CN101509681A - Air conductor - Google Patents
Air conductor Download PDFInfo
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- CN101509681A CN101509681A CNA2008101114273A CN200810111427A CN101509681A CN 101509681 A CN101509681 A CN 101509681A CN A2008101114273 A CNA2008101114273 A CN A2008101114273A CN 200810111427 A CN200810111427 A CN 200810111427A CN 101509681 A CN101509681 A CN 101509681A
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- air conditioner
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- 230000007246 mechanism Effects 0.000 claims abstract description 98
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/89—Arrangement or mounting of control or safety devices
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/20—Casings or covers
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01J—MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
- G01J5/00—Radiation pyrometry, e.g. infrared or optical thermometry
- G01J5/0022—Radiation pyrometry, e.g. infrared or optical thermometry for sensing the radiation of moving bodies
- G01J5/0025—Living bodies
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/20—Casings or covers
- F24F2013/207—Casings or covers with control knobs; Mounting controlling members or control units therein
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2120/00—Control inputs relating to users or occupants
- F24F2120/10—Occupancy
- F24F2120/12—Position of occupants
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Spectroscopy & Molecular Physics (AREA)
- Air Conditioning Control Device (AREA)
Abstract
According to the invention, this air conditioner includes an air regulating portion that absorbs indoor air and discharges the air to the outdoor after regulation; an infrared sensor module disposed above said air regulating portion; a control portion that controls said air regulating portion based on a detection result from said infrared sensor module, and includes a substrate; an infrared sensor disposed on said substrate; a shell combined with said substrate; and a shell rotary mechanism that rotates said shell. According to this air conditioner provided in this invention, it is provided with high precision for human body detection, also, the infrared sensor, together with the substrate, is integrated with the shell; therefore, the air conditioner is impact and simplified.
Description
Technical field
The present invention relates to a kind of air conditioner, particularly a kind of infrared ray sensing module that is used for human body scans indoor, and the air conditioner of the human body information in the sensing chamber.
Background technology
Usually, air conditioner is to suck room air and after carrying out heat exchange, again be expelled to indoor, make the space that is blended form the device of cold-room or greenhouse thus, and be provided with the governor motion of wind direction up and down of the wind direction up and down that is used to regulate tempered air and be used to regulate the left and right sides wind direction governor motion of the left and right sides wind direction of tempered air.
Disclose a kind of air conditioner in open communique 10-2003-007331 number of Korean Patent, this air conditioner comprises: front panel, and it is formed with outlet; Camera, it is arranged on the adjacent part of the outlet of above-mentioned front panel, and is used to obtain the image of subject; The photograph Control Component, it is used to control above-mentioned camera.
But, Korean Patent discloses disclosed air conditioner in communique 10-2003-007331 number, because its mechanism that is used to obtain the subject image is made of camera, therefore has the object that is difficult to distinguish human body and has the body shape of being similar to, and the problem low to the accuracy in detection of human body.In addition, the camera control assembly that is used to control camera is arranged on the other camera control panel of camera outside, therefore exist to reach densification, and need with other electric wire etc. camera and baroque problems such as the camera control panel is connected.
Summary of the invention
The present invention proposes in order to solve the problem that exists in the above-mentioned conventional art, and its purpose is to provide a kind of air conditioner with infrared sensor module that can realize simplifying and densification.
Another object of the present invention is, provides a kind of infrared sensor module by in the scanning room, exactly the air conditioner of the human body information in the sensing chamber.
Another purpose of the present invention is, a kind of becoming one of infrared sensor module that is used for human body is provided, thus easy air conditioners such as the setting of infrared sensor module or maintenance.
In order to solve above-mentioned problem, air conditioner of the present invention comprises: air mediation portion, and it is used to suck room air and is expelled to indoor after regulating; Infrared sensor module, it is arranged in the above-mentioned air mediation portion; Control part, it is according to the testing result of above-mentioned infrared sensor module, and above-mentioned air mediation portion is controlled, and above-mentioned infrared sensor module comprises: substrate; Be arranged on the infrared ray sensor on the aforesaid substrate; The housing that combines with aforesaid substrate; Make the housing rotating mechanism of above-mentioned housing rotation.
Above-mentioned infrared sensor module also comprises lens, and these lens are arranged on the above-mentioned housing, and is used to make the infrared ray that incides above-mentioned infrared ray sensor to assemble.
Distance between said lens and the above-mentioned infrared ray sensor is equivalent to the focal length of said lens.
Above-mentioned housing has the space, and this space is used to determine to incide the infrared ray amount of above-mentioned infrared ray sensor.
Above-mentioned space forms from above-mentioned infrared ray sensor its size far away more and becomes big gradually.
Above-mentioned housing comprises: external shell, and it is connected above-mentioned housing rotating mechanism, and opening is formed with above-mentioned space; Inner shell, it is arranged on the said external housing, and is provided with said lens, and the mode of separating with said lens and substrate combines with aforesaid substrate.
Above-mentioned infrared sensor module is set up with downward-sloping angle on the upper height of above-mentioned air mediation portion.
Above-mentioned housing has rotating shaft, and above-mentioned housing rotating mechanism comprises having the motor that makes above-mentioned rotating shaft drive shaft rotating.
Above-mentioned housing has rotating shaft, and above-mentioned housing rotating mechanism comprises: driven gear, and it is arranged on the above-mentioned rotating shaft; Driven wheel, itself and above-mentioned driven gear mesh; Motor, it has makes above-mentioned driven wheel drive shaft rotating.
The diameter of above-mentioned driven wheel is bigger than the diameter of above-mentioned driven gear.
Above-mentioned rotating shaft and above-mentioned driving shaft dispose side by side.
Said motor is configured to be positioned at and above-mentioned housing equal height.
Also comprise limiting member, it limits the rotation of above-mentioned housing, thus the initial point fixedly in the mechanism of said motor.
Above-mentioned limiting member is to the outstanding protuberance of the and arranged on left and right sides of above-mentioned housing, so that be stuck on the said motor.
Above-mentioned control part drives above-mentioned housing rotating mechanism, so that above-mentioned infrared ray sensor when being rotated, scans indoor; When the infrared ray sensor detects human body, utilize above-mentioned housing rotating mechanism to rotate the angle of above-mentioned infrared ray sensor, the position of human body, and control above-mentioned air mediation portion, tempered air is discharged to detected position of human body.
Above-mentioned control part is according to the testing result of above-mentioned infrared sensor module, and in the discharge wind speed of the discharge wind direction of the ON/OFF of above-mentioned air mediation portion, above-mentioned air mediation portion, above-mentioned air mediation portion at least one regulated.
Above-mentioned air mediation portion comprises exhaust unit, and it liftably is configured in the top of above-mentioned air mediation portion; Exposed when above-mentioned infrared sensor module rises with above-mentioned exhaust unit, and above-mentioned exhaust unit is hidden in the mode of air mediation portion when descending and is arranged on the above-mentioned exhaust unit.
The air conditioner of the present invention of Gou Chenging as described above, the human body by detecting the infrared ray that radiates from human body, therefore, the degree of accuracy height of human detection, and infrared ray sensor is integrally formed on housing with substrate, thereby not only can realize densification, but also can realize simplifying.
According to air conditioner of the present invention, when infrared ray sensor can rotate with housing, scan indoor, therefore have a wide advantage in the detectable zone of infrared ray sensor.
According to air conditioner of the present invention, because infrared ray sensor is being arranged in the air mediation portion with downward-sloping angle on the upper height of air mediation portion, therefore, have infrared ray sensor and not only can detect, can also detect from the nearer zone of air mediation portion from air mediation portion zone far away.
According to air conditioner of the present invention, the driving force of motor by driven wheel and driven gear be delivered to the incorporate housing of infrared ray sensor on, therefore can recently regulate the sweep speed of rotary body, particularly infrared ray sensor according to the number of teeth of driven wheel and driven gear, have the infrared ray sensor advantage of the human body information in the sensing chamber at short notice.
According to air conditioner of the present invention, because motor is arranged on the position with the housing equal height, therefore, situation when being positioned at the upside of housing or downside with drive source is compared, can reduce the whole height of infrared sensor module, even also infrared sensor module can be set thereby have narrow space, and can be with the advantage of infrared sensor module densification.
According to air conditioner of the present invention, because limiting member limits housing in mechanism, so that motor can not be rotated again, therefore, the advantage that has the anglec of rotation error that can prevent the motor that causes because of backlash etc. and bring thereupon to the identification error of position of human body.
According to air conditioner of the present invention, when detecting human body, infrared ray sensor comes the position of human body with the angle of rotation, therefore, have and need not the other position-detection sensor that is used for the human body position, also can be to the advantage of the position adjustments air-flow of human body.
Characteristics of the present invention and advantage will be easier to understand and become by the detailed description of embodiments of the invention described later with reference to following accompanying drawing.
Description of drawings
Fig. 1 is the summary construction diagram according to air conditioner one embodiment of the present invention.
Stereogram when Fig. 2 stops for the running according to air conditioner one embodiment of the present invention.
Fig. 3 is the stereogram when discharging pattern according to the dispersion among air conditioner one embodiment of the present invention.
Fig. 4 is the stereogram during according to the concentrated discharge pattern among air conditioner one embodiment of the present invention.
Fig. 5 is the exploded perspective view according to air conditioner one embodiment of the present invention.
Fig. 6 is the lower, transverse cutaway view according to air conditioner one embodiment of the present invention.
Fig. 7 is the upper lateral cutaway view when discharging pattern according to left side among air conditioner one embodiment of the present invention.
Fig. 8 is the upper lateral cutaway view when discharging pattern according to right side among air conditioner one embodiment of the present invention.
Fig. 9 is for according to the upper lateral cutaway view of running when stopping among air conditioner one embodiment of the present invention.
Figure 10 is according to the longitudinal sectional view under the state of exhaust unit decline among air conditioner one embodiment of the present invention.
Figure 11 is according to the longitudinal sectional view under the state of exhaust unit rising among air conditioner one embodiment of the present invention.
Figure 12 is the exploded perspective view of expression according to the exhaust unit of air conditioner one embodiment of the present invention.
Figure 13 is the exploded perspective view of expression according to the exhaust unit of air conditioner one embodiment of the present invention.
Figure 14 is the side view of the surveyed area of expression infrared sensor module shown in Figure 11.
Figure 15 is the summary side elevation of infrared sensor module shown in Figure 11.
Figure 16 is the stereogram of infrared sensor module shown in Figure 11.
Figure 17 is the exploded perspective view of infrared sensor module shown in Figure 16.
Figure 18 is the controlling party block diagram according to air conditioner embodiment of the present invention.
Figure 19 is the summary side elevation of expression according to another embodiment infrared sensor module of air conditioner of the present invention.
Figure 20 is the stereogram of infrared sensor module shown in Figure 19.
Figure 21 is the exploded perspective view of infrared sensor module shown in Figure 19.
Figure 22 is a housing shown in Figure 19 vertical view when being limited by stepper motor in mechanism
The specific embodiment
Below, with reference to description of drawings can the specific implementation above-mentioned purpose embodiments of the invention.
Fig. 1 is the summary construction diagram according to air conditioner one embodiment of the present invention.
As shown in Figure 1, the air conditioner according to present embodiment comprises air mediation portion 2, infrared sensor module 400 and control part 510.
Air conditioner according to present embodiment, when infrared ray sensor assembly 400 is configured to often to expose air mediation portion 2 outside, if infrared sensor module 400 detects human body, then control part 510 makes 2 runnings of air mediation portion, if infrared sensor module 400 does not detect human body, then control part 510 also can make air mediation portion 2 stop, and can according to human body have or not or movement waits the discharge wind direction of regulating air mediation portion 2 and discharge wind speed of air mediation portion 2 etc.
On the contrary, if infrared sensor module 400 is exposed the outside at air conditioner when being configured to air-conditioner operation, when stopping, air conditioner then is hidden in air conditioner inside, then after air-conditioner operation, can according to human body have or not or movement waits the discharge wind direction of regulating air mediation portion 2 and discharge wind speed of air mediation portion 2 etc.
Stereogram when Fig. 2 stops for the running according to air conditioner one embodiment of the present invention, Fig. 3 is the stereogram when discharging pattern according to the dispersion among air conditioner one embodiment of the present invention, Fig. 4 is the stereogram during according to the concentrated discharge pattern among air conditioner one embodiment of the present invention, Fig. 5 is the exploded perspective view according to air conditioner one embodiment of the present invention, Fig. 6 is the lower, transverse cutaway view according to air conditioner one embodiment of the present invention, Fig. 7 is the upper lateral cutaway view when discharging pattern according to left side among air conditioner one embodiment of the present invention, Fig. 8 is the upper lateral cutaway view when discharging pattern according to right side among air conditioner one embodiment of the present invention, the upper lateral cutaway view of Fig. 9 when stopping according to running among air conditioner one embodiment of the present invention.
In the casing 20, left board 24 and right panel portion 26 both can be vertically crooked with back board 22, also can be to arrive the distance mode far away more between the place ahead left side board 24 and the right panel portion 26 more, with respect to the bending obliquely of back board 22.
Left side lower panel 30 is configured to be configured in the bottom anterior position of the left board 24 of casing 20, be above the front part left side of base 12, left side air suction inlet 31 forms along the left and right directions opening, or along the place ahead, left side direction opening, and be provided with the left side filter hood 34 that is used to install left side filter 32.
Lower right side panel 40 is configured to be configured in the bottom anterior position of the right panel portion 26 of casing 20, be above the front part right side of base 12, right side air suction inlet 41 forms along the left and right directions opening, or along the place ahead, right side direction opening, and be provided with the right side filter hood 44 that is used to install right side filter 42.
As shown in Figure 4, in the bottom of left side lower panel 30 and lower right side panel 400, be formed with connecting rod breakthrough part 38,48 with groove shape, poroid or stair-stepping form, this connecting rod breakthrough part 38,48 is used to connect panel driving described later mechanism 159,160.
Left side air discharge portion 8 is formed with the left side portion 55 with respect to preceding board 52 and 53 inclinations of left side board between preceding board 52 and left side board 53, and is formed with left side air outlet 56 in 55 upper sheds of left side portion.
In the left side air discharge portion 8, left side portion 55 is to the interior side direction depression of air mediation portion 2, and be formed obliquely with respect to preceding board 52 and left side board 53, so that it has the S1 of leftward space portion, thereby when Left-Hand Panel 90 described later is closed, can make on Left-Hand Panel 90 the outstanding left side that possesses discharge guide portion 92, particularly left side described later discharge blade 94 etc. is inserted among the S1 of this leftward space portion and is received.
Right side air discharge portion 10 is formed with the right side rake 57 with respect to preceding board 52 and 54 inclinations of right side board between preceding board 52 and left side board 54, and is formed with right side air outlet 58 in 57 upper sheds of right side rake.
In the right side air discharge portion 10, right side rake 57 is to the interior side direction depression of air mediation portion 2, and be formed obliquely with respect to preceding board 52 and right side board 54, so that it has the S2 of rightward space portion, thereby when right panel 100 described later is closed, can make on right panel 100 the outstanding right side that possesses discharge guide portion 102, particularly the outstanding blade 104 in right side described later etc. is inserted among the S2 of this rightward space portion and is received.
The place ahead in air mediation portion 2 disposes the front panel 70 that is used to form air conditioner front face side outward appearance
In addition, be provided with in the inside of air mediation portion 2: air blast, this air blast is used to produce air-supply power, so that after room air being drawn into the inside of air mediation portion 2, be expelled to the outside of air mediation portion 2 again; Heat exchanger 75, it is used to make air and cold-producing medium from air blast to carry out heat exchange.
Air blast is arranged on the lower inside of air mediation portion 2, and the centrifugal blower that is used to suck the air at its place ahead or rear and delivers to upside, and it comprises: fan motor 76, and the axial rotary fore-and-aft direction of this fan motor 76 is set up highlightedly; Blower fan 77, its rotating shaft with fan motor 76 is connected; Fan shroud 78, it surrounds blower fan 77 and fan motor 76, and in front with the back in a side on be formed with peristome, and be formed with outlet on top; Orifice plate 79, it is configured on the peristome of fan shroud 78.
On the other hand, as Fig. 2~shown in Figure 4, in the air conditioner of present embodiment, exhaust unit 80 constitutes the inside upper part rising above air mediation portion 2 in air mediation portion 2, from the structure that descends towards the inside upper part of air mediation portion 2 that goes up of air mediation portion 2.
Figure 10 is according to the longitudinal sectional view under the state of exhaust unit decline among air conditioner one embodiment of the present invention, and Figure 11 is according to the longitudinal sectional view under the state of exhaust unit rising among air conditioner one embodiment of the present invention.
At least one side upper shed of exhaust unit 80 in the peripheric surface of front, rear, left and right is formed with air outlet 81, its bottom surface opening forms with air mediation portion 2 and is communicated with, and is formed with the bottom surface that is used for connection opening and the air flow circuit of air outlet 81 in inside.
Be provided with lifting guide 82 in air mediation portion 2, the lifting channeling conduct of 82 pairs of exhaust units 80 of this lifting guide, exhaust unit 80 is risen to the upper side position of lifting guide 82 by lifting guide 82 liftings guiding, thereby open/expose air outlet 81, perhaps descend to the inside of lifting guide 82, thereby above the covering lifting guide 82, i.e. above the air mediation portion 2, cover/hide air outlet 81 thus.
At this, lifting guide 82 is configured to the top in the space between casing 20 and upper panel 50.
As shown in Figure 4, be formed with guiding groove section 83 in the lifting guide 82 along the vertical direction more longways, when this guiding groove section 83 carries out lifting action at exhaust unit 80, guided along fixed gear 87.
Lifting guide 82 is configured to the top in the space between casing 20 and upper panel 52, be provided with upper decoration member 84 in lifting guide 82, it is used for covering lifting guide 82 and goes up side-prominent part between casing 20 and upper panel 52.
On the other hand, exhaust unit 80 carries out lifting action by elevating mechanism 85, and as shown in Figure 5, elevating mechanism 85 comprises: lift motor 86; Power transfering part 87,88, it is connected with lift motor 86, and makes exhaust unit 80 carry out lifting action according to the driving of lift motor 86.
In the exhaust unit 80, lift motor 86 is installed on exhaust unit 80, the power transfering part positioning and fixing, but also comprises on lifting guide 82 in top, the particularly positioning and fixing of air mediation portion 2: fixed gear 87, and it is made of the tooth bar that forms more longways along the vertical direction; Carrier wheel 88, it is by being arranged on the lift motor 87, and when lift motor 86 drives along with the pinion that carries out lifting in fixed gear 87 rotations constitutes.
On the other hand, as Fig. 2~shown in Figure 9, air mediation portion 2 comprises: Left-Hand Panel 90, and it is configured in the left side of air mediation portion 2 along the vertical direction more longways, and is used for opening and closing together left side air suction portion 4 and left side air discharge portion 8, and to the air channeling conduct; Right panel 100, it is configured in the right side of air mediation portion 2 along the vertical direction more longways, and is used for opening and closing together right side air suction portion 6 and right side air discharge portion 10, and to the air channeling conduct.
In the left and right side panel 90,100, the air suction portion 4,6 that opens and closes is played in its underpart, and to the suction door of the air channeling conduct that is drawn into air suction portion 4,6 and the effect that sucks guiding, its top is played and is opened and closed air outlet 8,10, and, form long along the vertical direction plate shape on the whole to the ejection door of the air channeling conduct of discharging and the effect of discharging guiding by air discharge portion 8,10.
Left and right side panel 90,100 is made of the combination 120,130,140 of a plurality of members respectively.
Be provided with in the Left-Hand Panel 90: left side discharge blade 94, when it is in open mode at Left-Hand Panel 90, in the time of between the front end of switching left side air discharge portion 8 and Left-Hand Panel 90, to discharging the air channeling conduct; Left side discharge blade driving mechanism 95, it makes 94 rotations of left side discharge blade.
Left side discharge blade driving mechanism 95 is made of left side discharge blade motor, and this left side discharge blade motor is configured to be positioned at the upside or the downside of left side discharge blade 94, and is used to make left side discharge blade 94 to rotate.
Be provided with in the right panel 100: right side discharge blade 104, when it is in open mode in right panel 100, in the time of between the front end of switching right side air discharge portion 10 and Left-Hand Panel 100, to discharging the air channeling conduct; Right side discharge blade driving mechanism 105, it makes 104 rotations of right side discharge blade.
Right side discharge blade driving mechanism 105 is made of right side discharge blade motor, and this right side discharge blade motor is configured to be positioned at the upside or the downside of right side discharge blade 104, and is used to make 104 rotations of right side discharge blade.
As shown in Figure 5, air mediation portion 2 is provided with: Left-Hand Panel driving mechanism 159, and it drives Left-Hand Panel 90; Right panel driving mechanism 160, it drives right panel.
On the other hand, in the air conditioner according to present embodiment, the medial surface that guide portion 92, left side discharge blade 94 and left side discharge blade driving mechanism 95 are configured in Left-Hand Panel 90 is discharged in its left side, and promptly right flank the time, Left-Hand Panel driving mechanism 159 is arranged on the left side of air mediation portion 2; The medial surface that guide portion 102, right side discharge blade 104 and right side discharge blade driving mechanism 105 are configured in right panel 100 is discharged on the right side, when being left surface, right panel driving mechanism 160 is arranged on the right side of air mediation portion 2, and Left-Hand Panel 90 and right panel 100 constitute with symmetrical structure on the whole.
Left-Hand Panel driving mechanism 159 comprises: the Left-Hand Panel motor, and it is arranged on the lower left side of air mediation portion 2, the i.e. left side of base 12; The Poewr transmission mechanism of connecting rod etc., it is rotated by the Left-Hand Panel motor, and is connected with Left-Hand Panel 90, when the Left-Hand Panel motor drives, makes Left-Hand Panel 90 rotations.
Right panel driving mechanism 160 comprises: the right panel motor, and it is arranged on the right side, bottom of air mediation portion 2, the i.e. right side of base 12; The Poewr transmission mechanism of connecting rod etc., it is rotated by the right panel motor, and is connected with right panel 100, when the right panel motor drives, makes right panel 100 rotations.
Figure 12 is the exploded perspective view of expression according to the exhaust unit of air conditioner one embodiment of the present invention, and Figure 13 is the exploded perspective view of expression according to the exhaust unit of air conditioner one embodiment of the present invention.
Above lifting guide 82 forms and following opening wide and the inner casing shape that opens wide along the vertical direction,, the air on the top that is delivered to air mediation portion 2 is passed through within it so that when making exhaust unit 80 subordinate falls.
Be preferably elevating mechanism 85 and be arranged on the position that lift motor 86, carrier wheel 88 and fixed gear 87 do not hinder air to flow as far as possible, promptly be arranged on four jiaos of sides of exhaust unit 80 and lifting guide 82 or at least one side in the left and right sides.
Outlet main body 210 is formed with in the bottom that lift motor 86 is inserted into and the motor holding portion that holds, and outlet main body 210 combines with motor cover 89, and this motor cover 89 covers lift motor 86 with motor holding portion.
Outlet main body 210 is after the air of the inside upper part of delivering to air mediation portion 2 is passed through, the member that its at least one direction in the upside front, rear, left and right of body is discharged, it both can have forwards with a plurality of directions of and arranged on left and right sides etc. and had disperseed the flow passage structure of discharging, also can have the flow passage structure that forwards waits a direction to discharge, below, be that example describes with situation with flow passage structure that direction forwards discharges.
In the outlet main body 210, bottom surface and open-front, and left and right, back, above be plugged, between bottom surface and front, form the stream that air passes through, and the rear side in inside has stream guide 211, the 211 pairs of air that comes up from below channeling conducts forwards of this stream guide.
When outlet main body 210 drop to the inboard of air mediation portion 2, when particularly dropping to the inside of lifting guide 82, this outlet main body 210 covers the top, particularly lifting guide 82 top of air mediation portion 2 and the last facial appearance of formation air conditioner, and be formed with electric installation portion 212 at an upper portion thereof, this electric installation portion 212 is top openings, and is used to be provided with various electric installing components such as motor or PCB; Be provided with top cover 213 in the above, above these top cover 213 coating electrical installation portions 212, and the top outward appearance of formation air conditioner.
Left and right sides wind direction adjustment means 220,230,240,250 can be the inside that the mode of center left rotation and right rotation is configured in outlet main body 210 with vertical rotating shaft, thereby the tempered air by outlet main body 210 is disposed the direction channeling conduct by it, and, spread in order to make about tempered air, separation is disposed a plurality of on left and right directions.
It is that the center is rotated with the vertical axis that in a plurality of left and right sides wind direction adjustment means 220,230,240,250 some 230 regulated driving mechanism 260 by left and right sides wind direction, other 220,240,250 are connected with left and right sides wind direction adjustment means 230 by linkage part 264, wherein, this left and right sides wind direction adjustment means 230 is rotated by left and right sides wind direction adjusting driving mechanism 260.
Left and right sides wind direction is regulated driving mechanism 260 and is made of the left and right sides wind direction governor motor that is arranged on the electric installation portion 212, and by coupling member and 212 bindings of electric installation portion such as screws.
Wind direction adjustment means 300 is formed up and down discretely by a plurality of wind direction adjusting portions 301,302 up and down up and down, and, on the two side ends of a plurality of wind direction adjusting portions 301,302 up and down, be formed with left and right side end 303,304, thereby a plurality of wind direction adjusting portion 301,302 up and down and left and right side end 303,304 form.
Wind direction adjustment means 300 is that the center is rotated with the trunnion axis up and down, side-prominent being formed with in left and right is used to connect the rotating shaft 305 of the rotating shaft of wind direction adjusting driving mechanism 310 up and down, about in opposite side on the outstanding rotating shaft 306 that is formed with, this rotating shaft 306 in the mode that can rotate by support 270 supportings.
In addition, a plurality of left and right sides of support 270 supportings wind direction adjustment means 220,230,240,250, and wind direction adjustment means 300 about the supporting, and have the joint portion 280 that combines with outlet main body 210.
To regulate driving mechanism 310 be that its rotating shaft 311 direction to the left and right is set up highlightedly between the lateral wall of the madial wall of outlet main body 210 and support 210 and be arranged on the governor motor of wind direction up and down on the lateral wall of support 210 to wind direction up and down.
The governor motor of wind direction up and down of regulating driving mechanism 310 as wind direction up and down is attached on the support 210 by the coupling member of screw etc.
On the other hand, infrared sensor module 400 is arranged on the exhaust unit 80 in the air mediation portion 2, it both can be provided in when exhaust unit 80 rises and expose, hides when exhaust unit 80 descends, also can be configured to often expose outside the exhaust unit 80 in air mediation portion 2, below, be that example describes with situation about being arranged on the exhaust unit 80.
Be preferably the top, the place ahead that infrared sensor module 400 is arranged on exhaust unit 80, particularly be arranged on the electric installation portion 212, and be configured to its part and run through the perforate 212a that forms in the front upper of exhaust unit 80.
Figure 14 is the side view of the surveyed area of expression infrared sensor module shown in Figure 11, Figure 15 is the summary side elevation of infrared sensor module shown in Figure 11, Figure 16 is the stereogram of infrared sensor module shown in Figure 11, and Figure 17 is the exploded perspective view of infrared sensor module shown in Figure 16.
At this, the amplification of amplification circuit part to stipulating from the faint voltage signal of infrared ray sensor 420 outputs is so that with respect to after noise and the voltage change amplification, export to converter section.
Converter section exports signal to control part 510, and this signal comprises the digital value to signal sampling sampling period in accordance with regulations of amplification circuit part.
In addition, be formed with the joint portion 414 that combines with the PCB module described later joint portion 442 of housing 440 on the substrate 410, describe afterwards about joint portion 414.
Usually on infrared ray sensor 420, filter is installed, this filter is by the wavelength of the infrared spectral range (7~14 μ m) corresponding with the IR wavelength zone (6.5~15 μ m) that produces from human body, and portion is provided with electrode within it, thereby will detect with voltage form according to the electric charge that variations in temperature produces, and export the signal that thereupon produces.
And housing 440 has the rotating shaft 446 as the connecting portion that is connected with housing rotating mechanism 460, so that make infrared ray sensor 420 rotations.
And, in housing 440, be formed with the space S that is used to determine incide the infrared ray amount of infrared ray sensor 70.
PCB module joint portion 442 is that example describes by situation about constituting from the rearward outstanding protuberances such as hook of housing 440.
In addition, particularly on the substrate 410, be formed with protuberance connect apertures 414 in PCB module 412, the protuberance of hook etc. is inserted into this protuberance connect apertures 414 with the form of strain and is stuck.Protuberance connect apertures 414 is separated to form across infrared ray sensor 410.
Lens joint portion 444 is that lens 430 are inserted into and the lens clamping part that is held, and is formed with the lens clamping hole bigger a little than lens 440.
Space S is to guarantee the spatial portion of opening of the identified region of infrared ray sensor 420, and according to its shape and size, decision is incident to the ultrared scope of infrared ray sensor 420.
Space S forms from infrared ray sensor 420 its size far away more and becomes gradually greatly, and forms from the rear that its aperture area broadens gradually to the place ahead more.
In addition, promptly can be that PCB module joint portion 442, lens joint portion 444 and rotating shaft 446 all are formed on the main body in the housing 440, also can be divided into a plurality of main bodys and be set up, below, the situation that is divided into a plurality of main bodys with housing 440 is that example describes.
Below, comprise inner shell 448 and combine and form the external shell 450 of the outward appearance of infrared sensor module 400 with housing 440 with this inner shell 440, and on inner shell 448, forming PCB module joint portion 442 and lens joint portion 444, the situation that externally forms rotating shaft 446 on the housing 450 is that example describes.
In the inner shell 448, with the cylindric lens joint portion 444 that is used to be provided with lens 430 that is formed with highlightedly, the front end in lens joint portion 444 is formed with and is used for clamping lens 430 and the lens combined hole of combination.
In addition, inner shell 448 is used for lens 430 and infrared ray sensor 420 are separated, and lens 430 and infrared ray sensor 420 have the front and back width of separating with the focal distance that is equivalent to lens 80.
Housing rotating mechanism 460 makes and infrared ray sensor 420 incorporate housing 440 rotations, detect infrared ray so that make the infrared ray sensor 420 wide zones of scanning, and it comprises the drive source 464 with driving shaft 462.
Drive source 464 is made of with the motor that the rotating shaft 446 of housing 440 combines driving shaft 462.Motor portion within it is provided with a plurality of gears, and connects driving shaft 462 in a plurality of gears one, in order to control the angle of driving shaft 462, is made of the stepper motor that can implement stepping input control.
Housing rotating mechanism 460 by drive source 464 driving shaft 462 and the rotating shaft 446 of housing 440 in somely be inserted into clamping in another and be connected with housing 440, and be positioned at the downside of housing 440, thereby make housing 440 rotations support housing 440 time.
Drive source 464 is connected with the electric installation portion 212 of outlet main body 210 by the coupling member of screw etc., the outstanding linking part that is formed with through hole on drive source 464 with the coupling member that is used to connect screw etc., be formed with the binding boss that is used for coupling members such as attachment screw at electric installation portion 212, housing rotating mechanism 460 connects behind the linking part by coupling members such as screws and links boss and combine and be attached on the electric installation portion 212.
In addition, as shown in figure 14, infrared sensor module 400 upward is set up with downward-sloping angle in the upper height (h) of air mediation portion 2, so that can detect the indoor wideer field that is provided with air conditioner, can also detect the field approaching, according to the zone of size decision infrared ray sensor (420) identification of the angle of inclination (θ) of infrared ray sensor 420 and space (S) (x1~x2) with air conditioner.
At first, judge when control part 510 usefulness observation variable quantity and to have or not when detecting human body, control part 510 is calculated to be the observation variable quantity in accordance with regulations with the signal of infrared sensor module 400, and will observe the benchmark variable quantity of variable quantity and setting compare, thereby judging to have or not detects human body.
Mathematical expression 1: the observation variable quantity=| V (t)-V (a) |+| V (t)-V (t-1) |
Wherein, V (t) is illustrated in the voltage of signals that the t time point observes, and V (a) is illustrated in the voltage of signals that the t-1 time point observes for the average output voltage of the signal under the idle state, V (t-1).
Thereby when the observation variable quantity was above standard variable quantity, control part 510 was judged as and detects human body, thereby air mediation portion 2 is controlled.
In addition, when the observation variable quantity surpassed the benchmark variable quantity, control part 510 was judged as and does not detect human body, and to infrared sensor module 400, particularly housing rotating mechanism 460 is controlled, so that it proceeds to detect.
On the contrary, when control part 510 judges that by infrared sensor module 400 voltage of signals and variable quantity human detection whether, to compare from the voltage of signals and the reference voltage of infrared sensor module 400 outputs, thereby whether the judgement human detection first time, when detecting human body, calculate infrared sensor module 400 voltage of signals variable quantities, and the voltage variety and the benchmark variable quantity of calculating compared, whether the judgement human detection second time thus, according to aforesaid human detection whether information, control air mediation portion 2.
At this, human detection whether result shows when not detecting human body when above-mentioned second time, and control part 510 judges once more for the first time whether human detection.
Figure 18 is the controlling party block diagram according to air conditioner one embodiment of the present invention.
As shown in figure 18, the air conditioner according to present embodiment also comprises: operating portion 500; Control part 510, it is according to the operation of operating portion 500 and the testing result of infrared sensor module 400, to fan motor 76, Left-Hand Panel driving mechanism 159, right panel driving mechanism 160, elevating mechanism 85, left side discharge blade driving mechanism 95, right side discharge blade driving mechanism 105, wind direction is regulated driving mechanism 310 and left and right sides wind direction and regulated driving mechanism 260 and control up and down.
When the mediation of turning round by operating portion 400 input refrigeration/heating/dehumidifying/purifications/air-supplies etc. is turned round when ordering, control part 510 fan motor 76 are with rotation blower fan 77, and Left-Hand Panel driving mechanism 159 and right panel driving mechanism 160 all be controlled to be open mode, so that Left-Hand Panel 90 and right panel 100 are all opened, and elevating mechanism 85 is controlled to be the rising pattern, so that exhaust unit 80 rises to the upside of air mediation portion 2.
When carrying out aforesaid control, open together simultaneously left side air suction portion 4 of Left-Hand Panel 90 and left side air discharge portion 8, open together simultaneously right side air suction portion 6 of right panel 100 and right side air discharge portion 10, exhaust unit 80 rises to the upside of air mediation portion 2, thus the air outlet 81 of open row outlet port unit 80.
And, control part 510 drives and control infrared sensor module 410, particularly housing rotating mechanism 460, so that 400 pairs of indoor scannings of infrared sensor module and human body, and, when infrared ray sensor assembly 400 detects human body, according to testing result, fan motor 75 is controlled and regulated wind speed, and to left side discharge blade driving mechanism 95, right side discharge blade driving mechanism 105, wind direction is regulated driving mechanism 310 and left and right sides wind direction and regulated driving mechanism 260 and control and regulate wind direction up and down.
That is, turn round when ordering when the mediation of turning round by operating portion 400 input refrigeration/heating/dehumidifying/purifications/air-supplies etc., control part 510 makes inhabitation people in infrared sensor module 400 sensing chamber, is the IR wavelength that human body radiates.
Below, the testing result according to the infrared sensor module 400 that constitutes as described above is described, the situation that air mediation portion 2 is controlled.
At first, when being judged as human body when being positioned at the left forward side of air mediation portion 2, control part 510 drives left side discharge blade driving mechanism 95 and is left side discharge pattern, so that left side discharge blade 94 disposes to the left forward side of air mediation portion 2; And right side discharge blade driving mechanism 105 driven be " shut " mode", so that right side discharge blade 104 covers between right side discharge portion 10 and the right panel 100; And left and right sides wind direction is regulated driving mechanism 260 drivings discharge pattern for the left side, so that left and right sides wind direction adjustment means 220,230,240,250 is rotated to the left and is disposed.
When carrying out aforesaid control to air mediation portion 2, discharge to the left forward side of air mediation portion 2 by the tempered air that air mediation portion 2 discharges, thereby tempered air concentrates on the human body in the left forward side that is positioned at air mediation portion 2.
On the contrary, when being judged as human body when being positioned at the right forward side of air mediation portion 2, left side discharge blade driving mechanism 95 driven being " shut " mode", so that left side discharge blade 94 covers between left side discharge portion 8 and the Left-Hand Panel 90; And right side discharge blade driving mechanism 105 driven be right side discharge pattern, so that right side discharge blade 104 disposes to the right forward side of air mediation portion 2; And left and right sides wind direction is regulated driving mechanism 260 drivings discharge pattern for the right side, so that left and right sides wind direction adjustment means 220,230,240,250 is rotated to the right and is disposed.
When carrying out aforesaid control to air mediation portion 2, discharge to the right forward side of air mediation portion 2 by the tempered air that air mediation portion 2 discharges, thereby tempered air concentrates on the human body in the right forward side that is positioned at air mediation portion 2.
In addition, when being judged as human body when being positioned at the place ahead of air mediation portion 2, control part 510 drives left side discharge blade driving mechanism 95 and is the place ahead discharge pattern, so that left side discharge blade 94 disposes to the place ahead of air mediation portion 2; And right side discharge blade driving mechanism 105 driven be the place ahead discharge pattern, so that right side discharge blade 104 disposes to the place ahead of air mediation portion 2; And left and right sides wind direction is regulated driving mechanism 260 drive to discharging pattern in the place ahead, so that left and right sides wind direction adjustment means 220,230,240,250 is rotated and is disposed to central authorities.
When carrying out aforesaid control to air mediation portion 2, discharge to the place ahead of air mediation portion 2 by the tempered air that air mediation portion 2 discharges, thereby tempered air concentrates on the human body in the place ahead that is positioned at air mediation portion 2.
Figure 19 is the summary side elevation of expression according to the infrared sensor module of another embodiment of air conditioner of the present invention, and Figure 20 is the stereogram of infrared sensor module shown in Figure 19, and Figure 21 is the exploded perspective view of infrared sensor module shown in Figure 19.
Shown in Figure 19~21, in the air conditioner according to present embodiment, housing rotating mechanism 460 comprises: drive source 464, and it has driving shaft 462; Poewr transmission mechanism, its driving force with driving shaft 462 is passed to the rotating shaft 446 of housing 440.
When drive source 464 is positioned at the upside of housing 440 or downside, the whole height of infrared sensor module 400 uprises, therefore, it is arranged on the height identical with housing 440, rather than the upside of housing 440 or downside, in order to be arranged on the restriction of above-mentioned sustained height and limiting member described later 480, driving shaft 462 disposes side by side with rotating shaft 460.
Drive source 464 is arranged on the periphery of housing 440, particularly is arranged on front, rear, left and right, and the situation with the rear that is arranged on housing 440 is that example describes below.
Drive source 464 is by motor, particularly constitute as the stepper motor in the embodiment of the invention.
Drive source 464 links by the electric installation portion 212 or the top cover 213 of coupling member such as screw and outlet main body 210, outstandingly on drive source 464 be formed with a plurality of linking parts 467, this linking part 467 has the through hole 466 that is used to connect coupling members 465 such as screw.
When drive source 464 links with electric installation portion 212 by coupling members such as screw 465, on electric installation portion 212, be formed with the binding boss 212b that is used to link coupling members 465 such as screw, a plurality of linking parts 467 form more longways, so that through hole 466 is positioned at around the upside of Poewr transmission mechanism, coupling members such as screw 465 connect the through hole 466 of drive sources 464, thereby link with the binding boss 212b of electric installation portion 212 on the peripheral position of Poewr transmission mechanism.
Be preferably Poewr transmission mechanism with the rotary speed of driving shaft 462 and the different mode transferring power of rotary speed of rotating shaft 446, and comprise a plurality of gears 470,472 that can change rotary speed according to the gear ratio.
Poewr transmission mechanism comprises: driven gear 470, and it is arranged on the rotating shaft 446; Driven wheel 472, it is arranged on the driving shaft 462, and meshes with driven gear 470.
In the Poewr transmission mechanism, for example, when the gear ratio of driven wheel 472 and driven gear 470 is 2: 1, the velocity ratio of driven wheel 472 and driven gear 470 becomes 1: 2, therefore, be preferably, the number of teeth of the gear ratio driven gear 470 of driven wheel 472 is many, so that can rotate quickly, and scan indoor with the housing 440 and the infrared ray sensor 420 of driven gear 470 rotations.The diameter and the number of teeth of the diameter of driven wheel 472 and gear ratio driven gear 470 are big.
Figure 22 is a housing shown in Figure 19 vertical view when being limited by stepper motor in mechanism.
As shown in figure 22, the rotation of 480 pairs of housings 440 of limiting member limits, the fixing initial point in the mechanism of stepper motor 464 thus, and by constituting from housing 440 outstanding protuberances 482,484, thereby can be stuck on the stepper motor 464.
Promptly, housing rotating mechanism 460 is when the rotation of driving shaft 462, on a plurality of gears or driven wheel 472 and driven gear of drive source 464 inside, the error of the anglec of rotation that generation causes because of backlash etc., when drive source 464 is driven and limiting member 480 when being limited in drive source 464, a plurality of gears of drive source 464 or driven wheel 472 and driven gear 470 are being fixed in the mechanism on the absolute initial point, and the anglec of rotation error of drive source 464 is able to revisal when being limited on the drive source 464 in each limiting member 480 mechanisms.
Limiting member 480 is made of left side protuberance 482 that is formed on housing 440 left sides and the right side protuberance 484 that is formed on housing 440 right sides, thereby when driving shaft 462 carries out positive and negative rotation, can fix absolute initial point respectively.
The function of the initial point of limiting member 480 in mechanism with above-mentioned fixedly stepper motor 464; also have the function of protective substrate 410 concurrently; left side protuberance 482 is separated in the left side of substrate 410 and the left side of substrate 410 and is given prominence to, and right side protuberance 484 is in the right side separation of the right side of substrate 410 and substrate 410 and give prominence to.
It is outstanding with the length at the left rear side that reaches substrate 410 that limiting member 480 forms the rear end of left side protuberance 482, and the rear end of right side protuberance 484 is outstanding with the length at the right rear side that reaches substrate 410.
In addition, as described above in the air conditioner of Gou Chenging, the drive source 464 of control part 510 positive and negative driving infrared sensor module 400, drive source 464 makes driven wheel 472 carry out positive and negative rotation, driven gear 470 with housing 440 to carry out positive and negative rotation than driven wheel 472 faster speed, the infrared ray sensor 420 that is arranged on the housing 440 carries out positive and negative fast rotation with housing 440, thereby detects IR wavelength.
At this moment, housing rotating mechanism 460 is when the positive and negative rotation of aforesaid housing 440, when the limiting member 480 that is formed at housing 440 touches drive source 464 and is stuck, be arranged on a plurality of gears of drive source 464 inside and driven wheel 472 and driven gear 470 and be fixed on the absolute initial point.
In addition, the present invention is not limited to the foregoing description, also can be to be provided with a plurality of infrared sensor module 400, and the part in a plurality of infrared sensor module 400 scans and human body the zone (being the first area) of approaching air mediation portion 2, remainder scanning in a plurality of infrared sensor module 400 is the human body away from the zone (being second area) of air mediation portion 2 relatively, and control part 510 is controlled air mediation portion 2 according to the testing result of a plurality of infrared sensor module 400.
For example, when the infrared sensor module 400 that detects from air mediation portion 2 zone (being second area) far away relatively detects human body, and when detecting infrared sensor module 400 from the nearer zone (being the first area) of air mediation portion 2 and not detecting human body, control part 510 control fan motors 76 improve its rotating speed, thereby raising wind speed, the air quantity of fan motor 76 than benchmark air quantity (for example is adjusted to, set air quantity or detect human body air quantity before) height, and wind direction adjusting driving mechanism 310 is controlled to be upwards discharge pattern up and down, so that up and down wind direction governor motion 300 by configuration with being inclined upwardly, thereby the wind direction of regulating the air of discharging from air mediation portion 2 is for making progress.And, control part 510 also can be controlled to be " shut " mode" with left side discharge blade driving mechanism 95 and right side discharge blade driving mechanism 105, so that tempered air is concentrated the zone that is expelled to away from air mediation portion 2 from the upside of air mediation portion 2 by exhaust unit 80.
On the contrary, when the infrared sensor module 400 that detects from the nearer zone (being the first area) of air mediation portion 2 detects human body, and when detecting infrared sensor module 400 from air mediation portion 2 zone (being second area) far away relatively and not detecting human body, control part 510 control fan motors 76 reduce its rotating speed, thereby reduction wind speed, the air quantity of fan motor 76 than benchmark air quantity (for example is adjusted to, set air quantity or human body air quantity before) low, and wind direction adjusting driving mechanism 310 is controlled to be downward discharge pattern up and down, so that the wind direction governor motion 300 tiltedly configuration that dipped down up and down, and the wind direction of regulating the air of discharging from air mediation portion 2 is downward.And, control part 510 also can be controlled to be open mode with left side discharge blade driving mechanism 95 and right side discharge blade driving mechanism 105, so that tempered air disperses to be expelled to from the nearer zone of air mediation portion 2 by exhaust unit 80, left side discharge portion 8 and right side discharge portion 10 from the upside of air mediation portion 2.
In addition, three above infrared sensor module 400 also can be set, thus the zone (being the first area) of butt joint near-space controlled atmosphere and portion 2, away from the zone (being second area) of air mediation portion 2 and detecting near the zone of air mediation portion 2 and away from the zone between the zone of air mediation portion 2 (i.e. the 3rd zone) subregion.
In addition, among the present invention, infrared sensor module 400 not only can be carried out left rotation and right rotation, can also constitute the twin shaft rotational structure that can be rotated up and down, at this moment, certainly carry out with an infrared sensor module about and up and down the rotation and sensing chamber in integral body.
That is, infrared sensor module 400 can comprise: first rotary driving part, and it comprises the motor that makes the direction rotation of housing 440 to the left and right and up and down; Second rotary driving part, it comprises makes the housing and first rotating part motor of another direction rotation to the left and right and up and down together, thereby when driving first rotary driving part, in direction rotation and scanning room of infrared ray sensor 420 to the left and right and up and down, and when driving second rotary driving part, in infrared ray sensor 420 another direction rotation and scanning room to the left and right and up and down, first rotary driving part when control part 510 bases detect human body and the driving condition of second rotary driving part, promptly control human body according to the input of motor, and control air mediation portion 2 and discharge tempered air to detected position.
Claims (17)
1. an air conditioner is characterized in that,
This air conditioner comprises:
Air mediation portion, it is used to suck room air and is expelled to indoor after regulating;
Infrared sensor module, it is arranged in the above-mentioned air mediation portion;
Control part, it is according to the testing result of above-mentioned infrared sensor module, above-mentioned air mediation portion is controlled,
Above-mentioned infrared sensor module comprises: substrate; Be arranged on the infrared ray sensor on the aforesaid substrate; The housing that combines with aforesaid substrate; Make the housing rotating mechanism of above-mentioned housing rotation.
2. air conditioner according to claim 1 is characterized in that above-mentioned infrared sensor module also comprises lens, and these lens are arranged on the above-mentioned housing, and is used to make the infrared ray that incides above-mentioned infrared ray sensor to assemble.
3. air conditioner according to claim 2 is characterized in that, the distance between said lens and the above-mentioned infrared ray sensor is equivalent to the focal length of said lens.
4. air conditioner according to claim 2 is characterized in that above-mentioned housing has the space, and this space is used to determine to incide the infrared ray amount of above-mentioned infrared ray sensor.
5. air conditioner according to claim 4 is characterized in that, above-mentioned space forms from above-mentioned infrared ray sensor its size far away more and becomes big gradually.
6. air conditioner according to claim 4 is characterized in that, above-mentioned housing comprises:
External shell, it is connected above-mentioned housing rotating mechanism, and opening is formed with above-mentioned space;
Inner shell, it is arranged on the said external housing, and is provided with said lens, and the mode of separating with said lens and substrate combines with aforesaid substrate.
7. air conditioner according to claim 1 is characterized in that, above-mentioned infrared sensor module is set up with downward-sloping angle on the upper height of above-mentioned air mediation portion.
8. air conditioner according to claim 1 is characterized in that above-mentioned housing has rotating shaft, and above-mentioned housing rotating mechanism comprises having the motor that makes above-mentioned rotating shaft drive shaft rotating.
9. air conditioner according to claim 1 is characterized in that,
Above-mentioned housing has rotating shaft,
And above-mentioned housing rotating mechanism comprises: driven gear, and it is arranged on the above-mentioned rotating shaft; Driven wheel, itself and above-mentioned driven gear mesh; Motor, it has makes above-mentioned driven wheel drive shaft rotating.
10. air conditioner according to claim 9 is characterized in that the diameter of above-mentioned driven wheel is bigger than the diameter of above-mentioned driven gear.
11. air conditioner according to claim 9 is characterized in that, above-mentioned rotating shaft and above-mentioned driving shaft dispose side by side.
12. air conditioner according to claim 9 is characterized in that, said motor is configured to be positioned at and above-mentioned housing equal height.
13. air conditioner according to claim 9 is characterized in that, also comprises limiting member, it limits the rotation of above-mentioned housing, thus the initial point fixedly in the mechanism of said motor.
14. air conditioner according to claim 13 is characterized in that, above-mentioned limiting member is to the outstanding protuberance of the and arranged on left and right sides of above-mentioned housing, so that be stuck on the said motor.
15. according to each described air conditioner in the claim 1~14, it is characterized in that,
Above-mentioned control part drives above-mentioned housing rotating mechanism, so that above-mentioned infrared ray sensor when being rotated, scans indoor,
When the infrared ray sensor detects human body, utilize above-mentioned housing rotating mechanism to rotate the angle of above-mentioned infrared ray sensor, the position of human body, and control above-mentioned air mediation portion, tempered air is discharged to detected position of human body.
16. air conditioner according to claim 15 is characterized in that,
Above-mentioned control part is according to the testing result of above-mentioned infrared sensor module, and in the discharge wind speed of the discharge wind direction of the ON/OFF of above-mentioned air mediation portion, above-mentioned air mediation portion, above-mentioned air mediation portion at least one regulated.
17. air conditioner according to claim 15 is characterized in that,
Above-mentioned air mediation portion comprises exhaust unit, and it liftably is configured in the top of above-mentioned air mediation portion,
Exposed when above-mentioned infrared sensor module rises with above-mentioned exhaust unit, and above-mentioned exhaust unit is hidden in the mode of air mediation portion when descending and is arranged on the above-mentioned exhaust unit.
Applications Claiming Priority (9)
Application Number | Priority Date | Filing Date | Title |
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KR1020080012193A KR101472020B1 (en) | 2008-02-11 | 2008-02-11 | air conditioner |
KR10-2008-0012193 | 2008-02-11 | ||
KR1020080012195 | 2008-02-11 | ||
KR1020080012193 | 2008-02-11 | ||
KR1020080012197A KR101469774B1 (en) | 2008-02-11 | 2008-02-11 | air conditioner |
KR1020080012195A KR101470542B1 (en) | 2008-02-11 | 2008-02-11 | air conditioner |
KR10-2008-0012197 | 2008-02-11 | ||
KR1020080012197 | 2008-02-11 | ||
KR10-2008-0012195 | 2008-02-11 |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201010202935 Division CN101865517B (en) | 2008-02-11 | 2008-06-12 | Air conductor |
Publications (2)
Publication Number | Publication Date |
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CN101509681A true CN101509681A (en) | 2009-08-19 |
CN101509681B CN101509681B (en) | 2011-11-30 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2008101114273A Expired - Fee Related CN101509681B (en) | 2008-02-11 | 2008-06-12 | Air conductor |
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KR (1) | KR101472020B1 (en) |
CN (1) | CN101509681B (en) |
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CN101509681B (en) | 2011-11-30 |
KR101472020B1 (en) | 2014-12-12 |
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