CN105805911A - Air conditioner and air supply device thereof - Google Patents

Abstract

The invention relates to an air supply device. The air supply device comprises a shell and a guide part; the shell is provided with a containing cavity, a main air inlet, a first air inlet and a first air outlet; the guide part is arranged in the containing cavity and comprises a first protrusion, the distance from the first protrusion to a third side wall is gradually reduced and then gradually increased from the side close to the main air inlet to the first air outlet, and the pressure intensity of the first air inlet is smaller than the indoor pressure intensity. According to the structure, indoor natural wind of the shell is pressed into the first air inlet by the barometric pressure and is discharged from the first air outlet after being mixed with cold air refrigerated by a compressor. The indoor temperature can be fast adjusted, the temperature of indoor space is uniform, the phenomenon that air blowing out from the first air outlet is partially supercooled but other places are hot can be prevented, and the comfort level of users can be increased. The invention further provides an air conditioner comprising the air supply device.

Description

Air-conditioner and air-supply arrangement thereof

Technical field

The present invention relates to air-conditioner technical field, particularly relate to a kind of air-supply arrangement and there is the air-conditioner of this air-supply arrangement.

Background technology

Air-conditioner is the articles for daily use very common in daily life, working environment.The air outlet of existing air-conditioner is provided with grid, utilizes grid to regulate wind direction, and the air outlet blowing range of this structure is limited, and homoiothermic speed is slow, and mixed at room temperature is uneven.Especially, under cooling condition, easily occur blowing the position obtained supercool, and blow less than the still awfully hot phenomenon in place, it is not strong that user uses comfort.If allowing cold wind directly not blow people then need to regulate grid, changing the guiding of grid, comparatively bothering, constantly adjust grid and lead and bring greater inconvenience to user.

Summary of the invention

Based on this, it is necessary to there is blowing range for air conditioner wind outlet limited, the problem that mixed at room temperature is uneven, it is provided that a kind of uniform air-conditioner of mixed at room temperature and air-supply arrangement thereof.

A kind of air-supply arrangement, is applied on air-conditioner, and described air-conditioner includes blower fan, it is characterised in that including:

Housing, one containing cavity is set, described housing includes the first side wall, the second sidewall, the 3rd sidewall and the 4th sidewall, described the first side wall is offered main air intake vent, for coordinating with described blower fan to suck the wind crossed that freezed, described 3rd sidewall is offered the first air intake vent, described second sidewall offers the first air outlet；And

Guiding piece, it is arranged in described containing cavity, it is protruding that described guiding piece includes first, spacing between relatively described 3rd sidewall of described first projection is from first by being gradually reduced greatly toward described first air outlet direction near described main air intake vent side, then expand gradually again, making the pressure at described first air intake vent place less than indoor pressure, to introduce indoor natural wind, the wind after refrigeration mixes with described natural wind and is discharged by described first air outlet.

The first side wall of above-mentioned air-supply arrangement housing offers the first air intake vent, owing to the spacing between the first protruding relative 3rd sidewall of guiding piece is first by being gradually reduced greatly from close main air intake vent side toward the first air outlet direction, then expands gradually again.Adopt such structure, make the pressure at the first air intake vent place less than indoor pressure, so that the natural wind in shell chamber is pressed in containing cavity by the first air intake vent by atmospheric pressure, simultaneously with that entered by main air intake vent and mixed by the cold wind after compressor cooling, then from the first air outlet discharge.From the natural wind of the first air intake vent entrance not past refrigeration, mix with via compressor cooling or the cold wind after heating that be then exhausted from can quickly-conditioning indoor temperature, make indoor temperature all ratios everywhere more uniform, grid is not set at the first air outlet place simultaneously, the wind then produced by boasting by the first air outlet does not have local overcooling, and phenomenon awfully hot elsewhere, improve users'comfort.

Wherein in an embodiment, described first air intake vent place is provided with the first prerotation vane, described first prerotation vane is extended near the oblique described first air outlet direction of described the first side wall by described first air intake vent, for guiding the wind entered from the first air intake vent to export from described first air outlet.

Wherein in an embodiment, described guiding piece is formed towards described 3rd sidewall direction extension by described 4th sidewall.

Wherein in an embodiment, described 4th sidewall offers the second air intake vent, described second sidewall offers the second air outlet, it is protruding that described guiding piece includes second, spacing between relatively described 4th sidewall of described second projection is from first by being gradually reduced greatly toward close described first air outlet direction near described main air intake vent side, then expand gradually again, make the pressure at described second air intake vent place less than indoor pressure.

Wherein in an embodiment, described guiding piece is connected on the sidewall of described housing.

Wherein in an embodiment, also include the mobile device being connected with described guiding piece, for moving described guiding piece to described second air intake vent place, to form single air intake vent and single air outlet.

Wherein in an embodiment, described second air intake vent place is provided with the second prerotation vane, described second prerotation vane is extended to described second air outlet direction near described the first side wall by described second air intake vent, for guiding the wind entered from the second air intake vent to export from described second air outlet.

Wherein in an embodiment, also including the pusher being connected with described housing, described pusher is used for moving described housing, makes described first air intake vent open wide or be blocked.

Wherein in an embodiment, also include sealing mobile device and the first diaphragm seal, described first diaphragm seal is arranged on described first air intake vent place, and described sealing is moved device and is connected with described first diaphragm seal, is used for moving described first diaphragm seal to open wide or to seal the first air intake vent.

A kind of air-conditioner, including blower fan, vaporizer and compressor, for freezing or heating, characterized by further comprising the air-supply arrangement as described in claim 1-9 any one, described blower fan is for sucking the wind after described vaporizer and compressor coordinate refrigeration or heat from described main air intake vent and be delivered to described housing along described guiding piece.

Accompanying drawing explanation

Fig. 1 is the structural representation of air-supply arrangement in one embodiment of the invention；

Fig. 2 is the structural representation of air-supply arrangement in another embodiment of the present invention；

Fig. 3 is the structural representation of guiding piece in one embodiment of the invention；

Fig. 4 is the exposed structural representation outside body of wall of the first air intake vent of air-supply arrangement in one embodiment of the invention；

Fig. 5 is the structural representation that the first air intake vent of air-supply arrangement in one embodiment of the invention is hidden in body of wall；

Fig. 6 is the exposed structural representation outside body of wall of first, second air intake vent of air-supply arrangement in another embodiment of the present invention；

Fig. 7 is the structural representation that first, second air intake vent of air-supply arrangement in another embodiment of the present invention is hidden in body of wall；

Fig. 8 is the structural representation of air-conditioner in one embodiment of the invention.

Detailed description of the invention

Understandable for enabling the above-mentioned purpose of the present invention, feature and advantage to become apparent from, below in conjunction with accompanying drawing 1-accompanying drawing 8, the specific embodiment of the present invention is described in detail.Elaborate a lot of detail in the following description so that fully understanding the present invention.But the present invention can implement being much different from alternate manner described here, and those skilled in the art can do similar improvement when without prejudice to intension of the present invention, therefore the present invention is by the following public restriction being embodied as.

It should be noted that be referred to as " being fixed on " another element when element, it can directly on another element or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements.

Unless otherwise defined, all of technology used herein is identical with the implication that the those skilled in the art belonging to the present invention are generally understood that with scientific terminology.The term used in the description of the invention herein is intended merely to the purpose describing specific embodiment, it is not intended that in the restriction present invention.Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

Referring to Fig. 1 and Fig. 8, air-supply arrangement provided by the invention is applied on air-conditioner, concrete air-conditioner can be cabinet air conditioner can also be wall-hanging air conditioner, and the wind after freezing or heating is delivered to indoor by the air-supply arrangement cooperation blower fan 6 of air-conditioner, vaporizer and compressor (not shown) etc..This air-supply arrangement includes a housing 1, is opened in main air intake vent the 121, first air intake vent 141 on housing 1 sidewall and the first air outlet 131, and is arranged on the guiding piece 2 for guiding wind direction in housing 1.

In one embodiment, housing 1 offers a containing cavity 11, and housing 1 includes the first side wall the 12, second sidewall 13 and the 3rd sidewall 14.Guiding piece 2 is arranged in containing cavity 11, and the first side wall 12 is offered main air intake vent 121, the second sidewall 13 is offered the first air outlet 131, the 3rd sidewall 14 is offered the first air intake vent 141.Guiding piece 2 includes the first projection 21, spacing between first protruding 21 relative 3rd sidewalls 14 is from first by being gradually reduced greatly toward the first air outlet 131 direction near main air intake vent 121 side, then expand gradually again, make the pressure at the first air intake vent 141 place less than indoor pressure.

Adopt such structure, owing to the pressure at the first air intake vent 141 place is less than indoor pressure, therefore the air that available intraventricular pressure good general is indoor is pressed into containing cavity 11 by the first air intake vent 141, and the wind entered by the first air intake vent 141 is not past process of refrigerastion, forms the first natural wind 41.Simultaneously under the effect of blower fan 6, wind after refrigeration is entered containing cavity 11 by main air intake vent 121, and along guiding piece 2 first protruding 21 and the 3rd sidewall 14 enclose the passage being set as and be delivered to indoor through the first air outlet 131.Wind through refrigeration is delivered to the first air intake vent 141 relevant position and mixes with the first natural wind 41, simultaneously as the first air outlet 131 place is not provided with grid, the mixed wind wind direction at contiguous first air outlet 141 place with leave the first air outlet 141 after wind direction be consistent, directly by the first air outlet 131 inlet chamber, the mixing of two strands of wind can quickly-conditioning indoor temperature, make indoor temperature all ratios everywhere more uniform, due to the problem being absent from the wind direction that grid causes, the wind produced by boasting by the first air outlet 131 does not have local overcooling, and phenomenon awfully hot elsewhere, improve users'comfort.

Referring to Fig. 2, in an embodiment, air-supply arrangement also includes the 4th sidewall 15, and namely the first side wall 12 is relative with the second sidewall 13；4th sidewall 15 is relative with the 3rd sidewall 14.4th sidewall 15 is offered the second air intake vent 151, the second sidewall 13 is offered the second air outlet 132.And guiding piece 2 also includes the second projection 22, spacing between second protruding 22 relative 4th sidewalls 15 is from first by being gradually reduced greatly toward the first air outlet 131 direction near main air intake vent 121 side, then expand gradually again, make the pressure at the second air intake vent 151 place less than indoor pressure.Adopting such structure, in like manner, the second air intake vent 151 wind being pressed into by ambient atmospheric pressure is the second nature wind 42 to the setting with the first air intake vent 141.During work, the wind entered from main air intake vent 121 is divided into two strands after refrigeration, encloses the passage being set as and the second projection 22 along the first projection 21 and the 3rd sidewall 14 respectively and the 4th sidewall 15 encloses the passage conveying being set as.Wind after one stock-traders' know-how refrigeration mixes with the first natural wind 41 through the first air intake vent 141 relevant position, is then delivered to indoor by the first air outlet 131；Wind after another stock-traders' know-how refrigeration mixes with the second nature wind 42 through the second air intake vent 151 relevant position simultaneously, is then delivered to indoor by the second air outlet 132.Concrete, in one embodiment, from the straight wind that the wind of first, second air outlet 131,132 output is all parallel with the 3rd or the 4th sidewall 14,15, straight wind is higher than the height of human body in level height, human body blow-through will not be faced toward, so, this user discomfort will not be brought while to room temperature lowering.

Referring to Fig. 1, concrete, in an embodiment, when air-supply arrangement only offers the first air intake vent 141, guiding piece 2 is formed towards the 3rd sidewall 14 extension by the 4th sidewall 15.Concrete, first projection 21 includes the first cambered surface the 211, first summit 212 and the second cambered surface 213, namely along the first cambered surface 211 toward the first direction, summit 212, spacing between first projection 21 and the 3rd sidewall 14 is gradually reduced, minimum to width when the first summit 212, then along the first summit 212 toward the second cambered surface 213 direction, spacing between first projection 21 and the 3rd sidewall 14 expands gradually, so that first protruding 21 is formed and first shrinks, with the passage being set as that encloses of the 3rd sidewall 14, the structure expanded afterwards so that the pressure at the first air intake vent 141 place is less than indoor pressure.In other embodiments, guiding piece 2 can not also be extended to form towards the 3rd sidewall 14 direction by the 4th sidewall 15, as long as guiding piece 2 has the shape of the first projection 21, it is possible to makes the pressure at the first air intake vent 141 place less than indoor pressure.Such as, guiding piece 2 can also is that and extended to form by the second sidewall 13；Or guiding piece 2 there is a fulcrum be connected to second or the 4th on sidewall 13,15.Preferably, the first summit 212 is just directed at the first air intake vent 141, and now the pressure at the first air intake vent 141 place is minimum.

Referring to Fig. 2, Fig. 3 and Fig. 8, in another embodiment, when air-supply arrangement has first, second air intake vent 141,151 simultaneously, guiding piece 2 also includes the second projection 22, and the separation of the first protruding 21 and second projection 22 is tip 23.Namely the wind after freezing or heating, in first, second air outlet 131,132 course of conveying, is divided into two strands of wind and encloses the passage being set as and the second projection 22 respectively along first protruding 21 with the 3rd sidewall 14 and the 4th sidewall 15 encloses the passage that is set as to indoor conveying when running into the tip 23 of guiding piece 2.Concrete, second projection 22 includes the 3rd cambered surface 221, second summit 222 and the 4th cambered surface 223, along the 3rd cambered surface 221 toward the second direction, summit 222, spacing between second projection 22 and the 4th sidewall 15 is first by being gradually reduced greatly, minimum to width when the second summit 222, then along the second summit 222 toward the 4th cambered surface 223 direction, spacing between second projection 22 and the 4th sidewall 15 expands again gradually, so that second protruding 22 and the 4th sidewall 15 enclose the passage being set as and formed and first shrink the structure expanded afterwards, make the pressure at the second air intake vent 151 place less than indoor pressure.

Preferably, first, second air intake vent 141,151 is mutually aligned, and namely the first protruding 21 and second projection 22 is mutually aligned, namely first, second projection 21,22 of whole guiding piece 2 is symmetrically set.Concrete, guiding piece 2 is being perpendicular in the plane that first, second projection 21,22 is constituted and is being provided with being connected on the sidewall of housing 1 at least provided with a fulcrum, is specifically attached on simultaneously vertical with second, third sidewall 13,14 sidewall.

Referring to Fig. 1, in one embodiment, concrete, first air intake vent 141 place is provided with the first prerotation vane 8, first prerotation vane 8 arranges the first air intake vent 141 place, extended by the first air outlet 131 direction oblique near the first side wall 12 side, for guiding the first natural wind 41 to mix with the wind after refrigeration better, and export from the first air outlet 131.Further, the angle of the second sidewall 13 and the 3rd sidewall 14 is provided with a curved guiding surface 5, and relative first prerotation vane 8 of curved guiding surface 5 is arranged, and forms the first natural wind 41 and enters containing cavity 11 and the passage from the first air outlet 131 output, plays guide effect.

Referring to Fig. 2, in another embodiment, concrete, second air intake vent 151 place is provided with the second prerotation vane 9, second prerotation vane 9 is positioned at the second air port 132 place, extended by the second air outlet 132 direction oblique near the first side wall 12 side, for guiding the second nature wind 42 better to mix with the wind after refrigeration, and export from the second air outlet 132.Further, the angle of the second sidewall 13 and the 4th sidewall 15 also is provided with a curved guiding surface 5, and relative second prerotation vane 9 of this curved guiding surface 5 is arranged, and forms the second nature wind 42 and enters containing cavity 11 and the passage from the second air outlet 132 output, plays guide effect.

Referring to Fig. 4-Fig. 7, in one embodiment, the air-supply arrangement of the present invention also includes the pusher (not shown) being connected with housing 1, and this pusher is used for mobile shell 1, make the first air intake vent 141 on the 3rd sidewall 14 and/or on the 4th sidewall 15 second air intake vent 151 open wide or be blocked.Concrete, referring to Fig. 4 and Fig. 6, under cooling condition, the first air intake vent 141 and/or the second air intake vent 151 are opening-wide state, make natural wind pass through the first air intake vent 141 and/or the second air intake vent 151 enters in containing cavity 11.Referring to Fig. 5 and Fig. 7, under heating condition, the first air intake vent 141 and/or the second air intake vent 151 are covered up by pusher mobile shell 1 in order to avoid natural wind enters containing cavity 11, so that being all the wind after heating from air-supply arrangement wind out, improve heating efficiency, save the energy simultaneously.

Mounted to a wall for air-supply arrangement, under heating condition, housing 1 is moved by pusher in body of wall 10, the first air intake vent 141 and/or the second air intake vent 151 is made to be sheltered from by body of wall 10, to ensure that only hot blast exports from the first air outlet 131 and/or the second air outlet 132, to improve heating efficiency.Under cooling condition, housing 1 is moved by pusher toward the direction outside body of wall 10, makes the first air intake vent 141 and/or the second air intake vent 151 open wide, to introduce natural wind, reaches fast-refrigerating, make the purpose of indoor homogeneous temperature everywhere.In other embodiments, also indefinite is block the first air intake vent 141 and/or the second air intake vent 151 with body of wall 10, it is also possible to be provided in the parts such as baffle plate within air-conditioner.

Referring to Fig. 1, in another embodiment, air-supply arrangement also includes sealing mobile device (not shown) and the first diaphragm seal (not shown), first diaphragm seal is arranged on the first air intake vent 141 place, seal mobile device and the first diaphragm seal connects, be used for opening wide or seal the first air intake vent 141.Concrete, when heating condition, the mobile device of sealing moves the first diaphragm seal and covers on the first air intake vent 141, is all hot blast to ensure the wind from the first air outlet 131 output；On the contrary, when cooling condition, seal mobile device and move the first diaphragm seal covered on the first air intake vent 141, make the first air intake vent 141 open wide, to introduce the first natural wind 41.

Referring to Fig. 2, further, when air-supply arrangement has first, second air intake vent 141,151 simultaneously, the second air intake vent 151 place is provided with and seals the second diaphragm seal (not shown) that mobile device is connected.Concrete, when heating condition, the mobile device of sealing moves the first diaphragm seal and covers on the first air intake vent 141, and the second diaphragm seal covers on the second air intake vent 151, is all hot blast to ensure the wind exported from the first air outlet 141 and the second air outlet 151；On the contrary, when cooling condition, seal mobile device and move the first diaphragm seal covered on the first air intake vent 141 and the second diaphragm seal covered on the second air intake vent 151 respectively, make the first air intake vent 141 and the second air intake vent 151 open wide, to introduce the first natural wind 41 and the second nature wind 42.

Referring to Fig. 7, further, in another embodiment, air-supply arrangement also includes the mobile device (not shown) being connected with guiding piece 2, and mobile device is for moving guiding piece 2 toward the second air intake vent 151, to form single air outlet on the second sidewall 13.Guiding piece 2 also moves toward the second air outlet 151 toward the second cambered surface 213 of the first projection 21 in the second air intake vent 151 moving process, and the wind after heating is blown along the second cambered surface 213 to indoor.This structure is mainly used under heating condition, because under heating condition, and the indoor unhelpful heating of upper air, only carry warm braw to improve heating efficiency below indoor.Concrete, referring also to Fig. 3, when guiding piece 2 is moved near the second air outlet 151, wind after heating is first along the third and fourth sidewall 14, 15 enclose the passage being set as carries toward the first air outlet 131 direction, when warm braw is delivered near guiding piece 2, major part warm braw encloses the passage conveying being set as along the first projection 21 and the 3rd sidewall 14, additionally some warm braw is stopped by the 3rd cambered surface 221 of the second projection 22, and first move toward tip 23 along the 3rd cambered surface 221, then more successively along the first cambered surface 211 of the first projection 21, first summit 212 and the second cambered surface 213 are delivered to indoor.

Referring to Fig. 8, the present invention also provides for a kind of air-conditioner.This air-conditioner includes blower fan 6, vaporizer, compressor (not shown) and air-supply arrangement, is used for freezing or heating, and this air-supply arrangement is as described above in Example.Blower fan 6 is for will suck containing cavity 11 from main air intake vent 121 through compressor and evaporator refrigeration or the wind after heating and be delivered to indoor along guiding piece 2.

Adopt the air-conditioner of this structure under cooling condition, introduce natural wind the wind mixing after refrigeration from the first air intake vent 141 and/or the second air intake vent 151, be then delivered to indoor by the first air outlet 131 and/or the second air outlet 132 again.Owing to the first air outlet 131 place is not provided with grid, the mixed wind wind direction at contiguous first air outlet 141 place with leave the first air outlet 141 after wind direction be consistent, directly by the first air outlet 131 inlet chamber, the mixing of two strands of wind can quickly-conditioning indoor temperature, make indoor temperature all ratios everywhere more uniform, the wind so produced by boasting by the first air outlet 131 does not have a local overcooling, and phenomenon awfully hot elsewhere, improve users'comfort.Under heating condition, the first air intake vent 141 or the first air intake vent 141 and the second air intake vent 151 are enclosed, and only have warm braw and are delivered to indoor, to improve heating efficiency.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (9)

1. an air-supply arrangement, is applied on air-conditioner, and described air-conditioner includes blower fan, it is characterised in that including:

Housing, inside set a containing cavity, described housing includes the first side wall, the second sidewall, the 3rd sidewall and the 4th sidewall, described the first side wall is offered main air intake vent, for coordinating the wind freezed with suction with described blower fan, described 3rd sidewall is offered the first air intake vent, described second sidewall offers the first air outlet；And

Guiding piece, it is arranged in described containing cavity, it is protruding that described guiding piece includes first, spacing between relatively described 3rd sidewall of described first projection is from first by being gradually reduced greatly toward described first air outlet direction near described main air intake vent side, then expand gradually again, make the pressure at described first air intake vent place less than indoor pressure, to introduce indoor natural wind, wind after refrigeration mixes with described natural wind and is discharged by described first air outlet, described first air intake vent place is provided with the first prerotation vane, described first prerotation vane is extended near the oblique described first air outlet direction of described the first side wall by described first air intake vent, for guiding the natural wind entered from the first air intake vent to export from described first air outlet.

2. air-supply arrangement according to claim 1, it is characterised in that described guiding piece is formed towards described 3rd sidewall direction extension by described 4th sidewall.

3. air-supply arrangement according to claim 1, it is characterized in that, described 4th sidewall offers the second air intake vent, described second sidewall offers the second air outlet, it is protruding that described guiding piece includes second, then spacing between relatively described 4th sidewall of described second projection is expanded by being gradually reduced greatly near described main air intake vent side more gradually toward close described first air outlet direction is first, makes the pressure at described second air intake vent place less than indoor pressure.

4. air-supply arrangement according to claim 3, it is characterised in that described guiding piece is connected on the sidewall of described housing.

5. air-supply arrangement according to claim 3, it is characterised in that also include the mobile device being connected with described guiding piece, for moving described guiding piece to described second air intake vent place, to form single air intake vent and single air outlet.

6. air-supply arrangement according to claim 3, it is characterized in that, described second air intake vent place is provided with the second prerotation vane, described second prerotation vane is extended to described second air outlet direction near described the first side wall by described second air intake vent, for guiding the wind entered from the second air intake vent to export from described second air outlet.

7. the air-supply arrangement according to claim 1-6 any one, it is characterised in that also including the pusher being connected with described housing, described pusher is used for moving described housing, makes described first air intake vent open wide or be blocked.

8. the air-supply arrangement according to claim 1-6 any one, it is characterized in that, also include sealing mobile device and the first diaphragm seal, described first diaphragm seal is arranged on described first air intake vent place, the mobile device of described sealing is connected with described first diaphragm seal, is used for moving described first diaphragm seal to open wide or to seal the first air intake vent.

9. an air-conditioner, including blower fan, vaporizer, compressor and/or heat layer, for freezing or heating, characterized by further comprising the air-supply arrangement as described in claim 1-8 any one, described blower fan is for sucking the wind after described vaporizer and compressor coordinate refrigeration or heat from described main air intake vent and be delivered to described housing along described guiding piece.