CN202734075U

CN202734075U - Floor air conditioner

Info

Publication number: CN202734075U
Application number: CN201220442916.9U
Authority: CN
Inventors: 陈绍林; 杨检群; 刘秋华; 杨杰; 安智; 罗镇雄; 李松
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2012-08-31
Filing date: 2012-08-31
Publication date: 2013-02-13
Anticipated expiration: 2022-08-31

Abstract

The utility model discloses a floor air conditioner. An indoor unit of the floor air conditioner comprises a shell, an air-out part and a liftable mechanism, the air-out part is arranged at an opening in a liftable manner and is provided with a first air outlet and an air passage communicated with the first air outlet and the opening, and the liftable mechanism is used for enabling the air-out part to ascend and descend so that the first air outlet is exposed and concealed selectively. The liftable mechanism comprises a pair of gear components, a motor and a slideway arranged on the air-out part, each gear component comprises a connecting arm, a gear part arranged at one end of the connecting arm and a rolling part arranged at the other end of the connecting arm, the gear parts of the gear components in pair are meshed with each other and driven by the motor, and the rolling parts of the gear components in pair are positioned in the slideway and are capable of rolling along the same. The liftable mechanism of the floor air conditioner is of a structure adopting the two gear components, and compared with an existing mechanism, the floor air conditioner has the advantages of simple structure and high moving reliability.

Description

Floor air conditioner

Technical field

The utility model relates to air-conditioner, particularly relates to a kind of floor air conditioner.

Background technology

Traditional vertical air-conditioner operated by rotary motion has a fixing upper air outlet, and air outlet has the functions such as the wind of sweeping, wind-guiding on this, and the relative outward appearance of this structure is simple, but dust easily enters.Existing part floor air conditioner adopts the mode of lifting air outlet, and the floor air conditioner of this structure can when air-conditioning is closed, cut out air outlet, avoid dust etc. to enter in the air-conditioner, but mostly adopt the up-down modes such as rack-and-pinion, wire rod thread, move unreliable, structure is relatively complicated.

Summary of the invention

For above-mentioned prior art present situation, technical problem to be solved in the utility model is, a kind of floor air conditioner is provided, the motion of the air outlet liftable of this floor air conditioner, and elevating mechanism simple in structure, motion credibility is high.

The utility model solves the problems of the technologies described above the technical scheme that adopts: a kind of floor air conditioner, the indoor set of this air-conditioner comprises shell, wind component and elevating mechanism, the top of described shell has opening, described wind component liftably is arranged at described opening part, and be provided with the first air outlet and be communicated with this first air outlet and the air channel of described opening at this wind component, described elevating mechanism is used for making described wind component elevating movement, optionally to expose and to hide described the first air outlet; Described elevating mechanism comprises at least one pair of gear assembly, motor and is arranged on chute on the described wind component, described gear assembly comprises linking arm, be arranged at the geared parts of this linking arm one end and be arranged at the rolling member of this linking arm other end, the geared parts of a pair of described gear assembly is meshed, and by described motor-driven, the rolling member of a pair of described gear assembly is positioned at described chute and can rolls along it.

Among embodiment, the top of described shell is provided with the deep gouge around described opening therein; When described wind component dropped to the movement travel lower end, described the first air outlet was hidden in the described deep gouge.

Among embodiment, described indoor set also comprises pedestal therein, and this pedestal is installed in the described deep gouge, and described wind component and described elevating mechanism all are assemblied on this pedestal.

Therein among embodiment, described pedestal comprise inner barrel around described opening, around the outer cylinder body of described opening and be formed at this inner barrel and this outer cylinder body between container cavity, described motor is installed on the described outer cylinder body, a geared parts is installed on the output shaft of described motor in a pair of described geared parts, and another geared parts is installed in rotation on the described outer cylinder body; Described wind component comprises air duct drum and is arranged at the top cover of this air duct drum upper end, is provided with described the first air outlet at this air duct drum, forms described air channel by this air duct drum and described top cover, and described chute is arranged on the described air duct drum; When described wind component dropped to the movement travel lower end, described the first air outlet was hidden in the described container cavity.

Among embodiment, described wind component also comprises the guide cylinder that is arranged on described air duct drum outside therein, and this guide cylinder and described outer cylinder body cooperate to be guided out the lifting of wind part.

Among embodiment, be provided with the subsidence part that caves inward on the described outer cylinder body therein, described motor is fixed in this subsidence part, is provided be used to the breach of dodging described subsidence part at described guide cylinder.

Among embodiment, be provided with wind guiding component at described the first air outlet place therein.

Among embodiment, the upper end of described inner barrel is provided with the first protuberance that extends laterally therein, and the lower end of described air duct drum is provided with the second protuberance that extends to the inside; When described wind component rose to the movement travel upper end, the lower surface of described the first protuberance contacted with the upper surface of described the second protuberance.

Among embodiment, the modulus of the geared parts of a pair of described gear assembly or tooth footpath are identical, and the length of the linking arm of a pair of described gear assembly is identical therein.

Among embodiment, when described wind component rose to the movement travel top and bottom, the linking arm of a pair of described gear assembly was all not parallel therein.

Among embodiment, described linking arm is Z-shaped bending shape therein.

Therein among embodiment, be provided with the second air outlet at left surface and/or the right flank of described shell, and be provided with at this second air outlet place for selectively opened and close the air deflection assemblies of this second air outlet.

Among embodiment, described the second air outlet vertically extends therein.

Compared with prior art, floor air conditioner provided by the utility model, its air outlet liftable motion, in air-conditioning when shutdown,, air outlet is hidden in the air-conditioning body, avoids dust foreign material etc. to enter in the air-conditioning, outward appearance class aspect also there is lifting, and during operation of air conditioner, air outlet rises, and can form the air-out air channel.And the elevating mechanism of this air-conditioner adopts the version of two gear assemblies, with respect to existing pinion and rack, have advantages of simple in structure, motion credibility is high.

Description of drawings

Fig. 1 is the structural representation of the indoor set of the floor air conditioner among one of them embodiment of the utility model, and this illustrates wind component and rises to the movement travel front view in when upper end;

Fig. 2 is the explosive view of indoor set shown in Figure 1;

Fig. 3 is the cutaway view of indoor set shown in Figure 1;

Fig. 4 is the graphics of master gear assembly of the elevating mechanism of indoor set shown in Figure 1;

Fig. 5 is the graphics of pinion assembly of the elevating mechanism of indoor set shown in Figure 1;

Fig. 6 is the wind component of indoor set shown in Figure 1 and the installation diagram of elevating mechanism;

Fig. 7 is the installation diagram of wind component, elevating mechanism and the pedestal of indoor set shown in Figure 1;

Fig. 8 is the partial enlarged drawing at I place among Fig. 3.

Among above each figure, 10-shell, 11-air inlet, 12-opening, the 13-deep gouge, 14-the second air outlet, 15-wind deflector, 20-evaporimeter, the 30-fan blade, 40-wind component, 41-air duct drum, 41a-chute, 41b-the second protuberance, 42-guide cylinder, 42a-breach, 43-top cover, 44-the first air outlet, the 45-air channel, 46-sweeps air blade, the 50-pedestal, the 51-inner barrel, 51a-the first protuberance, 52-outer cylinder body, 52a-subsidence part, the 53-container cavity, 60-master gear assembly, 61-linking arm, the 62-geared parts, 62a-axis hole, 63-rolling member, 70-pinion assembly, 71-linking arm, 72-geared parts, the 72a-axis hole, 73-rolling member, 80-motor.

The specific embodiment

Also in conjunction with the embodiments the utility model is elaborated below with reference to accompanying drawing.Need to prove, in the situation that do not conflict, below feature among each embodiment and the embodiment can mutually make up.

See also Fig. 1, Fig. 2 and Fig. 3, the indoor set of the floor air conditioner among one of them embodiment of the utility model comprises shell 10, evaporimeter 20, fan blade 30, wind component 40 and elevating mechanism, wherein, the back side of shell 10 has air inlet 11, the top of shell 10 has opening 12 and around the deep gouge 13 of opening 12, deep gouge 13 is used for assembling and hiding wind component 40.Preferably, left surface and right flank at described shell 10 are provided with the second air outlet 14 that vertically extends, and be provided with for selectively opened air deflection assemblies with closing this second air outlet 14 at these the second air outlet 14 places, air deflection assemblies comprises wind deflector 15 and drive motors (not shown on the figure).The second air outlet 14 cooperates air-out with the first air outlet 44 on the wind component 40, can improve the comfortableness of air-conditioning.

Wind component 40 liftably is arranged at described opening 12 places, and is provided with the air channel 45 of the first air outlet 44 and this first air outlet 44 of connection and described opening 12 at this wind component 40.In the present embodiment, described wind component 40 comprises air duct drum 41 and is arranged at the top cover 43 of these air duct drum 41 upper ends, is provided with described the first air outlet 44 at this air duct drum 41, forms described air channel 45 by this air duct drum 41 and described top cover 43.Preferably, 44 places are provided with wind guiding component at described the first air outlet, and wind guiding component comprises to be swept air blade 30 and sweep wind turbine (not shown on the figure).Be provided with the chute 41a that extends along the direction vertical with its direction of motion at the back side of air duct drum 41.Preferably, described wind component 40 also comprises the guide cylinder 42 that is arranged on described air duct drum 41 outsides, this guide cylinder 42 and the outer cylinder body 52 of pedestal 50 cooperate to be guided out the lifting of wind part 40, are provided be used to the breach 42a that dodges the subsidence part 52a on the pedestal 50 at the back of this guide cylinder 42.

Elevating mechanism is used for making described wind component 40 elevating movements, optionally to expose and to hide described the first air outlet 44.Described elevating mechanism comprises the chute 41a at a pair of

gear assembly

60,70, motor 80 and described air duct drum 41 back sides, and the gear assembly that is connected with motor 80 in a pair of gear assembly is master gear assembly 60, and another gear assembly is pinion assembly 70.As shown in Figure 4, master gear assembly 60 comprises linking arm 61, be arranged at the geared parts 62 of these linking arm 61 1 ends and be arranged at the rolling member 63 of these linking arm 61 other ends, be provided with flat position among the axis hole 62a of the geared parts 62 of master gear assembly 60, matching with the flat position on motor 80 axles in flat position, can directly be connected with motor 80 and transmit the driving force of motor 80.As shown in Figure 5, the structure of pinion assembly 70 is identical with the structure of master gear assembly 60, the rolling member 73 that it comprises linking arm 71, is arranged at the geared parts 72 of these linking arm 71 1 ends and is arranged at these linking arm 71 other ends, the axis hole 72a of the geared parts 72 of pinion assembly 70 is circular hole, do not establish flat position, cooperate with cylindrical steel axle (not shown on the figure), can rotate around the steel axle.By geared

parts

62,72 engagements, transmit the driving force of drive motors 80 between master gear assembly 60 and the pinion assembly 70.Preferably, the geared parts 62 of master gear assembly 60 and

pinion assembly

70,72 modulus are identical with the tooth footpath, and the linking arm 61 of master gear assembly 60 and

pinion assembly

70,71 length are identical.Preferably, the linking

arm

61,71 of master gear assembly 60 and pinion assembly 70 is Z-shaped bending shape, purpose is to strengthen the distance between wind component 40 and geared parts 62 flank of tooth, the chute 41a that avoids wind component 40 in lifting process with geared parts 62 interferences, cause friction to produce abnormal sound even stuck.Certainly, gear assembly also can be two pairs, and two pairs of gear assemblies are separately positioned on wind component 40, can improve like this stationarity of geared parts 62 motions.

Figure 6 shows that the installation diagram of wind component 40 and elevating mechanism, the geared

parts

62,72 of master gear assembly 60 and pinion assembly 70 is meshed, and by described motor 80 drivings, the

rolling member

63,73 of master gear assembly 60 and pinion assembly 70 is positioned at described chute 41a and can rolls along it.When geared

parts

62,72 turned round under the driving of motor 80, rolling

member

63,73 rolled in chute 41a, moved up and down thereby drive wind component 40.Because geared

parts

62,72 has identical modulus, identical tooth footpath, linking

arm

61,71 has identical length, therefore, drive by motor 80, two geared

parts

62,72 angular speed that rotate equate, two linking

arms

61,71 angles that swing also equate, therefore, can remain at horizontal level by two

rolling members

63,73 wind components 40 that drive, and along with linking

arm

61,71 rotates and formation elevating movement form.By suitable linking

arm

61,71 long is set, makes wind component 40 two linking

arms

61,71 all not parallel when the movement travel top and bottom, thereby avoid forming the motion dead angle.This elevating mechanism is with respect to existing pinion and rack, and is simple in structure, motion credibility is high.

Preferably, described indoor set also comprises pedestal 50, and this pedestal 50 is installed in the described deep gouge 13, and described wind component 40 and described elevating mechanism all are assemblied on this pedestal 50.Like this, during assembling, described wind component 40 and described elevating mechanism are assembled into the parts of an independent completion, are assembled together with shell 10 again, can enhance productivity.Further referring to Fig. 3, described pedestal 50 comprises inner barrel 51 around described opening 12, around the outer cylinder body 52 of described opening 12 and be formed at container cavity 53a between this inner barrel 51 and this outer cylinder body 52.Described motor 80 and steel axle are fixed on the pedestal 50.As shown in Figure 7, the back side of outer cylinder body 52 is provided with the subsidence part 52a that caves inward, and described motor 80 is fixed in this subsidence part 52a.Certainly, if do not consider production efficiency, wind component 40 and elevating mechanism also can directly be assemblied on the shell 10.

Referring to Fig. 7, the upper end of described inner barrel 51 is provided with the first protuberance 51a that extends laterally, and the lower end of described air duct drum 41 is provided with the second protuberance 41b that extends to the inside.When described wind component 40 rose to the movement travel upper end, the lower surface of described the first protuberance 51a contacted with the upper surface of described the second protuberance 41b, prevents that air-conditioner from leaking out.

In this example, the fan blade 30 of shell 10 inside adopts centrifugation blade, but is not limited to forward centrifugal fan blade or backward centrifugation blade, centrifugal air duct corresponding to corresponding design.Evaporimeter 20 vertically stands up the position after partially in shell 10 inside in this example.

Further referring to Fig. 3, when air-conditioner is opened, wind component 40 rises to the movement travel upper end under the drive of elevating mechanism, wind enters from the air inlet 11 of air-conditioner back, after evaporimeter 20 heat exchange and centrifugation blade 30 actings, through the second air outlet 14 of the left and right sides and the first air outlet 44 air-out on top, improved the comfortableness of air-conditioner.When air-conditioner was closed, wind component 40 dropped to the movement travel lower end under the drive of elevating mechanism, and described air duct drum 41, described guide cylinder 42 and wind guiding component all are hidden in the described container cavity 53a, thereby avoided dust etc. to enter in the air-conditioner.

The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims

1. floor air conditioner, the indoor set of this air-conditioner comprises shell, wind component and elevating mechanism, the top of described shell has opening, described wind component liftably is arranged at described opening part, and be provided with the first air outlet and be communicated with this first air outlet and the air channel of described opening at this wind component, described elevating mechanism is used for making described wind component elevating movement, optionally to expose and to hide described the first air outlet; It is characterized in that, described elevating mechanism comprises at least one pair of gear assembly, motor and is arranged on chute on the described wind component, described gear assembly comprises linking arm, be arranged at the geared parts of this linking arm one end and be arranged at the rolling member of this linking arm other end, the geared parts of a pair of described gear assembly is meshed, and by described motor-driven, the rolling member of a pair of described gear assembly is positioned at described chute and can rolls along it.

2. floor air conditioner according to claim 1 is characterized in that, the top of described shell is provided with the deep gouge around described opening; When described wind component dropped to the movement travel lower end, described the first air outlet was hidden in the described deep gouge.

3. floor air conditioner according to claim 2 is characterized in that, described indoor set also comprises pedestal, and this pedestal is installed in the described deep gouge, and described wind component and described elevating mechanism all are assemblied on this pedestal.

4. floor air conditioner according to claim 3, it is characterized in that, described pedestal comprise inner barrel around described opening, around the outer cylinder body of described opening and be formed at this inner barrel and this outer cylinder body between container cavity, described motor is installed on the described outer cylinder body, a geared parts is installed on the output shaft of described motor in a pair of described geared parts, and another geared parts is installed in rotation on the described outer cylinder body; Described wind component comprises air duct drum and is arranged at the top cover of this air duct drum upper end, is provided with described the first air outlet at this air duct drum, forms described air channel by this air duct drum and described top cover, and described chute is arranged on the described air duct drum; When described wind component dropped to the movement travel lower end, described the first air outlet was hidden in the described container cavity.

5. floor air conditioner according to claim 4 is characterized in that, described wind component also comprises the guide cylinder that is arranged on described air duct drum outside, and this guide cylinder and described outer cylinder body cooperate to be guided out the lifting of wind part.

6. floor air conditioner according to claim 5 is characterized in that, is provided with the subsidence part that caves inward on the described outer cylinder body, and described motor is fixed in this subsidence part, is provided be used to the breach of dodging described subsidence part at described guide cylinder.

7. floor air conditioner according to claim 4 is characterized in that, is provided with wind guiding component at described the first air outlet place.

8. floor air conditioner according to claim 4 is characterized in that, the upper end of described inner barrel is provided with the first protuberance that extends laterally, and the lower end of described air duct drum is provided with the second protuberance that extends to the inside; When described wind component rose to the movement travel upper end, the lower surface of described the first protuberance contacted with the upper surface of described the second protuberance.

9. floor air conditioner according to claim 1 is characterized in that, the modulus of the geared parts of a pair of described gear assembly or tooth footpath are identical, and the length of the linking arm of described gear assembly is identical.

10. floor air conditioner according to claim 9 is characterized in that, when described wind component rose to the movement travel top and bottom, the linking arm of a pair of described gear assembly was all not parallel.

11. floor air conditioner according to claim 9 is characterized in that, described linking arm is Z-shaped bending shape.

12. each described floor air conditioner in 11 according to claim 1, it is characterized in that, left surface and/or right flank at described shell are provided with the second air outlet, and are provided with for selectively opened air deflection assemblies with closing this second air outlet at this second air outlet place.

13. floor air conditioner according to claim 12 is characterized in that, described the second air outlet vertically extends.