CN104566894A - Air conditioner - Google Patents

Air conditioner Download PDF

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Publication number
CN104566894A
CN104566894A CN201410083642.2A CN201410083642A CN104566894A CN 104566894 A CN104566894 A CN 104566894A CN 201410083642 A CN201410083642 A CN 201410083642A CN 104566894 A CN104566894 A CN 104566894A
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CN
China
Prior art keywords
mentioned
discharge
air
discharges
row
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201410083642.2A
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Chinese (zh)
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CN104566894B (en
Inventor
陈元豪
李镕浩
车容德
李惠善
金柱想
河志昱
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LG Electronics Inc
Original Assignee
LG Electronics Inc
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Filing date
Publication date
Priority to KR1020130127367A priority Critical patent/KR20150047371A/en
Priority to KR10-2013-0127367 priority
Application filed by LG Electronics Inc filed Critical LG Electronics Inc
Publication of CN104566894A publication Critical patent/CN104566894A/en
Application granted granted Critical
Publication of CN104566894B publication Critical patent/CN104566894B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/08Air-flow control members, e.g. louvres, grilles, flaps or guide plates
    • F24F13/10Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0011Indoor units, e.g. fan coil units characterised by air outlets
    • F24F1/0014Indoor units, e.g. fan coil units characterised by air outlets having two or more outlet openings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0043Indoor units, e.g. fan coil units characterised by mounting arrangements
    • F24F1/005Indoor units, e.g. fan coil units characterised by mounting arrangements mounted on the floor; standing on the floor
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/50Control or safety arrangements characterised by user interfaces or communication
    • F24F11/52Indication arrangements, e.g. displays

Abstract

The invention provides an air conditioner, comprising: a first discharging body formed with a first inlet and a first outlet, an opening direction of the first inlet being different from that of the first outlet, the first discharging body rotating around a first rotational center axis; a second discharging body, formed with a second inlet and a second outlet, an opening direction of the second inlet being different from that of the second outlet, the second discharging body rotating around a second rotational center axis parallel to the first rotational center axis; a discharging body drive mechanism driving the first and the second discharging body to rotate independently. The air conditioner of the invention has the following advantages: regulated air is concentrated and discharged in a specific direction indoor, and air flows of two directions can be combined in more diverse ways so that a plurality of combinations can be selected.

Description

Air regulator
Technical field
The present invention relates to air regulator, particularly relate to the air regulator had for the discharge body to indoor discharge air.
Background technology
Usually, air regulator is following equipment, that is, in order to build more comfortable indoor environment to user, utilizing the kind of refrigeration cycle of the cold-producing medium formed by compressor, condenser, expansion mechanism, evaporimeter, freezing to indoor, heating or purifying air.
Air regulator can be provided with for the discharge body to indoor discharge air.
Discharge body can be configured in air regulator top in the mode of fixed position, the air regulated to indoor discharge with the state of fixed position.
In another example, discharge body can be configured in air regulator top in the mode that can carry out being elevated, at the air that the position of rising can regulate to indoor discharge, and keeping is carried out in the inner side that can drop to air regulator.
In addition, in an example again, discharging body can the mode of left rotation and right rotation can be configured in the top of air regulator, can carry out the periphery that spinning movement comes discharging body form the three-dimensional air-flow in left and right on the top of air regulator.
Summary of the invention
The present invention proposes in order to the problem solving above-mentioned prior art, its object is to provide a kind of and can select multiple three-dimensional air-flow and can expand the air regulator of the discharging area of air-flow.
In order to solve the problem, air regulator of the present invention comprises: first discharges body, air is inhaled into the first suction inlet of the first discharge body and is discharged by the first row outlet of discharging body from first after space, the opening direction of above-mentioned first suction inlet is different with the opening direction that above-mentioned first row exports, and this first discharge body rotates centered by the first rotary middle spindle; Second discharges body, air is inhaled into the second suction inlet of the second discharge body and is discharged by the second row outlet of discharging body from second after space, the opening direction of above-mentioned second suction inlet is different with the opening direction that second row exports, and this second discharge body rotates centered by the second rotary middle spindle parallel with above-mentioned first rotary middle spindle; Discharge ontology-driven mechanism, it makes above-mentioned first to discharge body and the second discharge body independently rotates.
Above-mentioned discharge ontology-driven mechanism can comprise: the first rotating mechanism, and it makes above-mentioned first to discharge body rotation; Second rotating mechanism, it makes above-mentioned second to discharge body rotation.
When being in above-mentioned first and discharging the air discharge mode of body, above-mentioned first rotating mechanism can make above-mentioned first to discharge body to rotate in the angle of discharging air from the left direction going out body to above-mentioned first row to be discharged the angle of air scope from body to above-mentioned first row to the right side forward direction going out.
When being in above-mentioned second and discharging the air discharge mode of body, above-mentioned second rotating mechanism can make above-mentioned second to discharge body to rotate in the angle of discharging air from the right direction going out body to above-mentioned second row to be discharged the angle of air scope from body to above-mentioned second row to the left side forward direction going out.
Above-mentioned first rotating mechanism and the second rotating mechanism can make above-mentioned first to discharge body and the second maximum anglec of rotation of discharging when body discharges air to be simultaneously less than above-mentioned first and to discharge body and second one of discharging in body and discharge maximum anglec of rotation when body discharges separately air.
The opening direction of the opening direction of above-mentioned first suction inlet and the outlet of above-mentioned first row can be perpendicular, the opening direction of the opening direction of above-mentioned second suction inlet and the outlet of above-mentioned second row can be perpendicular, and the opening direction of above-mentioned first suction inlet can be parallel with the opening direction of above-mentioned second suction inlet.
Above-mentioned first discharges body can comprise the hollow being formed with the outlet of above-mentioned first row, and the face contrary with above-mentioned first suction inlet of above-mentioned first discharge body is blocked; Above-mentioned second discharges body can comprise the hollow being formed with the outlet of above-mentioned second row, and the face contrary with above-mentioned second suction inlet of above-mentioned second discharge body is blocked.
Air regulator of the present invention also can comprise: suction panel, and it is for sucking air; Heat exchanger, it is for carrying out heat exchange with the air sucked by above-mentioned suction panel; Air-supply arrangement, it is for sucking air by above-mentioned suction panel and making air go out body and second to above-mentioned first row discharge body by blowing after above-mentioned heat exchanger.
Above-mentioned air-supply arrangement can comprise: the first blowing unit, and it goes out the first suction inlet blow air of body to above-mentioned first row: the second blowing unit, and it goes out the second suction inlet blow air of body to above-mentioned second row.
Air regulator of the present invention also can comprise: the first air conditioning part, and it is to make not regulated by the air intake of the above-mentioned heat exchanger mode to above-mentioned first blowing unit; Second air conditioning part, it is to make not regulated by the air intake of the above-mentioned heat exchanger mode to above-mentioned second blowing unit.
Air regulator of the present invention also can comprise rear face plate, above-mentioned first discharge body and second is discharged body and is housed in above-mentioned rear face plate in the mode that can rotate, when the outlet of above-mentioned first row is positioned at above-mentioned rear face plate position in opposite directions, above-mentioned rear face plate hides the outlet of above-mentioned first row, when the outlet of above-mentioned second row is positioned at above-mentioned rear face plate position in opposite directions, above-mentioned rear face plate hides the outlet of above-mentioned second row.
Air regulator of the present invention can have: first mode, and the second row outlet making the above-mentioned first first row outlet and second of discharging body discharge body is all externally exposed; Second pattern, makes the above-mentioned first first row outlet of discharging body externally expose, the second row outlet of the second discharge body is hidden; 3rd pattern, makes the above-mentioned first first row outlet of discharging body hide, the second row of the second discharge body is exported and externally exposes; Four-mode, the second row making the above-mentioned first first row outlet and second of discharging body discharge body exports all hiding.
Left side in the front surface of above-mentioned rear face plate can be formed with the first discharge body holding part, and above-mentioned first discharges body is contained in this first discharge body holding part in the mode that can rotate; Right side in the front surface of above-mentioned rear face plate can be formed with the second discharge body holding part, and above-mentioned second discharges body is contained in this second discharge body holding part in the mode that can rotate.
Above-mentioned first discharge body holding part and second is discharged body holding part and can be separated in the lateral direction.
Above-mentioned first discharge body holding part and second is discharged body holding part and can be recessed to form with arc-shaped.
Also can comprise and discharge this body support frame, above-mentioned first discharge body and second is discharged body and is arranged on this this body support frame of discharge in the mode that can rotate.
Also can comprise: first discharges body display, it discharges by above-mentioned first the temperature information that body carries out the region of air conditioning for showing; Second discharges body display, and it discharges by above-mentioned second the temperature information that body carries out the region of air conditioning for showing.
Above-mentioned first discharges body display can be arranged on the lower position that above-mentioned first discharges the first row outlet of body.
Above-mentioned second discharges body display can be arranged on the lower position that above-mentioned second discharges the second row outlet of body.
Above-mentioned first discharge body and second is discharged body and can be configured in the mode be separated in the lateral direction.
Above-mentioned first distance of discharging between body and the second discharge body width and above-mentioned second that can be less than on the left and right directions of above-mentioned first discharge body discharges the width on the left and right directions of body.
Above-mentioned first discharge body and second is discharged body and can be configured in part mode in opposite directions.
Also can comprise display, this display is configured in above-mentioned first and discharges body and second and discharge between body, and the length direction of this display and above-mentioned first discharges body and second, and to discharge the length direction of body parallel.
Air regulator of the present invention also can comprise: the first lower panel, and it is positioned at above-mentioned first and discharges the downside of body, and the curvature that the curvature and first of this first lower panel discharges body is identical; Second lower panel, it is positioned at above-mentioned second and discharges the downside of body, and the curvature that the curvature and second of this second lower panel discharges body is identical.
Above-mentioned first lower panel can be separated in the lateral direction with the second lower panel.
Air regulator of the present invention also can comprise top cover, and this top cover discharges the upper surface of body for covering the above-mentioned first upper surface and above-mentioned second of discharging body.
Above-mentioned first rotating mechanism can be arranged on above-mentioned top cover, and is connected to the side contrary with above-mentioned first suction inlet that above-mentioned first discharges body.
Above-mentioned second rotating mechanism can be arranged on above-mentioned top cover, and is connected to the side contrary with above-mentioned second suction inlet that above-mentioned second discharges body.
Air regulator of the present invention also can comprise: suction panel, and it is for sucking air; First heat exchanger, it is for carrying out heat exchange with the air sucked by above-mentioned suction panel; Second heat exchanger, it is for carrying out heat exchange to the air sucked by above-mentioned suction panel; First blowing unit, it is for sucking air by above-mentioned suction panel and making air go out the first suction inlet of body by blowing after above-mentioned first heat exchanger to above-mentioned first row; Second blowing unit, it is for sucking air by above-mentioned suction panel and making air go out the second suction inlet of body by blowing after above-mentioned second heat exchanger to above-mentioned second row.
Of the present inventionly also can comprise display, this display is configured in above-mentioned first and discharges the upside that body and second discharges body, and the length direction of this display and above-mentioned first discharges body and second, and to discharge the length direction of body vertical.
The air regulator tool of the present invention formed as described above has the following advantages, that is, easily concentrate the air of discharging the adjustment carried out to the specific direction of indoor, can be combined into more various by the flow groups of both direction, thus can select various combination.
In addition, tool has the following advantages, that is, two right side area of discharging the left field and indoor that body can share indoor are independently of one another to carry out air conditioning, makes to concentrate the directionality of the air-flow of discharging to be more various.
In addition, tool has the following advantages, that is, make two temperature of discharging the air that body is discharged mutually different, thus segmentation more effectively can be carried out to regulate air in indoor.
In addition, tool has the following advantages, that is, with regulate the situation of wind direction with the shutter of multiple rotation compared with, structure is simpler more senior.
In addition, tool has the following advantages, that is, make to enter when not using air regulator that the foreign matter of discharging body is minimum and outward appearance is senior.
Accompanying drawing explanation
The detailed description of reference accompanying drawing and embodiments of the invention, can understand feature of the present invention and advantage better, in above-mentioned accompanying drawing,
Fig. 1 is the air regulator of first embodiment of the present invention top view when being positioned at indoor,
Fig. 2 is the stereogram of the air regulator of the first embodiment of the present invention,
Fig. 3 is the front view of the air regulator of the first embodiment of the present invention,
Fig. 4 is the partial sectional view of the air regulator of the cutting first embodiment of the present invention,
Fig. 5 is the sectional view of the B-B line cutting along Fig. 3,
Fig. 6 is the sectional view of the C-C line cutting along Fig. 3,
Fig. 7 is the transverse sectional view that first of the air regulator that the first embodiment of the present invention is shown discharges that body and second discharges body,
Fig. 8 is the control block diagram of the air regulator of the first embodiment of the present invention,
Fig. 9 is the air regulator of first embodiment of the present invention transverse sectional view when being in first mode,
Figure 10 is the air regulator of first embodiment of the present invention transverse sectional view when being in the second pattern,
Figure 11 is the transverse sectional view of the air regulator of first embodiment of the present invention when being in the 3rd pattern,
Figure 12 is the air regulator of first embodiment of the present invention transverse sectional view when being in four-mode,
Figure 13 is the partial sectional view of the air regulator of the cutting second embodiment of the present invention,
Figure 14 is the sectional view of the air regulator of the third embodiment of the present invention,
Figure 15 is the front view of the air regulator of the fourth embodiment of the present invention.
Detailed description of the invention
Below, with reference to accompanying drawing, for can the embodiments of the invention of specific implementation above-mentioned purpose be described.
Fig. 1 is the air regulator of first embodiment of the present invention top view when being positioned at indoor, Fig. 2 is the stereogram of the air regulator of the first embodiment of the present invention, Fig. 3 is the front view of the air regulator of the first embodiment of the present invention, Fig. 4 is the sectional view of the air regulator of the first embodiment of the present invention, Fig. 5 is the sectional view of the B-B line cutting along Fig. 3, Fig. 6 is the sectional view of the C-C line cutting along Fig. 3, and Fig. 7 is the transverse sectional view that first of the air regulator that the first embodiment of the present invention is shown discharges that body and second discharges body.
The air regulator A of the present embodiment comprises the first discharge body 2, second and discharges body 4 and discharge ontology-driven mechanism 6.First discharge body 2 and the second discharge body 4 separately can discharge the air regulated in air regulator A inside, and mutually different region R1, R2 to indoor discharge the air regulated.Discharging ontology-driven mechanism 6 can make the first discharge body 2 and second discharge the independent rotation of body 4.Discharge ontology-driven mechanism 6 can comprise: the first rotating mechanism 8, it makes the first discharge body 2 rotate; Second rotating mechanism 10, it makes the second discharge body 4 rotate.First rotating mechanism 8 can make the first discharge body 2 rotate centered by the first rotary middle spindle P.Second rotating mechanism 10 can make the second discharge body 4 rotate centered by the second rotary middle spindle Q.Air regulator A also comprises: suction panel 12, and it is for sucking air: heat exchanger 14, and it carries out heat exchange with the air sucked by suction panel 12; Air-supply arrangement 16, air intake makes this air by after heat exchanger 14 to suction panel 12 by it, discharges body 2 and second discharge body 4 and blow this air to first.Air-supply arrangement 16 comprises: the first blowing unit 17, and it discharges the first suction inlet 21 blow air of body 2 to first; Second blowing unit 18, it discharges the second suction inlet 41 blow air of body 4 to second.
When the indoor being provided with air regulator A are divided into left field R1 and right side area R2 with air regulator A for benchmark, left field R1 can be the region of left side to the front of air regulator A from air regulator A, and right side area R2 can be the region of right side to the front of air regulator A from air regulator A.First discharges the left side that body 2 is positioned at the second discharge body 4, the air regulated can be discharged to the left field R1 of indoor, second discharges the right side that body 4 is positioned at the first discharge body 2, can discharge the air regulated to the right side area R2 of indoor.
Air regulator A can to arrange near a wall in parlor and the mode towards the central authorities in parlor.Air regulator A can make the region of the first discharge body 2 in the left field R1 and right side area R2 in parlor discharge the air regulated, and makes the second discharge body 2 another region in the left field R1 and right side area R2 in parlor discharge the air regulated.Now, body 2 and second can be discharged by first to discharge the left field R1 in body 4 pairs of parlors and right side area R2 and independently carry out air conditioning.
Air regulator A can be arranged on the first discharge body 2 and second discharge in body 4 one can towards parlor and another can towards on the position in kitchen.Now, one in parlor and kitchen when being left field R1, another is right side area R2.In air regulator A, body 2 can be discharged by first and discharge the air regulated to parlor, discharge body 4 by second and discharge the air regulated to kitchen.On the contrary, in air regulator A, also can discharge body 2 by first and discharge the air regulated to kitchen, discharge body 4 by second and discharge the air regulated to parlor.That is, body 2 and second discharge body 4 pairs of parlors and kitchen can be discharged by first and independently carry out air conditioning.
Discharge on body 2 first and can be formed with the first suction inlet 21 and first row outlet 22.Space S 1 can be formed with in the first inside of discharging body 2.Discharge in body 2 first, air can be sucked from the first suction inlet 21 and be discharged by the backward first row outlet 22 of space S 1.The space S 1 being formed in the first discharge body 2 can be the first space.Space S 1 can along first discharge the length direction of body 2 longer formed.First discharges the bootable air of body 2 discharges to the direction of first row outlet 22.The opening direction of the first opening direction and first row outlet 22 of discharging the first suction inlet 21 of body 2 can be different.First suction inlet 21 and first row outlet 22 can first discharge on body 2 along not side by side or uneven direction form opening.The opening direction of the first opening direction and first row outlet 22 of discharging the first suction inlet 21 of body 2 can be perpendicular.First one side contrary with the first suction inlet 21 of discharging body 2 can be blocked.Air by the first suction inlet 21 inflow space S1, and is discharged from first row outlet 22 after space S 1 internal conversion flow direction.First discharges body 2 can rotate centered by the first rotary middle spindle P.First discharges body 2 can rotate by axle centered by the first suction inlet 21.
When first discharges body 2 along up and down longer formation, first discharges body 2 can comprise: hollow 23, and it is formed along up and down longer; Upper plate 24, it is formed in the top of hollow 23; Lower plate 25, it is formed in the bottom of hollow 23.In this case, the first suction inlet 21 can be formed in lower plate 25 along the mode of vertical Z opening, and first row outlet 22 can be formed in hollow 23 along the mode of horizontal direction opening.Further, upper plate 24 can in the shape of blocking.Hollow 23 can be formed as hollow cylinder.First discharge body 2 can be the cylindrical shape being formed with space S 1 in inside.It is so much that first row outlet 22 can form predetermined angular along the circumferencial direction of hollow 23.First row outlet 22 can along the length direction of hollow 23 longer be formed in hollow 23.First row outlet 22 can along the circumferencial direction of hollow 23 shorter be formed in hollow 23.Height on the length direction of first row outlet 22 can be greater than width circumferentially.First row outlet 22 is minimum along the angle of the circumferencial direction opening of hollow 23 is 30 °, is 150 ° to the maximum.Discharge the lower plate 25 of body 2 first can give prominence to and be formed with size and be less than the size of hollow 23 and the lower sleeve 26 of hollow.First suction inlet 21 can be formed in lower sleeve 26 along the mode of above-below direction opening.First part of discharging the hollow 23 of body 2 can externally be exposed, and first discharges the part that body 2 can form the outward appearance of air regulator.Discharge the position of rotation of body 2 regardless of first, the first part from left side to front face of discharging body 2 all can externally be exposed.First discharges the part that body 2 can form a part for the front, left side outward appearance of air regulator and the left surface outward appearance of air regulator.The bottom that air can discharge body 2 from first rises and flows in the first discharge body 2 inside, and discharges the discharge of body 2 outside by first row outlet 22 to first after flow direction is converted to horizontal direction by the inside of the first discharge body 2.
Second discharges body 4 can be formed with the second suction inlet 41 and second row outlet 42.Space S 2 can be formed with in the second inside of discharging body 4.Discharge in body 4 second, air can be sucked from the second suction inlet 41 and be discharged by the backward first row outlet 42 of space S 2.The space S 2 being formed in the second discharge body 4 can be second space.Space S 2 can along second discharge the length direction of body 4 longer formed.Discharge in body 4 second, the air sucked from the second suction inlet 41 is discharged from second row outlet 42 after discharging the inside of body 4 by second.Second discharges the bootable air of body 4 discharges to the direction of second row outlet 42.The opening direction of the second second suction inlet 41 and second row outlet 42 of discharging body 4 can be different.Second suction inlet 41 and second row outlet 42 can second discharge on body 4 along not side by side or uneven direction form opening.The opening direction of the second opening direction and second row outlet 42 of discharging the second suction inlet 41 of body 4 can be perpendicular.Second one side contrary with the second suction inlet 41 of discharging body 4 can be blocked.Air by the second suction inlet 41 inflow space S2, and is discharged from second row outlet 42 after space S 2 internal conversion flow direction.Second discharges body 4 can rotate centered by the second rotary middle spindle Q parallel with the first rotary middle spindle P.Second discharges body 4 can rotate by axle centered by the second suction inlet 41.Second discharge body 4 and the first discharge body 2 can have identical structure.Second discharges body 4 can to configure with the first mode of discharging body 2 parallel.Second size of discharging body 4 can be identical with the first size of discharging body 2.Second shape of discharging body 4 can be identical with the first shape of discharging body 2.The opening direction of the second suction inlet 41 can be parallel with the opening direction of the first suction inlet 21.
When second discharges body 4 along up and down longer formation, second discharges body 4 can comprise: hollow 43, and it is formed along up and down longer; Upper plate 44, it is formed in the top of hollow 43; Lower plate 45, it is formed in the bottom of hollow 43.Second suction inlet 41 can be formed in lower plate 45 along the mode of vertical Z opening, and second row outlet 42 can be formed in hollow 43 along the mode of horizontal direction opening.Now, upper plate 44 can be the shape of blocking.The shape of second row outlet 42, size and first row export 22 shape, size can be identical.Hollow 43 can be formed as hollow cylinder.Second discharges body 4 can in the cylindrical shape being formed with space S 2 in inside.It is so much that second row outlet 42 can form predetermined angular along the circumferencial direction of hollow 43.Second row outlet 42 can along the length direction of hollow 43 longer formed, the circumferencial direction along hollow 43 is formed shortlyer.Height on the length direction of second row outlet 42 can be greater than width circumferentially.Second row outlet 42 is minimum along the angle of the circumferencial direction opening of hollow 43 is 30 °, is 150 ° to the maximum.Discharge the lower plate 44 of body 4 second can give prominence to and be formed with size and be less than the size of hollow 43 and the lower sleeve 46 of hollow.Second suction inlet 41 can be formed in lower sleeve 46 along the mode of above-below direction opening.Second part of discharging the hollow 43 of body 4 can externally be exposed, and second discharges the part that body 4 can form the outward appearance of air regulator.Discharge the position of rotation of body 4 regardless of second, the second part from right side to front face of discharging body 4 all can externally be exposed.Second discharges the part that body 4 can form a right side part for outward appearance and the right flank outward appearance of air regulator before air regulator.The bottom that air can discharge body 4 from second rises and flows into the second discharge body 4 inside, and discharges the discharge of body 4 outside by second row outlet 42 to second after flow direction is converted to horizontal direction by the inside of the second discharge body 4.
First discharge body 2 and second is discharged body 4 and can be configured in the mode be separated.When first discharge body 2 and second discharge body 4 respectively along up and down longer configuration, first discharges body 2 and second discharges body 4 and can configure in the mode be separated in the lateral direction.First discharge body 2 and the second discharge body 4 can configure in part mode in opposite directions.Discharge body 2 and second first to discharge between body 4 and can there is gap.Gap between the first discharge body 2 and the second discharge body 4 of air regulator A is large, the width on the left and right directions of air regulator A may be large.The first distance L1 width D 1 and above-mentioned second that can be less than on the left and right directions of the first discharge body 2 of discharging between body 2 and the second discharge body 4 discharges the width D 2 on the left and right directions of body 4.When first discharge body 2 and second discharge body 4 respectively along above-below direction longer configure and comprise respectively for discharge air hollow 23,43, first discharges width on the left and right directions of body 2 can with first to discharge the diameter D1 of body 2 identical, and the left and right directions width of the second discharge body 4 can with second to discharge the diameter D2 of body 4 identical.The first distance L1 discharged between body 2 and the second discharge body 4 can be less than the diameter D2 of diameter D1 and the second discharge body 4 of the first discharge body 2.
Can drive first rotating mechanism 8 and the second rotating mechanism 10.When the first rotating mechanism 8 makes the first discharge body 2 rotate, the second rotating mechanism 10 can be in halted state.On the contrary, when the second rotating mechanism 10 makes the second discharge body 4 rotate, the first rotating mechanism 8 can be in halted state.First rotating mechanism 8 can make the first discharge body 2 and the second discharge body 4 rotate to make the parallel mode of the air discharge direction of the air discharge direction of the first discharge body 2 and the second discharge body 4 with the second rotating mechanism 10.First rotating mechanism 8 and the second rotating mechanism 10 can make the first discharge body 2 and the second discharge body 4 rotate to make the contrary mode of the discharge direction of the air discharge direction of the first discharge body 2 and the second discharge body 4.In addition, when the first rotating mechanism 8 makes the first discharge body 2 rotate first anglec of rotation (such as 40 °), the second rotating mechanism 10 can make the second discharge body 4 rotation be less than second anglec of rotation (such as 30 °) of first anglec of rotation or make the second discharge body 4 rotate the 3rd anglec of rotation (such as 60 °) being greater than first anglec of rotation.
First rotating mechanism 8 can comprise: motor 27; Driven wheel 28, it is arranged on the rotating shaft of motor 27; Driven gear 29, it is meshed with driven wheel 28, and is arranged on the first discharge body 2.Driven wheel 28 can be the first gear be arranged on the rotating shaft of motor 27, and driven gear 29 can be the second gear being arranged on the first discharge body 2 and being meshed with the first gear.Driven gear 29 can be formed in the lower sleeve 26 of the first discharge body 2.
As shown in Figure 7, the first rotating mechanism 8 can export 22 towards the mode of left direction X1 or the incline direction X1Y in front, left side or the incline direction X2Y in forward direction Y or front, right side to make first row, and the first discharge body 2 is rotated.At this, the incline direction X2Y in front, right side can be the incline direction making the first row outlet 22 of the first discharge body 2 discharge the front of body 4 towards second.When being in the air discharge mode of the first discharge body 2, the first rotating mechanism 8 can make to rotate in the scope of the first discharge body 2 the angle of the incline direction X2Y discharge air of the angle to the front, right side towards the first discharge body 2 of discharging air from the left direction X1 discharging body 2 towards first.
Using first row outlet 22 towards during rear as benchmark time, the first rotating mechanism 8 the first discharge body 2 can be made to rotate make first row to export 22 to discharge body 2 first angle H of left direction X1 towards first.First rotating mechanism 8 can make the first discharge body 2 rotate and make first row outlet 22 towards the second angle I(I>H of the incline direction X1Y in the front, left side of the first discharge body 2).First rotating mechanism 8 can make the first discharge body 2 rotate and make first row outlet 22 towards the 3rd angle J(J>I of the forward direction Y of the first discharge body 2).First rotating mechanism 8 can make the first discharge body 2 rotate and make first row outlet 22 towards the 4th angle K(K>J of the incline direction X2Y in the front, right side of the first discharge body 2).First rotating mechanism 8 can not make the first discharge body 2 rotation make first row outlet 22 discharge the 5th angle on the right side of body 2 towards first.
When being in the air discharge mode of the first discharge body 2, the first rotating mechanism 8 can make the first discharge body 2 after rotating in the scope of the 4th angle K from the first angle H stopping in the scope of the 4th angle K from the first angle H.When being in the air discharge mode of the first discharge body 2, the first discharge body 2 can be made carrying out forward and inverse rotation from the first angle H in the scope of the 4th angle K.
Discharge body 2 and second first to discharge when body 4 is discharged simultaneously and when the first discharge body 2 is discharged separately, the first rotating mechanism 8 can make the first discharge body 2 rotate in a different manner.
When discharging while discharging body 2 and the second discharge body 4, first rotating mechanism 8 can make the first discharge body 2 stopping in the scope of the 3rd angle J from the first angle H after rotating in the scope of the 3rd angle J from the first angle H, or makes the first discharge body 2 carrying out forward and inverse rotation from the first angle H in the scope of the 3rd angle J.
On the contrary, not from second discharge body 4 discharge air and first discharge body 2 discharge separately time, first rotating mechanism 8 can make the first discharge body 2 stopping in the scope of the 4th angle K from the first angle H after rotating in the scope of the 4th angle K from the first angle H, or makes the first discharge body 2 carrying out forward and inverse rotation from the first angle H in the scope of the 4th angle K.
Maximum anglec of rotation when first rotating mechanism 8 and the second rotating mechanism 10 can make the first discharge body 2 and the second maximum anglec of rotation of discharging when body 4 is discharged simultaneously of being less than in the first discharge body 2 and the second discharge body 4 discharge separately.
When first discharges body 2 and the second discharge body 4 is discharged simultaneously, first rotating mechanism 8 can make the 3rd angle J be the maximum anglec of rotation, when the first discharge body 2 is discharged separately, the first rotating mechanism 8 can make the 4th angle K(K>J) be the maximum anglec of rotation.
Air regulator also can comprise the first discharge body display 30, and this first discharge body display 30 carries out the temperature information of the region R1 of air conditioning for showing the first discharge body 2.At this, first temperature information of discharging shown by body display 30 can be the preferred temperature that the first discharge body 2 carries out the region R1 of air conditioning, can be the Current Temperatures that the first discharge body 2 carries out the region R1 of air conditioning, also can be that preferred temperature and first that the first discharge body 2 carries out the region R1 of air conditioning is discharged body 2 and carried out the Current Temperatures of the region R1 of air conditioning.First discharges the lower position that body display 30 can be arranged on the first row outlet 22 in the first discharge body 2.User easily can confirm that the first discharge body 2 carries out the temperature information of the region R1 of air conditioning.When not using the first discharge body 2; first discharges first row that body display 30 can discharge body 2 with first exports and to move to on rear face plate 80 position in opposite directions together with 22; first discharges body display 30 can be hidden by rear face plate 80; thus make the front, left side of air regulator and the tailored appearance of left surface, protect the first discharge body display 30 by rear face plate 80.First discharges first of position the function of discharging body display travel mechanism that body 2 can play the position that the first discharge body display 30 rotated to externally expose and be hidden by rear face plate 80.
Second rotating mechanism 10 can comprise: motor 47; Driven wheel 48, it is arranged on the rotating shaft of motor 47; Driven gear 49, it is meshed with driven wheel 48, and is arranged on the second discharge body 4.Driven wheel 48 can be the first gear be arranged on the rotating shaft of motor 47, and driven gear 49 can be the second gear being arranged on the second discharge body 4 and being meshed with the first gear.Driven gear 49 can be formed in the lower sleeve 46 of the second discharge body 4.
As shown in Figure 7, the second rotating mechanism 10 can export 42 towards the incline direction X2Y in right direction X2 or front, right side or the mode of direction Y or the incline direction X1Y towards front, left side toward the front to make second row, and the second discharge body 4 is rotated.At this, the incline direction X1Y in front, left side can be the incline direction making the first row outlet 42 of the second discharge body 4 discharge the front of body 2 towards first.When being in the air discharge mode of the second discharge body 4, the second rotating mechanism 10 can make the second discharge body 4 rotate in the scope of the angle to the angle of the left side forward direction discharge air towards the second discharge body 4 of discharging air from the right direction of discharging body 4 towards second.
Using second row outlet 42 towards during rear as benchmark time, the second rotating mechanism 10 the second discharge body 4 can be made to rotate make second row to export 42 to discharge body 4 first angle L of right direction X2 towards second.Second rotating mechanism 10 can make the second discharge body 4 rotate and make second row outlet 42 towards the second angle M(M>L of the incline direction X2Y in the front, right side of the second discharge body 4).Second rotating mechanism 10 can make the second discharge body 4 rotate and make first row outlet 42 towards the 3rd angle N(N>M of the forward direction Y of the second discharge body 4).Second rotating mechanism 10 can make the second discharge body 4 rotate and make first row outlet 42 towards the 4th angle O(O>N of the incline direction X1Y in the front, left side of the second discharge body 4).Second rotating mechanism 10 can not make the second discharge body 4 rotation make second row outlet 42 discharge the 5th angle in the left side of body 4 towards second.
When being in the air discharge mode of the second discharge body 4, the second rotating mechanism 10 can make the second discharge body 4 after rotating in the scope of the 4th angle O from the first angle L stopping in the scope of the 4th angle O from the first angle L.When being in the air discharge mode of the second discharge body 4, the second discharge body 4 can be made carrying out forward and inverse rotation from the first angle L in the scope of the 4th angle O.
Discharge body 2 and second first to discharge when body 4 is discharged simultaneously and when the second discharge body 4 is discharged separately, the second rotating mechanism 10 can make the second discharge body 4 rotate in a different manner.
When first discharges body 2 and the second discharge body 4 is discharged simultaneously, second rotating mechanism 10 can make the second discharge body 4 stopping in the scope of the 3rd angle N from the first angle L after rotating in the scope of the 3rd angle N from the first angle L, or makes the second discharge body 4 carrying out forward and inverse rotation from the first angle L in the scope of the 3rd angle N.
On the contrary, not from first discharge body 2 discharge air and second discharge body 4 discharge separately time, second rotating mechanism 10 can make the second discharge body 4 stop in the scope of the first angle L to the 4th angle O after rotating in the scope of the 4th angle O from the first angle L, or makes the second discharge body 4 carrying out forward and inverse rotation from the first angle L in the scope of the 4th angle O.
Maximum anglec of rotation when first rotating mechanism 8 and the second rotating mechanism 10 can make the first discharge body 2 and the second maximum anglec of rotation of discharging when body 4 is discharged simultaneously of being less than in the first discharge body 2 and the second discharge body 4 discharge separately.
When discharging while first discharges body 2 and the second discharge body 4, second rotating mechanism 10 can make the 3rd angle N be the maximum anglec of rotation, when the second discharge body 4 is discharged separately, the second rotating mechanism 10 can make the 4th angle O(O>N) be the maximum anglec of rotation.
Air regulator can comprise the second discharge body display 50, and this second discharge body display 50 carries out the temperature information of the region R2 of air conditioning for showing the second discharge body 4.At this, second temperature information of discharging shown by body display 50 can be the preferred temperature that the second discharge body 4 carries out the region R2 of air conditioning, can be the Current Temperatures that the second discharge body 4 carries out the region R2 of air conditioning, also can be that preferred temperature and second that the second discharge body 4 carries out the region R2 of air conditioning is discharged body 4 and carried out the Current Temperatures of the region R2 of air conditioning.Second discharges body display 50 can be arranged in the lower position of the second row outlet 42 in the second discharge body 4.User easily can confirm that the second discharge body 4 carries out the temperature information of the region R2 of air conditioning.When not using the second discharge body 4; second discharges second row that body display 50 can discharge body 4 with second exports and to move to on rear face plate 80 position in opposite directions together with 42; second discharges body display 50 can be hidden by rear face plate 80; thus make the tailored appearance of right side and right flank before air regulator, protect the second discharge body display 50 by rear face plate 80.Second discharges second of position the function of discharging body display travel mechanism that body 4 can play the position that the second discharge body display 50 rotated to externally expose and be hidden by rear face plate 80.
When discharging air together with the first discharge body 2 and the second discharge body 4, air regulator can be discharged body 2 and second according to first and be discharged the discharge mode that the respective discharge direction of body 4 has multiple combination.
First discharges these roughly 3 discharge direction of incline direction X1Y, forward direction Y that body 2 can have left direction X1, front, left side, or can have left direction X1, incline direction X1Y, the forward direction Y in front, left side, these roughly 4 discharge direction of incline direction X2Y in front, right side.
And, second discharges these 3 discharge direction of incline direction X2Y, forward direction Y that body 4 can have right direction X2, front, right side, or can have right direction X2, incline direction X2Y, the forward direction Y in front, right side, these roughly 4 discharge direction of incline direction X1Y in front, left side.
When discharging air together with the first discharge body 2 and the second discharge body 4, if the first discharge body 2 of control air regulator and the second discharge body 4 have roughly 3 discharge direction respectively, then now can have and amount to 9 discharge direction.When the discharge direction that first discharges body 2 is left direction X1, the second discharge direction of discharging body 4 can be incline direction X2Y or the forward direction Y in right direction X2 or front, right side.Further, when the first discharge direction of discharging body 2 is the incline direction X1Y in front, left side, the second discharge direction of discharging body 4 can be incline direction X2Y or the forward direction Y in right direction X2 or front, right side.When the discharge direction that first discharges body 2 is forward direction Y, the second discharge direction of discharging body 4 can be incline direction X2Y or the forward direction Y in right direction X2 or front, right side.In addition, when air is discharged in the first direction of discharging in these 3 directions of incline direction X1Y, forward direction Y in body 2 direction X1, front, left side to the left, second discharges body 4 can be in the swing discharge mode of carrying out reciprocating rotary between right direction X2 and forward direction Y.On the contrary, when air is discharged in the second direction of discharging in these 3 directions of incline direction X2Y, forward direction Y in body 4 direction X2, front, right side to the right, first discharges body 2 can be in the swing discharge mode of carrying out reciprocating rotary between left direction X1 and forward direction Y.In addition, when the first discharge body 2 of air regulator is in the swing discharge mode of carrying out reciprocating rotary between left direction X1 and forward direction Y, second discharges body 4 can be in the swing discharge mode of carrying out reciprocating rotary between right direction X2 and forward direction Y.
When discharging air together with the first discharge body 2 and the second discharge body 4, first discharge body 2 and the second discharge body 4 that can control air regulator have roughly 4 discharge direction respectively, certainly can carry out the combination of multiple discharge direction in technology category of the present invention.
On the other hand, suction panel 12 is panels that the extraneous air of air regulator passes through to be inhaled into air regulator A, can be formed with the air suction inlet for making the extraneous air of air regulator be inhaled into air regulator A inside on this suction panel 12.Suction panel 12 can be arranged on rear face plate 80 described later.In the wings panel 80 can be formed with the opening portion for arranging suction panel 12, suction panel 12 can be arranged on rear face plate 80.Suction panel 12 can be provided with the clean unit 13 for purifying the air being inhaled into air suction inlet.Clean unit 13 can comprise the filter for the foreign matter in filtering air, can comprise the ion generator for producing ion in atmosphere, also can comprise the electrical precipitator making the electric discharge of the foreign matter in air carry out control of dust.
Heat exchanger 14 can be arranged between suction panel 12 and air-supply arrangement 16.Heat exchanger 14 can be arranged on the front of suction panel 12, indoor by the air of suction panel 12 by heat exchanger 14 after flow to air-supply arrangement 16.It is inner that heat exchanger 14 can be arranged on air regulator A along vertical.
First blowing unit 17 and the second blowing unit 18 can be arranged on the front of heat exchanger 14.First blowing unit 17 can with a part of region of heat exchanger 14 in opposite directions, the second blowing unit 18 can with the other region of heat exchanger 14 in opposite directions.
First blowing unit 17 can be made up of the one in tube-axial fan and centrifugal fan.First blowing unit 17 can be made up of the sirocco fan in centrifugal fan.First blowing unit 17 can comprise: motor 52; Impeller (impeller) 54, it is arranged on motor 52; Blower-casting 56, it surrounds impeller 54.Blower-casting 56 can be formed: suction inlet 57, it is inner to blower-casting 56 for making by the air intake of heat exchanger 14; Discharge portion 58, it is for discharging the air blowed by impeller 54.The rotary middle spindle of the first blowing unit 17 can level in the longitudinal direction.
The first suction inlet 21 that the discharge portion 58 of the first blowing unit 17 can discharge body 2 with first is connected.First first suction inlet 21 of discharging body 2 can be connected with discharge portion 58 in the mode that can rotate, and at least one in first suction inlet 21 and discharge portion 58 of the first discharge body 2 is configured with the containment member for sealing between the first suction inlet 21 and discharge portion 58.The air flowed to discharge portion 58 by impeller 54 flows into the first suction inlet 21 of the first discharge body 2 by discharge portion 58.
The first suction inlet 21 that the discharge portion 58 of the first blowing unit 17 discharges body 2 by other guiding tube 59 and first is connected.Guiding tube 59 can be the tube connector of the first suction inlet 21 for connecting blower-casting 56 and the first discharge body 2.Guiding tube 59 can be a part of structure of the first blowing unit 17.The side of guiding tube 59 can be connected with blower-casting 56, and the first suction inlet 21 that opposite side can discharge body 2 with first is connected.First first suction inlet 21 of discharging body 2 can be connected with guiding tube 59 in the mode that can rotate.The containment member (not shown) for sealing between the first suction inlet 21 and guiding tube 59 is may be configured with between first suction inlet 21 and guiding tube 59 of the first discharge body 2.The air flowed to discharge portion 58 by impeller 54 flows into guiding tube 59 by discharge portion 58, and is directed to guiding tube 59.The air being directed to guiding tube 59 flows into the first suction inlet 21 of the first discharge body 2 by guiding tube 59.Guiding tube 59 can be at least bend shape once.The first blowing unit 17 can be driven when being in the air discharge mode of the first discharge body 2.
Second blowing unit 18 can be made up of the one in tube-axial fan and centrifugal fan.First blowing unit 17 can be made up of the sirocco fan in centrifugal fan.Second blowing unit 18 can comprise: motor 62; Impeller 64, it is arranged on motor 62; Blower-casting 66, it surrounds impeller 64.Blower-casting 66 can be formed: suction inlet 67, it is for making by the air intake of heat exchanger 14 to blower-casting 66; Discharge portion 68, it is for discharging the air blowed by impeller 64.The rotary middle spindle of the second blowing unit 18 can level in the longitudinal direction.
The second suction inlet 41 that the discharge portion 68 of the second blowing unit 18 can discharge body 4 with second is connected.Second second suction inlet 41 of discharging body 4 can be connected with discharge portion 68 in the mode that can rotate, and at least one in second suction inlet 41 and discharge portion 68 of the second discharge body 4 is configured with the containment member (not shown) for sealing between the second suction inlet 41 and discharge portion 68.The air flowed to discharge portion 68 by impeller 64 flows into the second suction inlet 41 of the second discharge body 4 by discharge portion 68.
The second suction inlet 41 that the discharge portion 68 of the second blowing unit 18 discharges body 4 by other guiding tube 69 and second is connected.Guiding tube 69 can be the tube connector of the second suction inlet 41 for connecting blower-casting 66 and the second discharge body 4.Guiding tube 69 can be a part of structure of the second blowing unit 18.The side of guiding tube 69 can connect with blower-casting 66, and opposite side can be connected with second suction inlet 41 of discharging body 4.Second second suction inlet 41 of discharging body 4 can be connected with guiding tube 69 in the mode that can rotate.The containment member (not shown) for sealing between the second suction inlet 41 and guiding tube 69 is may be configured with between second suction inlet 41 and guiding tube 69 of the second discharge body 4.The air flowed to discharge portion 68 by impeller 64 flows into guiding tube 69 by discharge portion 68, and is directed to guiding tube 69.The air being directed to guiding tube 69 flows into the second suction inlet 41 of the second discharge body 4 by guiding tube 69.Guiding tube 69 can be at least bend shape once.The second blowing unit 18 can be driven when being in the air discharge mode of the second discharge body 4.
First blowing unit 17 can be parallel with the rotary middle spindle of the second blowing unit 18.A part for second blowing unit 18 and the first blowing unit 17 can be overlapping on fore-and-aft direction or above-below direction.The front that can be positioned at the blower-casting 66 of the second blowing unit 18 at least partially of the blower-casting 56 of the first blowing unit 17 of air regulator.The motor 52 of the first blowing unit 17 can be positioned at blower-casting 66 side of the second blowing unit 18.The motor 62 of the second blowing unit 18 can be positioned at blower-casting 56 side of the first blowing unit 17.When the motor 52 of the first blowing unit 17 is positioned at the front of the blower-casting 56 of the first blowing unit 17, the motor 62 of the second blowing unit 18 can be positioned at the rear of the blower-casting 66 of the second blowing unit 18.On the contrary, when the motor 52 of the first blowing unit 17 is positioned at the rear of the blower-casting 56 of the first blowing unit 17, the motor 62 of the second blowing unit 18 can be positioned at the front of the blower-casting 66 of the second blowing unit 18.
Air regulator A also can comprise: the first air conditioning part 19, its carry out regulating making not by the air intake of heat exchanger 14 to the first blowing unit 17; Second air conditioning part 20, its carry out regulating making not by the air intake of heat exchanger 14 to the second blowing unit 18.
First air conditioning part 19 can be for regulating the temperature and first of discharging the air that body 2 is discharged from first to discharge the first temperature regulation section that body 2 carries out the temperature in the region of air conditioning.When driving the first blowing unit 17, the first air conditioning part 19 can make outside air be drawn into the first blowing unit 17 by the gap between heat exchanger 14 and the first blowing unit 17.First air conditioning part 19 can comprise: the first airport 71, and it makes outside air intake to the part except suction panel 12; First airport governor motion 72, it is for regulating the openness of the first airport 71.
The opening of the first airport 71 can be formed at and make when driving the first blowing unit 17 extraneous air of air regulator walk around suction panel 12 and heat exchanger 14 to be sucked into the position between heat exchanger 14 and the first blowing unit 17.First airport 71 can be make indoor air walk around the heat exchanger by-pass prot that heat exchanger 14 is sucked into the first blowing unit 17.Preferably the first airport 71 is formed on the left side in the left side of air regulator and right side.First airport 71 can be formed in the side, left side of heat exchanger 14 with on heat exchanger 14 position in opposite directions.First airport 71 can be formed in and on part between heat exchanger 14 and the first blowing unit 17 position in opposite directions.
First airport governor motion 72 can comprise: opening-closing plate, and it is for opening and closing first airport 71; Opening-closing plate rotating mechanism, it makes opening-closing plate rotate.Opening-closing plate can be greater than the first airport 71.Opening-closing plate rotating mechanism can be included in motor opening-closing plate being connected with rotating shaft.Opening-closing plate rotating mechanism can comprise motor and for the revolving force of motor being passed at least one driving member in the connecting rod, gear etc. of opening-closing plate.First air conditioning part 19 can regulate the openness of the first airport 71 according to the position of opening-closing plate.If opening-closing plate is positioned at the position blocking whole first airport 71, then it is inner that outside air is not drawn into air regulator A by the first airport 71.If opening-closing plate is positioned at the position making whole first airport 71 open, then it is inner that outside air can be drawn into air regulator A by the first airport 71.A part for the first airport 71 is made to open and block the position of other parts if opening-closing plate is positioned at, it is inner that then outside air can be drawn into air regulator A by the first airport 71, but compared with situation about opening with whole first airport 71, a small amount of air is sucked into the inside of air regulator A.
Second air conditioning part 20 can be for regulating the temperature and second of discharging the air that body 4 is discharged from second to discharge the second temperature regulation section that body 4 carries out the temperature in the region of air conditioning.When driving the second blowing unit 18, the second air conditioning part 20 can make outside air be drawn into the second blowing unit 18 by the gap between heat exchanger 14 and the second blowing unit 18.Second air conditioning part 20 can comprise: the second airport 76, and it makes outside air intake to the part except suction panel 12; Second airport governor motion 77, it is for regulating the openness of the second airport 76.Second airport 76 can be make indoor air walk around the heat exchanger by-pass prot that heat exchanger 14 is drawn into the second blowing unit 18.Preferably the second airport 76 is formed on the right side in the left side of air regulator and right side.Second airport 76 can be formed in the side, right side of heat exchanger 14 with on heat exchanger 14 position in opposite directions.Second airport 76 can be formed in and on part between heat exchanger 14 and the second blowing unit 18 position in opposite directions.Second airport 76 of the second air conditioning part 20 has the structure identical with the first airport 71 and effect, and the second airport governor motion 77 has the structure identical with the first airport governor motion 72 and effect, therefore detailed.
Air regulator A can regulate, to make the temperature of the air of being discharged from first row outlet 22 by the first discharge body 2 with different from the temperature of the air of second row outlet 42 discharge by the second discharge body 4.
Air regulator A can control, to make the temperature of the air of discharging from first row outlet 22 higher or lower than the temperature of the air of discharging from second row outlet 44.
Air regulator A can, when the first airport 71 opened by the first airport governor motion 72, make the second airport governor motion 77 block the second airport 76.Now, the air being drawn into the first airport 71 can mix with the air cooled in heat exchanger 14 and be sucked into the first blowing unit 17, thus can make the temperature higher than the air of discharging from the second discharge body 4 of discharging the temperature of the air that body 2 is discharged from first.
Air regulator A can when the first airport governor motion 72 blocks the first airport 71, the second airport governor motion 77 is made to open the second airport 76, in this case, can make to discharge the temperature of the air that body 2 is discharged lower than the temperature of discharging the air that body 4 is discharged from second from first.
In addition, air regulator A can, when the first airport governor motion 72 opens the first airport 71 with the first openness, make the second airport governor motion 77 open the second airport 76 with the second openness being less than the first openness.In this case, can suck air more more than the second airport 76 from the first airport 71, the air being drawn into the first airport 71 can mix with the air cooled in heat exchanger 14 and be drawn into the first blowing unit 17.In addition, can suck the air more less than the first airport 71 from the second airport 76, the air being drawn into the second airport 76 can mix with the air cooled in heat exchanger 14 and be drawn into the second blowing unit 18.Can higher than the temperature of discharging the air that body 4 is discharged from second from the first temperature of discharging the air that body 2 is discharged.On the contrary, air regulator A is when the first airport governor motion 72 opens the first airport 71 with the first openness, the second airport governor motion 77 can be made to open the second airport 76 with the 3rd openness being greater than the first openness, in this case, the temperature of discharging from first air that body 2 is discharged can lower than the temperature of discharging the air that body 4 is discharged from second.
Such as, first discharges body 2 can be adjusted to 22 ° by the temperature of left field R1, and second discharges body 4 can be adjusted to 20 ° by the temperature of right side area R2.When the temperature of the air cooled by heat exchanger 14 is 20 °, the air (such as the air of 24 °) that first airport governor motion 72 can carry out regulating making not and heat exchanger 14 carries out heat exchange flow between heat exchanger 14 and the first blowing unit 17, thus can discharge from first the air that body 2 delivery ratio carry out the temperature (22 °) of temperature (20 °) the high set point of temperature of the air of heat exchange heat exchanger 14.
Air regulator can comprise rear face plate 80, and above-mentioned first discharge body 2 and the second discharge body 4 can be contained in rear face plate 80 rotatably.When first row outlet 22 is positioned at rear face plate 80 position in opposite directions, rear face plate 80 can hide first row outlet 22.When second row outlet 42 is positioned at rear face plate 80 position in opposite directions, this rear face plate 80 can hide second row outlet 42.Panel 80 can be formed with the first discharge body holding part 82, first and discharges body 2 and can be contained in this rotatably and first discharge body holding part 82 in the wings.In the wings panel 80 can be formed with the second discharge body holding part 84, second discharge body 4 and can be contained in this second discharge body holding part 84 rotatably.First discharge body holding part 82 and the second discharge body holding part 84 can be separated in the lateral direction.First discharge body holding part 82 and the second discharge body holding part 84 can be recessed to form with arc-shaped respectively.Rear face plate 80 can form the back appearance of air regulator.Rear face plate 80 can be formed by along up and down longer the component formed, and also can be combined into by multiple component.First discharge body 2 rotate to first row outlet 22 towards the position of roughly rear direction time, first row outlet 22 can discharge body holding part 82 in opposite directions with first, discharges body holding part 82 hide and protect first row outlet 22 by first.Second discharge body 4 rotate to second row outlet 42 towards the position of roughly rear direction time, second row outlet 42 can discharge body holding part 84 in opposite directions with second, discharges body holding part 84 hide and protect second row outlet 42 by second.
Air regulator A also can comprise discharge this body support frame 90, and above-mentioned first discharge body 2 and the second discharge body 4 can be arranged on this this body support frame of discharge 90 rotatably.Discharge this body support frame 90 can be formed: the first through hole 91, it makes the lower sleeve 26 of the first discharge body 2 through in the mode that can rotate; Second through hole 92, it makes the lower sleeve 46 of the second discharge body 4 through in the mode that can rotate.Discharge this body support frame 90 and can flatly be configured in air regulator A.Discharge this body support frame 90 to be divided into lower space and first that the first blowing unit 17 and the second blowing unit 18 be positioned in the vertical direction and to discharge body 2 and second and discharge the upper space that body 4 is positioned at.Discharge this body support frame 90 and can be arranged on the top of aftermentioned first lower panel 98 and the top of the second lower panel 99.Discharge this body support frame 90 can be arranged on rear face plate 80.First discharge body 2 lower surface can with discharge this body support frame 90 in opposite directions.First lower plate 25 of discharging body 2 can be arranged on discharges on this body support frame 90.First lower sleeve 26 of discharging body 2 can be inserted and through first through hole 91, and lower sleeve 26 can be connected with the first blowing unit 17 be positioned on the downside of it.Second discharge body 4 lower surface can with discharge this body support frame 90 in opposite directions.Second lower plate 45 of discharging body 4 can be arranged on discharges on this body support frame 90.Second lower sleeve 46 of discharging body 4 can be inserted and through second through hole 92, and lower sleeve 46 can be connected with the second blowing unit 18 be positioned on the downside of it.
Air regulator also can comprise the display 94 be configured between the first discharge body 2 and the second discharge body 4.Display 94 can along with first discharge body 2 and second discharge the parallel direction of the respective length direction of body 4 longer configure.Display 94 can show the operation information of air regulator.The two sides of display 94 can be recessed to form.Width L2 on the left and right directions of display 94 width D 1 and above-mentioned second that can be less than on the left and right directions of the first discharge body 2 discharges the width D 2 on the left and right directions of body 4.When first discharge body 2 and second discharge body 4 respectively along above-below direction longer configure and comprise respectively for discharge air hollow 23,43, first discharges width on the left and right directions of body 2 can with first to discharge the diameter D1 of body 2 identical, and the width on the left and right directions of the second discharge body 4 can with second to discharge the diameter D2 of body 4 identical.Width L2 on the left and right directions of display 94 can be less than the diameter D2 of diameter D1 and the second discharge body 4 of the first discharge body 2.The hollow 23 and second that display 94 can be arranged at the first discharge body 2 is discharged between the hollow 43 of body 4.The left surface of display 94 can be hidden by the hollow 23 that first discharges body 2, and the right flank of display 94 can be hidden by the hollow 43 that second discharges body 4.Display 94 can be arranged on rear face plate 80.Display 94 can be arranged at the front that first of rear face plate 80 discharges the part between body holding part 82 and the second discharge body holding part 84.The hollow 23 of body 2 can be discharged in opposite directions with first at least partially in the left surface of display 94, display 94 can be formed with the first shaped depressions of discharging the hollow 23 of body 2 consistent with the hollow 23 that first discharges body 2 part in opposite directions.The hollow 43 of body 4 can be discharged in opposite directions with second at least partially in the right flank of display 94, display 94 part can be formed with the second shaped depressions of discharging the hollow 43 of body 4 consistent in opposite directions with the hollow 43 that second discharges body 4.
Air regulator also can comprise: the first lower panel 98, and it is positioned at the downside of the first discharge body 2, and the curvature that curvature and first discharges body 2 is identical; Second lower panel 99, it is positioned at the downside of the second discharge body 4, and the curvature that curvature and second discharges body 4 is identical.First lower panel 98 can be separated in the lateral direction with the second lower panel 99.The curvature of the first lower panel 98 can with first to discharge the curvature of the hollow 23 of body 2 identical.The curvature of the second lower panel 99 can with second to discharge the curvature of the hollow 43 of body 4 identical.
Air regulator A can comprise base 100.Rear face plate 80 can be arranged on base 100.First lower panel 98 and the second lower panel 99 can be arranged on base 100.The lower end of the first lower panel 98 is configurable on the upside of base 100, and left-hand end can combine with the left side of rear face plate 80.The lower end of the second lower panel 99 is configurable on the upside of base 100, and right-hand end can combine with the right side of rear face plate 80.
Fig. 8 is the control block diagram of the air regulator of the first embodiment of the present invention.
Air regulator can comprise the input part 102 of the operation information for making user's input air adjuster.Air regulator can comprise: the first temperature sensor 104, and it is for detecting the temperature of first area R1; Second temperature sensor 106, it is for detecting the temperature of second area R2.Air regulator also can comprise the human body detection sensor such as infrared ray sensor for human body.In air regulator, the human body of left field R1 and right side area R2 can be detected by a human body detection sensor, also can be detected the human body of left field R1 by the first body detecting sensor, be detected the human body of right side area R2 by the second human body detection sensor.Air regulator also can comprise the control part 108 for controlling the first rotating mechanism 8, second rotating mechanism 10, first blowing unit 17, second blowing unit 18.Control part 108 can control first row and go out this volumetric display 30 and the second discharge body display 50.Control part 108 can control the first airport governor motion 72 and the second airport governor motion 77.Control part 108 can control display 94.
User can to input part 102 input whether to first area R1 carry out air conditioning, whether to second area R2 carry out air conditioning, the preferred temperature of first area R1, second area R2 preferred temperature, whether make the first discharge body 2 swing, whether make the information such as the second discharge body 4 swing.
Whether control part 108 can carry out air conditioning to first area R1, whether second area R2 be carried out to the information of air conditioning according to, controls the first rotating mechanism 8, second rotating mechanism 10, first blowing unit 17 and the second blowing unit 18.When whether input carries out the information of air conditioning to first area R1 and second area R2, control part 108 can control the first rotating mechanism 8 and the second rotating mechanism 10 makes the first row of the first discharge body 2 outlet 22 and the second second rows outlet 42 of discharging body 4 all externally expose, and drives the first blowing unit 17 and the second blowing unit 18.When input whether to the first area R1 in first area R1 and second area R2 carry out air conditioning information and do not input whether the information of air conditioning is carried out to second area R2 time, control part 108 can control the first rotating mechanism 8 makes the first row of the first discharge body 2 outlet 22 externally expose, and drives the first blowing unit 17.When input whether to the second area R2 in first area R1 and second area R2 carry out air conditioning information and do not input whether the information of air conditioning is carried out to first area R1 time, control part 108 can control the second rotating mechanism 10 makes the second row of the second discharge body 4 outlet 42 externally expose, and drives the second blowing unit 18.When the information of carrying out air conditioning to first area R1 and second area R2 when whether is not all transfused to, control part 108 can maintain the first rotating mechanism 8 and the second rotating mechanism 10, and maintains the halted state of the first blowing unit 17 and the second blowing unit 18.
When the preferred temperature of first area R1 is different with the preferred temperature of second area R2, control part 108 can control at least one in the first airport governor motion 72 and the second airport governor motion 77.
On the other hand, control part 108 can control the first rotating mechanism 8 and the first blowing unit 17 according to the human body being positioned at first area R1, controls the second rotating mechanism 10 and the second blowing unit 18 according to the human body being positioned at second area R2.Control part 108 is when control first rotating mechanism 8 makes the first discharge body 2 carry out swinging rotation, can control the second rotating mechanism 10 does not make the second discharge body 4 carry out swinging and making the discharge direction of the second discharge body 4 constant, on the contrary, when control second rotating mechanism 10 makes the second discharge body 4 carry out swinging rotation, the first rotating mechanism 8 can be controlled and do not make the first discharge body 2 carry out swinging and making the discharge direction of the first discharge body 2 constant.
In addition, control part 108 also can control as follows, namely, when user moves to second area R2 from first area R1 before air regulator A, make the first discharge body 2 become stopping from the state of discharging air to first area R1, and make the second discharge body 2 discharge air to second area R2.
Fig. 9 is the air regulator of first embodiment of the present invention transverse sectional view when being in first mode, Figure 10 is the air regulator of first embodiment of the present invention transverse sectional view when being in the second pattern, Figure 11 is the transverse sectional view of the air regulator of first embodiment of the present invention when being in the 3rd pattern, and Figure 12 is the air regulator of first embodiment of the present invention transverse sectional view when being in four-mode.
Air regulator has the first modes making the first row of the first discharge body 2 outlet 22 and the second second rows outlet 42 of discharging body 4 all externally expose as shown in Figure 9.First mode is the pattern for being discharged respectively to left field R1 and right side area R2 by the air having carried out heat exchange with heat exchanger 14.
When being in first mode, as shown in Figure 9, the first rotating mechanism 8 can make the first discharge body 2 rotation make first row export 22 angles do not exposed in opposite directions and externally with rear face plate 80.When being in first mode, as shown in Figure 9, the second rotating mechanism 10 can make the second discharge body 4 rotation make second row export 42 angles do not exposed in opposite directions and externally with rear face plate 80.Now, maximum anglec of rotation when first rotating mechanism 8 can make the maximum anglec of rotation of the first discharge body 2 be less than aftermentioned second pattern, first discharges body 2 can discharge to the region of left side to the first front of discharging body 2 of discharging body 2 from first air regulated.And, maximum anglec of rotation when second rotating mechanism 10 can make the maximum anglec of rotation of the second discharge body 4 be less than aftermentioned 3rd pattern, second discharges body 4 can discharge to the region of right side to the second front of discharging body 4 of discharging body 4 from second air regulated.In a first mode, the first discharge body 2 can carry out spinning movement in the scopes making first row outlet 22 externally expose.In a first mode, the second discharge body 4 can carry out spinning movement in the scopes making second row outlet 42 externally expose.
Air regulator has to be made the first row of the first discharge body 2 outlet 22 externally expose as shown in Figure 10 and makes the second patterns that the second row outlet 42 of the second discharge body 4 is hidden.Second pattern be by the air having carried out heat exchange with heat exchanger 14 by first discharge body 2 to the left region R1 concentrate the pattern of discharge.
When being in the second pattern, as shown in Figure 10, the first rotating mechanism 8 can make the first discharge body 2 rotation make first row export 22 angles do not exposed in opposite directions and externally with rear face plate 80.When being in the second pattern, as shown in Figure 10, the second discharge body 4 can maintain and make second row export 42 with on rear face plate 80 position in opposite directions by the second rotating mechanism 10.Now, maximum anglec of rotation when first rotating mechanism 8 can make the maximum anglec of rotation of the first discharge body 2 be greater than first mode, first discharges body 2 can discharge to the broad area of left side to the first front, right side of discharging body 2 of discharging body 2 from first air regulated.In a second mode, second discharges body 4 can be in halted state, and the first discharge body 2 can export in 22 scopes externally exposed at first row and carry out spinning movement.
Air regulator has to be made the first row of the first discharge body 2 outlet 22 hide as shown in Figure 11 and makes the second row of the second discharge body 4 export 42 the 3rd patterns externally exposed.3rd pattern be by the air having carried out heat exchange with heat exchanger 14 by second discharge body 4 to the right region R2 concentrate the pattern of discharge.
When being in the 3rd pattern, as shown in figure 11, the first discharge body 2 can maintain and make first row export 22 with on rear face plate 80 position in opposite directions by the first rotating mechanism 8.When being in the 3rd pattern, as shown in figure 11, the second rotating mechanism 10 can make the second discharge body 4 rotation make second row export 42 angles externally exposed.Now, maximum anglec of rotation when second rotating mechanism 10 can make the maximum anglec of rotation of the second discharge body 4 be greater than first mode, second discharges body 4 can discharge to the broad area of right side to the second front, left side of discharging body 4 of discharging body 4 from second air regulated.In the 3rd pattern, first discharges body 2 can be in halted state, and the second discharge body 4 can export in 42 scopes externally exposed at second row and carry out spinning movement.
Air regulator has the four-modes making the first row of the first discharge body 2 outlet 22 and the second second rows outlet 42 of discharging body 4 all hide as shown in Figure 12.In four-mode, the first discharge body 2 and the second discharge body 4 can all stop.Four-mode does not go out body 2 or second by first row to discharge the pattern that body 4 externally discharges air.
When being in four-mode, as shown in figure 12, the first rotating mechanism 8 can make the first discharge body 2 maintain to make first row to export 22 with on rear face plate 80 position in opposite directions.When being in four-mode, as shown in figure 12, the second discharge body 4 can maintain and make second row export 42 with on rear face plate 80 position in opposite directions by the second rotating mechanism 10.When being in four-mode, first row outlet 22 and second row outlet 42 are in the state hidden by rear face plate 80, can reduce the foreign matter entering first row outlet 22 or second row outlet 42 from outside.
Figure 13 is the partial sectional view of the air regulator of the cutting second embodiment of the present invention.
The air regulator upper surface and second that also can comprise for covering the first discharge body 2 of the present embodiment discharges the top cover 110 of the upper surface of body 4.First rotating mechanism 118 can be arranged on top cover 110 and first discharge body 2 is rotated.First rotating mechanism 118 can be connected to the side contrary with the first suction inlet 21 side of the first discharge body 2.The function of the first rotating mechanism 118 is identical with the function of the first rotating mechanism 8 of first embodiment of the invention, and just setting position is different.Second rotating mechanism 120 can be arranged on top cover 110 and second discharge body 4 is rotated.Second rotating mechanism 120 can be connected to the side contrary with the second suction inlet 41 side of the second discharge body 4.The function of the second rotating mechanism 120 is identical with the function of the second rotating mechanism 10 of first embodiment of the invention, and just setting position is different.Except top cover 110, first rotating mechanism 118 and the second rotating mechanism 120, other structure and the effect of the present embodiment are all identical with first embodiment of the invention or similar, therefore use same reference numerals and detailed.
The space S 3 for accommodating first rotating mechanism 118 and the second rotating mechanism 120 can be formed in the inside of top cover 110.Top cover 110 can along with first discharge body 2 and second discharge the vertical direction of the length direction of body 4 longer be formed in the upside that the first discharge body 2 and second discharges body 4.
First discharge body 2 can be formed the rotating shaft 3 for being connected with the first rotating mechanism 118.Rotating shaft 3 can give prominence to be formed in the first discharge body 2 upper plate 24 on.Rotating shaft 3 can come to top cover 110 inner outstanding by the through through hole formed on top cover 110.
First rotating mechanism 118 can comprise the motor that the rotating shaft 3 of discharging body 2 with first is directly connected.
First rotating mechanism 118 can certainly comprise motor 27, driven wheel 28, driven gear 29 like that with first embodiment of the invention.Motor 27 can be arranged on top cover 110 in the mode of the inside being positioned at top cover 110.Driven wheel 28 can be arranged on the rotating shaft of motor 27.The rotating shaft 3 that driven gear 29 is configurable on the first discharge body 2 is meshed with driven wheel 28.
Second discharge body 4 can be formed the rotating shaft 5 for being connected with the second rotating mechanism 120.Rotating shaft 5 can give prominence to be formed in the second discharge body 4 upper plate 44 on.Rotating shaft 5 can come to top cover 110 inner outstanding by the through through hole formed on top cover 110.
Second rotating mechanism 120 can comprise the motor that the rotating shaft 5 of discharging body 4 with second is directly connected.
Second rotating mechanism 120 can certainly comprise motor 47, driven wheel 48, driven gear 49 like that with first embodiment of the invention.Motor 47 can be arranged on top cover 110 in the mode of the inside being positioned at top cover 110.Driven wheel 48 can be arranged on motor 47.The rotating shaft 5 that driven gear 49 is configurable on the second discharge body 4 is meshed with driven wheel 48.
First discharge body 2 and the second discharge body 4 can discharged between this body support frame 90 and top cover 110 to be placed in the state of discharging this body support frame 90.
First bottom of discharging body 2 and the second discharge body 4 can be supported by discharge this body support frame 90 respectively, and respective top can be supported by top cover 110 respectively, stably can rotate between discharge this body support frame 90 and top cover 110.
Figure 14 is the partial sectional view of the air regulator of the cutting third embodiment of the present invention.
In the present embodiment, comprising: the first heat exchanger 14A, it carries out heat exchange with the air sucked by suction panel 12; Second heat exchanger 14B, it carries out heat exchange with the air sucked by suction panel 12; First blowing unit 17, it makes the air utilizing suction panel 12 to suck by after the first heat exchanger 14A, blows this air to the first first suction inlet 21 of discharging body 2; Second blowing unit 18, it makes the air utilizing suction panel 12 to suck by after the second heat exchanger 14B, blows this air to the second second suction inlet 41 of discharging body 4.Except the first heat exchanger 14A, the second heat exchanger 14B, the first blowing unit 17, second blowing unit 18, other structure and effect identical or similar with an embodiment in first embodiment of the invention or the second embodiment, therefore use same reference numerals detailed.
The present embodiment can be the air regulator with two heat exchanger 14A, 14B, two blowing units, 17,18 and two discharge bodies 2,4.First heat exchanger 14A, the first blowing unit 17 and first discharge the function that body 2 can play the first air conditioning part, and the air in suction chamber is discharged body 2 by first after carrying out heat exchange and discharged; Second heat exchanger 14B, the second blowing unit 18 and second discharge the function that body 4 can play the second air conditioning part, separate the air in suction chamber individually and discharge body 4 by second after carrying out heat exchange to discharge with the first air conditioning part.
The present embodiment can with first embodiment of the invention or the second embodiment differently, comprise the first heat exchanger 14A, the second heat exchanger 14B, temperature at the cold-producing medium by the first heat exchanger 14A is different with the temperature of the cold-producing medium by the second heat exchanger 14B, blow to discharge after body 2 to first by the first blowing unit 17 and discharge the temperature of body 2 to the air of indoor discharge by first, can be different from by the second blowing unit 18 blow discharge body 4 to second after by the temperature of the second discharge body 4 to the air of indoor discharge.
In the present embodiment, the refrigerant flow path of the first heat exchanger 14A, the second heat exchanger 14B can be connected in parallel, and can comprise at least one expansion valve temperature of the cold-producing medium of inflow first heat exchanger 14A and the temperature of the cold-producing medium flowing into the second heat exchanger 14B being adjusted to different temperatures.In the present embodiment, can comprise to the first expansion valve of the first heat exchanger 14A the supply system cryogen and the second expansion valve to the second heat exchanger 14B the supply system cryogen, by the aperture of the aperture of the first expansion valve and the second expansion valve is adjusted to different opening, the first heat exchanger 14A can be made different with the temperature of the second heat exchanger 14B.
First blowing unit 17 can to arrange with the first heat exchanger 14A mode in opposite directions.Second blowing unit 18 can to arrange with the second heat exchanger 14B mode in opposite directions.
In the present embodiment, the wind direction of the left field R1 of indoor and right side area R2 and temperature independently can be regulated, also can control together with the first air conditioning part 19 of first embodiment of the invention and the second air conditioning part 20.
Figure 15 is the front view of the air regulator of the fourth embodiment of the present invention.
The air regulator of the present embodiment also can comprise display 130, this display 130 along with first discharge body 2 and second discharge the vertical direction of the length direction Z of body 4 longer be configured in the upside that the first discharge body 2 and second discharges body 4, except display 130, other structures and effect identical or similar to an embodiment in the 3rd embodiment with first embodiment of the invention, therefore use same reference numerals detailed.
First discharge body 2 and second discharge body 4 can respectively along vertical Z-direction longer formed.First discharge body 2 and the second discharge body 4 can configure in the mode contacted with each other, or configure in close mode of trying one's best in the lateral direction.
Display 130 can along horizontal direction longer be configured in the upside that the first discharge body 2 and second discharges body 4.Display 130 can along left and right directions X longer be configured in the upside that the first discharge body 2 and second discharges body 4.Width L3 on the left and right directions of display 130 can be equal to or slightly greater than the diameter D2 sum of diameter D1 and the second discharge body 4 of the first discharge body 2.In air regulator A, need not discharge between body 2 and the second discharge body 4 first and display is set, therefore, it is possible to it is as far as possible close to each other to make the first discharge body 2 and second discharge body 4, in this case, air regulator can be thinning in the lateral direction, thus air regulator can be made compacter.
On the other hand, the present invention is not limited to above-described embodiment, also air is discharged in incline direction X1Y, the forward direction Y in front, these 3 directions of incline direction X2Y in front, right side to the left can to make the first discharge body 2, and make the second discharge body 4 discharge air in incline direction X2Y, the forward direction Y in front, these 3 directions of incline direction X1Y in front, left side to the right, multiple enforcement can be carried out in technology category of the present invention.

Claims (28)

1. an air regulator, is characterized in that,
Comprise;
First discharges body, air is inhaled into the first suction inlet of the first discharge body and is discharged by the first row outlet of discharging body from first after space, the opening direction of above-mentioned first suction inlet is different with the opening direction that above-mentioned first row exports, and this first discharge body rotates centered by the first rotary middle spindle;
Second discharges body, air is inhaled into the second suction inlet of the second discharge body and is discharged by the second row outlet of discharging body from second after space, the opening direction of above-mentioned second suction inlet is different with the opening direction that second row exports, and this second discharge body rotates centered by the second rotary middle spindle parallel with above-mentioned first rotary middle spindle;
Discharge ontology-driven mechanism, it makes above-mentioned first to discharge body and the second discharge body independently rotates.
2. air regulator according to claim 1, is characterized in that,
Above-mentioned discharge ontology-driven mechanism comprises:
First rotating mechanism, it makes above-mentioned first to discharge body rotation;
Second rotating mechanism, it makes above-mentioned second to discharge body rotation.
3. air regulator according to claim 2, is characterized in that,
When being in above-mentioned first and discharging the air discharge mode of body, above-mentioned first rotating mechanism makes above-mentioned first to discharge body to rotate in the angle of discharging air from the left direction going out body to above-mentioned first row to be discharged the angle of air scope from body to above-mentioned first row to the right side forward direction going out.
4. the air regulator according to Claims 2 or 3, is characterized in that,
When being in above-mentioned second and discharging the air discharge mode of body, above-mentioned second rotating mechanism makes above-mentioned second to discharge body to rotate in the angle of discharging air from the right direction going out body to above-mentioned second row to be discharged the angle of air scope from body to above-mentioned second row to the left side forward direction going out.
5. air regulator according to claim 2, is characterized in that,
Above-mentioned first rotating mechanism and the second rotating mechanism make above-mentioned first to discharge body and the second maximum anglec of rotation of discharging when body discharges air to be simultaneously less than above-mentioned first and to discharge body and second one of discharging in body and discharge maximum anglec of rotation when body discharges separately air.
6. air regulator according to claim 1, is characterized in that,
The opening direction of the opening direction of above-mentioned first suction inlet and the outlet of above-mentioned first row is perpendicular,
The opening direction of the opening direction of above-mentioned second suction inlet and the outlet of above-mentioned second row is perpendicular,
The opening direction of above-mentioned first suction inlet is parallel with the opening direction of above-mentioned second suction inlet.
7. air regulator according to claim 1, is characterized in that,
Above-mentioned first discharges body comprises the hollow being formed with the outlet of above-mentioned first row, and the face contrary with above-mentioned first suction inlet of above-mentioned first discharge body is blocked,
Above-mentioned second discharges body comprises the hollow being formed with the outlet of above-mentioned second row, and the face contrary with above-mentioned second suction inlet of above-mentioned second discharge body is blocked.
8. air regulator according to claim 1, is characterized in that,
Also comprise:
Suction panel, it is for sucking air;
Heat exchanger, it is for carrying out heat exchange with the air sucked by above-mentioned suction panel;
Air-supply arrangement, it is for sucking air by above-mentioned suction panel and making air go out body and second to above-mentioned first row discharge body by blowing after above-mentioned heat exchanger.
9. air regulator according to claim 8, is characterized in that,
Above-mentioned air-supply arrangement comprises:
First blowing unit, it goes out the first suction inlet blow air of body to above-mentioned first row:
Second blowing unit, it goes out the second suction inlet blow air of body to above-mentioned second row.
10. air regulator according to claim 9, is characterized in that,
Also comprise:
First air conditioning part, it is to make not regulated by the air intake of the above-mentioned heat exchanger mode to above-mentioned first blowing unit;
Second air conditioning part, it is to make not regulated by the air intake of the above-mentioned heat exchanger mode to above-mentioned second blowing unit.
11. air regulators according to claim 1, is characterized in that,
Also comprise rear face plate, above-mentioned first discharge body and second is discharged body and is housed in above-mentioned rear face plate in the mode that can rotate, when the outlet of above-mentioned first row is positioned at above-mentioned rear face plate position in opposite directions, above-mentioned rear face plate hides the outlet of above-mentioned first row, when the outlet of above-mentioned second row is positioned at above-mentioned rear face plate position in opposite directions, above-mentioned rear face plate hides the outlet of above-mentioned second row.
12. air regulators according to claim 11, is characterized in that,
Have:
First mode, the second row outlet making the above-mentioned first first row outlet and second of discharging body discharge body is all externally exposed;
Second pattern, makes the above-mentioned first first row outlet of discharging body externally expose, the second row outlet of the second discharge body is hidden;
3rd pattern, makes the above-mentioned first first row outlet of discharging body hide, the second row of the second discharge body is exported and externally exposes;
Four-mode, the second row making the above-mentioned first first row outlet and second of discharging body discharge body exports all hiding.
13. air regulators according to claim 11, is characterized in that,
Left side in the front surface of above-mentioned rear face plate is formed with the first discharge body holding part, and above-mentioned first discharges body is contained in this first discharge body holding part in the mode that can rotate,
Right side in the front surface of above-mentioned rear face plate is formed with the second discharge body holding part, and above-mentioned second discharges body is contained in this second discharge body holding part in the mode that can rotate.
14. air regulators according to claim 13, is characterized in that,
Above-mentioned first discharge body holding part and second is discharged body holding part and is separated in the lateral direction.
15. air regulators according to claim 13, is characterized in that,
Above-mentioned first discharge body holding part and second is discharged body holding part and is recessed to form with arc-shaped.
16. air regulators according to claim 1, is characterized in that,
Also comprise and discharge this body support frame, above-mentioned first discharge body and second is discharged body and is arranged on this this body support frame of discharge in the mode that can rotate.
17. air regulators according to claim 1, is characterized in that,
Also comprise:
First discharges body display, and it discharges by above-mentioned first the temperature information that body carries out the region of air conditioning for showing;
Second discharges body display, and it discharges by above-mentioned second the temperature information that body carries out the region of air conditioning for showing.
18. air regulators according to claim 17, is characterized in that,
Above-mentioned first discharges body display is arranged on the lower position that above-mentioned first discharges the first row outlet of body,
Above-mentioned second discharges body display is arranged on the lower position that above-mentioned second discharges the second row outlet of body.
19. air regulators according to claim 1, is characterized in that,
Above-mentioned first discharge body and second is discharged body and is configured in the mode be separated in the lateral direction.
20. air regulators according to claim 1, is characterized in that,
Above-mentioned first distance of discharging between body and the second discharge body width and above-mentioned second be less than on the left and right directions of above-mentioned first discharge body discharges the width on the left and right directions of body.
21. air regulators according to claim 1, is characterized in that,
Above-mentioned first discharge body and second is discharged body and is configured in part mode in opposite directions.
22., according to claim 19 to the air regulator according to any one of 21, is characterized in that,
Also comprise display, this display is configured in above-mentioned first and discharges body and second and discharge between body, and the length direction of this display and above-mentioned first discharges body and second, and to discharge the length direction of body parallel.
23. air regulators according to claim 1, is characterized in that,
Also comprise:
First lower panel, it is positioned at above-mentioned first and discharges the downside of body, and the curvature that the curvature and first of this first lower panel discharges body is identical,
Second lower panel, it is positioned at above-mentioned second and discharges the downside of body, and the curvature that the curvature and second of this second lower panel discharges body is identical.
24. air regulators according to claim 23, is characterized in that,
Above-mentioned first lower panel is separated in the lateral direction with the second lower panel.
25. air regulators according to claim 1, is characterized in that,
Also comprise top cover, this top cover discharges the upper surface of body for covering the above-mentioned first upper surface and above-mentioned second of discharging body.
26. air regulators according to claim 25, is characterized in that,
Above-mentioned first rotating mechanism is arranged on above-mentioned top cover, and is connected to the side contrary with above-mentioned first suction inlet that above-mentioned first discharges body,
Above-mentioned second rotating mechanism is arranged on above-mentioned top cover, and is connected to the side contrary with above-mentioned second suction inlet that above-mentioned second discharges body.
27. air regulators according to claim 1, is characterized in that,
Also comprise:
Suction panel, it is for sucking air;
First heat exchanger, it is for carrying out heat exchange with the air sucked by above-mentioned suction panel;
Second heat exchanger, it is for carrying out heat exchange with the air sucked by above-mentioned suction panel;
First blowing unit, it is for sucking air by above-mentioned suction panel and making air go out the first suction inlet of body by blowing after above-mentioned first heat exchanger to above-mentioned first row;
Second blowing unit, it is for sucking air by above-mentioned suction panel and making air go out the second suction inlet of body by blowing after above-mentioned second heat exchanger to above-mentioned second row.
28. air regulators according to claim 1, is characterized in that,
Also comprise display, this display is configured in above-mentioned first and discharges body and second and discharge the upside of body, and the length direction of this display and above-mentioned first discharges body and second, and to discharge the length direction of body vertical.
CN201410083642.2A 2013-10-24 2014-03-07 Air regulator Active CN104566894B (en)

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