CN207570101U - A kind of vertical air-conditioner indoor unit air exhausting structure and vertical air conditioner - Google Patents

Abstract

The utility model discloses a kind of vertical air-conditioner indoor unit air exhausting structure and vertical air conditioners, wherein, the air exhausting structure include sequentially connected first connector, lower wind deflector, the second connector, in lower wind deflector, third connector, in upper wind deflector, the 4th connector, upper wind deflector and the 5th connector.Air exhausting structure provided by the utility model is on the one hand so that the wind-guiding micropore set on vertical air conditioner gradually spreads air-flow evacuation into numerous subtle gas silks, user need not directly be blown the cool feeling or warmness that can be just experienced in room by cold wind or hot wind, increase calm sense air supply pattern for vertical air conditioner, improve comfort；On the other hand the structure of integrated guide aerofoil is changed, improve the intensity of single wind deflector, so that wind deflector can be in the case where reducing thickness, intensity can still be improved, first there is no concern that the problem of intensity of perforate band is insufficient, second can continue to optimize without influencing its intensity the aeroperformance of wind deflector.

Description

A kind of vertical air-conditioner indoor unit air exhausting structure and vertical air conditioner

Technical field

The utility model is related to vertical air conditioner technical field more particularly to a kind of vertical air-conditioner indoor unit air exhausting structures And vertical air conditioner.

Background technology

At present, air conditioner is gradually applied to each average family as a kind of household electrical appliance.Air conditioner includes indoor unit And outdoor unit, it is to be blown a cold wind over outward by air outlet or hot wind is come cold to indoor offer in existing vertical air conditioner indoor unit Amount or heat, but since the air outlet of cold wind or the direct air conditioner of hot wind is blown out, blow on the body of indoor user, can make The feeling that user causes to be subcooled or overheat, comfort are low.

As it can be seen that the prior art has yet to be improved and developed.

Utility model content

In view of above-mentioned deficiencies of the prior art, the purpose of this utility model is to provide a kind of vertical air-conditioner indoor unit outlet air Structure and vertical air conditioner, it is intended to solve the problems, such as that vertical air conditioner comfort is low in the prior art.

The technical solution of the utility model is as follows：

A kind of vertical air-conditioner indoor unit air exhausting structure, including：Sequentially connected first connector, lower wind deflector, second Connector, in lower wind deflector, third connector, in upper wind deflector, the 4th connector, upper wind deflector and the 5th connector, wherein, First connector and the 5th connecting-piece structure are identical and arranged symmetrically, at least one in the two to be used to that each wind deflector to be driven to revolve Turn；Second connector, third connector and the 4th connecting-piece structure are identical, for each wind deflector to be linked together；It is described Lower wind deflector, in lower wind deflector, in upper wind deflector and upper wind deflector all in strip, and the wind-guiding for all offering array arrangement is micro- Hole.

Further, the lower wind deflector, in lower wind deflector, in upper wind deflector and upper wind deflector be all made of aluminium alloy.

Further, first connector, the second connector, third connector, the 4th connector and the 5th connector All it is made of plastics.

Further, first connector includes：Active rotating shaft, the first fixture block, two the first gravity bufferings are bored, one First rotation cylinder and several first connecting poles；The active rotating shaft is located at the first connector away from lower wind deflector one end；It is described First fixture block includes fixture block ontology and first connecting portion, and the first connecting portion is fixedly connected on active rotating shaft, the fixture block sheet One is offered in the middle part of body and installs slot for accommodating the first of lower wind deflector；First connecting pole is installed after slot through first under general Wind deflector is fixedly connected on the first connector；Two the first gravity buffering cones are respectively arranged at the both ends of the first rotation cylinder；Institute It states that the first fixture block is L-shaped, the tapered container of interconnected first and the first U-shaped opening is offered on the outside of the long side of the first fixture block Slot, first gravity buffering cone are contained in the described first tapered container, and the first rotation cylinder is horizontally placed on first and U-shaped opens The openend of mouth slot.

Further, the active rotating shaft be a diameter 3mm to 8mm, the cylinder of height 5mm to 20mm, the cylindrical inside Offer not rounded torsion transmission groove；The first fixture block thickness is lower 3 to 4 times of wind deflector, and lower wind deflector longitudinal section is arc-shaped, then The radian of first fixture block is identical with lower wind deflector radian；The first rotation cylinder height is 5mm to 9mm, and a diameter of 4mm is extremely 6mm；The first gravity buffering cone diameter is more than the first rotation cylinder, is highly 3mm to 10mm.

Further, second connector includes：Second gravity buffering cone, stress round platform, the second rotation cylinder, second Fixture block and the second connecting pole；The second rotation cylinder both ends are respectively arranged with a stress round platform, and the stress round platform is away from the Two rotation cylinder one end are extended the second gravity buffering cone；It is tapered that the second fixture block side offers interconnected second Container and the second U-shaped opening slot, the second gravity buffering cone are contained in the described second tapered container, second rotation Cylinder is horizontally placed on the openend of the second U-shaped opening slot；Then offer in the middle part of second fixture block for accommodate lower wind deflector and under lead The second of aerofoil installs slot, and described second, which installs slot, is communicated with several connection micropores, the connection micro-pore shape, size and position Adapt to the wind-guiding micropore；Second connecting pole is provided with several, several second connecting poles install slot through second Afterwards, respectively by lower wind deflector and in lower wind deflector be fixedly connected on the second connector both ends.

Further, the second fixture block thickness is 3 to 4 times of lower wind-guiding plate thickness, is highly 10mm to 40mm.

Further, the second rotation cylinder height is 5mm to 9mm, a diameter of 4mm to 6mm；Second gravity delays Punching cone diameter is more than the second rotation cylinder, is highly 1mm to 2mm；The stress round platform diameter is more than the second gravity buffering cone, high It spends for 3mm to 10mm.

Further, the spacing between adjacent wind-guiding micropore is 1mm to 3mm, wind-guiding micropore and the spacing on wind deflector boundary For 1mm to 3mm, the aperture of wind-guiding micropore is 1mm to 5mm；The lower wind deflector, in lower wind deflector, in upper wind deflector and on lead The length of aerofoil is all in 150mm between 300mm, and for width then all in 25mm to 40mm, thickness is then all in 0.5mm extremely 1.5mm。

A kind of vertical air conditioner, which is characterized in that the vertical air conditioner includes vertical air-conditioner indoor unit outlet air as described above Structure.

Compared with prior art, vertical air-conditioner indoor unit air exhausting structure provided by the utility model, as a result of successively First connector of connection, lower wind deflector, the second connector, in lower wind deflector, third connector, in upper wind deflector, the 4th connect Fitting, upper wind deflector and the 5th connector, wherein, the first connector and the 5th connecting-piece structure are identical and arranged symmetrically, the two In it is at least one for each wind deflector to be driven to rotate；Second connector, third connector and the 4th connecting-piece structure are identical, use It links together in by each wind deflector；The lower wind deflector, in lower wind deflector, in upper wind deflector and upper wind deflector be all in item Shape, and all offer the wind-guiding micropore of array arrangement.On the one hand so that the wind-guiding micropore set on vertical air conditioner evacuates air-flow It is gradually spread into numerous subtle gas silks, user need not directly be blown by cold wind or hot wind can just experience in room with Cool feeling or warmness increase calm sense air supply pattern for vertical air conditioner, improve comfort；On the other hand previous one is changed The structure of formula wind deflector improves the intensity of single wind deflector so that wind deflector can be in the case where reducing thickness, still can be with Improve intensity, first there is no concern that the problem of intensity come of perforate band is insufficient, second can continue to the aeroperformance of wind deflector into Row optimization is without influencing its intensity.

Description of the drawings

Fig. 1 is the structure diagram of the utility model vertical air-conditioner indoor unit air exhausting structure preferred embodiment.

Fig. 2 is the structural representation of lower wind deflector in the utility model vertical air-conditioner indoor unit air exhausting structure preferred embodiment Figure.

Fig. 3 is the structural representation of the first connector in the utility model vertical air-conditioner indoor unit air exhausting structure preferred embodiment Figure.

Fig. 4 is the structural representation of the second connector in the utility model vertical air-conditioner indoor unit air exhausting structure preferred embodiment Figure.

Specific embodiment

The utility model provides a kind of vertical air-conditioner indoor unit air exhausting structure and vertical air conditioner, to make the mesh of the utility model , technical solution and effect it is clearer, clear and definite, referring to the drawings and give an actual example to the utility model further specifically It is bright.It should be appreciated that specific embodiment described herein is only used to explain the utility model, it is not used to limit this practicality newly Type.

As shown in Figure 1, vertical air-conditioner indoor unit air exhausting structure provided by the utility model, including sequentially connected first Connector 100, lower wind deflector 200, the second connector 300, in lower wind deflector 400, third connector 500, in upper wind deflector 600th, the 4th connector 700,800 and the 5th connector 900 of upper wind deflector, wherein, the first connector 100 and the 5th connector 900 structures are identical and arranged symmetrically, at least one in the two to be used to that each wind deflector to be driven to rotate；Second connector 300, third Connector 500 and 700 structure of the 4th connector are identical, for each wind deflector to be linked together；The lower wind deflector 200, In lower wind deflector 400, in upper wind deflector 600 and upper wind deflector 800 all in strip, and the wind-guiding for all offering array arrangement is micro- Hole.

As shown in Fig. 2, the wind-guiding micropore is rounded or oval, arrangement mode is intersection or array, to reach trepanning The purpose of rate maximum.

As shown in figure 3, first connector 100 includes：Active rotating shaft 110, the first fixture block 120 and the first connecting pole （It does not indicate）；The active rotating shaft 110 is located at the first connector 100 away from lower 200 one end of wind deflector；First fixture block 120 Including fixture block ontology and first connecting portion, the first connecting portion is fixedly connected on active rotating shaft 110, the fixture block ontology middle part It offers one and installs slot for accommodating the first of lower wind deflector 200（It does not indicate）；First connecting pole is provided with several, the One connecting pole installs through first and lower wind deflector 200 is fixedly connected on the first connector 100 after slot.

First connector 100 preferably after the molding of lower wind deflector 200, is directly molded in lower wind deflector 200 1 End, a part of plastic cement solution inject wind-guiding micropore, the first connecting pole are formed after molding, remaining plastic cement solution is formed in injection molding cavity 110 and first fixture block 120 of active rotating shaft, it is, of course, also possible to including other structures.That is, it is preferred that entire first connector 100 be direct injection molding.

In the utility model in preferred embodiment, the lower wind deflector 200, in lower wind deflector 400, in upper wind deflector 600 and upper wind deflector 800 be all made of aluminium alloy；First connector 100, the second connector 300, third connector 500, 4th connector 700 and the 5th connector 900 are all made of plastics.

Why in this way, being because each wind deflector that aluminium alloy makes can effectively solve the calm sense wind deflector of plastics The problem of intensity is insufficient when percent opening is larger；And each connector of plastic material then effectively solves contact surface relative motion and causes Wear problem.In addition, by using the larger strength of materials of aluminium alloy, wind-guiding plate thickness can be reduced, effectively solve aluminium alloy The problem of wind deflector weight processed is larger, and allow on the basis of wind deflector is thinned, continue the aeroperformance progress to wind deflector Optimization is without influencing its intensity.

It should be noted that in the utility model, different-thickness and shape, same wind deflector can be used in each wind deflector Different parts can also use different-thickness and shape, to achieve the purpose that optimizing pneumatic performance.

In the utility model further preferred embodiment, first connector 100 further includes：Two the first gravity Buffering cone and one first rotation cylinder 130, two the first gravity buffering cones are respectively arranged at the both ends of the first rotation cylinder 130； First fixture block 120 is L-shaped, and the tapered container of interconnected first and the are offered on the outside of the long side of the first fixture block 120 One U-shaped opening slot, the first gravity buffering cone are contained in the described first tapered container, and the first rotation cylinder 130 is horizontal It is placed in the openend of the first U-shaped opening slot.

The active rotating shaft 110 is a diameter 3mm to 8mm, and the cylinder of height 5mm to 20mm, which offers Not rounded torsion transmission groove；First fixture block, 120 thickness is 3 to 4 times of lower wind deflector 200, and lower 200 longitudinal section of wind deflector is in arc Shape, then the radian of the first fixture block 120 is identical with lower 200 radian of wind deflector；First rotation cylinder 130 height for 5mm extremely 9mm, a diameter of 4mm to 6mm；The first gravity buffering cone diameter is more than the first rotation cylinder 130, is highly 3mm to 10mm.

The not rounded torsion transmits the groove shape concretely shapes such as square type, positive square, ellipse or diamond shape.

The connotation of diameter, radian and thickness is tacit in the utility model, if height is with wind deflector（Each wind deflector side To identical, therefore lower wind deflector 200 need not be distinguished herein also or other wind deflectors）Wind deflector long side side is then referred to for reference To.

Since the first connector 100 and 900 structure of the 5th connector are identical, the wind deflector of the two connection is differed only in not Together, therefore, the utility model will not be described in great detail the structure of the 5th connector 900.

As shown in figure 4, in the utility model further preferred embodiment, second connector 300 includes：Second 410 and second connecting pole of fixture block（It does not indicate）, second fixture block, 410 middle part offer for accommodate lower wind deflector 200 and in The second of lower wind deflector 400 installs slot（It does not indicate）, described second, which installs slot, is communicated with several connection micropores, the connection micropore Shape, size and position adapt to the wind-guiding micropore；Second connecting pole is provided with several, several second connecting poles After second installs slot, respectively by lower wind deflector 200 and in lower wind deflector 400 be fixedly connected on 300 both ends of the second connector.

The preferred molding mode of second connector 300 is identical with the first connector 100, and the utility model is no longer superfluous herein It states, need to know, the utility model does not indicate the first connecting pole, the second connecting pole, first installs slot and second install slot not Representative does not show the part concrete structure, can not therefore assert that the utility model can not achieve, because the above has shown the One connecting pole, the second connecting pole, first install slot and second to install slot be injection molding, then four then necessarily adapt to its institute Corresponding wind-guiding micropore and wind deflector local shape.

In the utility model further preferred embodiment, second connector 300 further includes：Second rotation cylinder 420,420 both ends of the second rotation cylinder are respectively arranged with a stress round platform, and the stress round platform is away from the second rotation cylinder 420 one end are provided with one second gravity buffering cone；Second fixture block, 410 side offers the tapered receiving of interconnected second Slot and the second U-shaped opening slot, the second gravity buffering cone are contained in the described second tapered container, the second rotation cylinder 420 are horizontally placed on the openend of the second U-shaped opening slot.

Second fixture block, 410 thickness is 3 to 4 times of lower 200 thickness of wind deflector, is highly 10mm to 40mm；Described Two 420 height of rotation cylinder are 5mm to 9mm, a diameter of 4mm to 6mm；The second gravity buffering cone diameter is more than the second rotation Cylinder 420 is highly 1mm to 2mm；The stress round platform diameter is more than the second gravity buffering cone, is highly 3mm to 10mm.

In the utility model further preferred embodiment, the spacing between adjacent wind-guiding micropore is 1mm to 3mm, is led The spacing on wind micropore and wind deflector boundary is 1mm to 3mm, and the aperture of wind-guiding micropore is 1mm to 5mm；The lower wind deflector 200, In lower wind deflector 400, in the length of upper wind deflector 600 and upper wind deflector 800 all in 150mm between 300mm, width is then all In 25mm to 40mm, thickness is then all in 0.5mm to 1.5mm.

In conclusion vertical air-conditioner indoor unit air exhausting structure provided by the utility model is by end part rotating shaft component, middle part Shaft element and wind deflector component composition, end part rotating shaft component drive at least one fortune in lower wind deflector 200 and upper wind deflector 800 Dynamic, each wind deflector is linked together and transmits movement by middle part shaft element, and in addition to this, middle part shaft element is also wind-guiding The rotation of plate provides rotation condition.

Compared with prior art, the utility model also has calm sense air-supply modular structure stability height, intensity height, processing The advantages of difficulty is low.

The utility model additionally provides a kind of vertical air conditioner, including above-mentioned vertical air-conditioner indoor unit air exhausting structure.

It should be understood that the application of the utility model is not limited to above-mentioned citing, those of ordinary skill in the art are come It says, can be improved or converted according to the above description, all these modifications and variations should all belong to the appended power of the utility model The protection domain of profit requirement.

Claims (10)

1. a kind of vertical air-conditioner indoor unit air exhausting structure, which is characterized in that including：Sequentially connected first connector, lower wind-guiding Plate, the second connector, in lower wind deflector, third connector, in upper wind deflector, the 4th connector, upper wind deflector and the 5th connection Part, wherein, the first connector and the 5th connecting-piece structure are identical and arranged symmetrically, at least one in the two to be used to drive each lead Aerofoil rotates；Second connector, third connector and the 4th connecting-piece structure are identical, for each wind deflector to be connected to one It rises；The lower wind deflector, in lower wind deflector, in upper wind deflector and upper wind deflector all in strip, and all offer array arrangement Wind-guiding micropore.

2. vertical air-conditioner indoor unit air exhausting structure according to claim 1, which is characterized in that the lower wind deflector, under Wind deflector, in upper wind deflector and upper wind deflector be all made of aluminium alloy.

3. vertical air-conditioner indoor unit air exhausting structure according to claim 1, which is characterized in that first connector, Two connectors, third connector, the 4th connector and the 5th connector are all made of plastics.

4. vertical air-conditioner indoor unit air exhausting structure according to claim 1, which is characterized in that the first connector packet It includes：Active rotating shaft, the first fixture block, two the first gravity buffering cones, the first rotation cylinder and several first connecting poles；It is described Active rotating shaft is located at the first connector away from lower wind deflector one end；First fixture block includes fixture block ontology and first connecting portion, The first connecting portion is fixedly connected on active rotating shaft, and one is offered in the middle part of the fixture block ontology for accommodating the of lower wind deflector One installs slot；First connecting pole installs through first and lower wind deflector is fixedly connected on the first connector after slot；Two One gravity buffering cone is respectively arranged at the both ends of the first rotation cylinder；First fixture block is L-shaped, on the outside of the long side of the first fixture block Offer the tapered container of interconnected first and the first U-shaped opening slot, the first gravity buffering cone is contained in described the One tapered container, the first rotation cylinder are horizontally placed on the openend of the first U-shaped opening slot.

5. vertical air-conditioner indoor unit air exhausting structure according to claim 4, which is characterized in that the active rotating shaft is always Diameter 3mm to 8mm, the cylinder of height 5mm to 20mm, the cylindrical inside offer not rounded torsion transmission groove；First fixture block is thick It spends for lower 3 to 4 times of wind deflector, lower wind deflector longitudinal section is arc-shaped, then the radian of the first fixture block is identical with lower wind deflector radian；Institute The first rotation cylinder height is stated as 5mm to 9mm, a diameter of 4mm to 6mm；The first gravity buffering cone diameter is more than first turn Dynamic cylinder, is highly 3mm to 10mm.

6. vertical air-conditioner indoor unit air exhausting structure according to claim 1, which is characterized in that the second connector packet It includes：Second gravity buffering cone, stress round platform, the second rotation cylinder, the second fixture block and the second connecting pole；The second rotation cylinder Both ends are respectively arranged with a stress round platform, and the stress round platform is extended the second gravity buffering away from second rotation cylinder one end Cone；The second fixture block side offers the tapered container of interconnected second and the second U-shaped opening slot, second gravity Buffering cone is contained in the described second tapered container, and the second rotation cylinder is horizontally placed on the openend of the second U-shaped opening slot；The Then offer in the middle part of two fixture blocks for accommodate lower wind deflector and in lower wind deflector second install slot, described second installs slot connection There are several connection micropores, the connection micro-pore shape, size and position adapt to the wind-guiding micropore；Second connecting pole is set Be equipped with several, several second connecting poles after second installs slot, respectively by lower wind deflector and in lower wind deflector fix and connect It is connected to the second connector both ends.

7. vertical air-conditioner indoor unit air exhausting structure according to claim 6, which is characterized in that the second fixture block thickness is 3 to 4 times of lower wind-guiding plate thickness are highly 10mm to 40mm.

8. vertical air-conditioner indoor unit air exhausting structure according to claim 7, which is characterized in that the second rotation cylinder is high It spends for 5mm to 9mm, a diameter of 4mm to 6mm；The second gravity buffering cone diameter is more than the second rotation cylinder, is highly 1mm To 2mm；The stress round platform diameter is more than the second gravity buffering cone, is highly 3mm to 10mm.

9. vertical air-conditioner indoor unit air exhausting structure according to claim 1, which is characterized in that between adjacent wind-guiding micropore Spacing is 1mm to 3mm, and the spacing on wind-guiding micropore and wind deflector boundary is 1mm to 3mm, and the aperture of wind-guiding micropore is 1mm to 5mm； The lower wind deflector, in lower wind deflector, in the length of upper wind deflector and upper wind deflector all in 150mm between 300mm, width Then all in 25mm to 40mm, thickness is then all in 0.5mm to 1.5mm.

10. a kind of vertical air conditioner, which is characterized in that the vertical air conditioner includes as in one of claimed in any of claims 1 to 9 Vertical air-conditioner indoor unit air exhausting structure.