CN104776494B - Air regulator - Google Patents
Air regulator Download PDFInfo
- Publication number
- CN104776494B CN104776494B CN201410161483.3A CN201410161483A CN104776494B CN 104776494 B CN104776494 B CN 104776494B CN 201410161483 A CN201410161483 A CN 201410161483A CN 104776494 B CN104776494 B CN 104776494B
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- Prior art keywords
- mentioned
- air
- grid
- manner
- grid component
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/082—Grilles, registers or guards
- F24F13/084—Grilles, registers or guards with mounting arrangements, e.g. snap fasteners for mounting to the wall or duct
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/89—Arrangement or mounting of control or safety devices
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/10—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/20—Casings or covers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2221/00—Details or features not otherwise provided for
- F24F2221/02—Details or features not otherwise provided for combined with lighting fixtures
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Air-Flow Control Members (AREA)
- Air Filters, Heat-Exchange Apparatuses, And Housings Of Air-Conditioning Units (AREA)
Abstract
The present invention relates to air regulators, including:Suction body is formed with air sucting;Front panel is combined with the front end of sucting, is formed with the opening portion of front and back opening in a manner of along growing up and down in the centre of above-mentioned front panel;Grid component, it is configured at above-mentioned opening portion in a manner of along growing up and down, to form air discharge portion between the inner side edge edge of above-mentioned opening portion, the action for rotating predetermined angular by front-rear direction centered on vertical axis using the left and right ends of above-mentioned grid component, to change the discharge direction for the conditioned air being discharged by above-mentioned air discharge portion;And rotating mechanism, for making grid component rotate.According to the present invention, direct wind is provided a user, and can balancedly adjust the adjusting of room air.
Description
Technical field
The present invention relates to a kind of air regulators, more particularly to the air regulator of conditioned air is discharged forwards.
Background technology
In general, air regulator is to suck air from air sucting, and changing temperature or humidity or cleannes
Later, by air discharge portion to interior discharge, and the device of suitable environment is changed into interior.
Can the front part of air regulator formed air discharge portion, can the inside of air regulator be arranged for changing
The temperature or humidity of air or the heat exchanger of cleannes have gone over equal air-conditioning units, and can be arranged for making air flow
Air-supply arrangement.
According to the shape of air discharge portion or opening direction or quantity, air regulator can form multiple air flow indoors.
Air regulator can be so that multiple air discharge portions be discharged in mutually different position to mutually different direction
The mode of air is formed, and air is discharged in a manner of three-dimensional.
Existing technical literature
KR 10-1234065B (on February 15th, 2013).
Invention content
The air regulator of the prior art is due to the mutually different of top forward direction, left direction and right direction
Air is discharged in three directions, thus has following problem, that is, the wide discharge area for being difficult to side forwards concentrates discharge empty
Gas, and can not deal adequately with and need to concentrate discharge forwards by the wide discharge area of the front side of air regulator
The demand of the user of the direct wind in front.
Also, the air regulator of the prior art is not only guided directly by the blade of left and right air discharge portion forwards
Wind, and there is the pop-up discharge unit selectively lifted on top, therefore, although the direct wind in above-mentioned front can be guided,
But this not only makes the mechanism of the side of air regulator become complicated, but also also needs to additional for making pop-up discharge unit lift
Space, thus with being related to becoming complicated problem.
The embodiment of air regulator of the present invention includes:Suction body is formed with air sucting;Front panel, and it is upper
The front end for stating suction body is combined, the rearward openings before the centre of above-mentioned front panel is formed in a manner of along growing up and down
Opening portion;Grid component is configured at above-mentioned opening portion, in the inner side edge with above-mentioned opening portion in a manner of along growing up and down
Air discharge portion is formed between edge, is rotated by front-rear direction centered on vertical axis using the left and right ends of above-mentioned grid component
The action of predetermined angular, to change the discharge direction for the conditioned air being discharged by above-mentioned air discharge portion;And rotating machine
Structure makes above-mentioned grid component rotate.
Here, above-mentioned grid component may include:Shielding portion, the inner side edge edge phase point of side edge section and above-mentioned opening portion
Every to form above-mentioned air discharge portion;And multiple grid portions, from the side edge section of above-mentioned shielding portion extend, have with it is upper
The corresponding shape of side edge section for stating shielding portion, is formed in above-mentioned air discharge portion, and multiple grill portions are not pre- to separate
The mode of set a distance is configured to multiple row.
Also, above-mentioned multiple grid portions may include:Grid is discharged in a pair of of curved shape, the song being located in above-mentioned air discharge portion
Line part is located at the upper and lower of above-mentioned grid portion in a manner of separation;And grid is discharged in a pair of of linear, is located at above-mentioned a pair
Curved shape is discharged between grid.
Also, above-mentioned multiple grid portions can be connected by multiple grid dowels, and above-mentioned multiple grid dowels are from upper
The side edge section of shielding portion is stated with radiated entend.
Also, above-mentioned rotating mechanism may include:The inside of above-mentioned suction body is fixed in driving motor portion;And driving force
Transfer part transmits the rotary force in above-mentioned driving motor portion to above-mentioned grid component.
Also, above-mentioned driving motor portion can be the stepper motor with vertical axis.
Also, the invention also includes:Air-supply arrangement is configured at the inside of above-mentioned suction body, for being carried to conditioned air
For front expulsion force;And internal fixation plate, it is configured between above-mentioned air-supply arrangement and above-mentioned front panel, in above-mentioned internal fixation plate shape
At there is inner air ventilation opening, inner air ventilation opening is passed through by the conditioned air that above-mentioned air-supply arrangement is discharged forwards.
Also, above-mentioned driving motor portion can be fixed on before above-mentioned internal fixation plate in a manner of with vertical axis.
Also, above-mentioned driving force transmitting portion may include:Pinion gear is mutually tied with the above-mentioned vertical axis with above-mentioned driving motor portion
The mode of conjunction rotates;And rack block, it is combined with the back side of above-mentioned shielding portion, is revolved in a manner of being meshed with above-mentioned pinion gear
Turn, to rotate above-mentioned shielding portion.
Also, above-mentioned rack may include:Block is formed with bolt fastening hole, with tight with the back side bolt of above-mentioned shielding portion
Gu;Axle envelope, is configured at the centre of above-mentioned block, and forms the rotary shaft of above-mentioned grid component;And rack, it is formed in above-mentioned piece
The lower end of body, and be meshed with above-mentioned pinion gear.
Also, above-mentioned rack can be formed in the position being meshed with above-mentioned pinion gear, with phase since above-mentioned axle envelope
The arc-shaped shape of mode of same radius.
Also, above-mentioned rack block can also include:Upper head plate supports the upper end of above-mentioned axle envelope, bottom plate to support above-mentioned axis
The lower end of envelope and bolt fastening plates connect the left-right parts of above-mentioned upper head plate and bottom plate, and in above-mentioned bolt fastening plates shape
At there is above-mentioned bolt fastening hole;The through portion penetrated through forwards, backwards is formed between above-mentioned axle envelope and above-mentioned bolt fastening plates.
Also, above-mentioned rack can be set to rack block setting slot with inserted mode, above-mentioned rack block setting slot by
The back side of above-mentioned shielding portion is absorbed in towards front and is formed, and above-mentioned shielding portion is in a manner of it can rotate by rotational supporting block branch
Support, above-mentioned rotational supporting block is configured at above-mentioned through portion in a manner of surrounding above-mentioned axle envelope, and is fixed on above-mentioned internal fixation plate.
Also, above-mentioned driving motor is securable to driving motor portion setting block, and block is arranged from above-mentioned in above-mentioned driving motor portion
Predetermined length is protruded before internal fixation plate, above-mentioned driving motor setting block is configured in a manner of a front end part up and down overlapping
Slot is set in above-mentioned rack block, so that above-mentioned rack is meshed with above-mentioned pinion gear.
Also, the upper side and lower side can be respectively provided with an above-mentioned rotating mechanism so that above-mentioned grid component at two simultaneously
Rotation.
The embodiment of air regulator of the present invention includes:Suction body is formed with air sucting;Front panel, and it is upper
The front end for stating suction body is combined, and opening portion is formed in a manner of along growing up and down in the centre of above-mentioned front panel;Air-supply
Device is configured between above-mentioned suction body and above-mentioned front panel, and includes being used for along the upper and lower multiple pressure fan for separating configuration
Generate the front expulsion force of conditioned air;Grid component is configured at above-mentioned opening portion in a manner of along growing up and down, makes by upper
The front expulsion force outward side edge dispersion for stating the conditioned air of air-supply arrangement generation, utilizes the left and right of above-mentioned grid component
Both ends are rotated the action of predetermined angular centered on vertical axis by front-rear direction, to change the discharge direction of conditioned air;With
And rotating mechanism, so that above-mentioned grid component is rotated.
Here, above-mentioned grid component may include:Shielding portion covers a part for above-mentioned opening portion, so that above-mentioned air-supply
The front expulsion force outward side edge dispersion for the conditioned air that device report generates;And multiple grid portions, it is formed in air
Discharge unit, above-mentioned air discharge portion is formed between above-mentioned outer gas edge part and the inner side edge edge of above-mentioned opening portion, also, is worked as
When above-mentioned grid component is rotated by above-mentioned rotating mechanism, what above-mentioned multiple grid portions changes were discharged by above-mentioned air discharge portion
The discharge direction of conditioned air.
Also, above-mentioned rotating mechanism makes above-mentioned multiple grid portions centered on the rotary shaft of above-mentioned shielding portion by front-rear direction
Rotate predetermined angular.
One embodiment of air regulator of the present invention includes:Suction body is formed with air sucting;Front panel, and it is above-mentioned
The front end of suction body is combined, and opening for front and back opening is formed in a manner of along growing up and down in the centre of above-mentioned front panel
Oral area;Grid component is configured at above-mentioned opening portion, in the inner side edge edge with above-mentioned opening portion in a manner of along growing up and down
Between form air discharge portion, rotated by front-rear direction centered on vertical axis using the left and right ends of above-mentioned grid component predetermined
The action of angle, to change the discharge direction for the conditioned air being discharged by above-mentioned air discharge portion;Internal fixation plate is configured at
The rear of above-mentioned grid component, above-mentioned grid component are rotatably fixed in front of above-mentioned internal fixation plate;And turn
Motivation structure makes the left and right ends portion of above-mentioned grid component with relative to prominent forwards before above-mentioned front panel or rearward insert
The mode entered rotates.
The present invention has the following effects that, that is, to the user positioned at the front of air regulator in a manner of uniform and is suitable
Conditioned air is carried out, so as to improve the perceptual qualities of user.
Also, the present invention has the following effects that, that is, even if can if not having left and right air discharge portion and pop-up discharge unit
The front discharge of the conditioned air provided from air-supply arrangement is equably discharged in the wide region of side upper and lower, left and right forwards
Power, so as to improve the air-conditioner efficiency of air conditioning area entirety.
Also, the present invention has the following effects that, that is, the feelings of discharge unit are formed with certain part only in top or lower part
Condition is compared, and not only the height of conditioned air discharging area is high, but also is discharged with by a long along longitudinal direction air discharge portion
The case where conditioned air, is compared, and the left and right width of conditioned air discharging area is wide, thus can ensure that height is high on the whole
And the conditioned air discharging area that left and right width is wide.
Also, the phenomenon that present invention has the following effects that, the conditioned air deviation specific direction that will be discharged to outside is most
Conditioned air is equably discharged so as to the wide region to the front of air regulator in smallization.
Description of the drawings
Fig. 1 is the stereogram for the air regulator for indicating one embodiment of the invention,
Fig. 2 is the front view of Fig. 1,
Fig. 3 is the exploded perspective view of Fig. 1,
Fig. 4 is the sectional view intercepted along the line A-A of Fig. 1,
Fig. 5 be indicate in the structure of fig. 1 grid component be fixed on by rotating mechanism internal fixation plate state classification
Stereogram,
Fig. 6 is the sectional view intercepted along the line B-B of Fig. 1,
Fig. 7 is the sectional view intercepted along the line C-C of Fig. 1,
Fig. 8 is the phantom for indicating the starting state of grid atmosphere illumination portion in the structure of fig. 1,
Fig. 9 a and Fig. 9 b are the work indicated when grid component rotates in the structure of fig. 1 between grid atmosphere illumination portion
The phantom of relationship.
Specific implementation mode
Hereinafter, the embodiment of the air regulator of the present invention is described in detail with reference to attached drawing.
Fig. 1 is the stereogram for the air regulator for indicating one embodiment of the invention, and Fig. 2 is the front view of Fig. 1, Fig. 3 Fig. 1
Exploded perspective view, Fig. 4 be along Fig. 1 line A-A intercept sectional view, Fig. 5 be indicate in the structure of fig. 1 grid component borrow
Rotating mechanism is helped to be fixed on the classification stereogram of the state of internal fixation plate, Fig. 6 is the sectional view intercepted along the line B-B of Fig. 1, figure
7 sectional view to be intercepted along the line C-C of Fig. 1, Fig. 8 are the starting state for indicating grid atmosphere illumination portion in the structure of fig. 1
Phantom, Fig. 9 a and Fig. 9 b be indicate in the structure of fig. 1 grid component rotate when grid atmosphere illumination portion between
Work relationship phantom.
As shown in Figure 1 to Figure 3, the air regulator 1 of one embodiment of the invention includes:Suction body 2 forms rear appearance,
Air sucting 3A, 3B is penetrated through at the back side of suction body 2 with front and back;And front panel 10, it is mutually tied with the front end of suction body 2
It closes.
11 opening portion 11 of opening portion that the centre of front panel 10 can form front and back opening constitutes the outer of air discharge portion 13
Side section edge, the air to carry out air-conditioning in the inside of suction body 2 formed in front of direct wind, and to aftermentioned grid component 40
Between be discharged.This detailed description will be carried out aftermentioned.
Suction body 2 is extended forwards by edge part 3 ', and forms scheduled inner space, in the inside of suction body 2
Space can configure air-conditioning unit 20 and air-supply arrangement 30, and above-mentioned air-conditioning unit 20 is for sucking room air, above-mentioned air-supply arrangement
30 provide mobilization force to air.
Air-conditioning unit 20 can change temperature, humidity or the cleaning of the room air by air sucting 3A, 3B sucking
Degree etc..Air-conditioning unit 20 can be heat exchange unit 21A, 21B of the temperature for changing the air sucked, or use
In clean unit 22A, 22B for filtering the foreign matter in sucked air.
Here, heat exchange unit 21A, 21B can be refrigerant can by and so that refrigerant and air is carried out heat exchange
Heat exchanger, heat exchange unit 21A, 21B may include at least one of heater and electrothermal module, if electric current flowing, add
Hot device then generates electricity and heats air, and above-mentioned electrothermal module has heat unit and endothermic section, and by heat unit heating air or by inhaling
Hot portion's cooling air.
Also, clean unit 22A, 22B may include at least one of filter, electrostatic (electric dust) precipitator and ion generator, empty
Gas filters foreign matter during by above-mentioned filter, and above-mentioned electrostatic (electric dust) precipitator traps the foreign matter in air for electrostatically, on
Ion generator is stated for generating ion in air.Hereinafter, air-conditioning unit 20 will be described in detail later.
On the other hand, air-supply arrangement 30 plays the air inhalation power to be formed and room air is made to be sucked to the inside of suction body 2
Effect, and play to be formed again to indoor discharge through air-conditioning unit 20 adjusting after conditioned air air expulsion force work
With.That is, carry out air-conditioning when air-supply arrangement 30 plays to start and generate the air-conditioning inhalation power towards the inside of suction body 2, and
After so that room air is passed through air-conditioning unit 20, to generating air expulsion force by the conditioned air of air-conditioning unit 20, to
Offer makes effect of the conditioned air again to the power of indoor discharge.
Preferably, air-supply arrangement 30 uses blowing fan, and said fan is according to the position of air sucting 3A, 3B and most
The position of the air discharge portion 13 of discharge conditioned air eventually, air loss is minimized.
In one embodiment of this invention, air sucting 3A, 3B perforation in front of the rear direction of suction body 2, air row
Go out portion 13 and movement to the straight front of blowing fan covered by aftermentioned shielding portion 41, thus preferably, air-supply arrangement 30 using by
The blowing fan that centrifugal fan is constituted.
On the other hand, as shown in Figure 1 to Figure 3, the air regulator 1 of one embodiment of the invention can also include:Grid group
Part 40 is configured at opening portion 11 in a manner of along growing up and down, to be formed between the inner side edge edge 11 ' of opening portion 11
The air discharge portion 13 stated rotates predetermined angle centered on vertical axis using the left and right ends of above-mentioned grid component by front-rear direction
The action of degree, to change the discharge direction for the conditioned air being discharged by air discharge portion 13;And rotating mechanism 100, make
Grid component 40 rotates.
Whole air discharge portion 13 can be in closed loop cross sectional shape, and air discharge portion 13 can be with along air regulator 1
The mode of length direction length is formed along length direction.Also, air discharge portion 13 can be formed in a manner of being opened by front-rear direction
In the front part of air regulator 1.Also, air discharge portion 13 can be in the trade shape grown along lower-upper length direction.Also,
Air discharge portion 13 can be in equably to concentrate the optimal of discharge air along the upper and lower, left and right in the front of air regulator 1
Shape.
As shown in Figures 3 and 4, grid component 40 may include:Shielding portion 41, the inner side edge of side edge section and opening portion 11
Edge 11 ' is mutually separated, to form air discharge portion 13;And multiple grid portions 43, there is the side edge section with shielding portion 41
41 ' corresponding shapes are extended to form from the side edge section 41 ' of above-mentioned shielding portion 41 in above-mentioned air discharge portion 13, multiple
Grill portion is not configured to multiple row in a manner of separating preset distance.
Shielding portion 41 is configured at the discharge direction of the conditioned air generated by air-supply arrangement 30, is adjusted for covering
Air is saved, and outward side edge 41 ' disperses conditioned air, to increase front expulsion force.
Multiple grid portions 43 function as follows, that is, concentrate discharge by shielding portion forwards by air discharge portion 13
The conditioned air of 41 dispersions changes the front discharge side of conditioned air when shielding portion 41 is rotated by rotating mechanism 100
To.
Other direction, air discharge portion 13 is in above-mentioned various shapes in the trade shape grown along lower-upper length direction
Premised on, air discharge portion 13 may include:Curved shape outlet R1, R2, curved shape are formed in air in a manner of separation
Above and below discharge unit 13;And linear outlet L1, L2, linear shape are formed in air discharge portion 13 in a manner of separation
Left-right parts, connect each curved shape outlet R1, R2.
Curved shape outlet R1, R2 and linear outlet L1, L2 can be formed in the same face of air regulator 1.Curve
Air can be discharged along generally parallel orientation in shape outlet R1, R2 and linear outlet L1, L2.Curved shape outlet
R1, R2 and linear outlet L1, L2 can be formed together before air regulator 1.
Air discharge portion 13 include at least a pair of curved shape outlet R1, R2 and at least a pair of linear outlet L1,
L2。
On the other hand, multiple grid portions 43 may include:Grid RG1, RG2 is discharged in a pair of of curved shape, is located at air discharge portion
As curved shape outlet R1, R2 of curved portion in 13, and distinguishes and be located at the upper and lower of grid portion 43 in spaced-apart manner;And
Grid LG1, LG2 is discharged in a pair of of linear, is located between above-mentioned a pair of of curved shape discharge grid RG1, RG2.
Linear discharge grid LG1, LG2 can be connected with curved shape discharge grid RG1, RG2 respectively, and by a grid
Portion is formed with unit trade shape.
Superposed curved shape discharge grid RG1, RG2 are referred to as upper curve shape discharge grid RG1, are located at lower part
Curved shape discharge grid RG1, RG2 are referred to as lower curve shape discharge grid RG2.
Also, it is made of multiple grid portions 43 as described above, grid RG1, RG2 is discharged in curved shape, in this case, with
The inner side edge edge 11 ' close to opening portion 11, the radius of curved shape discharge grid RG1, RG2 will gradually increase.
Linear discharge grid LG1, LG2 may include:Grid LG1 is discharged in left side linear, for connecting upper curve shape
The left side in the left side and lower curve shape discharge grid RG2 of grid RG1 is discharged;And grid LG2 is discharged in right side linear, is used for
Connect the right side on the right side and lower curve shape discharge grid RG2 of upper curve shape discharge grid RG1.Grid is discharged in linear
LG1, LG2 are also made of multiple grid portions 43, and in this case, multiple linear grid LG1, LG2 can be with along levels
The mutually separated mode in direction configures.
Air discharge portion 13 can be formed by a curved shape outlet R1 and a linear outlet L1, also can be by one
Curved shape outlet R1 and a pair of linear outlet L1, L2 are formed, and can be straight by a pair of of curved shape outlet R1, R2 and a pair
Linear outlet L1, L2 are formed.
In the case where air discharge portion 13 is formed by a curved shape outlet R1 and a linear outlet L1, one
A linear outlet L1 can be close with certain one end in one end and the other end of a linear outlet R1.One song
Linear outlet R1 can be formed in the top in the upper and lower part of air discharge portion 13, and linear outlet L2 can be with
It is formed along the mode that the length direction of air regulator 1 is grown.
It is a certain in the case that air discharge portion 13 is by a curved shape outlet R1 and a pair of of linear outlet L1, L2
A linear outlet L1 can be continuous with one end of a curved shape outlet R1, another linear outlet L2 can be with one
The other end of curved shape outlet R1 is continuous.One curved shape outlet R1 is accounted in the upper and lower part of air discharge portion 13
Portion, some linear outlet L1 can with since one end of a curved shape outlet R1 along air regulator 1
The mode of length direction length is formed, another linear outlet L2 can be to open from the other end of a curved shape outlet R1
The mode for beginning to grow along the length direction of air regulator 1 is formed.In this case, by a curved shape outlet R1 and one
Cross sectional shape to linear outlet L1, L2 air discharge portion 13 formed is in integrally " ∩ " shape.On the contrary, a curve
Shape outlet R1 can be in the upper and lower part lower parts Zhong Zhan of air discharge portion 13, some linear outlet L1 can be with from one
The mode that one end of a curved shape outlet R1 starts to grow along the length direction of air regulator 1 is formed, another linear
Outlet L2 can with since the other end of a curved shape outlet R1 along the length direction of air regulator 1 grow side
Formula is formed.In this case, it is discharged by the air that a curved shape outlet R1 and a pair of linear outlet L1, L2 are formed
The cross sectional shape in portion 13 can be in integrally " ∪ " shape.
In the feelings that air discharge portion 13 is formed by a pair of of curved shape outlet R1, R2 and a pair of linear outlet L1, L2
Under condition, a pair of of curved shape outlet R1, R2 can be separated to form.A pair of of curved shape outlet R1, R2 can be along air regulators 1
Length direction is mutually separated.A pair of of curved shape outlet R1, R2 can distinguish semicircular in shape.A pair of of curved shape outlet R1, R2 can be wrapped
Upper curve shape outlet R1 and lower curve shape outlet R2 are included, above-mentioned lower curve shape outlet R2 is along air discharge portion
13 length direction is mutually separated with upper curve shape outlet R1.Upper curve shape outlet R1 can be in the upper of air discharge portion 13
Portion and the lower part tops Zhong Zhan.Upper curve shape outlet R1 can be the curve shape protruded towards upside.Lower curve shape is arranged
Exporting R2 can be in the upper and lower part lower part Zhong Zhan of air discharge portion 13.Lower curve shape outlet R2 can be convex towards downside
The curve shape gone out.
A pair of of linear outlet L1, L2 can be located between a pair of of linear outlet R1, R2.Some linear is discharged
Mouth L1 can be continuous with each one end of a pair of of linear outlet R1, R2, another linear outlet L2 can be with a pair of of curve
Each other end of shape outlet R1, R2 are continuous.A pair of of linear outlet L1, L2 can be with along the length of air regulator 1
The mode of degree direction length is formed, in the case where air regulator 1 is formed in a manner of along longitudinally growing, a pair of of linear discharge
Mouth L1, L2 can be formed in a manner of along longitudinally growing respectively.A pair of of linear outlet L1, L2 may include:Left side linear row
L1 is exported, between the left side and the left side of lower curve shape outlet R2 of upper curve shape outlet R1;And right side is straight
Linear outlet L2, between the right side and the right side of lower curve shape outlet R2 of upper curve shape outlet R1.Left side
Linear outlet L1 and right side linear outlet L2 can be formed in air discharge portion in a manner of being grown along upper and lower directions
13 upper and lower part.One of the upper curve shape outlet R1 of air discharge portion 13 and a pair of of linear outlet L1, L2
Point can become cross sectional shape be " ∩ " shape upper nozzle 01, the lower curve shape outlet R2 of air discharge portion 13 and
The rest part of a pair of of linear outlet L1, L2 can become cross sectional shape and be the lower nozzle 02 of " ∪ " shape, and cut
Face shape, which is the upper nozzle 01 of " ∩ " shape and lower nozzle 02 that cross sectional shape is " ∪ " shape, to be arranged along air
The length direction for going out portion 13 is continuous.
Air discharge portion 13 can be located at the front part of air regulator 1, curved shape outlet R1, R2 and linear outlet
L1, L2 can be opened with front-rear direction respectively, pass through curved shape outlet R1, R2 and the air of linear outlet L1, L2 discharge
It can be discharged to the forward direction of air regulator 1.
Above-mentioned multiple grid portions 43 can be connected by multiple grid dowels 48, and above-mentioned grid dowel 48 is from shielding portion
41 side edge section 41 ' is with radiated entend.
It can be sent to outside discharge from air-supply arrangement 30 by the gap between each grid portion 43A, 43B in multiple grid portions 43
The air gone out.The air sent out from air-supply arrangement 30 draws when by each grid portion 43A, 43B by multiple grid portions 43
It leads, equably permutation and is discharged, without being biased to specific direction, the conditioned air sent out from air-supply arrangement 30 can be by multiple
43 permutation of grid portion and guiding, and the direction discharge guided to multiple grid portions 43.
As shown in figure 4, inner side edge edge 11 ' of multiple grid portions 43 closer to opening portion 11, than close to shielding portion 41
Side edge section 41 ', width P1, P2 to air discharge direction are longer.
Multiple grid portions 43 may include:Interior grid portion 43A ', 43B ', the opposite inner space accounted for close to suction body 2
Part, for guiding the conditioned air sent out from air-supply arrangement 30;And outer grid portion 43A ", 43B ", it is opposite to account for before
The part in square portion guides and is bent from interior grid portion 43A ', 43B ' and passes through sky by interior grid portion 43A ', 43B ' air guided
Gas discharge unit 13 is discharged.Interior grid portion 43A ', 43B ' and outer grid portion 43A ", 43B " are not general from what is clearly divided in shape
It reads, but can be understood as the formality concept divided by whether being located at the inside of air discharge portion 13 relatively.Therefore, interior
Grid portion 43A ', 43B ' and outer grid portion 43A ", 43B " in a manner of clearly being divided from physical direction without being understood.Multiple grids
The width of the air discharge direction in portion 43 can be respectively different, but may include above-mentioned interior grid portion 43A ', 43B ' and outer grid
Portion 43A ", 43B ".
Multiple grid portions 43 can be made of at least two or more than two grid portions, hereinafter, in the implementation of the present invention
In example, the mode for constituting multiple grid portions 43 by two grid portions 43A, 43B is illustrated.
That is, as shown in figure 4, multiple grid portions 43 may include the first grid portion 43A and the second grid portion 43B.
In multiple grid portions 43, the size and length of the first grid portion 43A may be relatively small, also, in multiple grids
In portion 43, the first grid portion 43A can be located adjacent to the side edge section 41 ' of shielding portion 41.
Second grid portion 43B can be in the shape for surrounding the first grid portion 43A.Second grid portion 43B and the first grid portion 43A
It compares, size and length can be relatively large, and are located adjacent to the inner side edge edge 11 ' of opening portion 11.
On the other hand, as shown in figure 4, shielding portion 41 is formed in outer lateral edge portion 41 in opening portion 11 in addition to covering
Except air discharge portion 13 between lateral edge portion 11 ', air-supply arrangement 30 is also covered, to prevent conditioned air to air-supply arrangement
30 straight front discharge.
In more detail, shielding portion 41 functions as follows, that is, air-supply arrangement 30 is covered in the straight front of air-supply arrangement 30,
To make the wind pressure of the inside of the air regulator 1 formed by air-supply arrangement 30 be uniformly dispersed to air discharge portion 13.
The part for aftermentioned rotating mechanism 100 to be arranged can be formed in a manner of recess at the back side of shielding portion 41
Slot 45A, 45B is arranged in the rack block of structure, and the operation for showing air regulator 1 can be formed before shielding portion 41
The display unit 47 of state.
In the front of shielding portion 41, the decoration of shape identical with the size of shielding portion 41 can be set in a covered manner
Component 49.Decorative element 49 is made by the injection molding plates of body color, and preferably, it is total to by acrylonitrile-butadiene-styrene (ABS)
Polymers (ABS) material is formed, to show the light of operation information using the character pattern or pictorial pattern that are irradiated from display unit 47
Preferably to outer transmissive.
Other direction, as shown in figure 4, the air regulator 1 of one embodiment of the invention may include that orifice plate 50, orifice plate 50 configure
It in the inside of suction body 2, and is configured in a manner of being close to air sucting 3A, 3B phase, for logical to the guiding of air-supply arrangement 30
Cross the air of air sucting 3A, 3B sucking.
In turn, hole through portion 53A, 53B being connected with air sucting 3A, 3B is formed in orifice plate 50.The present invention's
In one embodiment, suction body 2 is located on air sucting 3A, 3B and suction body 2 upper and lower is respectively set one premised on
In the case of, identical quantity will also be formed certainly by being formed in hole through portion 53A, 53B of orifice plate 50.
Orifice plate 50 is the structure that can play the role of improving hydrodynamics function, makes to inhale by air sucting 3A, 3B
The room air entered can participate in flowing by the air of air-supply arrangement 30 in the inside of suction body 2, without losing.
Orifice plate 50 can have scheduled thickness along the longitudinal direction, and shape portion 51, above-mentioned shape portion can be formed in orifice plate 50
51, to the internal structure for air regulator 1 to be arranged in the way to insert, are filled with preventing from being located at the air-supply in front of orifice plate 50
Set 30 and grid component 40 cause the whole front and back thickness of air regulator 1 to increase.
Shape portion 51 can be with grid component 40 in substantially being constituted with the front for the orifice plate 50 for removing front panel 10
The corresponding shape of shape is rearward recessed and is formed.
On the other hand, guide plate 70 can be set in the shape portion 51 of orifice plate 50, so that stream of the air in the inside of suction body 2
It is dynamic smooth.Guide plate 70 is the marginal portion for the shape portion 51 for covering orifice plate 50, and the flowing of air is made to become smoothly structure, because
And formed in a manner of being mutually close to the face of shape portion 51, along guide plate 70 front-rear direction formed completely through guide plate penetrate through
Portion 73.Guide plate 70 can be in closed loop cross sectional shape.
Substantially, the shape of the front end of guide plate 70 is in shape corresponding with opening portion 11, and to air discharge portion 13
Extend, to carry out face contact with the inner side edge edge 11 ' of the opening portion 11 of front panel 10.Therefore, if before guide plate 70 is set to
The opening portion 11 of panel 10, then substantially in one embodiment of this invention can be again by the side edge section 41 ' of shielding portion 41
Air discharge portion 13 is defined as between the front end of guide plate 70.
Guide plate 70 can be in closed loop cross sectional shape, and be in a manner of along growing up and down as the shape of air discharge portion 13
Trade shape.The medial surface of guide plate 70 forms the lateral surface of air discharge portion 13, plays for guiding what is be discharged to be conditioned sky
The effect of the discharge of gas.That is, the conditioned air being discharged by air discharge portion 13 is most of by above-mentioned grid component 40
Multiple grid portions 43 guide discharge direction, but the part in conditioned air can draw guide chamber by the medial surface of guide plate 70
Interior discharge.
On the other hand, as shown in figure 3, the air regulator 1 of one embodiment of the invention can also include being configured at air-supply dress
Set the internal fixation plate 60 between 30 and grid component 40.Internal fixation plate 60 is combined and is fixed in conjunction with protrusion 55A, 55B, above-mentioned knot
The respectively forwardly square up and down of hole through portion 53A, 53B that protrusion 55A, 55B is closed in orifice plate 50 protrudes.Internal fixation plate 60 greatly show with
The corresponding mode of size and shape of shielding portion 41 is formed.But the shape of internal fixation plate 60 is not particularly limited, and is providing use
It is all harmless using any shape under the limit of setting air-supply arrangement 30 and the mounting portion of grid component 40.
Internal fixation plate 60 plays the role of overleaf fixing air-supply arrangement 30, and plays in front in a manner of it can rotate
The effect of stationary grizzly component 40.
That is, at the back side of internal fixation plate 60 air supply motor setting unit 63A, 63B can be formed, air-supply arrangement 30 it is aftermentioned
Air supply motor 31 is set to above-mentioned air supply motor setting unit 63A, 63B.Substantially, internal fixation plate 60 provides the peace of air-supply arrangement 30
Dress portion.Air-supply arrangement 30 may include an air supply motor 31, and can be fixed on air supply motor setting unit by electric machine support 32
63A、63B.This air-supply arrangement 30 can be in spaced-apart manner at two setting up and down.But this is not limited to two, but
There can be more than two air-supply arrangements 30 according to the specification of the air quantity of required conditioned air and air regulator 1.
Grid component 40 by left and right ends centered on vertical axis by front-rear direction rotate predetermined angular in the way of be fixed on
Before internal fixation plate 60.Here, it is preferred that illustrated premised on the vertical axis of grid component 40 is formed in shielding portion 41, and
On be formed in shielding portion 41 in addition to being illustrated premised on the arbitrary middle section of upper end and lower end, in particular, being considered as will not
Make before and after air regulator 1 in overall thickness due to the stationary grizzly component 40 before the internal fixation plate 60 for being configured at rear
It rises.The detailed description part for the rotating mechanism 100 that will be described below to this detailed description illustrates.
Air-supply arrangement 30 can be sent out to curved shape outlet R1, R2 and linear outlet L1, L2 of air discharge portion 13
The air of air-conditioning has been carried out in air-conditioning unit 20.That is, air-supply arrangement 30 is to curved shape outlet R1, R2 and linear outlet
L1, L2 can send out and carry out the air of air-conditioning in air-conditioning unit 20.Air-supply arrangement 30 may include:Top blowing fan 30A, 33A,
Some R1 and a pair of linear outlet L1, L2 into a pair of of curved shape outlet R1, R2 send out air respectively;Under and
L1, L2 points of portion blowing fan 30B, 33B, another R2 into a pair of of curved shape outlet R1, R2 and a pair of of linear outlet
Air is not sent out.
Air-supply arrangement 30 may include:First air supply motor 31A, the opposite upper parts being set in the back side of internal fixation plate 30,
And top blowing fan 30A, 33A is made to rotate;And the second air supply motor 31B, it is set to opposite in the back side of internal fixation plate 60
Lower part, and lower part blowing fan 30B, 33B is made to rotate.
First air supply motor 31A can be set in such a way that axial rotary rear is outstanding using first motor bracket 32A
The first motor setting unit 63A of internal fixation plate 60.
Second air supply motor 31B can be set in such a way that axial rotary rear is outstanding using the second electric machine support 32B
Second motor setting unit 63B of internal fixation plate 60.
Top blowing fan 30A, 33A may be inhaled the air at rear, and along the circumferencial direction submitting as centrifugal direction.From
The air that top blowing fan 30A, 33A are circumferentially sent out can be to top curved shape outlet R1 and a pair of of linear discharge
Each top guiding of mouth L1, L2, air can be to certain in top curved shape outlet R1 and a pair of of linear outlet L1, L2
Three Regional Dispersions discharges such as the top of another L2 in the top of one L1 and a pair of of linear outlet L1, L2.When
When blowing fan 30A, 33A rotation of top, the air after the adjusting of air-conditioning unit 20 can be the upper of " ∩ " shape by cross sectional shape
Portion's outlet 01 is discharged, and is discharged in a manner of extensively being diffused to the wide region in front of the top of air regulator 1.On
Portion blowing fan 30A, 33A can send out empty towards the top of a pair of of linear grid portion LG1, LG2 and upper curve shape grid portion GR1
Gas.
Lower part blowing fan 30B, 33B may be inhaled the air at rear, and along the circumferencial direction submitting as centrifugal direction.From
The air that lower part blowing fan 30B, 33B are circumferentially sent out can be to lower part curved shape outlet R2 and a pair of of linear discharge
Each lower guide of mouth L1, L2, air can be to certain in lower part curved shape outlet R2 and a pair of of linear outlet L1, L2
Three Regional Dispersions discharges such as the lower part of another L2 in the lower part of one L1 and a pair of of linear outlet L1, L2.When
When blowing fan 30B, 33B rotation of lower part, the air after the adjusting of air-conditioning unit 20 can be under " ∪ " shape by cross sectional shape
Portion's outlet 02 is discharged, and is discharged in a manner of extensively being diffused to the wide region in front of the lower part of air regulator 1.Under
Portion blowing fan 30B, 33B can send out empty towards the lower part of a pair of of linear grid portion LG1, LG2 and lower curve shape grid portion GR1
Gas.
Suction body 2 may include sucking body shell 2 ', and air sucting 3A, 3B, Interior Space are formed in above-mentioned sucking body shell 2 '
Gas passes through air sucting 3A, 3B to be sucked to the inside of air regulator 1.Sucking body shell 2 ' can form receiving air-conditioning list
The space of heat exchanger 21A in member 20.Sucking body shell 2 ' can be in the box shaped that front opens, and heat exchanger 21A, 21B can positions
In the inside of sucking body shell 2 '.The inside of sucking body shell 2 ' can be combined with orifice plate 50, can sucking body shell 2 ' and orifice plate 50 it
Between configure heat exchanger.Sucking body shell 2 ' can form the appearance of the rear part of air regulator 1.Sky can be become by sucking body shell 2 '
The rear shell of gas adjuster 1.
Suction grid (not shown) is mountable to sucking body shell 2 ' or is removed from sucking body shell 2 '.Suction grid can be to set
It is placed in the intake panel of air sucting 3A, 3B, the extraneous air of air regulator 1 to the inside of air regulator 1 in order to suck
And pass through above-mentioned air sucting 3A, 3B.
Clean unit 22A, 22B are can configure in suction grid.Suction grid can be formed for dismount clean unit 22A,
The clean unit dismounting (not shown) portion of 22B.Suction grid can be formed in sucking body shell 2 ' with integral manner, and can suck
Body shell 2 ' forms the access unit that making unit 22A, 22B come in and go out.Suction grid can be separately set in sucking body shell 2 ', and be installed on
It sucks body shell 2 ' or is removed from sucking body shell 2 '.Single or multiple suction grids can be configured in air regulator 1.Suction grid
Mathematics can quantity identical with clean unit 22A, 22B, if also, clean unit 22A, 22B be it is multiple, suction grid also may be used
To be multiple.In the case where clean unit 22A, 22B include the first clean unit 22A and the second clean unit 22B, lattice are sucked
Grid can also include supplying the first suction grid and the second suction grid, and the first clean unit is configured in above-mentioned first suction grid
22A configures the second clean unit 22B in above-mentioned second purification grid.
Clean unit 22A, 22B can purify the sky flowed from external heat exchanger 21A, 21B of air regulator 1
Gas.Can single or multiple clean unit 22A, 22B be set in air regulator 1.With multiple air regulators 1 the case where
Under, clean unit 22A, 22B may include:First clean unit 22A is flowed for purifying to the inside upper part of air regulator 1
Air;And the second clean unit 22B, for purifying the air flowed to the lower inside of air regulator 1.First purification
The air purification mode of unit 22A and the second clean unit 22B can be identical or different.First clean unit 22A and second is net
Changing one in unit 22B can be made of the filter of the foreign matter in for filtering air, another is by being used to generate ion
Ion generator constitute.
In one embodiment of this invention, rotating mechanism 100 plays the role of for rotating grid component 40.In more detail
Ground, rotating mechanism 100 function as follows, that is, on the basis of before front panel 10, make grid component 40 with left and right ends portion
Mode that is prominent or being rearward inserted into rotates forwards.As described above, the left and right ends portion of grid component 40 is equivalent to multiple lattice
Grid portion 43A, 43B, multiple grid portion 43A, 43B are moved forwards or rearward from air discharge portion 13, are conditioned to change
The discharge direction of air.
Specifically, rotating mechanism 100 may include:The inside of suction body 2 is fixed in driving motor portion 110;And driving force
Transfer part transmits the rotary force in driving motor portion 110 to grid component 40.
In more detail, above-mentioned as shown in figure 5, driving motor portion setting block 115A, 115B are fixed in driving motor portion 110
Driving motor portion is arranged block 115A, 115B and protrudes predetermined length forwards before internal fixation plate 60.Here, driving motor portion
The motor housing that block 115A, 115B can be setting driving motor portion 110 is set.Block 115A, 115B is arranged in driving motor portion can
It is fixed in the way of fastening before internal fixation plate 60 by secure components such as bolts.At this point, the rotation in driving motor portion 110
Axis can be set to the setting of driving motor portion block 115A, 115B in a manner of forming scheduled vertical axis 117, and on axial rotary
Side extends.
Driving motor portion 110 can be the stepper motor with above-mentioned vertical axis 117.That is, driving motor portion 110 is by stepping
Motor is constituted, and above-mentioned stepper motor is vertical to control by the control unit (not shown) of the work for controlling driving motor portion 110
D-axis 117 is rotated in setting time by side or another side direction repeatedly.
Driving force transmitting portion may include:Pinion gear 121A, 121B is combined with the vertical axis 117 with driving motor portion 110
Mode rotate, pinion gear 121A, 121B peripheral surface formed pinion gear teeth;And rack block 124A, 124B, with shielding portion
41 back side is combined, and is rotated in a manner of being meshed with pinion gear 121A, 121B on one side, rotates shielding portion 41 on one side.
Rack block 124A, 124B may include:Block 125A, 125B are formed with the first bolt fastening hole, with tight by bolt
Gu at the back side of shielding portion 41;Axle envelope 128, is configured at the centre of block 125A, 125B, and forms the rotation of grid component 40
Axis;And rack, it is formed in the lower end of block 125A, 125B, and be meshed with pinion gear 121A, 121B.
At the back side of shielding portion 41, can accommodate rack block 124A, 124B gear eat stick setting slot 45A, 45B with to
The mode that front is absorbed in is formed.It being capable of fixed spiral shell even if the back side of shielding portion 41 is taken if being plane rack block 124A, 124B
Bolt fastening means, but preferably, the front and back overall thickness of air regulator 1 thickens in order to prevent, is set to and slot is arranged with rack block
45A, 45B are the same be absorbed in forwards made of part.
The first bolt fastener 123A, 123B penetrated through from the front of shielding portion 41 is anchored on the first bolt fastening hole,
Come stationary rack block 124A, 124B, first bolt fastening hole can be respectively formed at left and right sides of block 125A, 125B.
Rack is formed in the position being meshed with pinion gear 121A, 121B, and to there is same radius since axle envelope 128
The arc-shaped shape of mode, and the shape of the part in the peripheral surface for surrounding pinion gear 121A, 121B.
As shown in figure 5, rack block 124A, 124B can also include:Upper head plate is used to support the upper end of axle envelope 128;Lower end
Plate is used to support the lower end of axle envelope 128;And bolt fastening plates 127A, 127B, the first bolt fastening hole 126A of formation,
126B, the left-right parts of short slab and bottom plate in above-mentioned first bolt fastening hole 126A, 126B connection, and it is tight along front-rear direction
Gu the first bolt fastener 123A, 123B.
Here, the through portion 122A penetrated through before and after being formed between axle envelope 128 and bolt fastening plates 127A, 127B,
122B.That is, through portion 122A, 122B centered on intermediate axle envelope 128, be respectively formed in left and right bolt fastening plates 127A,
Between 127B.
Rack block 124A, 124B is configured at through portion 122A, 122B in a manner of surrounding axle envelope 128, and by being fixed on
Rotational supporting block 130A, 130B before internal fixation plate 60 is supported in a manner of it can rotate.
As shown in figure 5, the left and right ends portion of rotational supporting block 130A, 130B penetrates through through portion 122A, 122B respectively, and borrow
The second bolt fastener 135A, 135B is helped to be anchored on before internal fixation plate 60.In the left and right of rotational supporting block 130A, 130B
Both ends can be respectively formed the second bolt fastening hole 131A, 131B that the second bolt fastener 135A, 135B can penetrate through.
The middle section of rotational supporting block 130A, 130B can be formed supporting surface 137A with semicircular section,
137B, above-mentioned supporting surface 137A, 137B can be rotated simultaneously in a manner of surrounding the axle envelope 128 of rack block 124A, 124B from front
It is supported.
Formed in a manner of protruding predetermined length forwards before the internal fixation plate 60 rotational supporting block setting unit 133A,
133B, rotational supporting block 130A, 130B are anchored on rotational supporting block setting unit by the second bolt fastener 135A, 135B
133A、133B。
The setting state that the rotating mechanism 100 being made of this structure is explained in more detail is as follows.
First, as shown in figure 5, in the motor housing formed by driving motor portion setting block 115A, 115B with inserted mode
In the state of driving motor portion 110, driving motor portion setting block 115A, 115B are fixed on before internal fixation plate 60.
Then, in a manner of penetrating through through portion 122A, 122B of rack block 124A, 124B combine rotational supporting block 130A,
After the both ends of 130B, using the second bolt fastener 135A, 135B be anchored on rotational supporting block setting unit 133A,
133B, above-mentioned rotational supporting block setting unit 133A, 133B are formed in before internal fixation plate 60.At this point, making and driving motor portion
The pinion gear teeth for pinion gear 121A, 121B that 110 vertical axis 117 is combined and the rack for being formed in rack block 124A, 124B
129 rack tooth is meshed in a manner of matched.
Then, as rotating mechanism 100 makes grid component 40 be moved to the front of internal fixation plate 60, to keep the first bolt tight
Gu component 123A, 123B penetrate through shielding portion 41 from front, and are formed through in the bolt fastening plates of rack block 124A, 124B
The first bolt fastening hole 126A, 126B of 127A, 127B, to which rack block 124A, 124B to be fixed on to the back side of shielding portion 41.
At this point, the driving motor portion that the protrusion predetermined length before internal fixation plate 60 is fixed in driving motor portion 110 is set
Block 115A, 115B are set, driving motor portion is arranged block 115A, 115B and is configured at rack in a manner of a front end part up and down overlapping
Slot 45A, 45B is arranged in block, so that rack 129 is intermeshed with pinion gear 121A, 121B, even if thus having not by air conditioning
The advantages of overall thickness in the front-back direction of device 1 can be also arranged in the case of increasing to necessary thickness or more.
Rotating mechanism 100 may be provided in many places 100A, 100B between shielding portion 41 and internal fixation plate 60, the one of the present invention
It, can be in shielding portion 41 and internal fixation plate 60 in addition to the centre that is equivalent to upside of the rest part of upper end and lower end in embodiment
Part and the middle part for being equivalent to downside, which grade, is respectively set one at two.
On the other hand, the air regulator 1 of one embodiment of the invention can also include grid atmosphere illumination portion 200, above-mentioned
Scheduled light is irradiated in grid atmosphere illumination portion 200 to multiple grid portions 43.
Family identification air row is not used only by irradiating scheduled light to multiple grid portions 43 in grid atmosphere illumination portion 200
Go out the position in portion 13, but also user is made to easily observe the grid component 40 rotated by rotating mechanism 100 from outside
Swing rotary state, to which the work of air regulator 1 is converted to dynamic mode, and with the interior with air regulator 1
Other illuminate not actuated situation and compare, can be that user cause more high-grade light, therefore be able to carry out the sense for making user
Property quality improve function.
Also, grid atmosphere illumination portion 200 can be irradiated not according to the temperature for the conditioned air that air regulator 1 is discharged
With the light of color, thus other than the operation information of air regulator 1 is provided to user by display unit 47, also by multiple
The color in grid portion 43 provides the operation information of air regulator 1.
Grid atmosphere illumination portion 200 is arranged along the edge of internal fixation plate 60 with annular.For this purpose, by grid atmosphere illumination portion
The 200 illumination portion setting slots 210 for being inserted into and combining from front are formed in the edge of internal fixation plate 60 in an annular fashion.
Grid atmosphere illumination portion 200 may include:Slot 210 is arranged in illumination portion in light emitting diode (LED) shell 223
The corresponding shape of shape, and there is scheduled thickness;Printed circuit board (PCB) 221, is located at light-emitting diode housing 223
Inside;And multiple light emitting diodes 225, it is mutually tied with the one side of printed circuit board 221 in a manner of separating preset distance
It closes, for irradiating scheduled light.
Here, printed circuit board 221 can be the flexible print wiring (FPCB) that can be bound or be changed shape
221, light-emitting diode housing 223 can be the state that flexible printed wiring board 221 is set in multiple light emitting diodes 225
Under constituted by insert injection moulding crust flexible material moulding resin.
In the case that grid atmosphere illumination portion 200 is used by flexible material, due to that slot 210 can be arranged with illumination portion
Shape can independently be made in a manner of long from the beginning, and conveniently insert and be incorporated into illumination portion setting slot 210, thus
Have the advantages that without considering to assemble tolerance.
Although multiple light emitting diodes 225 can irradiate monochromatic light, as described above, also can be according to conditioned air
Temperature or the operational mode of air regulator 1 and a variety of light for irradiating different colours.
Illumination portion setting slot 210 can be formed in the edge of internal fixation plate 60, and with substantially " Contraband " word being open forwards
The direction of illumination in the section of shape, the light of multiple light emitting diodes 225 can be towards the shielding portion 41 with multiple grid portions 43
Lateral direction.Preferably, the outside shaded portions of illumination portion setting slot 210 are formed by the material for being at least transmissive to light, so that
It is irradiated from the light that multiple light emitting diodes 225 irradiate to the lateral direction of shielding portion 41.In one embodiment of this invention, although
Internal fixation plate 60 and illumination portion setting slot 210 are in one, and the overall material of internal fixation plate 60 is by being transmissive to the material shape of light
It is illustrated as premise, however, it is not limited to this.
Preferably, a part for the light to be irradiated by grid atmosphere illumination portion 200 designs in a manner of being at least transmissive to
Multiple grid portions 43.And preferably, multiple grid portions 43 are saturating from the light irradiated in grid atmosphere illumination portion 200 to a part
The acrylonitrile-butadiene-styrene copolymer material shape collected the light of transmitted part in the case of penetrating and spread to outside
At.
In more detail, as shown, the illumination portion that fixed internal fixation plate 60 is fixed in grid atmosphere illumination portion 200 is set
Set slot 210.Also, with the rotation of grid component 40, the both ends in multiple grid portions 43 are with the vertical axis of grid component 40
Benchmark is rotated by front-rear direction, and by this action, multiple grid portions 43 move.At this point, as described above, when more by what is moved
When a grid portion 43 is divided into the first grid portion 43A and the second grid portion 43B, the light irradiated from grid atmosphere illumination portion 200 is answered
It is projected at least part in each grid portion.
Therefore, grid atmosphere illumination portion 200 should be located at following position, that is, in multiple grid portions 43 by by rotating machine
When the action movement that structure 100 rotates, do not interfered by the unaccounted internal structure of adjacent grid portion or air discharge portion 13
Mode irradiation light position.
I.e. it is desired to which as described above, multiple grid portions 43 respectively include:Interior grid portion 43A ', 43B ' are opposite to be formed
In the inside of air discharge portion 13, and outer grid portion 43A ", 43B ", the opposite outside for being formed in air discharge portion 13;By
The inside grid portion 43A ' of light, 43B ' irradiation that grid atmosphere illumination portion 200 is irradiated, the direction of illumination of light is not by adjacent grid portion
The interference of 43A ', 43A ".
And, it is desirable to when multiple grid portions 43 are moved by grid component 40 with the action of rotation, no matter it is in
Which position is at least irradiated to the part projection grid atmosphere illumination portion 200 of the interior grid portion 43A ' in each grid portion, 43B '
Light.
Like this, if a part of projection light into each interior grid portion 43A ', the 43B ' in multiple grid portions 43, reason expands
Dissipate the characteristic in multiple grid portions 43 that acrylonitrile-butadiene-styrene copolymer material is formed and from outer grid portion (that is, air
The front side of adjuster) light is collected, and dissipated to outside, to which user can observe the light of grid atmosphere illumination portion 200.
For example, as shown in fig. 6, the interior grid portion of the first grid portion 43A adjacent with the outer edge portion of shielding portion 41
The front end of 43A ' is located at the deeper inside in front end than the interior grid portion 43B ' of the second grid portion 43B, on the contrary, the second grid portion
The front end of the interior grid portion 43B ' of 43B be located at can with multiple grid portions 43 move in a period of there is no by grid atmosphere shine
The depth that the mode for the part that the light that bright portion 200 is irradiated is interfered is transmitted to the interior grid portion 43A ' of the first grid portion 43A, so that
The light irradiated by grid atmosphere illumination portion 200 is to a certain fractional transmission.
In one embodiment of this invention, there is the first grid portion 43A and the second grid portion 43B etc. with multiple grid portions 43
It is illustrated premised on two grid portions, but can also grid portion 43 be constituted by three or more grid portions, in such case
Under, the relationship that the position of the front end in the interior grid portion in each grid portion is considered as grid atmosphere illumination portion 200 is set in an optimal manner
Meter.
Nevertheless, first function in multiple grid portions 43 is to change the conditioned air being discharged by air discharge portion 13
Discharge direction and the function that is smoothly discharged of guiding, therefore, when interior grid portion 43A, the 43B's for designing multiple grid portions 43
When the position of front end, the first function should be fully considered.
Hereinafter, effect present invention as described above is described as follows.
First, when air-supply arrangement 30 drives, the room air of the outside of air regulator 1 can pass through air sucting
3A, 3B are sucked to the inside of suction body 2.It is empty if top blowing fan 30A is rotated by the driving of the first air supply motor 31A
The room air of the outside of gas adjuster 1 can carry out sky by air sucting 3A, 3B, and by filter and heat exchanger
It adjusts.It is sucked by top blowing fan 30A by the air of filter and heat exchanger, and with by the predetermined of centrifugal direction air-supply
Expulsion force.It can be to a pair of of linear outlet L1, L2 in air discharge portion 13 by the top blowing fan 30A air sent out
Each top and upper curve shape outlet R1 guiding, and air can be arranged to top curved shape outlet R1 and a pair of of linear
Three, top and the top of another L2 in a pair of of linear outlet L1, L2 for exporting some L1 in L1, L2 etc.
Regional Dispersion is simultaneously discharged.
On the other hand, if lower part blowing fan 30B rotates, air regulator 1 by the driving of the second air supply motor 31B
The room air of outside can carry out air-conditioning by air sucting 3A, 3B, and by filter and heat exchanger.Passed through
The air of filter and heat exchanger is sucked by lower part blowing fan 30B, and with the scheduled expulsion force by centrifugal direction air-supply.It borrows
Help the air that lower part blowing fan 30B is sent out can be to each lower part of a pair of of linear outlet L1, L2 in air discharge portion 13
It is guided with lower curve shape outlet R2, air can be into lower part curved shape outlet R2 and a pair of of linear outlet L1, L2
Some L1 three Regional Dispersions in lower part and the lower part of another L2 in a pair of of linear outlet L1, L2 etc. side by side
Go out.
Air by top blowing fan 30A flowings and the air by lower part blowing fan 30B, 33B flowing are in air tune
The inside of section device 1 forms scheduled air-supply pressure, at this point, expulsion force can after by the dispersion of the shielding portion 41 of grid component 40,
The permutation by multiple grid portions 43 of grid component 40, and to indoor discharge, discharge direction is the front of air regulator 1
Front in the wide region in portion.
Also, grid component 40 is discharged by air-supply arrangement 30 in a manner of with scheduled expulsion force in conditioned air
In a period of, it rotates, is discharged to which the concentration of front part of air regulator 1 can not only be carried out, also by rotating mechanism 100
The front expulsion force that concentration is discharged can be made suitably to disperse to the front of air regulator 1, thus can not only realize Interior Space
Between balanced air conditioning, moreover it is possible to show multiple grid portions 43 by grid group to outside by grid atmosphere illumination portion 200
The movement that the rotational action of part 40 carries out, the final start feeling and top grade for realizing air regulator 1, and can with visual manner to
User shows the operation information of air regulator 1.
One embodiment of the air regulator of the present invention is described in detail above by reference to attached drawing.But the reality of the present invention
It applies example and is not limited to the above embodiments, but those of ordinary skill in the art can carry out a variety of changes through the invention
Shape and the implementation in equivalent range.Therefore, the real protection domain of the present invention by aftermentioned invention be claimed range and
It is fixed.
Claims (17)
1. a kind of air regulator, which is characterized in that including:
Suction body is formed with air sucting;
Front panel is combined with the front end of above-mentioned suction body, the centre of above-mentioned front panel by along up and down grow in a manner of shape
At the opening portion for thering are front and back to be open;
Grid component is configured at above-mentioned opening portion, in the inner side edge edge with above-mentioned opening portion in a manner of along growing up and down
Between formed air discharge portion rotated by front-rear direction centered on vertical axis using the left and right ends of above-mentioned grid component it is predetermined
The action of angle, to change the discharge direction for the conditioned air being discharged by above-mentioned air discharge portion;And
Rotating mechanism makes above-mentioned grid component rotate,
Above-mentioned grid component includes:
Shielding portion, side edge section and the inner side edge edge of above-mentioned opening portion are mutually separated, to form above-mentioned air discharge portion;And
Multiple grid portions have shape corresponding with the side edge section of above-mentioned shielding portion, from the outer side edges of above-mentioned shielding portion
Edge is extended to form in above-mentioned air discharge portion, and multiple grill portions are not configured to multiple row in a manner of separating preset distance,
And it is moved forwards or rearward from above-mentioned air discharge portion by rotating mechanism, thus changes the discharge side of conditioned air
To.
2. air regulator according to claim 1, which is characterized in that above-mentioned multiple grid portions include:
Grid is discharged in a pair of of curved shape, and the curved portion being located in above-mentioned air discharge portion is located at above-mentioned in a manner of separation
Above and below grid portion;And
Grid is discharged in a pair of of linear, is located between above-mentioned a pair of of curved shape discharge grid.
3. air regulator according to claim 2, which is characterized in that above-mentioned multiple grid portions are connected by multiple grids
Muscle is connected, and above-mentioned multiple grid dowels are from the side edge section of above-mentioned shielding portion with radiated entend.
4. air regulator according to claim 1, which is characterized in that above-mentioned rotating mechanism includes:
The inside of above-mentioned suction body is fixed in driving motor portion;And
Driving force transmitting portion transmits the rotary force in above-mentioned driving motor portion to above-mentioned grid component.
5. air regulator according to claim 4, which is characterized in that above-mentioned driving motor portion is the step with vertical axis
Stepper motor.
6. air regulator according to claim 4, which is characterized in that further include:
Air-supply arrangement is configured at the inside of above-mentioned suction body, for providing front expulsion force to conditioned air;And
Internal fixation plate is configured between above-mentioned air-supply arrangement and above-mentioned front panel, and inner air is formed in above-mentioned internal fixation plate
Ventilation opening passes through above-mentioned inner air ventilation opening by the conditioned air that above-mentioned air-supply arrangement is discharged forwards.
7. air regulator according to claim 6, which is characterized in that above-mentioned driving motor portion is with the side with vertical axis
Formula is fixed on before above-mentioned internal fixation plate.
8. air regulator according to claim 6, which is characterized in that above-mentioned driving force transmitting portion includes:
Pinion gear is rotated in a manner of being combined with the above-mentioned vertical axis in above-mentioned driving motor portion;And
Rack block is combined with the back side of above-mentioned shielding portion, is rotated in a manner of being meshed with above-mentioned pinion gear, above-mentioned to rotate
Shielding portion.
9. air regulator according to claim 8, which is characterized in that above-mentioned rack block includes:
Block is formed with bolt fastening hole, is fastened with the back side bolt with above-mentioned shielding portion;
Axle envelope, is configured at the centre of above-mentioned block, and forms the rotary shaft of above-mentioned grid component;And
Rack is formed in the lower end of above-mentioned block, and is meshed with above-mentioned pinion gear.
10. air regulator according to claim 9, which is characterized in that above-mentioned rack is formed in and above-mentioned pinion gear phase
The position of engagement, with the arc-shaped shape of the mode of radius having the same since above-mentioned axle envelope.
11. air regulator according to claim 9, which is characterized in that
Above-mentioned rack block further includes:
Upper head plate supports the upper end of above-mentioned axle envelope,
Bottom plate supports the lower end of above-mentioned axle envelope, and
Bolt fastening plates connect the left-right parts of above-mentioned upper head plate and bottom plate, and above-mentioned spiral shell is formed in above-mentioned bolt fastening plates
Bolt fastener hole;
The front and back through portion penetrated through is formed between above-mentioned axle envelope and above-mentioned bolt fastening plates.
12. air regulator according to claim 11, which is characterized in that
Above-mentioned rack is set to rack block with inserted mode and slot is arranged, and above-mentioned rack block setting slot passes through the back of the body in above-mentioned shielding portion
It is absorbed in and is formed facing towards front,
Above-mentioned shielding portion is supported in a manner of it can rotate by rotational supporting block, and above-mentioned rotational supporting block is to surround above-mentioned axle envelope
Mode is configured at above-mentioned through portion, and is fixed on above-mentioned internal fixation plate.
13. air regulator according to claim 12, which is characterized in that
Above-mentioned driving motor is fixed on driving motor portion setting block, and block is arranged before above-mentioned internal fixation plate in above-mentioned driving motor portion
Face protrudes predetermined length,
Above-mentioned driving motor setting block is configured at above-mentioned rack block in a manner of a front end part up and down overlapping and slot is arranged, so that
Above-mentioned rack is meshed with above-mentioned pinion gear.
14. air regulator according to any one of claim 1 to 13, which is characterized in that the upper side and lower side has respectively
There are one above-mentioned rotating mechanisms, so that above-mentioned grid component rotates simultaneously at two.
15. a kind of air regulator, which is characterized in that including:
Suction body is formed with air sucting;
Front panel is combined with the front end of above-mentioned suction body, the centre of above-mentioned front panel by along up and down grow in a manner of shape
At there is opening portion;
Air-supply arrangement is configured between above-mentioned suction body and above-mentioned front panel, and includes multiple the sending along upper and lower separation configuration
Wind turbine, the front expulsion force for generating conditioned air;
Grid component is configured at above-mentioned opening portion in a manner of along growing up and down, makes to be conditioned by what above-mentioned air-supply arrangement generated
The front expulsion force outward side edge of air disperses, before being pressed centered on vertical axis using the left and right ends of above-mentioned grid component
Rear direction rotates the action of predetermined angular, to change the discharge direction of conditioned air;And
Rotating mechanism makes above-mentioned grid component rotate,
Above-mentioned grid component includes:
Shielding portion covers a part for above-mentioned opening portion, so that the front row for the conditioned air that above-mentioned air-supply arrangement is generated
Output outward side edge disperses;And
Multiple grid portions, are formed in air discharge portion, and above-mentioned air discharge portion is formed in above-mentioned side edge section and above-mentioned opening
Between the inner side edge edge in portion, when above-mentioned grid component is rotated by above-mentioned rotating mechanism, from air discharge portion forwards or
It rearward moves, thus above-mentioned multiple grid portions change the discharge side for the conditioned air being discharged by above-mentioned air discharge portion
To.
16. air regulator according to claim 15, which is characterized in that above-mentioned rotating mechanism makes above-mentioned multiple grid portions
Centered on the rotary shaft of above-mentioned shielding portion predetermined angular is rotated by front-rear direction.
17. a kind of air regulator, which is characterized in that including:
Suction body is formed with air sucting;
Front panel is combined with the front end of above-mentioned suction body, the centre of above-mentioned front panel by along up and down grow in a manner of shape
At the opening portion for thering are front and back to be open;
Grid component is configured at above-mentioned opening portion, in the inner side edge edge with above-mentioned opening portion in a manner of along growing up and down
Between form air discharge portion, rotated by front-rear direction centered on vertical axis using the left and right ends of above-mentioned grid component predetermined
The action of angle, to change the discharge direction for the conditioned air being discharged by above-mentioned air discharge portion;
Internal fixation plate, is configured at the rear of above-mentioned grid component, and above-mentioned grid component is rotatably fixed on above-mentioned
The front of internal fixation plate;And
Rotating mechanism, make the left and right ends portion of above-mentioned grid component with relative to it is prominent forwards before above-mentioned front panel or to
The mode that rear is inserted into rotates,
Above-mentioned grid component includes:
Shielding portion, side edge section and the inner side edge edge of above-mentioned opening portion are mutually separated, to form above-mentioned air discharge portion;And
Multiple grid portions have shape corresponding with the side edge section of above-mentioned shielding portion, from the outer side edges of above-mentioned shielding portion
Edge is extended to form in above-mentioned air discharge portion, and multiple grill portions are not configured to multiple row in a manner of separating preset distance,
And it is moved forwards or rearward from above-mentioned air discharge portion by rotating mechanism, thus changes the discharge side of conditioned air
To.
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KR10-2014-0004176 | 2014-01-13 | ||
KR1020140004176A KR101399080B1 (en) | 2014-01-13 | 2014-01-13 | Air conditioner |
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CN104776494B true CN104776494B (en) | 2018-09-25 |
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KR101606045B1 (en) | 2015-01-13 | 2016-04-01 | 엘지전자 주식회사 | Air conditioner |
KR101633784B1 (en) * | 2015-01-13 | 2016-06-27 | 엘지전자 주식회사 | Air conditioner |
CN105135537B (en) * | 2015-10-14 | 2019-04-30 | 珠海格力电器股份有限公司 | Air conditioner indoor unit |
KR102492957B1 (en) * | 2015-12-02 | 2023-01-30 | 코웨이 주식회사 | Air cleaner |
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KR101234065B1 (en) | 2011-12-20 | 2013-02-15 | 엘지전자 주식회사 | An air conditioner |
KR101902886B1 (en) * | 2012-10-30 | 2018-10-01 | 엘지전자 주식회사 | An air conditioner |
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2014
- 2014-01-13 KR KR1020140004176A patent/KR101399080B1/en active IP Right Grant
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JPH11148672A (en) * | 1997-11-18 | 1999-06-02 | Matsushita Refrig Co Ltd | Air conditioner |
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CN104776494A (en) | 2015-07-15 |
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