CN101581467A - Air conditioner - Google Patents
Air conditioner Download PDFInfo
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- CN101581467A CN101581467A CNA2008100531062A CN200810053106A CN101581467A CN 101581467 A CN101581467 A CN 101581467A CN A2008100531062 A CNA2008100531062 A CN A2008100531062A CN 200810053106 A CN200810053106 A CN 200810053106A CN 101581467 A CN101581467 A CN 101581467A
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Abstract
The invention relates to an air conditioner comprising a host part, a filter, a suction nozzle, a motor for moving the nozzle, a nozzle moving device, a control part, a lead and an automatic winding device, wherein the host part is provided with an air suction inlet and an air outlet; the filter is used for purifying air sucked by the host part; the suction nozzle is configured movably for sucking the exogenous impurities of the filter; the motor for moving the nozzle is arranged in the suction nozzle; the nozzle moving device is connected with the motor for moving the nozzle and used for moving the suction nozzle; the control part is arranged in the host part; the lead connects the control part and the motor for moving the nozzle; and in the automatic winding device, leads wind automatically. In the air conditioner, the motor for moving the nozzle is arranged in the suction nozzle and moves together with the nozzle so as to widen the moving amplitude of the suction nozzle and the cleaning range of the filter and achieve the miniaturization effect; besides, the lead for connecting the motor for moving the nozzle and the control part is automatically winded in the automatic winding device so that the influence of lead winding on other components is reduced to the minimum extent and the lead is easier to arrange.
Description
Technical field
The present invention relates to be provided with the technical field of filter by suction foreign matter with the air regulator of inlet nozzle, be that a kind of nozzle is moved with motor is arranged in the inlet nozzle specifically, and together move with inlet nozzle, connect nozzle and move the air regulator that the lead with motor and control part is twined by automatic winder.
Background technology
In general, air regulator is by compressor, condensing machine and expansion gear, rapid steamer, reaches a kind of device that freezes and heat indoor, when being provided with the clean unit that purifies air, and can be to the indoor effect of playing purification.
Be provided with the clean unit of numerous species in the air regulator, particularly, the removable filter device be set, with foreign matter in the filtered air, when air regulator moved, filter was filtered airborne foreign matter, play the effect that purifies the air of a room, clean or change by separator-filter.
When the filter identical with the above exists in a large number when foreign matter,, be necessary to be cleaned periodically or substitute, but cleaning or when substituting is the thing of an inconvenience for the user because the inlet capacity of air reduces.And when filter can not get cleaning for a long time or substitutes, just be necessary at air regulator filter cleaning means to be set, when filter cleaning device self cleaning and filtering, just increased the convenience that air regulator uses greatly.
Korea S openly speciallys permit in communique 10-2005-0114655 number, is equipped with automatic air filter cleaning function to adhere to the air regulator of indoor unit, and its formation comprises: inlet nozzle; One end of suction lead is kept tight connection, but the suction lead of smooth connection; Be connected the sucking-exhausting device of suction, discharge and air dust together with suction lead.Make inlet nozzle left the drive unit of smooth motion to the right comprise: the driving lead that is connected with the suction lead side of inlet nozzle; For arrangement drives lead, be positioned at the drive motors of suction lead one side.
But, Korea S openly speciallys permit the air regulator shown in communique 10-2005-0114655 number, being used to put in order other mobile space that drives lead is positioned at around the suction lead, under the situation that inlet nozzle side-to-side movement amplitude increases, drive lead because will extend configuration to the left and right, so the possibility of other parts increases around the driving wire influence, driving force is subjected to influencing its power and can not transmitting swimmingly of line.
In addition, Korea S openly speciallys permit in the air regulator of publication number 10-2005-0114640 indication, in order to give lead that the parts of electric be arranged on inlet nozzle provides electric power attached to sucking on the water pipe, the a plurality of lines that constitute lead are according to the direction length lengthening that sucks water pipe, be arranged at the periphery that sucks the water pipe bend, under the effect of a plurality of rings, the interval certain with sucking the water pipe maintenance fixed.
But, Korea S openly speciallys permit the air regulator of indication in communique 10-2005-0114640 number, lead and suction water pipe need be certain intervals binding operation by a plurality of rings, so operation more complicated of operation, lead is provided with according to sucking water pipe, so when the length that sucks water pipe was longer, the length of lead also will extend,, the length of lead lengthening there is no need so becoming.When inlet nozzle is not connected with the suction water pipe of free bend, the arrangement of the lead difficulty that will become.
Summary of the invention
The technical problem to be solved in the present invention provides a kind of nozzle is moved with motor and is arranged in the inlet nozzle, and together moves with inlet nozzle, connects nozzle and moves the air regulator that the lead with motor and control part is twined by automatic winder.
The technical scheme that the present invention takes for the technical problem that exists in the solution known technology is:
Air regulator of the present invention comprises: be formed with the host machine part that air suction inlet and air are discharged; To host machine part inhaled air filter purifying in addition; The inlet nozzle of the removable configuration of filter by suction foreign matter also includes: be arranged on nozzle in the inlet nozzle and move and use motor; With nozzle move link to each other with motor moving, the nozzle mobile device that inlet nozzle is moved; Be arranged on the control part of host machine part; Connecting control part and nozzle moves with the lead of motor and the automatic winder of the automatic winding of lead.
The present invention can also adopt following technical measures:
Described automatic winder is connected with lead, can move between nozzle moves with motor and control part.
Described automatic winder comprises: main body; And be connected the wheel that lead can twine or untie with main body is rotatable.
Described automatic winder also includes spring,, is wrapped on the wheel for making lead when the direction close with control part moves at inlet nozzle, and spring provides elastic force to wheel.
Advantage and good effect that the present invention has are:
In the air regulator of the present invention, nozzle moves with motor and is arranged in the inlet nozzle, and it is together mobile with inlet nozzle, so not only can make the mobile range and the cleaning filtration scope of inlet nozzle become big, can also reach the effect of miniaturization, the lead that the connection nozzle moves with motor and control part is wound in automatic winder automatically, can be reduced to minimum so lead twines the influence that reaches other parts, and the arrangement lead is also more easy.In addition, in the air regulator of the present invention, automatic winder is connected with lead, can move between nozzle moves with motor and control part, will not be fixed on host machine part by automatic winder, makes structure more simple.
Description of drawings
Fig. 1 is the structural representation of air regulator of the present invention;
Fig. 2 is an air regulator front face of the present invention structural representation when open;
Fig. 3 is an air regulator of the present invention longitudinal section schematic diagram;
Fig. 4 is an air regulator of the present invention structural representation after the framework apart in front;
Fig. 5 is the decomposition texture schematic diagram of air regulator of the present invention;
Fig. 6 is the structural representation when inlet nozzle and control part are contiguous in the air regulator of the present invention;
Fig. 7 be in the air regulator of the present invention inlet nozzle and control part away from the time structural representation;
Fig. 8 is the enlarged cross section figure of automatic winder in the air regulator of the present invention.
Critical piece symbol description in the accompanying drawing:
2: host machine part 4: air suction inlet
6: air outlet 10: cabinet
20: front framework 21: suck grid
30: deliverying unit 50: pressure fan
60: heat exchanger 70: control part
74: cleaning circuit plate 80: filter
90: filter frame 110: inlet nozzle
113: brush 120: mobile device
121: nozzle moves with motor 122: nozzle mobile device
123: driven wheel 124: fixed gear
125,126: driven gear 128: lead
128a: fixed part 128b: motor connecting portion
128c: control part connecting portion 130: suction lead assembly
135: suction lead 170: water pipe
180: cleaning pressure fan 181: dust extraction fan motor
182: dust extraction fan 184,185: dust extraction fan shell
189: lead 190: the control of dust tube
200: automatic winder 202: main body
210: wheel 220: spring
The specific embodiment
It is following that the present invention will be described in detail with reference to drawings and Examples.
Fig. 1 is the structural representation of air regulator of the present invention; Fig. 2 is an air regulator front face of the present invention structural representation when open; Fig. 3 is an air regulator of the present invention longitudinal section schematic diagram; Fig. 4 is an air regulator of the present invention structural representation after the framework apart in front; Fig. 5 is the decomposition texture schematic diagram of air regulator of the present invention.
Air regulator of the present invention, be provided with the air-supply passage portion of indoor air flows in the host machine part 2, device has the distribution portion of various power distribution units, air suction inlet 4 forms on air-supply passage portion top, air outlet 6 forms in air-supply passage portion bottom, by the air in the suction chamber of top, after inside is regulated, by the bottom once more to indoor discharge.
This air regulator is applicable to the indoor set of vertical air adjuster, and the indoor set of wall hanging type air adjuster, or the indoor set of zenith formula air regulator or the like below are that example specifically describes with the indoor set of wall hanging type air adjuster.
Fit mutually with being arranged on wall, cabinet 10 is a kind of air-supply paths that air passes through that are provided with, and the shell of various parts is installed.
Same as shown in Figure 5 in the cabinet 10, be formed with path guiding 12, its effect is that air suction inlet 4 inhaled airs are guided to air outlet 6.A side is other in the path guiding about 12 is formed with distribution portion 13, and distribution portion comprises various power distribution units such as control part 70.Below distribution portion 13 is formed example and is illustrated on path 12 right sides of leading.
The path guiding 12 that is provided with in the cabinet 10 is fan 54 paths of talking about later, include in the cabinet 10 forwards protrude about lead 15,16 and about lead between 15,16 in the middle of guiding 17.
Be provided with heat exchanger support portion 18 in the cabinet 10, play and support heat exchanger 60, form the effect of air flue.
The air regulator of present embodiment, one 16 that leads about it in 15,16 forms air flue, plays guiding/supporting role of supporting heat exchanger 60, heat exchanger support portion 18 with about lead that another one 15 combines in 15,16.
On the other hand, in the cabinet 10, fan electromotor 52 is housed in the distribution portion 13, and the motor of playing a supporting role is provided with the 14a of portion and forwards protrudes formation, the dust extraction fan shell 184,185 of burnisher is housed, and the shell of playing a supporting role is provided with the 14b of portion and forwards protrudes formation.
With Fig. 1 to shown in Figure 4 identical, front framework 20 for and cabinet 10 between form certain space, be arranged on the place ahead of cabinet 10, together forms the air-supply passage portion with cabinet 10, the distribution portion 13 of setting in the protection cabinet 10.
Suck grid 21 peristome formation above the framework 20 in front.
On the other hand, in distribution portion 13 the place ahead parts of the front face in the front framework 20, particularly cabinet 10, the control of dust tube suction inlet 24 that connects burnisher control of dust tube 190 is certain interval with front openings portion 5, forms at the fore-and-aft direction opening.
Configurable in the deliverying unit 30 have a rotatable blade 34, makes the air up-down adjustment wind direction by air outlet 6, and can open and close air outlet 6, and can be provided with the paddle motor 35 that makes blade 34 rotations; And rotatable configuration adjustment is by the slew page 36 of the air left and right sides wind direction of air outlet 6.
On the other hand, also be equipped with in the inside of host machine part 2: make air suction inlet 4 inhaled airs by behind main frame 2 inside, to the pressure fan 50 of air outlet 6 discharges; The heat exchanger 60 that host machine part 2 inner inhaled airs and cold coal have been carried out heat exchange.
Pressure fan 50 is same as shown in Figure 5, and its formation comprises as lower device: cabinet 10 particularly in the distribution portion 13 in motor fan electromotor 52 among the 14a of portion is set; Be arranged in the rotating shaft of fan electromotor 52, be arranged in the fan 54 of path guiding 12; Cover fan electromotor 52, be arranged on the motor cover 56 in the cabinet 10.
Fan 54 can be a path guiding 15,16,17, particularly prolongs the cross flow fan that forms between the left and right sides path guiding 15,16 to the left and right.
Be connected with cold coal pipe arrangement in the heat exchanger 60, so that be connected with off-premises station is not shown in the figures.
On the other hand, be provided with the control part 70 of control air regulator in the inside of main frame 2, particularly distribution portion 13, control part 70 is connected with cabinet 10 by attaching parts such as hook or screws.
On the other hand, its formation of the air regulator of present embodiment comprises: filter and purify in main frame 2 outsides or the inside when the filter 80 that hangs with foreign matter in the air; Cleaning and filtering 80 filters the burnisher of foreign matter.
And in host machine part 2, also be provided with the filter frame 90 that is used to install filter 80.
The horizontal part 92 of filter frame 90 is in the configuration of the rear of heat exchanger 60 rake 66 upper horizontal, and rake 93 disposes side by side with the place ahead rake 64 in the place ahead upside of heat exchanger 60 the place ahead rakes 64.
Heat exchanger fixed part 97 inserts between the cold coal pipe of heat exchanger 90, constitutes by protruding rib, and a side is formed with cut 97a, can make a part part of inserting between the heat exchanger 90 cold coal pipes crooked.
Cleaning device comprises: inlet nozzle 110, suction lead assembly 130, connection water pipe 170, inhalation power generating unit 180, control of dust tube 190.
The inlet nozzle 110 removable air-supply passage portion that are disposed at, when moving along with filter 90, foreign matter with filter in filter 90 is separated, suck the foreign matter that contains in the air simultaneously, inlet nozzle 110 can be certain-length at above-below direction, according to filter 90 to the left and right direction slide.Also can be certain direction and form at left and right directions, above-below direction is slided.Below, forming to being certain-length with upper and lower on the whole, the left and right directions slip is illustrated for example.
In the inlet nozzle 110, filter 80 and filter frame 90 are same form bending, and be promptly and the horizontal part of filter 80 horizontal part correspondences, identical or similar with filter 80 angle of bend with the corresponding rake of filter 80 rakes.
In the inlet nozzle 110, when inlet nozzle 110 moved, with filter 90 foreign matters and filter 90 separated components, promptly brush 113 was arranged on the relative one side of filter 90.
The inlet nozzle 110 big export department's discharge portions 115 of discharging foreign matter and air that are formed with about the bottom are four jiaos of conduit forms and protrude formation.
Burnisher also includes the mobile device 120 of mobile inlet nozzle 110.
Nozzle mobile device 122 comprises as lower device: move the driven wheel 123 that is rotated configuration with motor 121 by nozzle, a side forms in filter 80, filter frame 90, suction lead assembly 130, identical with inlet nozzle 80 moving directions, and the fixed gear 124 of certain-length is arranged; With driven wheel 123 and fixed gear 124 engagements, the driven gear 125,126 that moves along with fixed gear 124 during driven wheel 123 rotations.
Here, nozzle moves with motor 121 and is moved two aspects to the left and right for making inlet nozzle 110, be formed with rotating shaft 121b to just/despun two-way electric rotating machine.
Nozzle moves with motor 121 can directly make driven wheel 123 rotations, also can be provided with in rotating shaft 121b and make driven wheel 123 motor rotating gear 121a.
Nozzle moves with motor 121 and is connected by lead 128 with control part 70, controlled 70 control.
Driven gear 125,126 configurable one also can be between left and right every a plurality of configurations, for make inlet nozzle 110 to the left and right both direction move, be arranged at intervals with a plurality of together rotations about being preferably in.
On the other hand, inlet nozzle 110 also includes gear-box 127, in order to cover driven wheel 123 and driven gear 125,126.
In addition, in the inlet nozzle 110, sub-body 116A and sub-body 116B, and be formed with back shaft 123a, 125a, 126a at least one in the gear-box 127, with the rotation of support drive gear 123 and driven gear 125,126.
On the other hand, suction lead assembly 130 is same as shown in Figure 2, is equipped with the space be communicated with inlet nozzle 110 discharge portions 115, and is formed with the suction lead 135 that is used for the opening surface 134 that inlet nozzle 110 moves; Be connected with inlet nozzle 110, move, and stop the curtain-shaped cover member 150 of opening surface 134 according to inlet nozzle 110.
That is, inlet nozzle 110 discharge portions 115 connect suction leads 135 opening surfaces, and discharge portion 115 lower ends are configured in suction lead 135 inside, and discharge portion 115 is inserted under the state of suction leads 135 inboards, move by the length direction of opening surface.
On the other hand, curtain-shaped cover member 150 is same as shown in Figure 4, and is identical with suction lead 135, and suction lead 135 inside constitute by forming the loop that sucks path 133, in suction lead 135 opening surfaces 134, can cover the other parts except that suction lead 135 discharge portions 115.The breakthrough part 151 that connects inlet nozzle 110 discharge portions 115 forms at a side opening.
Curtain-shaped cover member 150 can be directly fixed on inlet nozzle 110 by attachment means such as bonding agents, also can be fixed on the inlet nozzle 110 by other fixed part 155.Below, to being illustrated by fixed part 155 fixing modes.
Connect foreign matter and the air of water pipe 170 guiding by suction lead assembly 130, same as shown in Figure 4, one end particularly suction lead assembly 130 is connected with the water pipe connecting portion 138 that is connected of suction lead 135, the other end is connected with inhalation power generating unit 180, see on the whole not in the air-supply passage portion, but be configured in distribution portion 13.
On the other hand, inhalation power generating unit 180 will be sent to control of dust tube 190 connecting water pipe 170, suction lead assembly 130 and inlet nozzle 110 generation inhalation powers by foreign matter and the air that connects water pipe 170 guiding according to this inhalation power.Same as shown in Figure 5, its formation comprises: cabinet 10 is the dust extraction fan motor 181 that connected by attaching parts such as screws of distribution portion 13 particularly; Be rotated the dust extraction fan 182 of connection by dust extraction fan motor 181; Combine with dust extraction fan motor 181, around the dust extraction fan shell 184,185 of dust extraction fan 182.
Dust extraction fan shell 184,185 its formations comprise: the 1st main body 184 that dust extraction fan motor 181 rotating shafts connect; Combine with the 1st main body 184, and the 1st main body 184 between form the 2nd main body 185 of air-supply path, the 1st, in 2 main bodys, be formed with the mouth of pipe 186 that guiding dust extraction fan 182 sucks in the main body corresponding with dust extraction fan 182 suction faces, protrusion is formed with and is connected the water pipe connecting portion 187 that water pipe 170 is connected.
Inhalation power generating unit 180 is disposed at cabinet 10 distribution portions 13, so that dust extraction fan motor 181 and control part 70 close settings, its discharge portion 188 is arranged on 24 rears, control of dust tube gateway of front framework 20.
Inhalation power generating unit 180 its dust extraction fan motors 181 are connected with control part 70 by lead 189, controlled 70 control.
Control of dust tube 190 is stored foreign matter as separating the foreign matter and the air of discharging in the inhalation power generating unit 180, discharges a kind of air separation and the foreign matter storage device of air, and same as shown in Figure 5, its formation comprises the casing 191 of one side open; And prevention casing 191 open surfaces, the lid 192 that combines with casing 191.
Control of dust tube 190 comprises: the suction inlet 193 that suction tool 100 particularly sucks the air of sending out in the dust extraction fan shell 184,185 and foreign matter; Discharge the air outlet 194 of the air after foreign matter separates.
Control of dust tube 190 suction inlets and air outlet are not corresponding mutually to be provided with, can make like this by suction inlet 193 inhaled airs and foreign matter and directly not discharge from air outlet 194 at once, but in control of dust tube 190 inside, meet with at least one face, foreign matter is separated with air.Two mouths are separately positioned on two vertical each other faces, and the direction upper shed at the right angle forms.
Control of dust tube 190 its underparts are structures of concentrating foreign matter, and air outlet 194 is formed at the top of control of dust tube 190.
Open formation above the casing 191 of control of dust tube 190, suction inlet 193 and air outlet 194 together are formed at casing 191, and lid 192 covers above the casing 191.
On the other hand, control of dust tube 190 forms spaced walls 195, and inside is " U " the font path, separated when being made a circulation by suction inlet 193 inhaled airs and foreign matter.
Spaced walls 195 forms with air outlet 194 direction relative spacings, protrudes from lid 192, forms at interval with casing 191 bottom surfaces.
Promptly, air suction inlet 193 inhaled airs and foreign matters are enough directly to be moved to the next door from air suction inlet 193, circuitous by spaced walls 195 lower ends, in circuitous process, than the foreign matter landing downwards of air phase counterweight, have only air to discharge from air outlet 194.
Fig. 6 is the structural representation when inlet nozzle and control part are contiguous in the air regulator of the present invention; Fig. 7 be in the air regulator of the present invention inlet nozzle and control part away from the time structural representation; Fig. 8 is the enlarged cross section figure of automatic winder in the air regulator of the present invention.
Air regulator of the present invention and Fig. 6 and shown in Figure 7 identical, inlet nozzle 110 is move left and right between position of readiness A and backward position B, connect nozzle and move lead 128 with motor 121 and control part 70 and when inlet nozzle 110 moves, be wound in automatic winder 200 and shorten, or from automatic winder 200, untie elongated.
Promptly, connect nozzle and move the lead 128 of usefulness motor 121 and control part 70 under automatic winder 200 effects, or twine or untie, the lead that its whole length L of while is a kind of variable-length, when inlet nozzle 110 and control part 70 distances are near, when promptly being in position of readiness, same as shown in Figure 6, automatic winder 200 is in maximum winding state, and is when inlet nozzle 110 promptly is in backward position B apart from control part 70 than distant positions, same as shown in Figure 7, be in the maximum state of untiing in the automatic winder 200, inlet nozzle 110 moves to position of readiness A to inferior from backward position B, and at this moment, automatic winder 200 twines automatically.
Here, automatic winder 200 is connected with lead 128 between nozzle moves with motor 121 and control part 70, and lead 128 its formations comprise: the part that is fixed on automatic winder 200 is fixed part 128a; Fixed part 128a and nozzle move with the part between the motor 121, twine or untie the motor connecting portion 128b of automatic winder 200; The control part connecting portion 128c of automatic winder 200 is twined or untied to part between fixed part 128a and the control part 70.
In addition, automatic winder 200 its structures are generally kept motor connecting portion 128b and the tight state of control part connecting portion 128c.
That is, automatic winder 200 also disposes spring 220, to provide elastic force to wheel 210.
Here, inlet nozzle 110 from position of readiness A when backward position B moves, effect lower spring 220 at inlet nozzle 110 pulling force stretches, wheel 210 is to the direction rotation of untiing lead 128, inlet nozzle 110 from backward position B when position of readiness A moves, under the effect of demobilization power, wheel 210 is rotated by the direction of twining lead 128.Formation comprises: with axle 204 fixed parts of fixedlying connected 212 that form on the main body 202; With the wheel 210 wheel fixed parts 214 of fixedlying connected.
Of the present invention Action Specification identical with last formation is as follows.
At first, control panel or the operated from a distance device of operated from a distance air regulator order or air regulator service condition or the cleaning filtration condition of coming input filter cleaning of main circuit board 72 by being arranged on air regulator, the cycle is to the signal of cleaning circuit plate 74 output filters cleaning.
During cleaning circuit plate 74 input filter clean signal, output drives nozzle and moves the control signal of using motor 121, and output drives the control signal of dust extraction fan motor 181, drives nozzle and moves with motor 121 and dust extraction fan motor 181.
Rotation driven wheel 122 when nozzle moves with motor 121 drivings, driven gear 125,126 rotates according to driven wheel 123, move according to fixed gear 124 simultaneously, inlet nozzle 110 moves by fixed gear 124 length directions direction arranged side by side according to filter 80.
Below, for just/the anti-nozzle that drives moves inlet nozzle about 110 two directions that produce with motor 121 and moves, lead 128 length variations add a concrete explanation.
When nozzle moves and is in forward mode with motor 121, rotating shaft 121b in the direction of the clock with counter clockwise direction in direction counterclockwise rotated, motor gear 121a and rotating shaft 121b are together by rotation counterclockwise, 123 direction clockwise directions opposite with motor gear 121a of driven wheel are rotated, driven gear 125,126 and driven wheel 123 opposite directions are promptly counterclockwise rotated, along with fixed gear 124 to the left direction moved.At this moment, inlet nozzle 110 and driven gear 125,126 together slide to backward position B to the left from position of readiness A.
At this moment, connect nozzle and move the lead 128 of using motor 121 and control part 70, because nozzle moves with motor 121 and inlet nozzle 110 and together moves, so move with motor 121 pullings with nozzle, promptly, in the lead 128, untie in motor connecting portion 128b and the control part connecting portion 128c trailing wheel 210, automatic winder 200 and lead 128 together to the left the position move, lead 128 moves under the effect of using motor 121 motive forces and spring 220 elastic force at nozzle, be in tight state, its entire length is also elongated gradually.
Nozzle moves with motor 121 same as shown in Figure 7, and as arriving backward position B, lead 128 is in the state of maximum length, and at this moment, automatic winder 200 is in lead 128 winding states, and the position is probably at the central part of filter frame 90.
On the contrary, when nozzle moves when being in " fall back " mode" with motor 121, the direction that rotating shaft 121b is opposite with forward mode is, clockwise direction is rotated, motor gear 121a and rotating shaft 121b are together rotated in the direction of the clock, and the direction that driven wheel 123 is opposite with motor gear 121a is promptly counterclockwise rotated; Driven gear 125,126 is opposite with driven wheel 123 directions, rotated in the direction of the clock, with fixed gear 124 to the right direction moved, at this moment, inlet nozzle 110 and driven gear 125,126 together slide to the right from backward position B to position of readiness A.
At this moment, connecting nozzle moves in the lead 128 of using motor 121 and control part 70, nozzle moves with motor 121 and is not subjected to power from lead 128 pulling, just under the recuperability of spring 220, lead 128 is pressed the direction pulling of automatic winder 200, promptly, in the lead 128, motor connecting portion 128b and control part connecting portion 128c are wrapped in the periphery of wheel 210, automatic winder 200 and lead 128 together to the right the position move, lead 128 is kept tight state under the effect of spring 220 elastic force and inlet nozzle 110 power, its length shortens on the whole.
Nozzle moves with motor 121 as arrives backward position B, and lead 128 is in the shortest state, and at this moment, automatic winder 200 is approaching with control part 70 under lead 128 winding states.
On the other hand, during with identical inlet nozzle 110 move left and right, original foreign matter separates from filter 80 by brush 113 in the filter 80, when dust extraction fan 182 rotates under the driving of dust extraction fan motor 181, water pipe 170 inner and suction lead 135 inside, and the inhalation power that generation has dust extraction fan 182 to form in the inlet nozzle 110, like this, isolated foreign matter passes through inlet nozzle 110, suction lead 135, water pipe 170, dust extraction fan shell 184,185 successively in the filter 80, to control of dust tube 190 inner transmission.
Separate in control of dust tube 190 inside with air to the control of dust tube 190 inner foreign matters that transmit, foreign matter can't rise on control of dust tube 190 tops, but concentrates on control of dust tube 190 lower inside, and air is discharged to control of dust tube 190 outsides by air outlet 194.
On the other hand, the present invention is not limited to the foregoing description, automatic winder 200 can be arranged on control part 70, also can be arranged on inlet nozzle 110 and nozzle and move with a side in motor 121 and the filter frame 90, can the technical scope under the present invention in addition various enforcement.
Claims (4)
1, a kind of air regulator comprises: be formed with the host machine part that air suction inlet and air are discharged; To host machine part inhaled air filter purifying in addition; The inlet nozzle of the removable configuration of filter by suction foreign matter is characterized in that: also include: be arranged on nozzle in the inlet nozzle and move and use motor; With nozzle move link to each other with motor moving, the nozzle mobile device that inlet nozzle is moved; Be arranged on the control part of host machine part; Connecting control part and nozzle moves with the lead of motor and the automatic winder of the automatic winding of lead.
2, air regulator according to claim 1 is characterized in that: automatic winder is connected with lead, can move between nozzle moves with motor and control part.
3, air regulator according to claim 1, it is characterized in that: automatic winder comprises: main body; And be connected the wheel that lead can twine or untie with main body is rotatable.
4, air regulator according to claim 3 is characterized in that: automatic winder also includes spring,, is wrapped on the wheel for making lead when the direction close with control part moves at inlet nozzle, and spring provides elastic force to wheel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNA2008100531062A CN101581467A (en) | 2008-05-13 | 2008-05-13 | Air conditioner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CNA2008100531062A CN101581467A (en) | 2008-05-13 | 2008-05-13 | Air conditioner |
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CN101581467A true CN101581467A (en) | 2009-11-18 |
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Family Applications (1)
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CNA2008100531062A Pending CN101581467A (en) | 2008-05-13 | 2008-05-13 | Air conditioner |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111947796A (en) * | 2020-08-17 | 2020-11-17 | 安徽徽宁电器仪表集团有限公司 | Temperature transmitter with protection function |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002357398A (en) * | 2001-05-31 | 2002-12-13 | Kato Denko:Kk | Device and method for cleaning air conditioner |
CN101099910A (en) * | 2007-07-17 | 2008-01-09 | 珠海格力电器股份有限公司 | Air conditioner indoor unit with automatic cleaning filter screen function |
CN101105308A (en) * | 2006-09-20 | 2008-01-16 | Lg电子株式会社 | Air conditioner |
CN101135491A (en) * | 2006-08-31 | 2008-03-05 | 日立空调·家用电器株式会社 | Air conditioner |
-
2008
- 2008-05-13 CN CNA2008100531062A patent/CN101581467A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002357398A (en) * | 2001-05-31 | 2002-12-13 | Kato Denko:Kk | Device and method for cleaning air conditioner |
CN101135491A (en) * | 2006-08-31 | 2008-03-05 | 日立空调·家用电器株式会社 | Air conditioner |
CN101105308A (en) * | 2006-09-20 | 2008-01-16 | Lg电子株式会社 | Air conditioner |
CN101099910A (en) * | 2007-07-17 | 2008-01-09 | 珠海格力电器股份有限公司 | Air conditioner indoor unit with automatic cleaning filter screen function |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111947796A (en) * | 2020-08-17 | 2020-11-17 | 安徽徽宁电器仪表集团有限公司 | Temperature transmitter with protection function |
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Application publication date: 20091118 |