CN204629956U - Air conditioner room unit and deep bead - Google Patents

Abstract

The utility model discloses a kind of air conditioner room unit and deep bead, air conditioner room unit, comprising: fuselage, described fuselage is provided with air outlet; First gear aerofoil and second gear aerofoil, described first gear aerofoil and described second gear aerofoil are located at described air outlet rotationally and sentence and open or close described air outlet, described first gear aerofoil and described second gear aerofoil along the vertical direction interval are arranged, described first gear aerofoil is provided with multiple the first air-permeating hole running through described first gear aerofoil thickness, and described second gear aerofoil is provided with multiple the second air-permeating hole running through described second gear aerofoil thickness.According to the air conditioner room unit of the utility model embodiment, by arranging multiple the first air-permeating hole running through first gear aerofoil thickness on first gear aerofoil, and by arranging multiple the second air-permeating hole running through second gear aerofoil thickness on second gear aerofoil, thus can effectively avoid wind directly to blow on the body of user, make user feel calm, thus the body sense comfort level of user can be improved.

Description

Air conditioner room unit and deep bead

Technical field

The utility model relates to living electric apparatus field, especially relates to a kind of air conditioner room unit and deep bead.

Background technology

In correlation technique, when user is when using various blowing device such as air conditioner room unit, air-out is all blow out from the air outlet of blowing device, and traditional air exhausting structure exists wind and directly blows to problem on the body of user, particularly in user's sleep procedure, user's body sense can be made uncomfortable.

Utility model content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.For this reason, the utility model needs to propose a kind of air conditioner room unit, and the air-out of this air conditioner room unit can not directly blow to it user, thus improves the body sense comfort level of user.

The utility model also needs to propose a kind of deep bead.

According to the air conditioner room unit of the utility model first aspect, comprising: fuselage, described fuselage is provided with air outlet; First gear aerofoil and second gear aerofoil, described first gear aerofoil and described second gear aerofoil are located at described air outlet rotationally and sentence and open or close described air outlet, described first gear aerofoil and described second gear aerofoil along the vertical direction interval are arranged, described first gear aerofoil is provided with multiple the first air-permeating hole running through described first gear aerofoil thickness, and described second gear aerofoil is provided with multiple the second air-permeating hole running through described second gear aerofoil thickness.

According to the air conditioner room unit of the utility model embodiment, by arranging multiple the first air-permeating hole running through first gear aerofoil thickness on first gear aerofoil, and by arranging multiple the second air-permeating hole running through second gear aerofoil thickness on second gear aerofoil, thus can effectively avoid wind directly to blow on the body of user, make user feel calm, thus the body sense comfort level of user can be improved.

In addition, also following additional technical feature can be had according to air conditioner room unit of the present utility model:

According to an embodiment of the present utility model, described first air-permeating hole extends in the thickness direction surface thereof of described first gear aerofoil, and described second air-permeating hole extends in the thickness direction surface thereof of described second gear aerofoil.

According to an embodiment of the present utility model, described first air-permeating hole relative to the angle of inclination of the thickness direction of described first gear aerofoil and described second air-permeating hole unequal relative to the angle of inclination of the thickness direction of described second gear aerofoil.

According to an embodiment of the present utility model, when described first gear aerofoil closes described air outlet, tilt upward from the wind direction of the wind of described first air-permeating hole blowout, when described second gear aerofoil closes described air outlet, horizontal forward from the wind direction of the wind of described second air-permeating hole blowout.

According to an embodiment of the present utility model, described multiple first air-permeating hole is divided into multiple row first air-permeating hole group on the length direction of described first gear aerofoil, often arrange described first air-permeating hole group comprise multiple on the width of described first gear aerofoil spaced described first air-permeating hole; Described multiple second air-permeating hole is divided into multiple row second air-permeating hole group on the length direction of described second gear aerofoil, often arrange described second air-permeating hole group comprise multiple on the width of described second gear aerofoil spaced described second air-permeating hole.

According to an embodiment of the present utility model, the described first air-permeating hole group of adjacent two row aligns arrangement, and the described second air-permeating hole group of adjacent two row aligns arrangement.

According to an embodiment of the present utility model, the first air-permeating hole group described in multiple row aligns arrangement with the second air-permeating hole group one_to_one corresponding described in multiple row respectively.

According to an embodiment of the present utility model, often arrange described first air-permeating hole in described first air-permeating hole group with equal number, often arrange described second air-permeating hole in described second air-permeating hole group with equal number.

According to an embodiment of the present utility model, the cross section perpendicular to its axis direction of each described first air-permeating hole is circular, and the cross section perpendicular to its axis direction of each described second air-permeating hole is circular.

According to the deep bead of the utility model second aspect, described deep bead is provided with multiple air-permeating hole running through described deep bead thickness, described air-permeating hole extends in the thickness direction surface thereof of described deep bead, when described deep bead closes described air outlet, the cross section perpendicular to its axis direction of each described air-permeating hole is circular.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the partial structurtes schematic diagram of the air conditioner room unit according to the utility model embodiment;

Fig. 2 is the front view of the deep bead of the air conditioner room unit shown in Fig. 1;

Fig. 3 is the enlarged drawing of a-quadrant in Fig. 2;

Fig. 4 is the sectional view along B-B line in Fig. 2;

Fig. 5 is the partial structurtes schematic diagram of the air conditioner room unit according to another embodiment of the utility model;

Fig. 6 is the first gear aerofoil of the air conditioner room unit shown in Fig. 5 and the front view of second gear aerofoil;

Fig. 7 is the enlarged drawing in C region in Fig. 6;

Fig. 8 is the sectional view along B-B line in Fig. 6.

Reference numeral:

Air conditioner room unit 100

Fuselage 1;

Deep bead 2; First gear aerofoil 21; Second gear aerofoil 22;

Air-permeating hole 3; First air-permeating hole 31; Second air-permeating hole 32;

Air-permeating hole group 4; First air-permeating hole group 41; Second air-permeating hole group 42.

Detailed description of the invention

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " length ", " width ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertically ", the orientation of the instruction such as " level " or position relationship be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

Below with reference to Fig. 1-Fig. 8, the air conditioner room unit 100 according to the utility model first aspect embodiment is described.Air conditioner room unit 100 can be arranged in indoor environment, and can carry out air conditioning to indoor environment.

As shown in Figure 5-Figure 8, according to the air conditioner room unit 100 of the utility model embodiment, comprising: fuselage 1, first gear aerofoil 21 and second gear aerofoil 22.Fuselage 1 is provided with air outlet, first gear aerofoil 21 and second gear aerofoil 22 are located at air outlet rotationally and sentence and open or close air outlet, first gear aerofoil 21 and second gear aerofoil 22 along the vertical direction interval are arranged, first gear aerofoil 21 is provided with multiple the first air-permeating hole 31 running through first gear aerofoil 21 thickness, and second gear aerofoil 22 is provided with multiple the second air-permeating hole 32 running through second gear aerofoil 22 thickness.

It should be explained that, first gear aerofoil 21 and second gear aerofoil 22 are located at air outlet place along the vertical direction, " first gear aerofoil 21 and second gear aerofoil 22 are located at rotationally air outlet sentence open or close air outlet " refers to, first gear aerofoil 21 at air outlet place rotatably to open or close a part for air outlet, second gear aerofoil 22 at air outlet place rotatably to open or close another part of air outlet, particularly, when first gear aerofoil 21 and second gear aerofoil 22 are all in the position closing air outlet, first gear aerofoil 21 and second gear aerofoil 22 can close the area of whole air outlet just, in other words, the area sum of first gear aerofoil 21 and second gear aerofoil 22 is substantially equal to the area of air outlet.

According to the air conditioner room unit 100 of the utility model embodiment, by arranging multiple the first air-permeating hole 31 running through first gear aerofoil 21 thickness on first gear aerofoil 21, thus when first gear aerofoil 21 turns on the closed position closing this air outlet, indoor can be delivered to by the first air-permeating hole 31 first gear aerofoil 21 from the wind of air outlet blowout, that is, size due to the first air-permeating hole 31 is far smaller than the size of air outlet, the wind part blown to thus on first gear aerofoil 21 inwall can by the inwall backstop of first gear aerofoil 21, a part can be sent from the first air-permeating hole 31.The wind speed of the wind that such script blows out from air outlet greatly can reduce under the backstop of first gear aerofoil 21, thus, wind effectively can be avoided directly to blow on the body of user, make user feel calm, thus can improve the body sense comfort level of user.

Correspondingly, by arranging multiple the second air-permeating hole 32 running through second gear aerofoil 22 thickness on second gear aerofoil 22, thus when second gear aerofoil 22 turns on the closed position closing this air outlet, indoor can be delivered to by the second air-permeating hole 32 second gear aerofoil 22 from the wind of air outlet blowout, that is, size due to the second air-permeating hole 32 is far smaller than the size of air outlet, the wind part blown to thus on second gear aerofoil 22 inwall can by the inwall backstop of second gear aerofoil 22, and a part can be sent from the second air-permeating hole 32.The wind speed of the wind that such script blows out from air outlet greatly can reduce under the backstop of second gear aerofoil 22, thus, wind effectively can be avoided directly to blow on the body of user, make user feel calm, thus can improve the body sense comfort level of user.

To sum up, according to the air conditioner room unit 100 of the utility model embodiment, by arranging multiple the first air-permeating hole 31 running through first gear aerofoil 21 thickness on first gear aerofoil 21, and by arranging multiple the second air-permeating hole 32 running through second gear aerofoil 22 thickness on second gear aerofoil 22, thus can effectively avoid wind directly to blow on the body of user, make user feel calm, thus the body sense comfort level of user can be improved.

It should be noted that, when first gear aerofoil 21 opens air outlet, first gear aerofoil 21 can rotate adjustment angle at air outlet place, and then can guide air-out direction, that is, first gear aerofoil 21 and wind deflector of the prior art have identical wind-guiding effect; Correspondingly, when second gear aerofoil 22 opens air outlet, second gear aerofoil 22 can rotate adjustment angle at air outlet place, and then can guide air-out direction, that is, second gear aerofoil 22 and wind deflector of the prior art have identical wind-guiding effect.That is, the air conditioner room unit 100 of the utility model embodiment not only can have common refrigeration and heating mode, can also provide a kind of calm sense pattern for user, thus improves the experience of user.

In examples more of the present utility model, as shown in Figure 6 and Figure 7, multiple first air-permeating hole 31 can be divided into multiple row first air-permeating hole group 41 on the length direction of first gear aerofoil 21, often row first air-permeating hole group 41 comprise multiple on the width of first gear aerofoil 21 spaced first air-permeating hole 31.That is, as the left and right directions in Fig. 6 and Fig. 7 is the length direction of first gear aerofoil 21, above-below direction is the width of first gear aerofoil 21.Multiple first air-permeating hole 31 is divided into multiple first air-permeating hole group 41 in the lateral direction, and each first air-permeating hole group 41 has multiple spaced along the vertical direction multiple first air-permeating hole 31, the spaced apart setting in left-right direction of multiple first air-permeating hole groups 41.

Preferably, multiple first air-permeating hole 31 is roughly uniformly distributed on first gear aerofoil 21, and that is, the quantity of the first air-permeating hole 31 in unit are is roughly equal, and the wind through the first air-permeating hole 31 blowout can be made thus more even.

Further, adjacent two row first air-permeating hole groups 41 can just to arrangement.Alternatively, the end of adjacent two row first air-permeating hole groups 41 can just to setting, and namely the line of the end of adjacent two row first air-permeating hole groups 41 is parallel with left and right directions; Or, each first air-permeating hole 31 often in row first air-permeating hole group 41 and each first air-permeating hole 31 in the first air-permeating hole group 41 of adjacent column are respectively accordingly just to arrangement, that is, each first air-permeating hole 31 often in row first air-permeating hole group 41 is all parallel with left and right directions with the line of each first air-permeating hole 31 in the first air-permeating hole group 41 of adjacent column.Certain the utility model is not limited to this, and adjacent two row first air-permeating hole groups 41 can also be staggered arrangement.

Alternatively, multiple first air-permeating hole group 41 is symmetrical relative to the center line of first gear aerofoil 21, the structure of first gear aerofoil 21 can be made thus more reasonable, good looking appearance.

Preferably, often there is in row first air-permeating hole group 41 first air-permeating hole 31 of equal number, can make the distribution of the first air-permeating hole 31 more evenly, rationally thus.

Certain the utility model is not limited to this, multiple first distribution of air-permeating hole 31 on first gear aerofoil 21 can also be other structures, such as multiple first air-permeating hole 31 with the distribution of shapes of annular on first gear aerofoil 21, first gear aerofoil 21 can be formed with the spaced annular air-permeating hole group 4 in many places.

Similarly, in examples more of the present utility model, as shown in Figure 6 and Figure 7, multiple second air-permeating hole 32 can be divided into multiple row second air-permeating hole group 42 on the length direction of second gear aerofoil 22, often row second air-permeating hole group 42 comprise multiple on the width of second gear aerofoil 22 spaced second air-permeating hole 32.That is, as the left and right directions in Fig. 6 and Fig. 7 is the length direction of second gear aerofoil 22, above-below direction is the width of second gear aerofoil 22.Multiple second air-permeating hole 32 is divided into multiple second air-permeating hole group 42 in the lateral direction, and each second air-permeating hole group 42 has multiple spaced along the vertical direction multiple second air-permeating hole 32, the spaced apart setting in left-right direction of multiple second air-permeating hole groups 42.

Preferably, multiple second air-permeating hole 32 is roughly uniformly distributed on second gear aerofoil 22, and that is, the quantity of the second air-permeating hole 32 in unit are is roughly equal, and the wind through the second air-permeating hole 32 blowout can be made thus more even.

Further, adjacent two row second air-permeating hole groups 42 can just to arrangement.Alternatively, the end of adjacent two row second air-permeating hole groups 42 can just to setting, and namely the line of the end of adjacent two row second air-permeating hole groups 42 is parallel with left and right directions; Or, each second air-permeating hole 32 often in row second air-permeating hole group 42 and each second air-permeating hole 32 in the second air-permeating hole group 42 of adjacent column are respectively accordingly just to arrangement, that is, each second air-permeating hole 32 often in row second air-permeating hole group 42 is all parallel with left and right directions with the line of each second air-permeating hole 32 in the second air-permeating hole group 42 of adjacent column.Certain the utility model is not limited to this, and adjacent two row second air-permeating hole groups 42 can also be staggered arrangement.

Alternatively, multiple second air-permeating hole group 42 is symmetrical relative to the center line of second gear aerofoil 22, the structure of second gear aerofoil 22 can be made thus more reasonable, good looking appearance.

Preferably, often there is in row second air-permeating hole group 42 second air-permeating hole 32 of equal number, can make the distribution of the second air-permeating hole 32 more evenly, rationally thus.

Certain the utility model is not limited to this, multiple second distribution of air-permeating hole 32 on second gear aerofoil 22 can also be other structures, such as multiple second air-permeating hole 32 with the distribution of shapes of annular on second gear aerofoil 22, second gear aerofoil 22 can be formed with the spaced annular air-permeating hole group 4 in many places.

In a concrete example of the present utility model, as shown in Figure 7, multiple row first air-permeating hole group 41 aligns arrangement with multiple row second air-permeating hole group 42 one_to_one corresponding respectively, that is, when first gear aerofoil 21 and second gear aerofoil 22 are all in the closed position closing air outlet, the lower end of first gear aerofoil 21 and the upper end vicinity of second gear aerofoil 22 are arranged, the quantity of the first air-permeating hole group 41 that first gear aerofoil 21 is arranged is equal with the quantity of the second air-permeating hole group 42 that second gear aerofoil 22 is arranged, and the first air-permeating hole group 41 and the second air-permeating hole group 42 one_to_one corresponding in the vertical direction.First gear aerofoil 21 can be made thus identical with the air-out effect of second gear aerofoil 22, and air-out is even.

As shown in Figure 8, alternatively, the first air-permeating hole 31 extends in the thickness direction surface thereof of first gear aerofoil 21, and wherein, the thickness direction of first gear aerofoil 21 and the vertical range between the internal face of first gear aerofoil 21 and outside wall surface, be its thickness direction." the first air-permeating hole 31 extends in the thickness direction surface thereof of first gear aerofoil 21 " refers to have angle between the axis of the first air-permeating hole 31 and the thickness direction of first gear aerofoil 21.

Similarly, the second air-permeating hole 32 extends in the thickness direction surface thereof of second gear aerofoil 22, and wherein, the thickness direction of second gear aerofoil 22 and the vertical range between the internal face of second gear aerofoil 22 and outside wall surface, be its thickness direction." the second air-permeating hole 32 extends in the thickness direction surface thereof of second gear aerofoil 22 " refers to have angle between the axis of the second air-permeating hole 32 and the thickness direction of second gear aerofoil 22.

Alternatively, the first air-permeating hole 31 relative to the angle of inclination of the thickness direction of first gear aerofoil 21 and the second air-permeating hole 32 unequal relative to the angle of inclination of the thickness direction of second gear aerofoil 22.

Particularly, such as shown in Fig. 8, further, when first gear aerofoil 21 closes air outlet, tilt upward from the wind direction of the wind of the first air-permeating hole 31 blowout, namely the incline direction of first gear aerofoil 21 is as shown in Figure 8 present position when it closes air outlet, the cluster single lined arrows being positioned at top in Fig. 8 shows the path that wind is blown out by the first air-permeating hole 31, " when first gear aerofoil 21 closes air outlet, tilt upward from the wind direction of the wind of the first air-permeating hole 31 blowout ", be and the axis direction of the first air-permeating hole 31 is limited, the wind blown out from the first air-permeating hole 31 can be made thus downwards to avoid blowing, wind can be avoided further to arrive with it user.

Further, when second gear aerofoil 22 closes air outlet, horizontal forward from the wind direction of the wind of the second air-permeating hole 32 blowout, namely the incline direction of second gear aerofoil 22 is as shown in Figure 8 present position when it closes air outlet, the cluster single lined arrows being positioned at below in Fig. 8 shows the path that wind is blown out by the second air-permeating hole 32, " when second gear aerofoil 22 closes air outlet, horizontal forward from the wind direction of the wind of the second air-permeating hole 32 blowout ", be and the axis direction of the second air-permeating hole 32 is limited, the wind blown out from the second air-permeating hole 32 can be made thus downwards to avoid blowing, wind can be avoided further to arrive with it user.

Certainly, alternatively, the cross section perpendicular to its axis direction of each first air-permeating hole 31 is circular, and the first circular air-permeating hole 31 is easy to manufacture.The cross section of certain first air-permeating hole 31 also can be other shapes, such as ellipse, polygon, strip etc.Similarly, the cross section perpendicular to its axis direction of each second air-permeating hole 32 is circular, and the second circular air-permeating hole 32 is easy to manufacture.The cross section of certain second air-permeating hole 32 also can be other shapes, such as ellipse, polygon, strip etc.

As Figure 1-Figure 4, according to the air conditioner room unit 100 of another embodiment of the present utility model, comprising: fuselage 1 and deep bead 2.Fuselage 1 is provided with air outlet, and fuselage 1 inside is provided with the parts such as blower fan, heat exchanger, and fuselage 1 is also provided with air inlet, and it is inner that outside air can enter into fuselage 1 from air inlet, under the driving of blower fan with heat exchanger heat exchange after, then to send from air outlet.Deep bead 2 is located at air outlet rotationally and sentences and open or close air outlet, and wherein, deep bead 2 is provided with multiple air-permeating hole 3 running through deep bead 2 thickness.

According to the air conditioner room unit 100 of the utility model embodiment, by arranging the air-permeating hole 3 running through deep bead 2 thickness on deep bead 2, thus when deep bead 2 turns on the closed position closing this air outlet, indoor can be delivered to by the air-permeating hole 3 deep bead 2 from the wind of air outlet blowout.That is, the size due to air-permeating hole 3 is far smaller than the size of air outlet, and the wind part blown to thus on deep bead 2 inwall can by the inwall backstop of deep bead 2, and a part can be sent from air-permeating hole 3.The wind speed of the wind that such script blows out from air outlet greatly can reduce under the backstop of deep bead 2, thus, wind effectively can be avoided directly to blow on the body of user, make user feel calm, thus can improve the body sense comfort level of user.And be set to multiple on deep bead 2 due to air-permeating hole 3, thus in the diverse location of multiple air-permeating hole 3, dispersion blowout, thus can improve air-supply uniformity from the wind of air outlet blowout.

It should be noted that, when deep bead 2 opens air outlet, deep bead 2 can rotate adjustment angle at air outlet place, and then can guide air-out direction, and that is, deep bead 2 and wind deflector of the prior art have identical wind-guiding effect.That is, the air conditioner room unit 100 of the utility model embodiment not only can have common refrigeration and heating mode, can also provide a kind of calm sense pattern for user, thus improves the experience of user.

In examples more of the present utility model, as shown in Figures 2 and 3, multiple air-permeating hole 3 can be divided into multiple row air-permeating hole group 4 on the length direction of deep bead 2, often row air-permeating hole group 4 comprise multiple on the width of deep bead 2 spaced air-permeating hole 3.That is, as the left and right directions in Fig. 2 and Fig. 3 is the length direction of deep bead 2, above-below direction is the width of deep bead 2.Multiple air-permeating hole 3 is divided into multiple air-permeating hole group 4 in the lateral direction, and each air-permeating hole group 4 has multiple spaced along the vertical direction multiple air-permeating hole 3, the spaced apart setting in left-right direction of multiple air-permeating hole group 4.

Preferably, multiple air-permeating hole 3 is roughly uniformly distributed on deep bead 2, and that is, the quantity of the air-permeating hole 3 in unit are is roughly equal, and the wind through air-permeating hole 3 blowout can be made thus more even.

Further, adjacent two row air-permeating hole groups 4 can be staggered arrangement.Alternatively, the end of adjacent two row air-permeating hole groups 4 can be staggered setting, namely the line of the end of adjacent two row air-permeating hole groups 4 and left and right directions not parallel; Or, each air-permeating hole 3 often in row air-permeating hole group 4 is staggered accordingly respectively with each air-permeating hole 3 in the air-permeating hole group 4 of adjacent column and arranges, that is, each air-permeating hole 3 often in row air-permeating hole group 4 is all not parallel with left and right directions with the line of each air-permeating hole 3 in the air-permeating hole group 4 of adjacent column.

Alternatively, multiple air-permeating hole group 4 is symmetrical relative to the center line of deep bead 2, the structure of deep bead 2 can be made thus more reasonable, good looking appearance.

Preferably, often there is in row air-permeating hole group 4 air-permeating hole 3 of equal number, can make the distribution of air-permeating hole 3 more evenly, rationally thus.

Certain the utility model is not limited to this, the distribution of multiple air-permeating hole 3 on deep bead 2 can also be other structures, such as multiple air-permeating hole 3 with the distribution of shapes of annular on deep bead 2, deep bead 2 can be formed with the spaced annular air-permeating hole group in many places.

As shown in Figure 4, alternatively, air-permeating hole 3 extends in the thickness direction surface thereof of deep bead 2, and wherein, the thickness direction of deep bead 2 and the vertical range between the internal face of deep bead 2 and outside wall surface, be its thickness direction." air-permeating hole 3 extends in the thickness direction surface thereof of deep bead 2 " refers to have angle between the axis of air-permeating hole 3 and the thickness direction of deep bead 2.Further, when deep bead 2 closes air outlet, horizontal forward from the wind direction of the wind of air-permeating hole 3 blowout, namely the incline direction of deep bead 2 is as shown in Figure 4 present position when it closes air outlet, single lined arrows in Fig. 4 shows the path that wind is blown out by air-permeating hole 3, " when deep bead 2 closes air outlet; horizontal forward from the wind direction of the wind of air-permeating hole 3 blowout ", be and the axis direction of air-permeating hole 3 is limited, the wind blown out from air-permeating hole 3 can be made thus downwards to avoid blowing, wind can be avoided further to arrive with it user.

Certainly, alternatively, the cross section perpendicular to its axis direction of each air-permeating hole 3 is circular, and circular air-permeating hole 3 is easy to manufacture.The cross section of certain air-permeating hole 3 also can be other shapes, such as ellipse, polygon, strip etc.

As Figure 1-Figure 8, according to the deep bead 2 of the utility model second aspect embodiment, can be applied in air conditioner room unit 100 according to the deep bead 2 of the utility model embodiment, deep bead 2 can be located at the air outlet place of air conditioner room unit 100, and deep bead 2 is rotatable to open or close air outlet at air outlet place.Deep bead 2 is provided with multiple air-permeating hole 3 running through deep bead 2 thickness.

By arranging the air-permeating hole 3 running through deep bead 2 thickness on deep bead 2, thus when deep bead 2 turns on the closed position closing this air outlet, indoor can be delivered to by the air-permeating hole 3 deep bead 2 from the wind of air outlet blowout.That is, the size due to air-permeating hole 3 is far smaller than the size of air outlet, and the wind part blown to thus on deep bead 2 inwall can by the inwall backstop of deep bead 2, and a part can be sent from air-permeating hole 3.The wind speed of the wind that such script blows out from air outlet greatly can reduce under the backstop of deep bead 2, thus, wind effectively can be avoided directly to blow on the body of user, make user feel calm, thus can improve the body sense comfort level of user.And be set to multiple on deep bead 2 due to air-permeating hole 3, thus in the diverse location of multiple air-permeating hole 3, dispersion blowout, thus can improve air-supply uniformity from the wind of air outlet blowout.

Preferably, air-permeating hole 3 extends in the thickness direction surface thereof of deep bead 2, when deep bead 2 closes air outlet, the wind direction of the wind blown out from air-permeating hole 3 can be horizontal forward or tilt upward, the wind blown out from air-permeating hole 3 can be made thus downwards to avoid blowing, wind can be avoided further to arrive with it user.

The cross section perpendicular to its axis direction of each air-permeating hole 3 is circular, and circular air-permeating hole 3 is easy to manufacture.The cross section of certain air-permeating hole 3 also can be other shapes, such as ellipse, polygon, strip etc.

It should be noted that, when deep bead 2 opens air outlet, deep bead 2 can rotate adjustment angle at air outlet place, and then can guide air-out direction, and that is, deep bead 2 and wind deflector of the prior art have identical wind-guiding effect.That is, the air conditioner room unit 100 of the utility model embodiment not only can have common refrigeration and heating mode, can also provide a kind of calm sense pattern for user, thus improves the experience of user.

Certainly, the utility model is not limited to this, this deep bead 2 can also be applied on other arbitrary air outlet devices, such as air-conditioner outdoor unit, this deep bead 2 can be arranged on the air outlet place of air-conditioner outdoor unit, the air-out of air-conditioner outdoor unit can be avoided thus directly to blow on the body of the personnel of outdoor exercises, cause uncomfortable sensation.Or this deep bead 2 can also be applied to the housed devices such as such as humidifier, and this deep bead 2 can be applied in the steam outlet of humidifier, thus the steam that steam (vapor) outlet blows out is broken up, improve the humidification uniformity of humidifier.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (10)

1. an air conditioner room unit, is characterized in that, comprising:

Fuselage, described fuselage is provided with air outlet;

First gear aerofoil and second gear aerofoil, described first gear aerofoil and described second gear aerofoil are located at described air outlet rotationally and sentence and open or close described air outlet, described first gear aerofoil and described second gear aerofoil along the vertical direction interval are arranged, described first gear aerofoil is provided with multiple the first air-permeating hole running through described first gear aerofoil thickness, and described second gear aerofoil is provided with multiple the second air-permeating hole running through described second gear aerofoil thickness.

2. air conditioner room unit according to claim 1, is characterized in that, described first air-permeating hole extends in the thickness direction surface thereof of described first gear aerofoil, and described second air-permeating hole extends in the thickness direction surface thereof of described second gear aerofoil.

3. air conditioner room unit according to claim 2, it is characterized in that, described first air-permeating hole relative to the angle of inclination of the thickness direction of described first gear aerofoil and described second air-permeating hole unequal relative to the angle of inclination of the thickness direction of described second gear aerofoil.

4. air conditioner room unit according to claim 3, it is characterized in that, when described first gear aerofoil closes described air outlet, tilt upward from the wind direction of the wind of described first air-permeating hole blowout, when described second gear aerofoil closes described air outlet, horizontal forward from the wind direction of the wind of described second air-permeating hole blowout.

5. air conditioner room unit according to claim 1, is characterized in that,

Described multiple first air-permeating hole is divided into multiple row first air-permeating hole group on the length direction of described first gear aerofoil, often arrange described first air-permeating hole group comprise multiple on the width of described first gear aerofoil spaced described first air-permeating hole;

Described multiple second air-permeating hole is divided into multiple row second air-permeating hole group on the length direction of described second gear aerofoil, often arrange described second air-permeating hole group comprise multiple on the width of described second gear aerofoil spaced described second air-permeating hole.

6. air conditioner room unit according to claim 5, is characterized in that, the described first air-permeating hole group of adjacent two row aligns arrangement, and the described second air-permeating hole group of adjacent two row aligns arrangement.

7. air conditioner room unit according to claim 6, is characterized in that, the first air-permeating hole group described in multiple row aligns arrangement with the second air-permeating hole group one_to_one corresponding described in multiple row respectively.

8. the air conditioner room unit according to any one of claim 5-7, is characterized in that, often arranges described first air-permeating hole in described first air-permeating hole group with equal number, often arranges described second air-permeating hole in described second air-permeating hole group with equal number.

9. air conditioner room unit according to claim 1, is characterized in that, the cross section perpendicular to its axis direction of each described first air-permeating hole is circular, and the cross section perpendicular to its axis direction of each described second air-permeating hole is circular.

10. a deep bead, it is characterized in that, described deep bead is located at the air outlet place of air conditioner room unit, described deep bead is provided with multiple air-permeating hole running through described deep bead thickness, described air-permeating hole extends in the thickness direction surface thereof of described deep bead, when described deep bead closes described air outlet, the wind direction of the wind blown out from described air-permeating hole is horizontal forward or tilt upward, and the cross section perpendicular to its axis direction of each described air-permeating hole is circular.