CN203231484U - Air-out panel of indoor set of air conditioner - Google Patents
Air-out panel of indoor set of air conditioner Download PDFInfo
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- CN203231484U CN203231484U CN 201320092934 CN201320092934U CN203231484U CN 203231484 U CN203231484 U CN 203231484U CN 201320092934 CN201320092934 CN 201320092934 CN 201320092934 U CN201320092934 U CN 201320092934U CN 203231484 U CN203231484 U CN 203231484U
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- blade body
- wind outlet
- outlet panel
- thickness
- side edge
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Abstract
The utility model discloses the air-out panel of the indoor set of an air conditioner, which comprises a plurality of vertical blades used for guiding the airflow. Each vertical blade comprises a pivoting part and a blade body. The pivoting parts are used for mounting corresponding vertical blades onto the air-outlet panel so as to enable the vertical blades to rotate around a pivotal axis. The blade bodies are used for guiding the airflow blown out of the indoor set of the air conditioner. Each blade body is composed of an inner side edge facing the interior of the indoor set of the air conditioner, and an outer side edge facing the outside of the indoor set of the air conditioner, wherein the thickness of the middle part of the blade body is larger than both the thickness of the outer side edge and the thickness of the inner side edge. According to the technical scheme of the utility model, due to the adoption of the above configuration of the blade body, the thickness of the middle part of the blade body is larger than both the thickness of the outer side edge and the thickness of the inner side edge. In this way, on the premise that the hardness of the blades is ensured, the vertical blades are manufactured to be thinner and lighter. Meanwhile, the guiding effect on the airflow is better by means of the vertical blades.
Description
Technical field
The utility model relates to a kind of wind outlet panel of indoor machine of air conditioner, particularly a kind of wind outlet panel of built-in indoor machine of air conditioner.
Background technology
Built-in aircondition comprises indoor set body and wind outlet panel, be equipped with horizontal blade, vertical vane, motor and rotating shaft on the wind outlet panel, horizontal blade and vertical vane cooperate with rotating shaft, motor drives rotating shaft, make horizontal blade opposite face board plane do rotation action up and down, vertical vane opposite face board plane is done the left-right rotation action.Specifically, wind outlet panel comprises the panel body that is flat panel framework and has four sidewalls, and wherein horizontal blade and vertical vane are installed on the panel body, and horizontal blade and vertical vane play the effect of guiding to air-flow.
The vertical vane integral body of the built-in indoor machine of air conditioner that is known in the art is tabular, that is to say, the cross sectional shape in the plane of blade pivot shaft axis of vertical vane is roughly rectangular.Consider that vertical vane can be subjected to the effect of the blowing of the long-time big wind-force of air outlet, therefore, flat vertical vane need have certain thickness to guarantee the hardness of blade.Yet existing blade is usually too thick too heavy, has influenced the guide functions to air-flow.
The utility model content
For existing vertical vane is made improvements, overcome the deficiency that existing vertical vane exists, according to first aspect of the present utility model, a kind of wind outlet panel of indoor machine of air conditioner is provided, wind outlet panel comprises a plurality of vertical vanes for wind-guiding, each vertical vane comprises pivot part and blade body, wherein pivot part is used for vertical vane is installed on the wind outlet panel to rotate around pivot axis, blade body is used to the air-flow that blows out from indoor machine of air conditioner that guide effect is provided, wherein, blade body has towards the inner side edge of indoor machine of air conditioner inboard with towards the outer side edges in the indoor machine of air conditioner outside, and the thickness at middle part that blade body is configured to blade body is bigger than the thickness at outer side edges and inner side edge place.
According to second aspect of the present utility model, blade body is being spindle perpendicular to the cross sectional shape in the plane of the pivot axis of vertical vane.
According to the 3rd aspect of the present utility model, in according to the wind outlet panel aspect second, blade body has first side and second side, and first side and second side have the arc of evagination.
According to the 4th aspect of the present utility model, blade body is being the streamlined with neutral straight section perpendicular to the cross sectional shape in the plane of the pivot axis of vertical vane.
According to the 5th aspect of the present utility model, in according to the wind outlet panel aspect the 4th, blade body has first side and second side, first side and second side all have mid-plane portion, from the leading portion rake of middle planar portions outward side inclination extension and the back segment rake that tilts to extend from the inside side of middle planar portions, wherein the mid-plane portion of first side and second side is parallel to each other to constitute the blade body interlude with thickness maximum, the leading portion rake of first side and second side has constituted the outside converging transition of vane thickness towards the blade body of outer side edges convergent, and the back segment rake of first side and second side has been configured to the inboard converging transition of vane thickness towards the blade body of inner side edge convergent.
According to the 6th aspect of the present utility model, blade body is roughly rhombus in middle section, the plane shape perpendicular to the pivot axis of vertical vane.
According to the 7th aspect of the present utility model, in according to the wind outlet panel aspect the 6th, blade body has first side and second side, first side and second side have the leading portion rake that tilts from blade body middle part outward side respectively and the inside back segment rake that tilts of side from the blade body middle part, wherein the leading portion rake has been configured to the outside converging transition of vane thickness towards the outer side edges convergent of blade, the back segment rake has been configured to the inboard converging transition of vane thickness towards the inner side edge convergent of blade, and outside converging transition and inboard converging transition phase company headquarters have constituted the thickness largest portion of blade body.
According to the 8th aspect of the present utility model, inner side edge and the outer side edges of blade body are parallel to pivot axis.
According to the 9th aspect of the present utility model, has circular depressions in the pivot part, form cylindrical boss on the upper side wall of the panel body of wind outlet panel and the lower wall, lug boss is combined together with recess pivotly, and pivot part and blade body is integrally moulded forms.
According to the of the present utility model ten aspect, in the wind outlet panel according to the indoor machine of air conditioner aspect the 3rd, five, seven, first side and second side are smooth.
Because it is bigger than the thickness at outer side edges and inner side edge place to be configured to interior thickness according to blade body of the present utility model, therefore, under the precondition that guarantees blade hardness, that vertical vane can be done is more frivolous, and the water conservancy diversion effect of simultaneously such vertical vane is better.
Description of drawings
Fig. 1 is the front view that is used for the wind outlet panel of built-in indoor machine of air conditioner.
Fig. 2 for wind outlet panel shown in Figure 1 along A-A to cuing open the top plan view of getting.
Fig. 3 is the vertical view according to the vertical vane of first embodiment of the present utility model.
Fig. 4 is the vertical view according to the vertical vane of second embodiment of the present utility model.
Fig. 5 is the vertical view according to the vertical vane of the 3rd embodiment of the present utility model.
Fig. 6 shows the front view according to vertical vane of the present utility model, wherein shows a side of vertical vane.
The specific embodiment
The utility model is described in further detail below in conjunction with specific embodiments and the drawings; set forth more details in the following description so that fully understand the utility model; but the utility model obviously can be implemented with the multiple alternate manner that is different from this description; those skilled in the art can do similar popularization, deduction according to practical situations under the situation of the utility model intension, therefore should be with the content constraints of this specific embodiment protection domain of the present utility model.
Fig. 1 is the front view of the wind outlet panel 100 that is used for built-in indoor machine of air conditioner, and Fig. 2 for wind outlet panel 100 shown in Figure 1 along A-A to cuing open the top plan view of getting, and Fig. 6 shows a side of single vertical vane 130.Wind outlet panel 100 comprises a plurality of vertical vanes 130 for wind-guiding, is illustrated as 12, but this is not restrictive, and the quantity of vertical vane 130 also can be set according to the concrete size of wind outlet panel 100.Be provided with motor in wind outlet panel 100, motor links to each other with the rotating shaft connecting rod, and the rotating shaft connecting rod is bonded on a plurality of vertical vanes 130, and like this, under the driving of motor, these vertical vanes 130 that are installed on the wind outlet panel 100 can rotate around pivot axis separately.
As depicted in figs. 1 and 2, wind outlet panel 100 comprises panel framework 110 and panel body 120, wherein offer the air outlet that air feed stream flows out on the panel framework 110, and panel body 120 is around the air outlet setting of panel framework 110.According to preferred embodiment, panel framework 110 with and on air outlet be rectangle, panel body 120 correspondingly also is configured to rectangle and has upper side wall 123, lower wall 124, left side wall 125 and right side wall 126, and the panel body 120 of rectangle arranges around the rectangle air outlet thus.
Shown in Figure 3, vertical vane 130 comprises pivot part 131 and blade body 132, wherein pivot part 131 is used for vertical vane 130 is pivotally mounted to the panel body 120 of wind outlet panel 100, enable to rotate around separately pivot axis, and blade body 132 mainly plays the effect of the air-flow that guiding flows out from indoor set.According to a preferred embodiment, pivot part 131 and blade body 132 can adopt that resin material is integrally moulded to form, and constitute vertical vane 130 thus.
According to preferred embodiment of the present utility model, has circular depressions 136 in the pivot part 131 of vertical vane 130, and form cylindrical boss on the upper side wall 123 of panel body 120 and the lower wall 124, like this, when lug boss was combined together with recess 136 pivotly, vertical vane 130 can change in the drive bottom left Thuban of motor and rotating shaft.Preferably, the diameter of circular depressions 136 like this, when both are combined together, leaves the gap to hold condensed water greater than the diameter of cylindrical boss in the circular depressions 136.
The blade body 132 of vertical vane 130 has four sides, is respectively upper side edge, lower side, outer side edges 138 and inner side edge 139.After vertical vane 130 is installed on the panel body 120, the upper side edge of vertical vane 130 is relative with lower wall 124 with the upper side wall 123 of panel body 120 with lower side, the outer side edges 138 of vertical vane 130 is towards the indoor set outside, and the inner side edge 139 of vertical vane 130 is towards the inboard of indoor set.Generally speaking, the pivot axis almost parallel of the outer side edges 138 of blade body 132 and inner side edge 139 and vertical vane 130, and upper side edge and lower side are approximately perpendicular to outer side edges 138 and inner side edge 139.For under the prerequisite of guaranteeing blade hardness, reduce blade as far as possible to the resistance of air-flow, the thickness of pars intermedia that the blade body 132 of vertical vane 130 is configured to blade body 132 is bigger than the thickness at outer side edges 138 and inner side edge 139 places.
First embodiment
Fig. 3 is the vertical view according to first embodiment of the present utility model, vertical vane 130 shown in it is roughly the circular arc wing shape, more specifically, blade body 132 wherein is being spindle perpendicular to the cross sectional shape in the plane of the pivot axis of vertical vane 130.
Particularly, the blade body 132 of vertical vane 130 has first side 133 and second side 134, and these two sides are the arc of evagination, and about the axis symmetry of vertical vane 130.In other words, the thickness of blade is from the thickest outward side 138 and inner side edge 139 convergents of centre, and vertical vane 130 has the spindle of camber line at middle section, the plane shape structure perpendicular to the pivot axis of blade thus.The gauge of the thickness portion general goal at the middle part of blade body 132 for example is about 2mm, and blade body 132 the gauge of narrow portion for example be about 0.8mm.
Second embodiment
Fig. 4 is the vertical view according to second embodiment of the present utility model, and blade body 132 wherein is being the streamlined with neutral straight section perpendicular to the cross sectional shape in the plane of the pivot axis of vertical vane 130.
As shown in Figure 4, equally also to have first side 133 and 134, the first sides 133, second side and second side 134 also be about the pivot axis symmetry of vertical vane 130 to the blade body 132 of vertical vane 130.First side 133 and second side 134 all have mid-plane portion, the leading portion rake that tilts to extend from middle planar portions outward side and the back segment rake that tilts to extend from the inside side of middle planar portions.The mid-plane portion of first side 133 and second side 134 is parallel to each other, constituted the interlude of the blade body 132 of thickness maximum thus, the leading portion rake of first side 133 and second side 134 has constituted the outside converging transition of thickness towards the blade body 132 of outer side edges convergent, and the back segment rake of first side 133 and second side 134 has been configured to the inboard converging transition of thickness towards the blade body 132 of inner side edge convergent.Thus, from vertical view shown in Figure 4, can see, make vertical vane 130 in the streamlined that has the neutral straight section perpendicular to middle section, the plane shape structure of the pivot axis of blade.As a preferred embodiment, the thickness of the interlude that the mid-plane portion of blade body 132 constitutes is about 2mm, and the thickness at the outer side edges place of blade body 132 is about 0.8mm.
The 3rd embodiment
Fig. 5 is the vertical view according to the 3rd specific embodiment of the present utility model, and blade body 132 wherein is roughly the little rhombus in two broad in the middle in middle section, the plane shape perpendicular to the pivot axis of vertical vane 130.
As shown in Figure 5, equally also to have first side 133 and 134, the first sides 133, second side and second side 134 also be about the pivot axis symmetry of vertical vane 130 to the blade body 132 of this vertical vane 130.According to the 3rd embodiment, first side 133 and second side 134 have respectively from the leading portion rake of blade body 132 middle part outward sides inclinations and the back segment rake that inside side tilts from blade body 132 middle parts, the leading portion rake of two sides has been configured to the outside converging transition of blade body 132 thickness towards the blade body 132 of the outer side edges convergent of blade thus, and the back segment rake of two sides has been configured to the inboard converging transition of vane thickness towards the blade body 132 of the inner side edge convergent of blade.The thickness largest portion of blade body 132 is the connecting portion of outside converging transition and inboard converging transition, like this, can be clear that from the vertical view of Fig. 5 this vertical vane 130 is roughly the little rhombus in two broad in the middle in middle section, the plane shape perpendicular to the pivot axis of blade.
Technique effect
Because it is bigger than the thickness at outer side edges 138 and inner side edge 139 places to be configured to interior thickness according to blade body 132 of the present utility model, therefore, under the precondition that guarantees blade hardness, that vertical vane 130 can be done is more frivolous, and the water conservancy diversion effect of simultaneously such vertical vane 130 is better.
In addition, two sides of the blade body 132 of vertical vane 130 preferably are smooth, thereby further minimum is to the resistance of air-flow.
In addition, vertical vane 130 has pivot part 131, is provided with circular depressions 136 in the pivot part 131, in order to cooperate with cylindrical boss on the sidewall of panel body 120.Like this make blade body 132 do more frivolous in, the vertical vane 130 of can guaranteeing to pivot is connected with the reliable of panel body 120.
Though the utility model with preferred embodiment openly as above, it is not to limit the utility model, and any those skilled in the art can make possible change and modification in not breaking away from spirit and scope of the present utility model.Therefore, every content that does not break away from technical solutions of the utility model, all falls within the protection domain that the utility model claim defines any modification, equivalent variations and modification that above embodiment does according to technical spirit of the present utility model.
Claims (10)
1. the wind outlet panel of an indoor machine of air conditioner, (100), described wind outlet panel, (100) comprise a plurality of vertical vanes for wind-guiding, (130), each vertical vane, (130) comprise pivot part, (131) and blade body, (132), wherein said pivot part, (131) be used for described vertical vane, (130) be installed to described wind outlet panel, (100) go up to rotate around pivot axis, described blade body, (132) be used to the air-flow that from described indoor machine of air conditioner, flows out that guide effect is provided, it is characterized in that
Described blade body (132) has towards the inner side edge (139) of indoor machine of air conditioner inboard with towards the outer side edges (138) in the indoor machine of air conditioner outside, and it is big that described blade body (132) is configured to the thickness that the thickness at the middle part of described blade body (132) locates than outer side edges (138) and inner side edge (139).
2. wind outlet panel as claimed in claim 1 (100) is characterized in that, described blade body (132) is being spindle perpendicular to the cross sectional shape in the plane of the described pivot axis of described vertical vane (130).
3. wind outlet panel as claimed in claim 2 (100) is characterized in that, described blade body (132) has first side (133) and second side (134), and described first side (133) and described second side (134) have the arc of evagination.
4. wind outlet panel as claimed in claim 1 (100) is characterized in that, described blade body (132) is being the streamlined with neutral straight section perpendicular to the cross sectional shape in the plane of the described pivot axis of described vertical vane (130).
5. wind outlet panel as claimed in claim 4 (100), it is characterized in that, described blade body (132) has first side (133) and second side (134), the back segment rake that described first side (133) and described second side (134) all have mid-plane portion, the leading portion rake that tilts to extend from described mid-plane portion to described outer side edges and tilt to extend from middle planar portions to described inner side edge
The mid-plane portion of wherein said first side (133) and described second side (134) is parallel to each other to constitute the interlude of the blade body (132) with thickness maximum, the leading portion rake of first side (133) and second side (134) has constituted the outside converging transition of vane thickness towards the blade body (132) of outer side edges convergent, and the back segment rake of first side (133) and second side (134) has been configured to the inboard converging transition of vane thickness towards the blade body (132) of inner side edge convergent.
6. wind outlet panel as claimed in claim 1 (100) is characterized in that, described blade body (132) is roughly rhombus in middle section, the plane shape perpendicular to the described pivot axis of described vertical vane (130).
7. wind outlet panel as claimed in claim 6 (100), it is characterized in that, described blade body (132) has first side (133) and second side (134), first side (133) and second side (134) have the leading portion rake that tilts from blade body (132) middle part outward side respectively and the inside back segment rake that tilts of side from blade body (132) middle part
Wherein said leading portion rake has been configured to the outside converging transition of vane thickness towards the blade body (132) of the outer side edges convergent of blade, described back segment rake has been configured to the inboard converging transition of vane thickness towards the blade body (132) of the inner side edge convergent of blade, and described outside converging transition and described inboard converging transition phase company headquarters have constituted the thickness largest portion of blade body (132).
8. wind outlet panel as claimed in claim 1 (100) is characterized in that, inner side edge (139) and the outer side edges (138) of described blade body (132) are parallel to described pivot axis.
9. wind outlet panel as claimed in claim 1 (100), it is characterized in that, has circular depressions (136) in the described pivot part (131), the upper side wall (123) of the panel body (120) of described wind outlet panel (100) and lower wall (124) go up and form cylindrical boss, described lug boss is combined together with described recess (136) pivotly, and described pivot part (131) and integrally moulded the forming of described blade body (132).
10. as claim 3,5 or 7 described wind outlet panel (100), it is characterized in that described first side (133) and described second side (134) are smooth.
Priority Applications (1)
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CN 201320092934 CN203231484U (en) | 2013-02-28 | 2013-02-28 | Air-out panel of indoor set of air conditioner |
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CN 201320092934 CN203231484U (en) | 2013-02-28 | 2013-02-28 | Air-out panel of indoor set of air conditioner |
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CN 201320092934 Expired - Lifetime CN203231484U (en) | 2013-02-28 | 2013-02-28 | Air-out panel of indoor set of air conditioner |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109282469A (en) * | 2018-09-19 | 2019-01-29 | 宁波奥克斯电气股份有限公司 | A kind of control method of wind guide strip, air conditioner and air conditioner |
CN111002788A (en) * | 2018-10-05 | 2020-04-14 | 佛吉亚内饰工业公司 | Shutter for a ventilation device and corresponding ventilation device |
-
2013
- 2013-02-28 CN CN 201320092934 patent/CN203231484U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109282469A (en) * | 2018-09-19 | 2019-01-29 | 宁波奥克斯电气股份有限公司 | A kind of control method of wind guide strip, air conditioner and air conditioner |
CN111002788A (en) * | 2018-10-05 | 2020-04-14 | 佛吉亚内饰工业公司 | Shutter for a ventilation device and corresponding ventilation device |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term |
Granted publication date: 20131009 |
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CX01 | Expiry of patent term |