described the first motor 402, one end is rotatably connected in described drive rod 101, and described crank 401 is ± 15 degree with the relative range of deflection angles of described the first motor 402.Described the first motor 402 drives described crank 401 motions, the direction of motion of described crank 401 is to contrary both direction rotation, and be also provided with block on described transverse transmission mechanism 40, the range of movement of described crank 401 is limited, and in the present embodiment, the range of movement of restriction is between ± 15 degree, obviously, the present invention is not limited to above-mentioned range of movement, can be also ± 20 degree, ± 10 degree etc., as long as can reach, make the angle of described wind blade 30 lateral deflections meet demand.Certainly, transverse transmission mechanism 40 also can adopt other existingly can drive first connecting rod 10 and the left and right toggle moving back and forth of second connecting rod 20.

Described transmission device also comprises the longitudinal transmission mechanism 50 that is connected in described wind blade 30, while vertically moving in the air outlet of the described wind blade 30 of described longitudinal transmission mechanism 50 drive at described air-conditioning, described the second sliding part 201 is along described the first sliding part 102 longitudinal sliding motions; Also be, described longitudinal transmission mechanism 50 drives described wind blade 30 to move up and down, now, because described wind blade 30 is rotatably connected in described second connecting rod 20, described second connecting rod 20 moves up and down with described wind blade 30, thereby described the second sliding part 201 is along described the first sliding part 102 longitudinal sliding motions.Now, the position of described wind blade 30 in the air outlet of described air-conditioning is changed, described wind blade 30 can move between the bottom of air outlet and Liang Ge position, top, when not needing left and right pendulum wind, wind blade 30 all can also be dropped to interior the hiding of base plate of air conditioner 13 of air outlet below, therefore, described wind blade 30 can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome the density variation impact that adjustment brings on wind direction regulating between air-flow and room air.Above-mentioned wind blade 30 vertically moves and refers to that wind blade 30 can be moved to by the position near air outlet bottom near the position at air outlet top or move to the position near air outlet bottom by the position near air outlet top in air outlet, as shown in Figure 4 upper and lower to.As shown in Figure 13 to Figure 17, Figure 13 is the wind blade of the air-conditioning structural representation in air outlet tip position; Figure 14 is the wind blade of the air-conditioning structural representation in air outlet bottom position; Figure 15 is the cutaway view of Figure 13; Figure 16 is the cutaway view of Figure 14.When air-conditioning heating moves, longitudinally transmission mechanism 50 drive wind blades 30 move to the bottom (i.e. the position of close base) of air-conditioner air outlet, the as shown in Figure 14 and Figure 16 residing position of wind blade 30; When air conditioner refrigerating moves, longitudinally transmission mechanism 50 drive wind blades 30 move to the top of air-conditioner air outlet, the residing position of wind blade 30 as shown in Figure 13 and Figure 15; When not needing left and right pendulum wind, longitudinally transmission mechanism 50 can also drive wind blade 30 to move down in the inside accommodation space of base, until wind blade Hide All is in base, as shown in figure 17, Figure 17 is that the wind blade of air-conditioning the second embodiment of the present invention drops to the cutaway view in base, now need on described base 13, be provided for accommodating the opening of second connecting rod 20 and wind blade 30.

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

With reference to Fig. 3 to Fig. 9, Fig. 7 is the structural representation of third connecting rod one embodiment of transmission device of the present invention; Fig. 8 is the structural representation of wind blade one embodiment of transmission device of the present invention; Fig. 9 is the structural representation of air-conditioning the first embodiment of the present invention; As shown in Figures 3 to 8, described air-conditioning comprises wind blade 30 and longitudinal transmission mechanism 50 to the present embodiment, and described longitudinal transmission mechanism 50 drives described wind blade 30 to vertically move in the air outlet of described air-conditioning.In the present embodiment, described longitudinal transmission mechanism 50 drives described wind blade 30 to move between the bottom of described air outlet and Liang Ge position, top.Described wind blade 30 can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome the density variation impact that adjustment brings on wind direction regulating between air-flow and room air.When air-conditioning heating moves, longitudinally transmission mechanism 50 drive wind blades 30 move to the bottom of air-conditioner air outlet, the as shown in Figure 14 and Figure 16 residing position of wind blade 30; When air conditioner refrigerating moves, longitudinally transmission mechanism 50 drive wind blades 30 move to the top of air-conditioner air outlet, the residing position of wind blade 30 as shown in Figure 13 and Figure 15; When not needing left and right pendulum wind, longitudinally transmission mechanism 50 can also drive wind blade 30 to move down in the inside accommodation space of base, until wind blade Hide All is in base.

Described air-conditioning also comprises the first installing plate 60, and described wind blade 30 is rotatably connected in described the first installing plate 60; Described longitudinal transmission mechanism 50 connects described the first installing plate 60 and drives described wind blade 30 to move in described air outlet by described the first installing plate 60; Therefore also,, because described wind blade 30 is rotatably connected in described the first installing plate 60 and is defined, when described the first installing plate 60 is driven while vertically moving, described wind blade 30 also produces length travel thereupon.

Described air-conditioning also comprises: first connecting rod 10, second connecting rod 20 and transverse transmission mechanism 40.Described first connecting rod 10 comprises the first sliding part 102; Described second connecting rod 20 comprises the second sliding part 201, and described the second sliding part 201 is slidably connected with described the first sliding part 102, and described the second sliding part 201 can rotate relatively with described the first sliding part 102; The preferred embodiments of the present invention are as shown in Fig. 3 to Fig. 7, first connecting rod 10 also comprises drive rod 101, the first sliding part 102 is arranged at one end of drive rod 101, the second sliding part 201 is arranged on one end of close the first sliding part 102 on second connecting rod 20, when described second connecting rod 20 is subject to pulling force that upper and lower makes progress, described the second sliding part 201 moves up and down along described the first sliding part 102.

As shown in Fig. 3 to 6, described wind blade 30 is rotatably connected in described second connecting rod 20; Because described wind blade 30 is limited by described the second installing hole 302, therefore when described second connecting rod 20 is driven by described first connecting rod 10, described wind 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 during with the upper and lower slip of described the first sliding part 102, described wind blade 30 moves up and down thereupon.

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

Further, as shown in Figure 5, described transverse transmission mechanism 40 comprises crank 401 and the first motor 402, described crank 401 one end are rotatably connected in described the first motor 402, one end is rotatably connected in described drive rod 101, and described crank 401 is ± 15 degree with the relative range of deflection angles of described the first motor 402.Described the first motor 402 drives described crank 401 motions, the direction of motion of described crank 401 is to contrary both direction rotation, and be also provided with block on described transverse transmission mechanism 40, the range of movement of described crank 401 is limited, and in the present embodiment, the range of movement of restriction is between ± 15 degree, obviously, the present invention is not limited to above-mentioned range of movement, can be also ± 20 degree, ± 10 degree etc., as long as can reach, make the angle of described wind blade 30 lateral deflections meet demand.

Further, with reference to Fig. 4, in the present embodiment, described the first installing plate 60 is provided with the first tooth bar 601 extending longitudinally.Described longitudinal transmission mechanism 50 comprises gear 501 and the second motor 502 that is connected in described gear 501, and described gear 501 is connected with described the first tooth bar 601 adaptations.Described the second motor 502 drives described gear 501 rotations, now, due to described the first tooth bar 601 and described gear 501 engagements, therefore, the in the situation that of described gear 501 rotation, described the first tooth bar 601 makes progress thereupon or moves downward, thereby drive the upper and lower motion of described the first installing plate 60, now, because the installation shaft 302 of described wind blade 30 is limited by described the second installing hole 602, when described the first installing plate 60 is driven while vertically moving, described wind blade 30 also produces length travel thereupon.

Further, on described second connecting rod 20, be also provided with the first installing hole 202; Described the first installing plate 60 is provided with the second installing hole 602; Described wind blade 30 comprises and is rotatably connected in the pitman shaft 301 of described the first installing hole 202 and is rotatably connected in the installation shaft 302 of described the second installing hole 602; Because the installation shaft 302 of described wind blade 30 is limited by described the second installing hole 602, therefore when described second connecting rod 20 is driven by described first connecting rod 10, described wind blade 30 is laterally pulled by described second connecting rod 20, and when described the first installing plate 60 is driven while vertically moving, described wind blade 30 also produces length travel thereupon.

Further, with reference to Fig. 3, Fig. 4 and Fig. 7, described air-conditioning also comprises third connecting rod 70 and the second installing plate 80, described third connecting rod 70 one end are rotatably connected in described second connecting rod 20, 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, described the 3rd installing hole 701 is rotatably connected in described pitman shaft 301; Described transverse transmission mechanism 40 is automatically connected in described wind blade 30 lateral deflection in described air outlet on described second connecting rod 20 and described third connecting rod 70 by described first connecting rod 10 bands.As shown in FIG. 6 and 7, described second connecting rod 20 and described third connecting rod 70 are provided with mounting groove 203, described mounting groove 203 communicates with described the first installing hole 202 and described the 3rd installing hole 701 respectively, and when carrying out dismounting, described mounting groove 203 has facilitated the carrying out of disassembly process.Described the first installing plate 60 is provided with the first tooth bar 601 extending longitudinally.Described the second installing plate 80 is provided with the second tooth bar 801 extending longitudinally, and described the second tooth bar 801 is connected with a joggle with the gear 501 on described longitudinal transmission mechanism 50; Described the second installing plate 80 is provided with the 4th installing hole 802; Described the 4th installing hole 802 is rotatably connected in described installation shaft 302; Described longitudinal transmission mechanism 50 drives described wind blade 30 to produce length travel by described the first installing plate 60 and described the second installing plate 80.Because the installation shaft 302 of described wind blade 30 is limited by described the 4th installing hole 802, therefore when described third connecting rod 70 is driven by described second connecting rod 20, described wind blade 30 is laterally pulled by described third connecting rod 70, and when described the second installing plate 80 is driven while vertically moving, described wind blade 30 also produces length travel thereupon.

Further, as shown in Figure 9, air-conditioning of the present invention also comprises wind deflector 11 and for driving the rotating shaft (not shown) of described wind deflector 11 rotations, described rotating shaft is arranged at the two ends of described wind deflector 11, and described rotating shaft is roughly parallel to described second connecting rod 20; Described air-conditioning also comprises the 3rd motor (not shown) that is connected in described wind deflector 11, when starting of air conditioner and operation, described the 3rd motor drives described rotating shaft rotation, described rotating shaft drives described wind deflector rotation, to open or to close the air outlet of air-conditioning, and under the open mode of described wind deflector 11, can also carry out upper and lower pendulum wind by the rotation of described wind deflector 11.

Further, described longitudinal driver 50 is arranged in the base 13 of described air-conditioning with described the first installing plate 60, on described base 13, the position of corresponding described wind blade 30 arranges opening (not shown), when described wind blade 30 vertically moves in described air outlet, the part of described wind blade 30 or whole in described opening enters described base 13.As shown in Fig. 8 to Figure 16, 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; Described installation shaft 302 is provided with the 3rd sliding part 3021; In the present embodiment, the described base 13 that is positioned at air-conditioner air outlet below is provided with some openings, the position of these openings is corresponding with wind blade described in each 30 respectively, described longitudinal transmission mechanism 50 and described the first installing plate 60 are arranged in the cavity in described base 13, described wind blade 30 is arranged on air outlet place, and described the 3rd sliding part 3021 of described wind blade 30 is connected with described the first installing plate 60 through above-mentioned opening and can under the driving of longitudinal transmission mechanism 50, vertically moves.Further, the edge of described opening forms the wind-guiding fin 12 to air outlet inner projection, and described wind-guiding fin 12 can carry out refinement to the air-flow of air outlet.

As shown in figure 17, in the present embodiment, described longitudinal transmission mechanism 50 is for driving described wind blade 30 to move between described base, described air outlet bottom and San Ge position, described air outlet top.Also, described wind blade 30, except can be mobile between the bottom of air outlet and Liang Ge position, top, can also further drop in the cavity in described base 13, thereby make described wind blade 30 all leave air outlet, is hidden in base.Due to described second connecting rod 20 bar-like member that is horizontally sets, therefore, on described base 13, except being provided for, guide described wind blade 30 integral body to drop to the opening in described base, also will be provided for guiding described second connecting rod 20 to drop to the opening in described base 13.After described wind blade 30 and the described base 13 of described second connecting rod 20 income, air outlet all opens wide, and when not needing left and right pendulum wind, 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 invention provides a kind of control method of air-conditioning, the wind blade 30 of controlling described air-conditioning according to the operational mode of air-conditioning moves to bottom or the top of the air outlet of described air-conditioning, to overcome the density variation impact that adjustment brings on wind direction regulating between air-flow and room air.

The control method of described air-conditioning specifically comprises:

S100, when air-conditioning heating moves, control the top that described wind blade moves to described air outlet; As shown in Figure 13 and Figure 15, when air-conditioning heating moves, air-conditioning regulates the density of air-flow (air after heat exchanger heat temperature raising) lower than space air density, regulate air-flow upwards to float, control described the first installing plate 60 of described longitudinal transmission mechanism 50 promotion and move upward, thereby drive on the described wind blade 30 that is connected in described the first installing plate 60, move; Simultaneously, described the 3rd sliding part 3021 moves along described opening upwards, and drive described second connecting rod 20 to move upward along the first sliding part 102 of described first connecting rod 10, now, on the air guide hole between wind blade 30 described in adjacent two is synchronizeed with the adjusting air-flow that makes progress floating, move, thereby make described air-conditioning more accurate for the control of wind direction.

S200, when air conditioner refrigerating moves, control the bottom that described wind blade moves to described air outlet.As shown in Figure 14 and 16, when air conditioner refrigerating moves, air-conditioning regulates the density of air-flow (air after heat exchanger absorbing and cooling temperature) to be greater than the density of space air, adjusting air-flow sinks, control described longitudinal transmission mechanism 50 and pull described the first installing plate 60 to move downward, thereby drive the described wind blade 30 that is connected in described the first installing plate 60 to move down; Simultaneously, that Open Side Down is mobile along described for described the 3rd sliding part 3021, drive described second connecting rod 20 to move downward along the first sliding part 102 of described first connecting rod 10, now, at the air guide hole between wind blade 30 described in adjacent two, synchronize and move down with the adjusting air-flow of sinking, thereby make described air-conditioning more accurate for the control of wind direction.

Further, the control method of described air-conditioning also comprises according to the operational mode of air-conditioning and controlling in the base that described wind blade moves to described air-conditioning.As shown in Figure 14 and 16, described longitudinal transmission mechanism 50 is controlled the first installing plate 60 and is pulled described wind blade 30 to move downward, that Open Side Down is mobile along described for described the 3rd sliding part 3021, drives described wind blade 30 to move downward and move in the base of described air-conditioning.Shown in Figure 14 and 16, be the states of described wind blade 30 parts while hiding.

Further, when described operation of air conditioner is not when needing the pattern of left and right pendulum wind, control in the base of the described air-conditioning of the whole immigration of described wind blade.With reference to Figure 17, in the present embodiment, when described operation of air conditioner is not when needing the pattern of left and right pendulum wind, controlling described the first installing plate 60 pulls described wind blade 30 to move downward, that Open Side Down is mobile along described for described the 3rd sliding part 3021, Open Side Down moves along described to drive described wind blade 30, in the base 13 of the described air-conditioning of the described wind blade 30 whole immigration of final control, be hidden in completely in the base 13 of described air-conditioning, now, the air outlet of described air-conditioning is opened completely, can not be subject to described wind blade 30 for the impact that regulates air-flow.

Further, described air-conditioning also comprises the transverse transmission mechanism 40 that is connected in described wind blade 30, and described transverse transmission mechanism 40 drives the lateral deflection in the air outlet of described air-conditioning of described wind blade 30; The control method of described air-conditioning also comprises: when the left and right pendulum wind of air-conditioning needs, control described transverse transmission mechanism 40 and be automatically connected in the described wind blade 30 generation deflections on described second connecting rod 20 by described first connecting rod 10 bands, enter the adjusting air-flow between wind blade 30 described in adjacent two and be adjusted wind direction with the deflection of described wind blade 30, make described air-conditioning carry out left and right pendulum wind.

Further, described air-conditioning also comprises wind deflector 11 and the rotating shaft for driving described wind deflector 11 to rotate, and described rotating shaft is arranged at the two ends of described wind deflector 11; The control method of described air-conditioning also comprises: when the upper and lower pendulum wind of air-conditioning needs, control described rotating shaft and drive described wind deflector 11 rotations.Particularly, in the present embodiment, when starting of air conditioner and operation, described the 3rd motor drives described rotating shaft rotation, described rotating shaft drives described wind deflector 11 rotations, to open or to close the air outlet of air-conditioning, and under the open mode of described wind deflector 11, can also carry out upper and lower pendulum wind by the rotation of described wind deflector 11.

Above-mentioned action parameter carries out program setting control by the CPU of described air-conditioning, and send control instruction thereupon, the longitudinal transmission mechanism of embodiment of the present invention utilization 50 drives described wind blade 30 to vertically move between the bottom of the air outlet of described air-conditioning and Liang Ge position, top, to change the position of described wind blade 30 in air outlet, do not needing a left side, during right pendulum wind, described wind blade 30 all can also be dropped to interior the hiding of base plate of air conditioner 13 of air outlet below, described wind blade 30 can be adjusted to suitable position according to the operational mode of air-conditioning, to overcome the density variation impact that adjustment brings on wind direction regulating between air-flow and room air, utilize described transverse transmission mechanism 40 to drive described wind blade 30 lateral deflections to realize the left and right pendulum wind of air-conditioning simultaneously, utilize rotating shaft to drive described wind deflector 11 to rotate different angles to coordinate the lateral deflection of wind blade, realize the upper and lower pendulum wind of air-conditioning, the present invention has realized intelligent control air-conditioning three-dimensional blowing, does not need manually to stir, and has avoided the accident in operating process to occur, and has improved the precision of adjusting entering the wind direction of the air-flow of air-conditioning.

The foregoing is only the preferred embodiments of the present invention; not thereby limit its scope of the claims; every equivalent structure or conversion of equivalent flow process that utilizes description of the present invention and accompanying drawing content to do; directly or indirectly be used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. a transmission device, is characterized in that, comprising:

First connecting rod, comprises drive rod, is arranged at first sliding part of described drive rod one end;

Second connecting rod, comprises the second sliding part that is arranged at described second connecting rod one end, and described the second sliding part and described the first sliding part are slidably connected, and described the second sliding part can rotate relatively with described the 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, by described first connecting rod band, is automatically connected in the described wind blade lateral deflection in described air outlet on described second connecting rod.

2. transmission device according to claim 1, is characterized in that, described the first sliding part is the slide bar vertical with described drive rod; Described the second sliding part is the collar with described the first sliding part adaptation.

3. transmission device according to claim 2, is characterized in that, described slide bar is cylindrical, and the interior ring of the described collar and the external diameter of described slide bar are adaptive.

4. transmission device according to claim 2, is characterized in that, on the described collar, away from a side of described second connecting rod, is provided with installing port.

5. transmission device according to claim 2, is characterized in that, the quantity of the described collar is more than two.

6. transmission device according to claim 2, is characterized in that, described first connecting rod also comprises support portion, and described support portion is roughly parallel to described slide bar, and is positioned at described slide bar away from a side of described second connecting rod.

7. transmission device according to claim 6, is characterized in that, described support portion is L shaped, and its one end is fixedly connected on the bottom surface of described drive rod, and the other end is fixedly connected on the bottom of described slide bar.

8. transmission device according to claim 1, is characterized in that, described transverse transmission mechanism comprises crank and the first motor, and described crank one end is rotatably connected in described the first motor, and one end is rotatably connected in described drive rod.

9. transmission device according to claim 1, it is characterized in that, also comprise the longitudinal transmission mechanism that is connected in described wind blade, while vertically moving in described longitudinal transmission mechanism drives the air outlet of described wind blade at described air-conditioning, described the second sliding part is along described the first sliding part longitudinal sliding motion.

10. an air-conditioning, is characterized in that, described air-conditioning comprises the transmission device described in claim 1 to 9 any one.

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