CN103062837B - Air regulator - Google Patents

Abstract

Air regulator of the present invention comprises: housing, it is formed with air suction inlet, a part between the top and bottom of the front part of this housing is formed with opening portion, heat exchange unit, it is configured in the inside of housing, spatial portion panel, and it is configured in opening portion, be recessed to form front to open and the spatial portion of hollow, and be formed with the air flow ports for making the air carrying out heat exchange with heat exchange unit flow to spatial portion; Tool of the present invention has the following advantages: when watching from front, owing to can't see the inside of vertical air adjuster, thus seem succinct and high-grade, and energy minimization foreign body intrusion is to the phenomenon of vertical air adjuster inside, when spatial portion receives various article, the article received can not drop to the inside of vertical air adjuster, and spatial portion can play the effect in article storing portion thus.

Description

Air regulator

Technical field

The present invention relates to a kind of air regulator, particularly relate to and a kind ofly arrange in the mode of standing in indoor and forwards discharge the vertical air adjuster of air.

Background technology

Usually, air regulator to freeze to indoor by heat-producing machine, refrigerator and clarifier etc. or to heat, or is arranged for the purpose of purifying air, and builds more comfortable indoor environment with this to people.

The vertical air adjuster that air regulator has wall hanging air conditioner that mode on the wall of hanging arranges, arrange in the mode of standing at indoor floor and the ceiling-mounted air conditioner arranged in the mode of ceiling disposed in the interior.

Vertical air adjuster is formed with the air suction inlet sucking room air and the air outlet of discharging at the air of the inside of air regulator through overregulating, air suction inlet can be formed in front surface bottom or the side lower of air regulator, and air outlet can be formed in front surface top or the side surface upper part of air regulator.

Vertical air adjuster can suck the air of the lower periphery of air regulator by air suction inlet, and makes it via after the air-conditioning unit being arranged on inner heat exchange unit etc., and the top periphery to air regulator is discharged.

But, following problem is there is: when being exposed the inside of vertical air adjuster by air outlet when watching in the front of vertical air adjuster, outward appearance seems mixed and disorderly, and by air outlet foreign body intrusion to inner, thus produces inside and pollute.

Summary of the invention

The present invention proposes in order to the problem solving above-mentioned prior art, the object of the present invention is to provide a kind of vertical air adjuster, can minimizing the phenomenon of the interior visible when watching in front, and can minimize the phenomenon that polluter internally invades.

Vertical air adjuster of the present invention for solving the problem comprises: housing, and it is formed with air suction inlet, and the part between the top and bottom of the front part of this housing is formed with opening portion; Heat exchange unit, it is configured in the inside of above-mentioned housing; Spatial portion panel, it is configured in above-mentioned opening portion, and is recessed to form front opening and the spatial portion of hollow, and is formed with the air flow ports for making the air carrying out heat exchange with above-mentioned heat exchange unit flow to above-mentioned spatial portion.

Vertical air adjuster of the present invention for solving the problem comprises: housing, and it is formed with air suction inlet and air outlet, and the part between the top and bottom of the front part of this housing is formed with opening portion; Heat exchange unit, it is configured in the inside of above-mentioned housing; Spatial portion panel, it is configured in above-mentioned opening portion, and is recessed to form front opening and the spatial portion of hollow, and is formed with the air flow ports for making the air carrying out heat exchange with above-mentioned heat exchange unit flow to above-mentioned spatial portion.

Vertical air adjuster of the present invention for solving the problem comprises: housing, and it is formed with air suction inlet, and be formed with upside air outlet on the top of this housing, the part between the top and bottom of the front part of this housing is formed with opening portion; Heat exchange unit, it is configured in the inside of above-mentioned housing; Spatial portion panel, it is configured in above-mentioned opening portion, and is recessed to form front opening and the spatial portion of hollow, and is formed with the air flow ports for making the air carrying out heat exchange with above-mentioned heat exchange unit flow to above-mentioned spatial portion.

Vertical air adjuster of the present invention for solving the problem comprises: housing, it is formed with air suction inlet, be formed with air outlet respectively in the left side of this housing and right side, the part between the top and bottom of the front part of this housing is formed with opening portion; Heat exchange unit, it is configured in the inside of above-mentioned housing; Spatial portion panel, it is configured in above-mentioned opening portion, and is recessed to form front opening and the spatial portion of hollow, and is formed with the air flow ports for making the air carrying out heat exchange with above-mentioned heat exchange unit flow to above-mentioned spatial portion.

The width up and down of above-mentioned spatial portion panel is less than the width up and down of above-mentioned air outlet.

The lower end height of the above-mentioned air outlet of lower end aspect ratio of above-mentioned spatial portion panel is lower.

The left and right width of above-mentioned spatial portion panel is wider than the front and back width of above-mentioned air outlet.

Comprise spatial portion and discharge guide portion, this spatial portion is discharged guide portion and is given prominence to towards above-mentioned spatial portion in the inside of above-mentioned housing, is subject to the protection of above-mentioned spatial portion panel, for guiding the discharge of the air via above-mentioned air flow ports flowing.

The pivot that above-mentioned spatial portion discharges guide portion is positioned at above-mentioned spatial portion outside.

Comprise rotating mechanism, this rotating mechanism is used for making above-mentioned spatial portion discharge guide portion and rotates highlightedly to above-mentioned spatial portion, and above-mentioned spatial portion discharge guide portion is rotated with the inside of not outstanding to above-mentioned spatial portion mode to above-mentioned housing.

Above-mentioned spatial portion panel comprises air and discharges body, and the front that this air discharges body is open, and a part of discharging the periphery of body at this air is formed with above-mentioned air flow ports, and the inner side of discharging body at air is formed with above-mentioned spatial portion.

Above-mentioned spatial portion panel also comprises the decoration panel can seen by above-mentioned spatial portion.

The upper surface that above-mentioned air discharges body is formed with above-mentioned air flow ports, and above-mentioned air is discharged the left surface of body, right flank and lower surface and covered then surface open, and above-mentioned decoration panel can cover the rear surface that above-mentioned air discharges body.

Above-mentioned decoration panel comprises: bonnet, and it is combined in above-mentioned air and discharges body; Rear decorative panel, it is arranged on above-mentioned bonnet; Front trim panel, it is positioned at the front of above-mentioned rear decorative panel; Optical facilities, it is arranged on above-mentioned bonnet, for irradiating light between above-mentioned rear decorative panel and front trim panel.

Above-mentioned front trim panel is covered the rear surface of above-mentioned air discharge body and can be seen by above-mentioned spatial portion.

Above-mentioned optical facilities can be started when air is discharged in the front of being discharged body by above-mentioned air.

Above-mentioned optical facilities can be arranged between the bottom of front trim panel and the bottom of rear decorative panel.

Above-mentioned air is discharged body and is comprised: rear space portion, and above this rear space portion, the opening along the vertical direction of above-mentioned air flow ports, is formed with space in the inside in this rear space portion; Front space portion, it is formed obliquely the front in above-mentioned rear space portion, and is formed with the space larger than the space in above-mentioned rear space portion.

Discharge the rear end of body at above-mentioned air, can give prominence to the bonnet joint portion being formed and combine with above-mentioned bonnet, above-mentioned optical facilities can be arranged on the rear of above-mentioned bonnet joint portion.

The upper surface of discharging body at above-mentioned air forms above-mentioned air flow ports, and above-mentioned air is discharged the left surface of body, right flank, lower surface and rear surface and covered, and above-mentioned decoration panel can be arranged on the inside that above-mentioned air discharges body.

The upper surface of discharging body at above-mentioned air can form above-mentioned air flow ports, and above-mentioned air is discharged the left surface of body, right flank, lower surface and rear surface and covered.

The vertical air adjuster of the present invention of formation described above, when watching from front, owing to can't see the inside of vertical air adjuster, thus seems succinct and high-grade, and can minimize the phenomenon of foreign body intrusion to vertical air adjuster inside.

Further, have when spatial portion receives various article, the article received can not drop to the inside of vertical air adjuster, and spatial portion can play the advantage of the effect in article storing portion thus.

Further, tool has the following advantages: can by means of the visual decoration panel of spatial portion to improve decorative beauty, and user can be allowed easily to identify the discharge of air while the discharge can emphasizing by spatial portion panel by decoration panel.

And, vertical air adjuster tool of the present invention has the following advantages: when being discharged body by air and discharging air, spatial portion is made to seem bright, and can direct visual discharge air whether and discharge the position of air, visual front trim panel can be carried out by spatial portion, instead of the inside of air regulator, thus can realize superior.

Further, there is minimizing of the size that can realize air discharge body and front trim panel, and the maximized advantage of decorative beauty can be realized.

Further, tool has the following advantages: can by rear decorative panel, front trim panel and lighting mechanism are arranged on bonnet to realize assemblingization, and the simple action can discharging body by bonnet being fastened on air is assembled.

Further, from the light not indirect irradiation to the front direct irradiation of spatial portion that lighting mechanism irradiates, the eyesight thus with the user likely occurred when can prevent the light irradiated from lighting mechanism from shining directly into the front of spatial portion reduces the advantage of phenomenon.

Accompanying drawing explanation

Feature of the present invention and advantage, in conjunction with the detailed description of following embodiments of the invention, and can become definitely with reference to following accompanying drawing, in above-mentioned figure:

Fig. 1 is the stereogram of vertical air adjuster first embodiment of the present invention.

Fig. 2 is the front view of vertical air adjuster first embodiment of the present invention.

Skiagraph when Fig. 3 is the running of vertical air adjuster first embodiment of the present invention.

Skiagraph when Fig. 4 is the stopping of vertical air adjuster first embodiment of the present invention.

Fig. 5 is the stereogram of the spatial portion panel shown in Fig. 1 to Fig. 4.

Fig. 6 is the exploded perspective view of the spatial portion panel shown in Fig. 1 to Fig. 4.

Fig. 7 be vertical air adjuster second embodiment of the present invention stereogram.

Fig. 8 is the front view of vertical air adjuster second embodiment of the present invention.

Fig. 9 is the skiagraph of vertical air adjuster second embodiment of the present invention.

Figure 10 is the stereogram of vertical air adjuster the 3rd embodiment of the present invention.

Figure 11 is the front view of vertical air adjuster the 3rd embodiment of the present invention.

Figure 12 is the skiagraph of vertical air adjuster the 3rd embodiment of the present invention.

Figure 13 is the cross-sectional view of vertical air adjuster the 3rd embodiment of the present invention.

Figure 14 is the skiagraph of vertical air adjuster the 4th embodiment of the present invention.

Figure 15 is the skiagraph of vertical air adjuster the 5th embodiment of the present invention.

Detailed description of the invention

Below, with reference to accompanying drawing to can the embodiments of the invention of specific implementation above-mentioned purpose be described.

Fig. 1 is the stereogram of vertical air adjuster first embodiment of the present invention, Fig. 2 is the front view of vertical air adjuster first embodiment of the present invention, skiagraph when Fig. 3 is the running of vertical air adjuster first embodiment of the present invention, skiagraph when Fig. 4 is the stopping of vertical air adjuster first embodiment of the present invention.

The vertical air adjuster of the present embodiment comprises: housing 10, and it is formed with air suction inlet 2, and the part between the upper end 4 and lower end 6 of front part is formed with opening portion 8; Heat exchange unit 12, it is configured in the inside of housing 10; Spatial portion panel 20, it is configured in opening portion 6, and is recessed to form the spatial portion S of the open hollow in front 16, and is formed with the air flow ports 18 that the air carrying out heat exchange with heat exchange unit 12 is flowed to spatial portion S.

Housing 10 and spatial portion panel 20 together form the outward appearance of vertical air adjuster.Housing 10 in the wings portion can form air suction inlet 2.Air suction inlet 2 is open in front-rear direction to be formed.Room air is drawn into the inside of housing 10 via air suction inlet 2 from the rear quadrate part of housing 10.

Housing 10 comprises: base 22; Suction panel 24, it is formed with air suction inlet 2; Front panel 26, it is configured in the front of suction panel 24.

Suction panel 24 comprises the lower plate 25 being provided with heat exchange unit 12.Suction panel 24 together forms the rear quadrate part of housing 10 with the rear quadrate part of base 22.

Front panel 26 forms the space of collecting blowing unit 28 described later.Front panel 26 together forms the front part of housing 10 with the front part of base 22.Front panel 26 forms the stream of the air blowed by blowing unit 28, and the guiding carrying out the air receiver front panel 26 of heat exchange at heat exchange unit 12 blows.

Blowing unit 28 is configured between heat exchange unit 12 and front panel 26.Room air is drawn into air suction inlet 2 by blowing unit 28, blow to spatial portion panel 20, blowing unit 28 is made up of centrifugal blowing unit, this centrifugal blowing unit after sucking the air at rear up and down, left and at least one right direction blows.Indoor air is successively by air suction inlet 2 and heat exchange unit 12, and the peripheral direction except this backward forward direction except blowing unit 28 and rear direction blows.Blowing unit 28 comprises: motor 30, and its axial rotary rear is formed in front panel 26 highlightedly; Turbofan 32, it is connected to the rotating shaft of motor 30; Orifice plate 34, it is arranged on the front of heat exchange unit 12, and the air via heat exchange unit 12 is guided to turbofan 32.

Spatial portion panel 20 is arranged on the downside of blowing unit 28.Spatial portion panel 20 is positioned at the position lower than front panel 26.Vertical air adjuster forms opening portion 8 between front panel 26 and base 22, and spatial portion panel 20 discharges air between front panel 26 and base 22.Vertical air adjuster is at the front of front panel 26 configuration front upper lid 36, and between front upper lid 36 and base 22, form opening portion 8, spatial portion panel 20 discharges air between front upper lid 36 and base 22.Vertical air adjuster is at the front of base 22 configuration front lower lid 37, and between front panel 26 and front lower lid 37, form opening portion 8, spatial portion panel 20 discharges air between front panel 26 and front surface lower cover 37.Vertical air adjuster is at the front of front panel 26 configuration front upper lid 36, at the front of base 22 configuration front lower lid 37, between front upper lid 36 and front lower lid 37, form opening portion 8, spatial portion panel 20 discharges air between front upper lid 36 and front lower lid 37.

Housing 10 also comprises: left cap 38, and it hides the left surface of front panel 26 and the front part left surface of base 22; Right cap 39, it hides the right flank of front panel 26 and the front part right flank of base 22.

Spatial portion panel 20 comprises air and discharges body 40, and this air discharges body 40 makes air externally discharge.Discharge with regard to body 40 with regard to air, front 16 is open, forms air flow ports 18 at periphery, forms spatial portion S in interior survey.Air discharges the upper surface of body 40 in periphery can form air flow ports 18, and air is discharged the left surface of body 40, right flank and lower surface and covered, open rear surface 42.

Spatial portion panel 20 also comprises by the visual decoration panel 50 of spatial portion S.Decoration panel 50 is set to cover the rear surface that air discharges body 40.The front surface of decoration panel 50 can cover the rear surface 42 that air discharges body 40.Decoration panel 50, in spatial portion S rear position, can improve the decorative beauty of vertical air adjuster, and can realize the superior of vertical air adjuster.Decoration panel 50 can be made up of the display floater of display panels etc., can be made up of the illumination panel showing at least one color.

Decoration panel 50 comprises: bonnet 100, and it is combined in air and discharges body 40; Rear decorative panel 110, it is arranged on bonnet 100; Front trim panel 120, it is positioned at the front of rear decorative panel 110; Optical facilities 130, it is arranged on bonnet 100, and irradiates light between decorative panel 110 and front trim panel 120 backward.Bonnet 100, rear decorative panel 110, front trim panel 120 and optical facilities 130 can form illumination panel.Optical facilities 130 can start when the front surface of being discharged body 40 by air discharges air.Front trim panel 120 can seem bright when starting optical facilities 130, and user seems bright by front trim panel 120, learns that air is discharged body 40 by air and discharged.

Vertical air adjuster comprises spatial portion and discharges guide portion 60, and this spatial portion discharges guide portion 60 for guiding the discharge of the air flowed via air flow ports 18.Spatial portion is discharged guide portion 60 and is given prominence to towards spatial portion S in the inside of housing 10, is subject to the protection of spatial portion panel 20.The pivot of spatial portion discharge guide portion 60 is positioned at the outside of spatial portion S.The pivot of spatial portion discharge guide portion 60 is positioned at the upper side position of air flow ports 18.Spatial portion is discharged guide portion 60 and is flatly configured or is forwards configured to lower tilt.Spatial portion discharges the interior location that guide portion 60 can be rotatably set in housing 10.And be rotatably configured in front panel 26.

Vertical air adjuster comprises rotating mechanism 70, and its revolution space portion discharges guide portion 60.Rotating mechanism 70 rotates to spatial portion S highlightedly for making spatial portion discharge guide portion 60, and spatial portion discharge guide portion 60 is rotated with the inside of not outstanding to spatial portion S mode to housing 10.Spatial portion is discharged guide portion 60 and is flatly rotated by the upper side position of rotating mechanism 70 to air flow ports 18, and rotates obliquely down by the inner side of rotating mechanism 70 to spatial portion S.Rotating mechanism 70 is made up of motor, and this motor makes spatial portion discharge guide portion about 60 rotate.Rotating mechanism 70 is arranged on front panel 26.

Fig. 5 is the stereogram of the spatial portion panel shown in Fig. 1 to Fig. 4, and Fig. 6 is the exploded perspective view of the spatial portion panel shown in Fig. 1 to Fig. 4.

Air is discharged body 40 and is together formed spatial portion S with front trim panel 120, and this spatial portion S makes forwards to guide via the air of air flow ports 18.Air flow ports 18 and spatial portion S can play the passing away effect carrying out the air of heat exchange at heat exchange unit 12.As shown in Figure 3; when air regulator comprises spatial portion discharge guide portion 60; spatial portion S can play the space behavior making spatial portion discharge guide portion 60 carry out the hollow rotated without let or hindrance, and spatial portion panel 20 can play the protection portion effect that guard space portion discharges guide portion 60.Air is discharged body 40 and is comprised: rear space portion S1, and above rear space portion S1, the opening along the vertical direction of above-mentioned air flow ports 18, is formed with rear space in the inside of this rear space portion S1; Front space portion S2, it is formed obliquely the front at rear space portion S1, and forms the leading space larger than the rear space of rear space portion S1.Rear space portion S1 comprises left plate portion 43, right panel portion 44 and lower board unit 45, between the upper end and the upper end in right panel portion 44 in left plate portion 43, form air flow ports 18, and left plate portion 43, right panel portion 44 and lower board unit 45 together form rear space with front trim panel 120.Front space portion S2 comprises: upper inclined portion 46A, and it forwards tilts upside; Left side portion 46B, it is left side forwards; Right side rake 46C, it forwards tilts on right side; Lower inclined portion 46D, it forwards tilts downside.Front space portion S2 forms the space larger than the space of rear space portion S1 between upper inclined portion 46A, left side portion 46B, right side rake 46C and lower inclined portion 46D.Air is discharged body 40 and is given prominence to the bonnet joint portion 47 being formed and combine with bonnet 100 in rear end.The outstanding rear end being formed in rear space portion S1, bonnet joint portion 47.Bonnet joint portion 47 in the left plate portion 43 of rear space portion S1, right panel portion 44 and lower board unit 45 is outstanding is formed.The upper end of bonnet joint portion 47 is open with above-below direction.Bonnet joint portion 47 comprises: the first protuberance 47A, and it gives prominence in left plate portion 43, right panel portion 44 and lower board unit 45 orthogonal; Second protuberance 47B, it rearward gives prominence to from the first protuberance 47A orthogonal.Air is discharged body 40 and is formed the joint portion, top 48 combined with front panel 26 by the upper inclined portion 46A of front space portion S2.Joint portion, top 48 is combined with front panel 26 phase suspension hook or is combined by the secure component of bolt etc.Air is discharged body 40 and is formed the joint portion, bottom 49 combined with base 22 by the lower inclined portion 46D of front space portion S2.Joint portion, bottom 49 is combined with base 22 phase suspension hook or is combined by the secure component of bolt etc.

The casing that bonnet 100 is opened by front is formed.Rear decorative panel 110, front trim panel 120 and optical facilities 130 are arranged on bonnet 100, thus are protected by bonnet 100.Bonnet 100 is connected to by the secure component of the suspension unit of suspension hook etc. or bolt etc. the rear end that air discharges body 40.Left side edge portion 101 in the edge part 101,102,103,104 of bonnet 100, right edge edge 102 and lower side edge 103 are close to mutually with the bonnet joint portion 47 that air discharges body 40.In left side edge portion 101, right edge edge 102 and lower side edge 103, at least one can combine with the bonnet joint portion 47 that air discharges body 40.In left side edge portion 101, right edge edge 102 and lower side edge 103, at least one blackwall hitch is combined in bonnet joint portion 47 and carries out installing or being installed by the secure component of bolt etc.With regard to bonnet 100, upper side edge edge 104 can hide and be formed in the upper end that air discharges the bonnet joint portion 47 of body 40.

Rear decorative panel 110 inserts setting to the inner side of bonnet 100.Rear decorative panel 110 is made up of reflecting plate, and this reflecting plate makes the light irradiated from optical facilities 130 reflect to front trim panel 120.Preferably, rear decorative panel 110 has reflectivity, and this reflectivity can make the light irradiated from optical facilities 130 reflex to front trim panel 120.Rear decorative panel 110 plays the effect of back reflection plate, and this back reflection plate is from the rear position of front trim panel 120 to front trim panel 120 reverberation.Rear decorative panel 110 can according to the transparency of front trim panel 120, and visual by front trim panel 120.Rear decorative panel 110 forms ornamental portion at front surface.Ornamental portion applies at least one side in the front surface and rear surface being formed or print and be formed in rear decorative panel 110.

Front trim panel 120 can form the front surface of decorative panel 50, and can cover the rear surface 52 that air discharges body 40.Preferably, front trim panel 120 is formed as larger than the rear surface 42 of air discharge body 40.Front trim panel 120 can be visual by spatial portion S.Front trim panel 120 can be visual by spatial portion S, improves the decorative beauty of air regulator.The air flowing to spatial portion S is covered by front trim panel 120, blocks air and flows into optical facilities 130.Front trim panel 120 and rear decorative panel 110 together insert to the inner side of bonnet 100 and arrange.Front trim panel 120 is set to form space S 3 between rear decorative panel 110.Front trim panel 120 can be the material of transmitted light.The transmittance plate of the light that front trim panel 120 is irradiated in optical facilities 130 by transmissive is formed.The ornamental portion of light-transmissive is formed in front trim panel 120.Ornamental portion can apply formed or front surface that printing is formed in front trim panel 120 with below at least one side.Can arrange decorative element between front trim panel 120 and rear decorative panel 110, this decorative element becomes glittering by the light irradiated in optical facilities 130.

The rear of spatial portion S is positioned in the position of optical facilities 130 between rear decorative panel 110 and front trim panel 120, thus can to spatial portion S direct irradiation light.Optical facilities 130 are arranged in the position between rear decorative panel 110 and front trim panel 120 position be positioned at except the rear position of spatial portion S, thus can to indirect irradiation light between front trim panel 120 and rear decorative panel 110.Optical facilities 130 are snugly arranged by front trim panel 120.The position of decorative panel 50 between front trim panel 120 and rear decorative panel 110, the decorative element that must become clear by the light display of irradiating from optical facilities 130 can be set, if optical facilities 130 irradiate light to decorative element, then decorative element by light become glittering while can improve the decorative beauty of air regulator, and the superior of air regulator can be realized.Optical facilities 130 comprise light emitting diode or various lamp, and are lengthways formed with left and right directions.With regard to optical facilities 130, when air flow ports 18 is formed in air discharge body 40 top, be then positioned at the bottom of decorative panel 50, when air flow ports 18 is formed in air discharge body 40 bottom, be then positioned at the top of decorative panel 50.With regard to optical facilities 130, when air flow ports 18 is formed in the top of air discharge body 40, then can be arranged between the bottom of front trim panel 120 and the bottom of rear decorative panel 110.Optical facilities 130 are arranged on the rear of bonnet joint portion 47.

Below, be described as follows to the effect of the present embodiment formed as mentioned above.

First, when operating vertical air adjuster, blowing unit 28 can drive, and the air that blowing unit 28 sucks rear blows to spatial portion panel 20.

When driving blowing unit 28, indoor air is drawn into the inside of housing 10 via air suction inlet 2, and is undertaken heating or cooling by heat exchange unit 12 while housing 10 inside is via heat exchange unit 12.After the air carrying out heat exchange with heat exchange unit 12 flow into blowing unit 28, the direction, upper and lower, left and right to blowing unit 28 blows, and the air blowed by blowing unit 28 between front panel 26 and orifice plate 34 to lower side to guiding.

Air flow ports 18 towards the lower side of blowing unit 28 to the air guided via spatial portion panel 20, spatial portion to spatial portion panel 20 is discharged guide portion 60 and is moved, after this via the front surface 16 of spatial portion S, the forward direction to spatial portion panel 20 is discharged.

The spatial portion of vertical air adjuster is discharged guide portion 60 and is rotated highlightedly to spatial portion S from housing 10 inner side, and can receive to spatial portion S leaked-in air the guiding that spatial portion discharges guide portion 60 by air flow ports 18.Receive the air that spatial portion discharges the guiding of guide portion 60, its flow direction not towards the bottom surface of spatial portion S or the rear surface of spatial portion S, and flows to the forward direction of spatial portion S.When operating vertical air adjuster as above, decoration panel 50 can be identified in outside by spatial portion S, and can improve decorative beauty.If decorative panel 50 seems bright, user then can identify currently whether discharge air by spatial portion S.

Fig. 7 be vertical air adjuster second embodiment of the present invention stereogram, Fig. 8 is the front view of vertical air adjuster second embodiment of the present invention, and Fig. 9 is the skiagraph of vertical air adjuster second embodiment of the present invention.

Opening portion 8 and the air outlet 9 of the vertical air adjuster of the present embodiment are together formed in housing 10, due to other structures except air outlet 9 of housing 10 and effect identical with one embodiment of the invention or similar, thus use same reference numerals detailed.

Air outlet 9 can become the upside air outlet on the top being formed in housing 10, and housing 10 forms air outlet 9 on top, and the part meanwhile between the upper end 4 and lower end 6 of front part forms opening portion 8.With regard to air outlet 9, higher from the aspect ratio opening portion 8 of the lower end of vertical air adjuster.

Housing 10 comprises base 22, suction panel 24 ' and front panel 26 '.

The top of suction panel 24 ' is open, and other structures except top is open are formed identically with the suction panel 24 of first embodiment of the invention.

The top of front panel 26 ' is open, and other structures except top is open are formed identically with the front panel 26 of first embodiment of the invention.

As described in the first embodiment of the present invention, housing 10 also comprises upper cap 36, front lower lid 37, left cap 38 and right cap 39.

Housing 10 comprises upside deliverying unit 80, and on the upside of this, deliverying unit 80 guides and carries out the air of discharging by air outlet 9, and positioningly can be arranged on the upside of housing 10 or be configured in the top of housing 10 up and down.With regard to upside deliverying unit 80, bottom surface 82 is open, and to make the air being blown into air outlet 9 flow into, front 84 is open, forwards discharges to make air.The air being blown into air outlet 9 from the inside of housing 10, is discharged to the front of upside deliverying unit 80 to after upside deliverying unit 80 flows into by the front surface 84 of upside deliverying unit 80 by the bottom surface 82 of upside deliverying unit 80.With regard to upside deliverying unit 80, when being configured in the top of housing 10 up and down, the lifting guide portion 86 of the lifting guiding upside deliverying unit 80 can be set on the top of housing 10.When upside deliverying unit 80 inserts inside lifting guide portion 92, front surface 84 is lifting while guide portion 86 is covered can cover air outlet 9.When upside deliverying unit 80 rises to the upper side position of lifting guide portion 86, can open air outlet 9 while front surface 84 externally exposes.Upside deliverying unit 80 comprises: slide plate 88 is discharged in upside, and it regulates the wind direction of the air of being discharged by upside deliverying unit 80; Slide plate motor (not shown) is discharged in upside, and it rotates upside and discharges slide plate 88.

The vertical air adjuster of the present embodiment comprises blowing unit 28 ', and the air intake of indoor to air suction inlet 2, makes its backward air outlet 9 via heat exchange unit 12 and spatial portion panel 20 blow respectively by this blowing unit 28 '.

As described in the first embodiment of the present invention, blowing unit 28 ' comprises motor 30, turbofan 32 and orifice plate 34, make from turbofan 32 be blown into downside air flow into spatial portion panel 20 after discharge, and make from turbofan 32 be blown on the upside of air discharged by air outlet 9.

Blowing unit 28 ' comprising: upper motor 30 ', and it is arranged on the top of front panel 26 '; Top turbofan 32 ', it is arranged on upper motor 30 '; Lower motor 30 ", it is arranged on the bottom of front panel 26 '; Bottom turbofan 32 ", it is arranged on lower motor 30 "; Orifice plate 34 ', it is arranged on the front of heat exchange unit 12, makes the air via heat exchange unit 12 to top turbofan 32 ' and bottom turbofan 32 " guide.

Can form air guiding portion 29 at front panel 26 ', this air guiding portion 29 is for dividing stream and the bottom turbofan 32 of top turbofan 32 ' " stream.

Can form upper hole 34a and bottom hole 34b at orifice plate 34 ', above-mentioned upper hole 34a guides the air being drawn into top turbofan 32 ', and above-mentioned bottom hole 34b guides and is drawn into bottom turbofan 32 " air.

During the vertical air adjuster of running the present embodiment, can drive blowing unit 28 ', blowing unit 28 ', by sucking the air at rear, blows to air outlet 9 and spatial portion panel 20.

As described in the first embodiment of the present invention, indoor air is drawn into blowing unit 28 ' via after air suction inlet 2 and heat exchange unit 12 successively, and come up and down by blowing unit 28 ', left and right direction blows, the air blowed at blowing unit 28 ' between front panel 26 ' and orifice plate 34 ' upwards side to lower side to guiding.Upwards blowed to the air blowed by the upside direction of air outlet 9 to housing 10 side from blowing unit 28 ', and from blowing unit 28 ' to lower side to the air blowed, as described in the first embodiment of the present invention, via air flow ports 18, blow to spatial portion panel 20.

As described in the first embodiment of the present invention, the air blowed to spatial portion panel 20 is discharged to the forward direction of spatial portion panel 20 by the front surface 16 of spatial portion S, because detailed description thereof is identical with first embodiment of the invention or similar, thus omits.

Upwards discharge to the top of the air blowed via the backward housing 10 of air outlet 9 side from blowing unit 28 '.

Be discharged to the air on the top of housing 10 by air outlet 9, with the air of being discharged by spatial portion panel 20, retain predetermined height difference and come to indoor discharge, vertical air adjuster can retain upper-lower height difference to form multiple discharge air-flow.

On the other hand, the air on the top of housing 10 is discharged to by air outlet 9, via while upside deliverying unit 80, its flow direction is converted to front, and is discharged to the front of upside deliverying unit 80 while the top of the upper end 4 of housing 10 is discharged by the front surface 84 of upside deliverying unit 80.

Figure 10 is the stereogram of vertical air adjuster the 3rd embodiment of the present invention, Figure 11 is the front view of vertical air adjuster the 3rd embodiment of the present invention, Figure 12 is the skiagraph of vertical air adjuster the 3rd embodiment of the present invention, and Figure 13 is the cross-sectional view of vertical air adjuster the 3rd embodiment of the present invention.

With regard to the vertical air adjuster of the present embodiment, opening portion 8 and air outlet 9 can together be formed in housing 10, due to other structures except air outlet 9 of housing 10 and effect identical with first embodiment of the invention or similar, thus use same reference numerals omit detailed description thereof.

Air outlet 9 can become air outlet 9a, 9b of left side and the right side being respectively formed at housing 10, housing 10 forms air outlet 9a, 9b respectively in left side and right side, and the part meanwhile between the upper end 4 and lower end 6 of front part forms opening portion 8.

, the air outlet of the left side being formed in housing 10 is called left side air outlet 9a below, the air outlet of the right side being formed in housing 10 is called right hand side air outlet 9b.

Because housing 10 is except forming left side, other structures beyond right hand side air outlet 9a, 9b and effect identical with first embodiment of the invention or similar, thus use same reference numerals omit detailed description thereof.

With regard to left side air outlet 9a and right hand side air outlet 9b, higher from the lower end of the aspect ratio opening portion 8 of the lower end of vertical air adjuster.

Housing 10 comprises base 22, suction panel 24 and front panel 26 ".

Front panel 26 " form left side air outlet 9a at left plate; form right hand side air outlet 9b at right plate, except formed left side air outlet 9a other structures except right hand side air outlet 9b can be identical with the front panel 26 of first embodiment of the invention form.

As described in the first embodiment of the present invention, housing 10 also comprises front upper lid 36 and front lower lid 37.

Housing 10 comprises: left cap 38 ', and it hides front panel 26 " left surface and the front part left surface of base 22, and be formed and front panel 26 " the left side air outlet that is communicated with of left side air outlet 9a; Right cap 39 ', it hides front panel 26 " right flank and the front part right flank of base 22, and be formed and front panel 26 " the left side air outlet that is communicated with of right hand side air outlet 9b.

The vertical air adjuster of the present embodiment comprises blowing unit 28 "; this blowing unit 28 " make indoor air intake to air suction inlet 2, make it blow respectively to left side air outlet 9a, right hand side air outlet 9b and spatial portion panel 20 via after heat exchange unit 12.

As described in the first embodiment of the present invention, blowing unit 28 " comprise motor 30, turbofan 32 and orifice plate 34; make to discharge after spatial portion panel 20 flows into from blow side the downwards air that send of turbofan 32; and make the air that blows to the left from turbofan 32 to the left air outlet 9a discharge, make the air that blows to the right from turbofan 32 to the right air outlet 9b discharge.

Blowing unit 28 " comprising: upper motor 30 ', it is arranged on front panel 26 " top; Top turbofan 32 ', it is arranged on upper motor 30 '; Lower motor 30 ", it is arranged on front panel 26 " bottom; Bottom turbofan 32 ", it is arranged on lower motor 30 "; Orifice plate 34 ', it is arranged on the front of heat exchange unit 12, and makes the air via heat exchange unit 12 to top turbofan 32 ' and bottom turbofan 32 " guide.

At front panel 26 " stream and bottom turbofan 32 that can divide top turbofan 32 ' can be formed " the air guiding portion 29 of stream.

Can form upper hole 34a and bottom hole 34b at orifice plate 34 ', above-mentioned upper hole 34a guides the air being drawn into top turbofan 32 ', and above-mentioned bottom hole 34b guides and is drawn into bottom turbofan 32 " air.

With regard to blowing unit 28 " with regard to, when rotating top turbofan 32 ', the air making to carry out heat exchange at heat exchange unit 12 to the left air outlet 9a and right hand side air outlet 9b blows.Pivot bottom turbofan 32 " time, air outlet 9a, right hand side air outlet 9b and spatial portion panel 20 blow to the left to make to carry out the air of heat exchange at heat exchange unit 12.

At front panel 26 " stream and bottom turbofan 32 that can divide top turbofan 32 ' can be formed " the air guiding portion 29 of stream.

Can form upper hole 34a and bottom hole 34b at orifice plate 34 ', above-mentioned upper hole 34a guides the air being drawn into top turbofan 32 ', and above-mentioned bottom hole 34b guides and is drawn into bottom turbofan 32 " air.

Vertical air adjuster comprises: slide plate 90 is discharged in left side, and it regulates the left and right wind direction of the air of being discharged by left side air outlet 9a, and slide plate 92 is discharged on right side, and it regulates the left and right wind direction of the air of being discharged by right hand side air outlet 9b.Slide plate 90 is discharged in left side and right side discharge slide plate 92 lengthways can be configured with above-below direction, and can be configured rotatably centered by vertical rotating shaft.Left side discharge slide plate 90 be rotatably configured in front panel 26 " left plate and left cap 38 ' in one.Right side discharge slide plate 92 be rotatably configured in front panel 26 " right plate and right cap 39 ' in one.At front panel 26 " left plate and left cap 38 ' in some can arrange make left side discharge slide plate 90 rotate left side discharge slide plate motor (not shown).At front panel 26 " left plate and left cap 38 ' in some can arrange make right side discharge slide plate 92 rotate right side discharge slide plate motor (not shown).

The H1 of width up and down of spatial portion panel 20 is less than the H2 of width up and down of air outlet 9a, 9b.The height H 3 of the lower end of spatial portion panel 20 is lower than the height H 4 of the lower end of air outlet 9a, 9b.The left and right width L1 of spatial portion panel 20 is wider than the front and back width L2 of air outlet 9a, 9b.During the vertical air adjuster of running the present embodiment, blowing unit 28 can be driven ", blowing unit 28 " suck the air at rear, blow to left and right side air outlet 9a, 9b and spatial portion panel 20.

As described in the first embodiment of the present invention, indoor air is successively via air suction inlet 2 and heat exchange unit 12, after this be drawn into blowing unit 28 "; and by blowing unit 28 " come up and down, left and right direction blows, the air blowed is at front panel 26 " and orifice plate 34 ' between to left and right direction and lower side to guiding.From blowing unit 28 " direction blows to the left air blowed to the left direction of housing 10 by left side air outlet 9a.From blowing unit 28 " direction blows to the right air blowed to the left direction of housing 10 by right hand side air outlet 9b.As described in the first embodiment of the present invention, from blowing unit 28 " blowed to spatial portion panel 20 by air flow ports 18 to lower side to the air blowed.

As described in the first embodiment of the present invention, the air blowed to spatial portion panel 20 is blowed by the front surface 16 of the spatial portion S forward direction to spatial portion panel 20, because detailed description thereof is identical with first embodiment of the invention or similar, thus omits.

Be discharged to the air in the left side of housing 10 by left side air outlet 9a and be discharged to the air on the right side of housing 10 by right hand side air outlet 9b, can with the air of being discharged to the forward direction of spatial portion panel 20 by spatial portion panel 20, discharge to different directions while carrying out down at various height discharging, vertical air adjuster can regulate room air effectively.

Figure 14 is the skiagraph of vertical air adjuster the 4th embodiment of the present invention.

As described in first embodiment of the invention to the 3rd embodiment, the vertical air adjuster of the present embodiment comprises spatial portion panel 20, spatial portion panel 20 does not comprise the decoration panel as described in first embodiment of the invention to the 3rd embodiment, and only includes air discharge body 40 ".

Discharge with regard to body 40 ' with regard to air, front 16 is open, and the upper surface of discharging body 40 ' at air is formed with air flow ports 18, and air is discharged the left surface of body 40 ', right flank, lower surface and rear surface 42 ' and covered.

Figure 15 is the skiagraph of vertical air adjuster the 5th embodiment of the present invention.

As described in first embodiment of the invention to the 3rd embodiment, the vertical air adjuster of the present embodiment comprises spatial portion panel 20, and spatial portion panel 20 comprises air and discharges body 40 ' and decoration panel 50 '.

Discharge with regard to body 40 ' with regard to air, front 16 is open, and the upper surface of discharging body 40 ' at air is formed with air flow ports 18, and air is discharged the left surface of body 40 ', right flank, lower surface and rear surface 42 ' and covered.

Decoration panel 50 ' is arranged on the inside that air discharges body 40 '.

As described in first embodiment of the invention to the 3rd embodiment, decoration panel 50 ' comprising: rear decorative panel 110, front trim panel 120, and it is positioned at the front of rear decorative panel 110, and optical facilities 130, it is for irradiating light between decorative panel 110 and front trim panel 120 backward; Rear decorative panel 110 can be positioned at the rear surface 42 ' that air discharges body 40 '.With regard to decorative panel 50 ', bonnet 110 as described in the first embodiment of the present invention can together be arranged on air with rear decorative panel 110, front trim panel 120 and optical facilities 130 and discharge body 40 '.With regard to decorative panel 50 ', when not having bonnet 130 of first embodiment of the invention, rear decorative panel 110, front trim panel 120 and optical facilities 130 can be arranged on the inside that air discharges body 40 '.

Claims (20)

1. a vertical air adjuster, comprising:

Housing, it is formed with air suction inlet, and the part between the top and bottom of the front part of this housing is formed with opening portion,

Heat exchange unit, it is configured in the inside of described housing;

The feature of above-mentioned vertical air adjuster is, comprise spatial portion panel, above-mentioned spatial portion panel configuration is in described opening portion, be recessed to form front to open and the spatial portion of hollow, and be formed with the air flow ports for making the air carrying out heat exchange with described heat exchange unit flow to described spatial portion.

2. a vertical air adjuster, comprising:

Housing, it is formed with air suction inlet and air outlet, and the part between the top and bottom of the front part of this housing is formed with opening portion,

Heat exchange unit, it is configured in the inside of described housing;

The feature of above-mentioned vertical air adjuster is, comprise spatial portion panel, above-mentioned spatial portion panel configuration is in described opening portion, be recessed to form front to open and the spatial portion of hollow, and be formed with the air flow ports for making the air carrying out heat exchange with described heat exchange unit flow to described spatial portion.

3. a vertical air adjuster, comprising:

Housing, it is formed with air suction inlet, and be formed with upside air outlet on the top of this housing, the part between the top and bottom of the front part of this housing is formed with opening portion,

Heat exchange unit, it is configured in the inside of described housing;

The feature of above-mentioned vertical air adjuster is, comprise spatial portion panel, above-mentioned spatial portion panel configuration is in described opening portion, be recessed to form front to open and the spatial portion of hollow, and be formed with the air flow ports for making the air carrying out heat exchange with described heat exchange unit flow to described spatial portion.

4. a vertical air adjuster, comprising:

Housing, it is formed with air suction inlet, is formed with air outlet respectively in the left side of this housing and right side, and the part between the top and bottom of the front part of this housing is formed with opening portion,

Heat exchange unit, it is configured in the inside of described housing;

The feature of above-mentioned vertical air adjuster is, comprise spatial portion panel, above-mentioned spatial portion panel configuration is in described opening portion, be recessed to form front to open and the spatial portion of hollow, and be formed with the air flow ports for making the air carrying out heat exchange with described heat exchange unit flow to described spatial portion.

5. vertical air adjuster according to claim 4, is characterized in that, the width up and down of described spatial portion panel is less than the width up and down of described air outlet.

6. vertical air adjuster according to claim 4, is characterized in that, described in the aspect ratio of the lower end of described spatial portion panel, the height of the lower end of air outlet is lower.

7. vertical air adjuster according to claim 4, is characterized in that, the left and right width of described spatial portion panel is wider than the front and back width of described air outlet.

8. vertical air adjuster according to any one of claim 1 to 7; it is characterized in that; comprise spatial portion and discharge guide portion; this spatial portion is discharged guide portion and is given prominence to towards described spatial portion in the inside of described housing; be subject to the protection of described spatial portion panel, for guiding the discharge of the air via described air flow ports flowing.

9. vertical air adjuster according to claim 8, is characterized in that, the pivot of described spatial portion discharge guide portion is positioned at the outside of described spatial portion.

10. vertical air adjuster according to claim 9, it is characterized in that, comprise rotating mechanism, this rotating mechanism is used for making described spatial portion discharge guide portion and rotates highlightedly to described spatial portion, and described spatial portion discharge guide portion is rotated with the inside of not outstanding to described spatial portion mode to described housing.

11. vertical air adjusters according to any one of claim 1 to 7, it is characterized in that, described spatial portion panel also comprises air and discharges body, the front that this air discharges body is open, a part of discharging the periphery of body at this air is formed with described air flow ports, and the inner side of discharging body at this air is formed with described spatial portion.

12. vertical air adjusters according to claim 11, is characterized in that, described spatial portion panel also comprises the decoration panel can seen by described spatial portion.

13. vertical air adjusters according to claim 12, is characterized in that,

The upper surface that described air discharges body is formed with described air flow ports, and described air is discharged the left surface of body, right flank and lower surface and covered then surface open;

Described decoration panel covers the rear surface that described air discharges body.

14. vertical air adjusters according to claim 13, it is characterized in that, described decoration panel comprises:

Bonnet, it is combined in described air and discharges body,

Rear decorative panel, it is arranged on described bonnet,

Front trim panel, it is positioned at the front of described rear decorative panel, and

Optical facilities, it is arranged on described bonnet, for irradiating light between described rear decorative panel and front trim panel;

Described front trim panel covers the rear surface that described air discharges body, and can be seen by described spatial portion.

15. vertical air adjusters according to claim 14, is characterized in that, start described optical facilities when air is discharged in the front of being discharged body by described air.

16. vertical air adjusters according to claim 14, it is characterized in that, described optical facilities are arranged between the bottom of front trim panel and the bottom of rear decorative panel.

17. vertical air adjusters according to claim 11, is characterized in that, described air is discharged body and comprised:

Rear space portion, above this rear space portion, the opening along the vertical direction of above-mentioned air flow ports, is formed with space in the inside in this rear space portion;

Front space portion, it is formed obliquely the front of spatial portion in the rear, and is formed with the space larger than the space in described rear space portion.

18. vertical air adjusters according to claim 14, is characterized in that, discharge the rear end of body at described air, give prominence to and are formed with the bonnet joint portion combined with described bonnet;

Described optical facilities are arranged on the rear of described bonnet joint portion.

19. vertical air adjusters according to claim 12, is characterized in that,

The upper surface of discharging body at described air is formed with described air flow ports, and described air is discharged the left surface of body, right flank, lower surface and rear surface and covered;

Described decoration panel is arranged on the inside that described air discharges body.

20. vertical air adjusters according to claim 11, is characterized in that, the upper surface of discharging body at described air is formed with described air flow ports, and described air is discharged the left surface of body, right flank, lower surface and rear surface and covered.