CN204100535U - A kind of air inlet faceplate, air inlet structure and air-conditioning - Google Patents

Abstract

The utility model provides a kind of air inlet faceplate, air inlet structure and air-conditioning, and this air inlet faceplate comprises: framework, has top and side; First air filter module, is connected in described framework by the claw of the inner wall surface being fixed on described framework; Air intake grid, described air intake grid has the interface of installation second air filter module; The controlling organization driving air intake grid and described framework to fasten/open, is fixed on the surface of described framework.The air-conditioning comprising this air inlet faceplate while not affecting cooling and warming ability to work completely, can realize high efficiency filter.Reach and to filter and cooling and warming work is used alone, be independent of each other, guarantee reaches the effect of respective optimum Working.

Description

A kind of air inlet faceplate, air inlet structure and air-conditioning

Technical field

The utility model belongs to household electrical appliance technical field, particularly relates to a kind of air inlet faceplate, air inlet structure and air-conditioning.

Background technology

In recent years, along with growth in the living standard, air-conditioning obtains universal in daily life, the meanwhile requirement of consumer to heat pump performance also progressively improves, particularly air quality problems becomes increasingly conspicuous in recent years, sandstorm, and haze weather occurs repeatedly, while the comfortable air of the changes in temperature that provide of air-conditioning is provided, more need comfortable clean pure and fresh air.But, generally for and avoid thermal loss, no matter open the place of air-conditioning, be family, office building or other public space, generally close to airtight space, once room air is contaminated, such as by cigarette, harmful chemical, the pollutions such as haze, are difficult to filter completely by operation of air conditioner, blowout clean air.

Existing air-conditioning internal machine generally adopts axial-flow fan and centrifugal fan, wind sucks through air inlet, blow out from air outlet after simple filtration, be generally and obtained high-quality air, air inlet directly installs primarily efficient filter structure, it only can the larger dust of filtering particle, and filter efficiency is low, and dust containing capacity is limited.Or also there are some machines to employ high efficiency filter module, the dust in air can be removed, PM2.5, the pollutants such as formaldehyde.But its shortcoming also clearly, because filtration is the integrated morphology of several functions, the density of material of itself is than primarily efficient filter net height, and density high-drag is large, and wind loss increases, and need to improve motor speed, noise also improves thereupon.

So air-conditioning of the prior art, because filtering function and common refrigeration and heat-production functions influence each other, can not play a role separately, causes filter efficiency generally on the low side, cannot meet the demand of people to the high-quality purification of Efficient air.

Utility model content

In view of this, an object of the present utility model proposes a kind of air inlet faceplate.Cannot independent role to solve air conditioning filter and cooling and warming, interactional problem.There is a basic understanding some aspects in order to the embodiment to disclosure, shown below is simple summary.This summarized section is not extensive overview, neither determine key/critical component or describe the protection domain of these embodiments.Its sole purpose presents some concepts by simple form, in this, as the preamble of following detailed description.

In some optional embodiments, this air inlet faceplate comprises: framework, has top and side; First air filter module, is connected in described framework by the claw of the inner wall surface being fixed on described framework; Air intake grid, described air intake grid has the interface of installation second air filter module; The controlling organization driving air intake grid and described framework to fasten/open, is fixed on the surface of described framework.

In some optional embodiments, have cavity above the air inlet fence of the air intake grid of this air inlet faceplate, in this cavity, the inner wall surface adjacent with described air inlet fence has draw-in groove.

In some optional embodiments, the sidewall of the cavity of this air inlet faceplate has opening, for attaching/detaching second air filter module.

In some optional embodiments, this air inlet faceplate also comprises: the second air filter module, is connected in the cavity of air intake grid by draw-in groove, and fastening by the claw being fixed on described cavity inner wall surface.

In some optional embodiments, the controlling organization of this air inlet faceplate comprises: electric-controlled box, is fixed on the outer surface of the side of framework; Stepper motor, is installed in electric-controlled box, is controlled by described electric-controlled box; Sector gear, be installed in described electric-controlled box, its gear is connected with the gears meshing in described stepper motor, drives it to rotate by the rotation of the gear in described stepper motor.

In some optional embodiments, this air inlet faceplate also comprises: the side of fixing electric-controlled box has through through hole; The rotating shaft of the sector gear of this air inlet faceplate is fixedly connected with the outer surface of one end of air intake grid by the through through hole on side, drives described air intake grid and framework to fasten/open by the rotation of described sector gear.

In some optional embodiments, the controlling organization of this air inlet faceplate comprises: at least one motor, is fixed on the outer surface at the top of framework; The top of described framework comprises two ends, left and right, and the outer surface often held at least fixes a pulley, and drives it to rotate by described motor; Described each pulley is wound around a rope, and one end of this rope is fixedly connected with described pulley.

In some optional embodiments, the outer surface at the two ends of the air intake grid of this air inlet faceplate is fixedly connected with the other end of the rope at corresponding two ends respectively, drives described air intake grid and framework to fasten/open by the rotation of the pulley be connected with described rope.

Another object of the present utility model proposes a kind of air-conditioning.

In some optional embodiments, this air-conditioning comprises above-mentioned air inlet faceplate, and this air inlet faceplate is installed on the air inlet of the interior machine of air-conditioning.

Another object of the present utility model proposes a kind of air inlet structure.

In some optional embodiments, this air inlet structure comprises: the housing offering multiple air inlet; Each air inlet is provided with air inlet faceplate; Be arranged on the air intake grid on each air inlet faceplate, described each air intake grid has the interface installing air filter module; Drive multiple controlling organizations that each air intake grid and corresponding air inlet faceplate fasten/open, wherein, each controlling organization correspondence is fixed on the surface of an air inlet faceplate.

In some optional embodiments, have cavity above the air inlet fence of each air intake grid of this air inlet structure, in this cavity, the inner wall surface adjacent with described air inlet fence has draw-in groove.

In some optional embodiments, the sidewall of the cavity of each air intake grid of this air inlet structure has opening, for attaching/detaching air filter module.

In some optional embodiments, this air inlet structure also comprises: multiple air filter module, wherein, each air filter module correspondence is connected in the cavity of this air intake grid by the draw-in groove of an air intake grid, and fastening by the claw being fixed on described cavity inner wall surface.

In some optional embodiments, each controlling organization of this air inlet structure comprises: electric-controlled box, is fixed on the outer surface of the side of each air inlet faceplate; Stepper motor, is installed in described electric-controlled box, is controlled by described electric-controlled box; Sector gear, be installed in described electric-controlled box, its gear is connected with the gears meshing in described stepper motor, drives it to rotate by the rotation of the gear in described stepper motor.

In some optional embodiments, this air inlet structure also comprises: the side that each air inlet faceplate fixes electric-controlled box has through through hole; The rotating shaft of each sector gear of this air inlet structure is fixedly connected with the outer surface of one end of corresponding air intake grid by the through hole on the side of corresponding air inlet faceplate, drives described air intake grid and corresponding air inlet faceplate to fasten/open by the rotation of described sector gear.

In some optional embodiments, each controlling organization of this air inlet structure comprises: at least one motor, is fixed on the outer surface at the top of each air inlet faceplate; The top of each air inlet faceplate comprises two ends, left and right, and the outer surface often held at least fixes a pulley, and drives it to rotate by described motor; Described each pulley is wound around a rope, and one end of this rope is fixedly connected with described pulley.

In some optional embodiments, the outer surface at the two ends of each air intake grid of this air inlet structure is fixedly connected with the other end of the rope at corresponding two ends respectively, by driving described air intake grid and corresponding air inlet faceplate to fasten/open to the rotation of the pulley that described rope is connected.

Another object of the present utility model proposes a kind of air-conditioning.

In some optional embodiments, this air-conditioning comprises above-mentioned air inlet structure, and this air inlet structure is installed on the interior machine of described air-conditioning.

Compared with prior art, the beneficial effects of the utility model are:

The utility model provides a kind of air inlet faceplate, air inlet structure and air-conditioning, and the air-conditioning comprising this air inlet faceplate or air inlet structure while not affecting cooling and warming ability to work completely, can realize high efficiency filter.Reach and to filter and cooling and warming work is used alone, be independent of each other, guarantee reaches the effect of respective optimum Working.Simultaneously panel has auto-switch function and also improves the difficult problem that panel is unfavorable for removing and installing.

In order to above-mentioned and relevant object, will describe in detail and the feature particularly pointed out in the claims after one or more embodiment comprises.Explanation below and accompanying drawing describe some illustrative aspects in detail, and its instruction is only some modes in the utilizable various mode of principle of each embodiment.Other benefit and novel features become obvious by considering by reference to the accompanying drawings along with detailed description below, and the disclosed embodiments will comprise all these aspects and theirs is equivalent.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment air inlet faceplate;

Fig. 2 is the structural representation of the utility model embodiment air inlet faceplate;

Fig. 3 is the structural representation of the utility model embodiment air inlet faceplate;

Fig. 4 is the structural representation of the utility model embodiment air-conditioning internal machine;

Fig. 5 is the structural representation of the utility model embodiment air inlet structure;

Fig. 6 is the structural representation of air inlet faceplate in Fig. 5;

Fig. 7 is the structural representation of air inlet faceplate in Fig. 5.

Detailed description of the invention

The following description and drawings illustrate specific embodiments of the present utility model fully, to enable those skilled in the art to put into practice them.Embodiment only represents possible change.Unless explicitly requested, otherwise independent parts and function are optional, and the order of operation can change.The part of some embodiments and feature can be included in or replace part and the feature of other embodiments.The scope of embodiment of the present utility model comprises the gamut of claims, and all obtainable equivalent of claims.In this article, these embodiments of the present utility model can be represented with term " utility model " individually or always, this is only used to conveniently, and if in fact disclose the utility model more than, be not the scope that automatically will limit this application be any single utility model or utility model design.

Now in conjunction with the accompanying drawings, shown in Fig. 1 is the structure chart of air inlet faceplate in some optional embodiments; Shown in Fig. 2 is the structure chart of air inlet faceplate in some optional embodiments; Shown in Fig. 3 is the structure chart of air inlet faceplate in some optional embodiments; Shown in Fig. 4 is the structure chart of air-conditioning internal machine in some optional embodiments; Shown in Fig. 5 is the structure chart of air inlet structure in some optional embodiments; Shown in Fig. 6 is the structure chart of air inlet faceplate in Fig. 5; Shown in Fig. 7 is the structure chart of air inlet faceplate in Fig. 5.

As shown in Figure 1, in some optional embodiments, disclose a kind of air inlet faceplate, this air inlet faceplate comprises: framework 1, has top and side; First air filter module 2, is connected in described framework 1 by the claw 3 of the inner wall surface being fixed on described framework 1; Air intake grid 4, described air intake grid 4 has the interface of installation second air filter module 5; The controlling organization 6 driving air intake grid 4 and described framework 1 to fasten/open, is fixed on the surface of described framework 1.

In some optional embodiments, have cavity 8 above the air inlet fence 7 of the air intake grid 4 of this air inlet faceplate, the inner wall surface that this cavity 8 is adjacent with described air inlet fence 7 has draw-in groove.

In some optional embodiments, the sidewall of the cavity 8 of this air inlet faceplate has opening, for attaching/detaching second air filter module 5.

In some optional embodiments, this air inlet faceplate also comprises: the second air filter module 5, is connected in the cavity 8 of air intake grid 4 by draw-in groove, and fastening by the claw 9 being fixed on described cavity 8 inner wall surface.

In concrete implementation process, first air filter module 2 can be primary efficient filter screen, second air filter module 5 can be high efficiency filter module, this high efficiency filter module can be selected as required voluntarily, and high efficiency filter module can be taken out from air intake grid 4 in implementation process and carry out cleaning or changing, as long as the opening of air intake grid 4 side is opened, this high efficiency filter module is pulled out.

As shown in Figure 2, in some optional embodiments, the controlling organization 6 of this air inlet faceplate comprises: electric-controlled box 10, fixes the outer surface with the side of framework 1; Stepper motor 11, is installed in electric-controlled box 10, is controlled by described electric-controlled box 10; Sector gear 12, be installed in described electric-controlled box 10, its gear is connected with the gears meshing in described stepper motor 11, drives it to rotate by the rotation of the gear in described stepper motor 11.

In some optional embodiments, this air inlet faceplate also comprises: the side of fixing electric-controlled box 10 has through through hole; The rotating shaft of the sector gear 12 of this air inlet faceplate is fixedly connected with the outer surface of one end of air intake grid 4 by the through through hole on side, drives described air intake grid 4 to fasten with framework 1/open by the rotation of described sector gear 12.

In concrete implementation process, air intake grid 4 and framework 1 can be selected to fasten or open according to the need of work of air-conditioning.When needs freeze normally or heat, sector gear 12 is driven to rotate by electric-controlled box 10 Driving Stepping Motor 11, thus drive the air intake grid 4 be attached thereto to rotate, air intake grid 4 and framework 1 is made to open certain angle, like this according to the principle that air moves from trend lowpressure stream, air will flow in air-conditioning internal machine by primary efficient filter screen, the work of freezing normally or heating.When needs filter air, sector gear 12 is driven to rotate backward by electric-controlled box 10 Driving Stepping Motor 11, thus drive the air intake grid 4 be attached thereto upwards to rotate, air intake grid 4 and framework 1 are fastened, such air will flow in air-conditioning internal machine by high efficiency particulate air, reaches the effect of filtered air.

As shown in Figure 3, in some optional embodiments, the controlling organization 6 of this air inlet faceplate comprises: at least one motor 13, is fixed on the outer surface at the top of framework 1; The top of framework 1 comprises two ends, left and right, and the outer surface often held at least fixes a pulley 14, and drives it to rotate by described motor 13; Each pulley is wound around a rope 15, and one end of this rope is fixedly connected with described pulley 14.

In some optional embodiments, the outer surface at the two ends of the air intake grid 4 of this air inlet faceplate is fixedly connected with the other end of the rope 15 at corresponding two ends respectively, drives described air intake grid 4 to fasten with framework 1/open by the rotation of the pulley 14 be connected with described rope 15.

In concrete implementation process, air intake grid 4 and framework 1 can be selected to fasten or open according to the need of work of air-conditioning.When needs freeze normally or heat, rotated by motor 13 drive pulley 14, thus drive air intake grid 4 translation be downwards attached thereto by rope 15, air intake grid 4 and framework 1 are opened, like this according to the principle that air moves from trend lowpressure stream, air will enter in air-conditioning in machine by primary efficient filter screen, carries out normal cooling and warming work.When needs filter air, rotated backward by motor 13 drive pulley 14, thus drive the air intake grid 4 upwards translation be attached thereto by rope 15, air intake grid 4 and framework 1 are fastened, such air will enter in air-conditioning internal machine by high efficiency filter module, reaches the effect of filtration.

As shown in Figure 4, in some optional embodiments, disclose a kind of air-conditioning, this air-conditioning comprises above-mentioned air inlet faceplate, and this air inlet faceplate is installed on air inlet 17 place of the interior machine 16 of air-conditioning.

The utility model redesigns air inlet faceplate structure, utilize the principle that air moves from trend lowpressure stream, the panel with on-off action is introduced at air inlet, air intake grid is installed the filtering module of difference in functionality, namely primarily efficient filter with high efficiency filter module, two nested structures are arranged on same air inlet faceplate, panel can be opened, two groups of modules use respectively, simple filtration when can realize normal cooling and warming, and independent high efficiency filter air two kinds of functions.For realizing two kinds of such functions, the air inlet air intake grid of panel can open and close, also convenient installation and cleaning and filtering module.This structure is compared with air conditioning filter structure before, and realize air and independently to filter and refrigeration and heat-production functions is used alone, on refrigeration and heat-production functions without impact, and filter efficiency is high, and air-out is even, wind-force nature, energy-conserving and environment-protective.

As shown in Figure 5, in some optional embodiments, disclose a kind of air inlet structure, this air inlet structure comprises: the housing offering multiple air inlet 18; Each air inlet 18 is provided with air inlet faceplate 19, is arranged on the air intake grid 20 on each air inlet faceplate 19, and described each air intake grid 20 has the interface installing air filter module 21; Drive multiple controlling organizations 22 that each air intake grid 20 fastens with corresponding air inlet faceplate 19/opens, wherein, each controlling organization 22 correspondence is fixed on the surface of an air inlet faceplate 19.

In some optional embodiments, have cavity 24 above the air inlet fence 23 of each air intake grid 20 of this air inlet structure, in this cavity 24, the inner wall surface adjacent with described air inlet fence 23 has draw-in groove.

In some optional embodiments, the sidewall of the cavity 24 of each air intake grid 20 of this air inlet structure has opening, for attaching/detaching air filter module 21.

In some optional embodiments, this air inlet structure also comprises: multiple air filter module 21, wherein, each air filter module 21 correspondence is connected in the cavity 24 of this air intake grid 20 by the draw-in groove of an air intake grid 20, and fastening by the claw 25 being fixed on described cavity 24 inner wall surface.

In concrete implementation process, multiple air filter module 21 can be as required, select high efficiency filter module and the primary efficient filter screen of difference in functionality, and can arbitrarily change and clean, air filter module pulls out by the opening only need opening corresponding air intake grid sidewall when changing or clean, after choosing the air filter module of needs, then put into air intake grid from described opening, finally fastening with corresponding claw.

As shown in Figure 6, in some optional embodiments, each controlling organization 22 of this air inlet structure comprises: electric-controlled box 26, is fixed on the outer surface of the side of each air inlet faceplate 19; Stepper motor 27, is installed in described electric-controlled box 26, is controlled by described electric-controlled box 26; Sector gear 28, be installed in described electric-controlled box 26, its gear is connected with the gears meshing in described stepper motor 27, drives it to rotate by the rotation of the gear in described stepper motor 27.

In some optional embodiments, this air inlet structure also comprises: the side that each air inlet faceplate 19 fixes electric-controlled box 26 has through through hole; The rotating shaft of each sector gear 28 of this air inlet structure is fixedly connected with the outer surface of one end of corresponding air intake grid 20 by the through hole on the side of corresponding air inlet faceplate 19, drives described air intake grid 20 to fasten with corresponding air inlet faceplate 19/open by the rotation of described sector gear 28.

In concrete implementation process, select an air intake grid 20 that primary efficient filter screen is installed, select another air intake grid 20 that high efficiency filter module is installed.Wherein some air intake grids 20 can be selected to be opened with air inlet faceplate 19 by another air intake grid 20 while fastening with air inlet faceplate 19 according to the need of work of air-conditioning, vice versa.When needs freeze normally or heat, the air intake grid 20 installing primary efficient filter screen is opened with coupled air inlet faceplate 19, the air intake grid 20 another being installed high efficiency filter module fastens with coupled air inlet faceplate 19, detailed process is: drive sector gear 28 to rotate by electric-controlled box 26 Driving Stepping Motor 27 corresponding with primary efficient filter screen, thus drive the air intake grid 20 be attached thereto to rotate, air intake grid 20 and air inlet faceplate 19 is made to open certain angle, like this according to the principle that air moves from trend lowpressure stream, air will flow in air-conditioning internal machine by primary efficient filter screen, the work of freezing normally or heating.When needs filter air, the air intake grid 20 installing primary efficient filter screen is fastened with coupled air inlet faceplate 19, the air intake grid 20 another being installed high efficiency filter module is opened with coupled air inlet faceplate 19, detailed process is: drive sector gear 28 to rotate backward by electric-controlled box 26 Driving Stepping Motor 27 corresponding with primary efficient filter screen, thus drive the air intake grid 20 be attached thereto upwards to rotate, air intake grid 20 and air inlet faceplate 19 are fastened, simultaneously, sector gear 28 is driven to rotate by electric-controlled box 26 Driving Stepping Motor 27 corresponding with high efficiency filter module, thus drive the air intake grid 20 be attached thereto to forward to downwards, air intake grid 20 and air inlet faceplate 19 are opened, such air will flow in air-conditioning internal machine by high efficiency particulate air, reach the effect of filtered air.

As shown in Figure 7, in some optional embodiments, each controlling organization 22 of this air inlet structure comprises: at least one motor 29, is fixed on the outer surface at the top of each air inlet faceplate 19; The top of each air inlet faceplate 19 comprises two ends, left and right, and the outer surface often held at least fixes a pulley 30, and drives it to rotate by described motor 29; Described each pulley is wound around a rope 31, and one end of this rope is fixedly connected with described pulley 30.

In some optional embodiments, the outer surface at the two ends of each air intake grid 20 of this air inlet structure is fixedly connected with the other end of the rope 31 at corresponding two ends respectively, by driving described air intake grid 20 to fasten with corresponding air inlet faceplate 19/open to the rotation of the pulley 30 that described rope 31 is connected.

In concrete implementation process, select an air intake grid 20 that primary efficient filter screen is installed, select another air intake grid 20 that high efficiency filter module is installed.Wherein some air intake grids 20 can be selected to be opened with air inlet faceplate 19 by another air intake grid 20 while fastening with air inlet faceplate 19 according to the need of work of air-conditioning, vice versa.When needs freeze normally or heat, the air intake grid 20 installing primary efficient filter screen is opened with coupled air inlet faceplate 19, the air intake grid 20 installing high efficiency filter module is fastened with coupled air inlet faceplate 19, detailed process is: rotated by motor 29 drive pulley 30 corresponding with primary efficient filter screen, thus drive the rope 31 be attached thereto to drive the translation downwards of corresponding air intake grid 20, corresponding air intake grid 20 is opened with coupled air inlet faceplate 19, like this according to the principle that air moves from trend lowpressure stream, air will flow in air-conditioning internal machine by primary efficient filter screen, the work of freezing normally or heating.When needs filter air, the air intake grid 20 installing primary efficient filter screen is fastened with coupled air inlet faceplate 19, the air intake grid 20 installing high efficiency filter module is opened with coupled air inlet faceplate 19, detailed process is: reversely rotated by motor 29 drive pulley 30 corresponding with primary efficient filter screen, thus drive the rope 31 be attached thereto to drive the upwards translation of corresponding air intake grid 20, corresponding air intake grid and coupled air inlet faceplate 19 are fastened, rotated by motor 29 drive pulley 30 corresponding with high efficiency filter module, thus drive the rope 31 be attached thereto to drive the translation downwards of corresponding air intake grid 20, corresponding air intake grid 20 is opened with coupled air inlet faceplate 19, like this, air will enter air-conditioning internal machine by high efficiency filter module, reach airfiltering effect.

Another object of the present utility model proposes a kind of air-conditioning.

In some optional embodiments, this air-conditioning comprises above-mentioned air inlet structure, and this air inlet structure is installed on the interior machine of described air-conditioning.

The utility model provides a kind of air-conditioning with filtering function of more high-efficient energy-saving environment friendly.By redesigning air inlet structure, interior machine increases an air inlet, and two place's air inlets are provided with the filtering module of different capacity, utilize the principle that air moves from trend lowpressure stream, when refrigerating/heating works, air enters from the air inlet that crushing is little, and what install is primary efficient filter screen herein; Introduce the panel with function of auto-lift, closed by primary efficient filter screen place air inlet, air must be located air inlet through another and enter, and air inlet installs high efficiency filter module herein, can carry out air filtration separately.Due to the function of auto-lift of panel, the function of filtering module can unrestricted choice, installs voluntarily, disassembly, cleaning.This structure compared with air conditioning filter structure before, when realizing air filtration, to air-supply air quantity and noise effect little, filter efficiency is high, and air-out is even, wind-force nature, energy-conserving and environment-protective.When realizing refrigerating/heating function, completely the same with original function, almost do not affect.

In a word, the foregoing is only embodiment of the present utility model, be not intended to limit protection domain of the present utility model, and for illustration of the utility model.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (18)

1. an air inlet faceplate, is characterized in that, comprising:

Framework, has top and side;

First air filter module, is connected in described framework by the claw of the inner wall surface being fixed on described framework;

Air intake grid, described air intake grid has the interface of installation second air filter module;

The controlling organization driving air intake grid and described framework to fasten/open, is fixed on the surface of described framework.

2. air inlet faceplate according to claim 1, is characterized in that, has cavity above the air inlet fence of described air intake grid, and in this cavity, the inner wall surface adjacent with described air inlet fence has draw-in groove.

3. air inlet faceplate according to claim 2, is characterized in that, the sidewall of described cavity has opening, for attaching/detaching second air filter module.

4. air inlet faceplate according to claim 3, is characterized in that, also comprises: the second air filter module, is connected in the cavity of described air intake grid by described draw-in groove, and fastening by the claw being fixed on described cavity inner wall surface.

5. air inlet faceplate according to claim 1, is characterized in that, described controlling organization comprises:

Electric-controlled box, is fixed on the outer surface of the side of described framework;

Stepper motor, is installed in described electric-controlled box, is controlled by described electric-controlled box;

Sector gear, be installed in described electric-controlled box, its gear is connected with the gears meshing in described stepper motor, drives it to rotate by the rotation of the gear in described stepper motor.

6. air inlet faceplate according to claim 5, is characterized in that, also comprises: the side of fixing described electric-controlled box has through through hole; The rotating shaft of described sector gear is fixedly connected with by the outer surface of described through hole with one end of described air intake grid, drives described air intake grid and described framework to fasten/open by the rotation of described sector gear.

7. air inlet faceplate according to claim 1, is characterized in that, described controlling organization comprises:

At least one motor, is fixed on the outer surface at the top of described framework;

The top of described framework comprises two ends, left and right, and the outer surface often held at least fixes a pulley, and drives it to rotate by described motor;

Described each pulley is wound around a rope, and one end of this rope is fixedly connected with described pulley.

8. air inlet faceplate according to claim 7, it is characterized in that, the outer surface at the two ends of described air intake grid is fixedly connected with the other end of the rope at corresponding two ends respectively, drives described air intake grid and framework to fasten/open by the rotation of the pulley be connected with described rope.

9. an air-conditioning, is characterized in that, comprises the air inlet faceplate described in claim 1 to 8 any one, and this air inlet faceplate is installed on the air inlet of the interior machine of described air-conditioning.

10. an air inlet structure, is characterized in that, comprising:

Offer the housing of multiple air inlet;

Each air inlet is provided with air inlet faceplate;

Be arranged on the air intake grid on each air inlet faceplate, described each air intake grid has the interface installing air filter module;

Drive multiple controlling organizations that each air intake grid and corresponding air inlet faceplate fasten/open, wherein, each controlling organization correspondence is fixed on the surface of an air inlet faceplate.

11. air inlet structures according to claim 10, is characterized in that, have cavity above the air inlet fence of described each air intake grid, and in this cavity, the inner wall surface adjacent with described air inlet fence has draw-in groove.

12. air inlet structures according to claim 11, is characterized in that, the sidewall of the cavity of described each air intake grid has opening, for attaching/detaching air filter module.

13. air inlet structures according to claim 12, it is characterized in that, also comprise: multiple air filter module, wherein, each air filter module correspondence is connected in the cavity of this air intake grid by the draw-in groove of an air intake grid, and fastening by the claw being fixed on described cavity inner wall surface.

14. air inlet structures according to claim 10, is characterized in that, described each controlling organization comprises:

Electric-controlled box, is fixed on the outer surface of the side of described each air inlet faceplate;

Stepper motor, is installed in described electric-controlled box, is controlled by described electric-controlled box;

Sector gear, be installed in described electric-controlled box, its gear is connected with the gears meshing in described stepper motor, drives it to rotate by the rotation of the gear in described stepper motor.

15. air inlet structures according to claim 14, is characterized in that, also comprise: the side that described each air inlet faceplate fixes electric-controlled box has through through hole; The rotating shaft of described each sector gear is fixedly connected with by the outer surface of corresponding through hole with one end of corresponding air intake grid, drives described air intake grid and corresponding air inlet faceplate to fasten/open by the rotation of described sector gear.

16. air inlet structures according to claim 10, is characterized in that, described each controlling organization comprises:

At least one motor, is fixed on the outer surface at the top of described each air inlet faceplate;

The top of described each air inlet faceplate comprises two ends, left and right, and the outer surface often held at least fixes a pulley, and drives it to rotate by described motor;

Described each pulley is wound around a rope, and one end of this rope is fixedly connected with described pulley.

17. air inlet structures according to claim 16, it is characterized in that, the outer surface at the two ends of described each air intake grid is fixedly connected with the other end of the rope at corresponding two ends respectively, by driving described air intake grid and corresponding air inlet faceplate to fasten/open to the rotation of the pulley that described rope is connected.

18. 1 kinds of air-conditionings, is characterized in that, comprise the air inlet structure described in claim 11 to 17 any one, and described air inlet structure is installed on the interior machine of described air-conditioning.