CN108870551A - A kind of mobile air-conditioner - Google Patents

Abstract

The present invention provides a kind of mobile air-conditioner, including upper layer drip tray and chassis structure, and the chassis structure includes：Suction zones, sink area, area of fetching water, water level control area further include：Water retaining ribs, for the suction zones to be isolated with the sink area；Convergence portion fetches water between area and the sink area positioned at described, and the convergence mouth close to the area of fetching water；Wheel of fetching water is provided in the convergence portion；At least one supporting rib is provided in the sink area.Mobile air-conditioner of the present invention being capable of water in reasonable distribution mobile air-conditioner on upper layer drip tray and chassis using the cooperation of upper layer drip tray and chassis, it is preferential to supply area of fetching water, and upper water can be directly fed area of fetching water, the circulation step of water is reduced, efficiency of fetching water is improved.

Description

A kind of mobile air-conditioner

Technical field

The present invention relates to air-conditioning technical fields, more particularly to a kind of mobile air-conditioner.

Background technique

For mobile air conditioner compared to traditional vertical air conditioner, hanging air conditioner figure is more compact, without installing, conveniently moving, The movable air conditioner of different location in house can be arbitrarily placed on.At the top of mobile air conditioner when outlet air, condensation can be agglomerated on top plate Water, condensed water can flow down along the side wall or panel of mobile air conditioner after assembling excessively, cause inconvenience to the user.

Mobile air conditioner has chassis, and chassis can be divided into four regions according to its water channel, respectively：Water level control area is inhaled Pool, sink area and area of fetching water.Wherein sink area is connected to suction zones, area of fetching water, and sink area is used to cache the water on chassis, The water in area of fetching water can get to condenser fin evaporation by wheel of fetching water, and the water in suction zones is gone out by pumping.Mobile air conditioner Whether the structure design on chassis is reasonable, will directly affect the service efficiency of mobile air conditioner, service life is asked using duration etc. Topic.

Summary of the invention

In view of this, the present invention is directed to propose a kind of mobile air-conditioner, with upper layer water receiving in reasonable distribution mobile air-conditioner Water on disk and chassis.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：A kind of mobile air-conditioner, including upper layer Drip tray and chassis structure, the chassis structure include：Suction zones, sink area, area of fetching water, water level control area, the chassis knot Structure further includes：Water retaining ribs, for the suction zones to be isolated with the sink area；Convergence portion is located at the Qu Hesuo that fetches water It states between sink area, and the convergence mouth close to the area of fetching water；Wheel of fetching water is provided in the convergence portion；The water level control The bottom in area is provided with water storage flume, is provided with an at least liquid-level switch above the water storage flume；The bottom of the suction zones is arranged Fluted, the groove is equipped with the filter assemblies being connected with water pump；Groove bottom of fetching water in the sink area is groove body, institute Groove body is stated along the radial direction for wheel of fetching water from both ends to intermediate recess；Wheel of fetching water is provided with above the slot of fetching water；

The upper layer drip tray includes sink and water collect plate, and the sink is arranged in and spiral case of blowing in the water collect plate Between air outlet, the water collect plate upper surface is obliquely installed, one inclination of the water collect plate and air outlet link position setting The tilt angle of end face, the inclined end face is greater than the water collect plate tilt angle, and the sink is set as trough body structure, and The bottom of gullet is provided with scupper, and guiding subassembly is arranged in the scupper, and the guiding subassembly is used for will be in the sink Condensate water guide to described fetch water fetched water on wheel above slot described in setting.

Further, the convergence portion is the high concave structure of intermediate low surrounding；The concave structure in the convergence portion is by more A convergence face is composed, and all convergence faces intersect at convergent point.

Further, the wheel construction of fetching water includes：First fetches water wheel, and second fetches water wheel, and third is fetched water wheel；Described A dozen water wheels and the described second wheel of fetching water are set to above the slot of fetching water；Third wheel of fetching water is set to the convergence portion Top；Described first wheel of fetching water fetches water that take turns rotation direction identical with described second, and the third fetches water to take turns and fetch water with described first Wheel or described second fetch water wheel rotation direction it is opposite.

Further, the convergence face is by being the convergence face one being obliquely installed, convergence face two, convergence face three and convergence Face four is successively spliced, and the angle that degree is 174 degree of -178 degree is presented between adjacent Mosaic face.

Further, the inclined direction in the convergence face one and the convergence face three is with the sink area to the convergence Portion tilts from high to low.

Further, the liquid-level switch, including：The upper of the first water storage flume is fixed in first order liquid-level switch, suspension Side, is monitored for the water level to first water storage flume；The second water storage flume is fixed in second level liquid-level switch, suspension Top is monitored for the water level to second water storage flume；When the first water storage flume water water level rise, it is described When the float of first order liquid-level switch rises arrival level-one alert locations, level-one alarm signal is triggered；When second water storage flume When the water level of water rises, the float of second level liquid-level switch floating reaches secondary alarm position, triggering secondary alarm letter Number.

Further, the mobile air-conditioner further includes a middle layer drip tray, and the guiding subassembly is set as hose, institute The one end and the scupper for stating hose are tightly connected, and the other end of the hose and are arranged on the drip tray of air-conditioning middle layer Pilot hole connection；The pilot hole is arranged through the middle layer drip tray.

Further, the guiding subassembly includes the first diversion division, the second diversion division and third diversion division, and described the One diversion division is arranged in the scupper, and the second diversion division setting is on air-supply spiral case, the third diversion division setting In air-conditioning middle layer drip tray；First diversion division is connected with second diversion division, second diversion division and the third Diversion division connection realizes that the scupper is connected to pilot hole on the middle layer drip tray；During the pilot hole runs through described Layer drip tray setting.

Further, second diversion division is arranged to cross section as U-shaped notch shape, and second diversion division Open end face and it is described air-supply spiral case circular arc edge surface be tightly connected to form the pipeline configuration with internal chamber.

Further, the center line of second diversion division and the air-supply spiral case in the direction of the width is coplanar；It is described The center line of scupper is arranged in the center line plane of second diversion division and the air-supply spiral case.

Compared with the existing technology, chassis structure of the present invention has the advantage that：

(1) suction zones are isolated using water retaining ribs with sink area, sink area is allow to store certain product Water, when condenser working, the ponding of sink area can preferentially converge to area of fetching water, and ponding is got to condensation by fetching water wheel On the fin of device.On the other hand, using the design of water retaining ribs, ponding can be effectively prevented and flow backward to suction zones, to cause to beat When water wheels work, the hydropenic phenomenon of the condensation in area of fetching water generates the unnecessary waiting time；The setting in the convergence portion, It is fetched water before area described in ponding entrance, ponding is preferentially introduced into the convergence portion；The water retaining ribs are matched with the convergence portion It closes, guiding function can be played to the water on chassis, it is preferential to flow to area of fetching water；

(2) inclined direction in the convergence face one and the convergence face three with the sink area to the convergence portion by height To low dip, and then by the water at the sink area, vector preferably to the convergence portion, so make water on chassis preferentially to It is flowed at the area of fetching water；

(3) setting of the guiding subassembly guarantees that the condensed water in first sink directly passes through the guiding subassembly Guidance is into the pilot hole, and by the guide frame of the pilot hole directly by condensate water guide to being located at the movement The described of air-conditioning bottom fetches water on wheel, causes the atomization of condensed water, consequently facilitating in the mobile air conditioner condensed water discharge；

(4) pass through the structures such as water retaining ribs, convergence portion, wind guide component, water storage flume, the groove being arranged on chassis structure, it can Water on chassis is reasonably planned, condensed water is effectively dispatched and preferentially flows to area of fetching water from sink area, next flows to water level Control zone finally flows to suction zones, and in hypervolia, carries out classifying alarm, extends and uses the time, reduces downtime； Increase the reasonable structure on chassis, improve refrigerating efficiency, increases and use the time；

(5) cooperation of upper layer drip tray and chassis is used, it being capable of upper layer drip tray and bottom in reasonable distribution mobile air-conditioner Water on disk, it is preferential to supply area of fetching water, and upper water can be directly fed area of fetching water, the circulation step of water is reduced, raising is beaten Water efficiency.

Detailed description of the invention

The attached drawing for constituting a part of the invention is used to provide further understanding of the present invention, and of the invention is schematic Examples and descriptions thereof are used to explain the present invention, does not constitute improper limitations of the present invention.In the accompanying drawings：

Fig. 1 is the overall schematic of chassis structure of the present invention；

Fig. 2 is the partial schematic diagram one of chassis structure of the present invention；

Fig. 3 is multiple water retaining ribs structural schematic diagrams；

Fig. 4 is plug division structural schematic diagram；

Fig. 5 is water retaining ribs structural schematic diagram；

Fig. 6 is the partial schematic diagram two of chassis structure of the present invention；

Fig. 7 is the schematic diagram in convergence portion of the present invention；

Fig. 8 fetches water for the present invention and takes turns schematic view of the mounting position；

Fig. 9 is the structural schematic diagram one of slot of the invention of fetching water；

Figure 10 is the structural schematic diagram two of slot of the invention of fetching water；

Figure 11 is the structural schematic diagram of wheel of the invention of fetching water；

Figure 12 is the top view state one of wheel of the invention of fetching water；

Figure 13 is the top view state two of wheel of the invention of fetching water；

Figure 14 is the overall schematic of the clamp device of liquid-level switch of the present invention；

Figure 15 is the schematic diagram of screw pole of the present invention；

Figure 16 is liquid-level switch of the present invention and the support bracket fastened connection schematic diagram of liquid-level switch；

Figure 17 is the overall schematic of liquid-level switch of the present invention；

Figure 18 is water level control area of the present invention schematic diagram；

Figure 19 is multi-stage level switch schematic diagram one of the present invention；

Figure 20 is multi-stage level switch schematic diagram two of the present invention；

Figure 21 is the schematic diagram of float in the present invention；

Figure 22 is the structural schematic diagram of discharge structure of the present invention；

Figure 23 is chassis structure groove location schematic diagram of the present invention；

Figure 24 is filter assemblies schematic diagram of the present invention；

Figure 25 is enlarged drawing at the A of Figure 23；

Figure 26 is water draining beak structural schematic diagram of the present invention；

Figure 27 is present invention draining mouth structure scheme of installation；

Figure 28 is the schematic diagram of water draining beak notch of the present invention；

Figure 29 is the notched water draining beak scheme of installation of the present invention；

Figure 30 is the structural schematic diagram of the external Notched specimen of the present invention；

Figure 31 is the schematic diagram of supporting rib of the present invention；

Figure 32 is the structure chart of mobile air conditioner described in the embodiment of the present invention；

Figure 33 is the top view of upper layer drip tray described in the embodiment of the present invention；

Figure 34 is the structure chart of the ponding component of the embodiment of the present invention 11；

Figure 35 is the structure chart of wind deflector described in the embodiment of the present invention；

Figure 36 is the structure chart of the ponding component of the embodiment of the present invention 12；

Figure 37 is the structure chart of the ponding component of the embodiment of the present invention 13；

Figure 38 is the structure chart of the scupper of the embodiment of the present invention 14；

Figure 39 is the structure chart of the scupper of the embodiment of the present invention 15；

Figure 40 is the structure chart of the drainage component of the embodiment of the present invention 16；

Figure 41 is the structure chart of the drainage component of the embodiment of the present invention 17；

Figure 42 is the structure chart of the drainage component of the embodiment of the present invention 18；

Figure 43 is the structure front view of guiding subassembly described in the embodiment of the present invention；

Figure 44 is the structural side view of guiding subassembly described in the embodiment of the present invention；

Figure 45 is the structure chart of connection component described in the embodiment of the present invention.

Description of symbols：

The suction zones 321-, the sink area 322-, 330- fetch water area, 313- water level control area, 323- groove, and 3925- connection is logical Road, 3926- water retaining ribs, the first water retaining ribs of 325-, the second water retaining ribs of 326-, 327- third water retaining ribs, 328- fourth gear water muscle, 329- fifth gear water muscle, the plug division 320-, 39261- notch；331- convergence mouth, 332- convergence portion, 333- convergent point, 334- enter The mouth of a river, 335- water bloking piece, 336- converge face one, and 337- converges face two, and 338- converges face three, and 339- converges face four, 3310- gear Water-bound, the sink area 322-；315- fetches water wheel, and 316- fetches water slot, and 317- fetches water motor, 318- groove body, 319- step structure, 3110- first flap, 3111- second flap, 3112- the first slot section, 3113- the second slot section；3911- screw pole, 3912- liquid Bit switch fixes bracket, 3913- liquid-level switch, 39111- huge pillar, 39112- pillar, 39113- threaded hole, 39121- connection Foot, 39122- through-hole, the side 39123-, 39124- extend outwardly structure, 39131- connecting rod, and 3921- first order liquid level is opened It closes, the second level 3922- liquid-level switch, 3943- liquid-level switch bracket one, 3944- liquid-level switch bracket two, 3945- screw pole One, 3946- screw pole two, the first water storage flume of 3947-, the second water storage flume of 3948-, 3925- interface channel, 3926- water retaining ribs, 39261- notch, 3930- multi-stage level switch, 3931- floating ball, 3932- level-one float, 3933- second level float, 3934- three-level Float, 3935- snap ring, 3936- guide rod, 3937- guide rail, 3938- connecting rod, the fixed bracket of 3939- multi-stage level switch, Mono- ring of 39311-, 39312- guide groove, bis- ring of 39313-；361- filter assemblies, 362- water pump, 363- drain mouth structure, 364- First connecting pipe, the second connecting pipe of 365-, 366- filter, 367- fixation kit, 368- connection ring set, the face 3671- Lid, 3672- fixed arm, 3673- hollow pipeline, 3610- mounting rack, 3611- water cover, 3613- fixed plate, 3614- discharge outlet connect Head, 3615- fixing groove, 3616- location hole, the positioning region 3617-, 341- water draining beak ontology, the external water outlet of 342-, outside 346- Connect Notched specimen, 347- diversion column, 633- supporting rib；

The upper layer 1- drip tray；The middle layer 2- drip tray；3- chassis structure；4- evaporator；5- condenser；11- air-supply spiral case； 12- air outlet；13- wind deflector；14- shaft；15- water collect plate；16- inclined end face；17- ponding component；18- drainage component； 131- guiding rib；The first sink of 171-；172- water fender；173- conducting element；174- scupper；The second sink of 175-；176- draws Water plate；177- bottom plate；178- guidance set；The cofferdam 179-；181- drainage plate；182- water blocking component；183- drainage hole；184- Gib block；185- communication port；186- deflector hole；The first diversion division of 191-；The second diversion division of 192-；193- third diversion division； 194- connection component；1741- downpipe；1742- notch；1743- tooth mouth；The first guide pipe of 1781-；1782- second is oriented to Pipe；1791- notch；1941- first connecting portion；1942- second connecting portion；1943- card slot；1944- extension.

Specific embodiment

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

Embodiment one

The present invention provides a kind of mobile air-conditioner, and mobile air-conditioner includes a chassis structure, in conjunction with shown in Fig. 1 to Fig. 5, Chassis structure includes：Suction zones 321, water level control area 313, sink area 322 and area 330 of fetching water；Chassis structure further includes：

A connection channel 3625 is set between suction zones 321 and sink area 322, is used for suction zones 321 and sink area 322 connection；

An at least water retaining ribs 3926, the cross section for being parallel to interface channel are set to the axial any position of interface channel 3925 It sets, for suction zones 321 to be isolated with sink area 322.

Suction zones 321 are isolated with sink area 322 using water retaining ribs 3926, store sink area 322 centainly Ponding, when condenser working, the ponding of sink area 322 can preferentially converge to area of fetching water, and by fetching water, wheel beats ponding Onto the fin of condenser, ponding also can be effectively prevented and flow backward to suction zones 321, thus fetch water take turns work when, avoid beat The hydropenic phenomenon of the condensation in pool 321 occurs, and brings the unnecessary waiting time.

Preferably, the bottom setting fluted 323 of suction zones 321.The advantages of this arrangement are as follows suction zones 321 are arranged Fluted 323, when ponding is excessive, groove 323 can be with a part of ponding of valid cache.

Preferably, water retaining ribs 3926 include two kinds of arrangement forms, first, water retaining ribs 3926 and interface channel 3925 are one A entirety, water retaining ribs 3926 do not need separately fabricated, reduce manufacturing procedure, avoid the separately fabricated institute of water retaining ribs 3926 The additional cost waste of bring.Second, water retaining ribs 3926 are to be arranged on absolute construction, with the interface channel 3925 At least one plug division 320 cooperation, by the way that the water retaining ribs 3926 to be inserted into different plug divisions 320, to change suction zones 321 with the area size of sink area 322, adjust reservoir storage.

Embodiment two

Mobile air-conditioner as described above, the present embodiment is different from place and is, in conjunction with shown in Fig. 6, Fig. 7, chassis Structure further includes：Convergence portion 332 is used to connect sink area 322 and area 330 of fetching water, is located at fetch water area 330 and sink Between area 322, and the convergence mouth 331 close to area 330 of fetching water；

Convergence portion 332 is the high concave structure of intermediate low surrounding, the advantages of this arrangement are as follows, enter in ponding and fetches water Before area 330, ponding is preferentially introduced into convergence portion 332, ponding is made to cache a part in convergence portion 332；Meanwhile alleviating ponding Into the speed in area 330 of fetching water, the load for wheel of fetching water is reduced.

Preferably, the concave structure in convergence portion 332 is composed of multiple convergence faces, convergence face includes：Convergence face one 336, face 2 337, convergence face 3 338 and convergence face 4 339 are converged, four convergence faces are combined and spliced in the counterclockwise direction to be formed, Convergence face is to be obliquely installed, and certain angle is rendered as between adjacent convergence face, and all convergence faces intersect at convergent point 333.The advantages of this arrangement are as follows making ponding before entering area 330 of fetching water, a part of product can be cached in convergence portion 332 Water；Meanwhile the speed that ponding flows into area 330 of fetching water can be slowed down.Further, the degree of the angle between adjacent convergence face Number is 174 degree of -178 degree.The advantages of this arrangement are as follows preventing the angle between adjacent convergence face too big, make entirely to converge Face is rendered as plane, cannot effectively cache ponding；On the other hand, prevent the angle between adjacent convergence portion 332 too small, Cause entire convergence portion 332 too deep, caching ponding is too many, prevents ponding from timely entering area 330 of fetching water.

Preferably, convergence face 1 and converge face 3 338 inclined direction with sink area 322 to convergence portion 332 by height To low dip, and then by the water at sink area 322, vector preferably to convergence portion 332, and then make water on chassis preferentially to beating It is flowed at pool 330.

Preferably, convergence face is plane, all convergence faces intersect at convergent point 333.The advantages of this arrangement are as follows side Just the machine-shaping in face is converged.

Preferably, convergence face is arcwall face, all convergence faces intersect at convergent point 333, flow into convergence portion 332 to ponding Generate preferably buffering.In turn, the concave structure in convergence portion 332 is rendered as round bottom pot shape structure, and ponding is made to enter area of fetching water Before 330, a part of ponding can be cached in convergence portion 332；Meanwhile the speed that ponding flows into area 330 of fetching water can be slowed down. In addition, the design of round bottom also avoids the generation for the phenomenon that sediment accumulation is difficult to clean on one point.

Preferably, water bloking piece 335 is provided between convergence portion 332 and area 330 of fetching water, by convergence portion 332 and area of fetching water 330 separate, and water bloking piece 335 offers convergence mouth 331, and convergence mouth 331 is mutually staggered with 333 position of convergent point, to avoid accumulating Water flows directly into area 330 of fetching water from convergent point 333, plays the role of preferable ponding caching.

Preferably, being provided with water-retaining structure 3310 between convergence portion 332 and sink area 322, water-retaining structure is offered into water Mouth 334, water inlet 334 is mutually staggered with 333 position of convergent point, and water inlet 334 and convergence 331 position of mouth mutually stagger, from And ponding is made to first pass through convergent point 333, convergence mouth 331 then is flowed into from convergent point 333, delays ponding in convergent point 333 Punching avoids ponding from flowing directly into convergence mouth 331.

Preferably, being provided with water-retaining structure 3310 around convergence portion 332, water-retaining structure 3310 is by sink area 322 and converges Portion 332 separates, and water-retaining structure 3310 offers multiple water inlets 334, and water inlet 334 is set to the opposite remittance of 332 water level of convergence portion The higher position of accumulation 333, water inlet 334 are staggered with convergent point 333, and water inlet 334 and convergence mouth 331 are staggered.In this way Setting is advantageous in that, ponding is made smoothly to enter convergence portion 332 from sink area 322.

Embodiment three

Mobile air-conditioner as described above, the present embodiment are different from place and are that mobile air-conditioner further includes a dozen Water-bound is used to write condensed water to condenser fin freely and easily, and in conjunction with shown in Fig. 8 to Figure 10, water fetching structure includes：A dozen Sink 316, is used for accumulating condensed water；At least a dozen water wheels 315, at least part of be placed in are fetched water in slot 316, and will The interior condensed water gathered of slot 316 of fetching water is write freely and easily；A dozen hydroelectric machines 317, wheel 315 is connect with fetching water, and drives wheel of fetching water 315 rotations；Fetch water 316 bottom surface of slot be groove body 318, groove body 318 along fetch water wheel 315 radial direction from both ends to intermediate recess, Groove structure low between formation two sides senior middle school in turn；The structure type of groove body 318 can make the condensed water for flowing into groove body 318 poly- Collection is conducive to the ponding dead angle for eliminating slot 316 of fetching water, avoids the idle waste of partial condensation water, make in the bottom of groove body 318 Wheel 315 of fetching water can as far as possible get to the condensed water assembled in groove body 318 on the fin of condenser, improve wheel 315 of fetching water Working efficiency；

Preferably, the groove structure of groove body 318 is the arcuate structure mutually agreed with 315 shapes of wheel of fetching water.

Groove body 318 includes the first slot section 3112 and the second slot section 3113；First slot section 3112 is the smooth ramp tilted down Face, so that condensation water energy rapidly flows into slot of fetching water；Second slot section 3113 is the arc mutually agreed with 315 shapes of wheel of fetching water Curved surface, the bottom end of the first slot section 3112 and one end of the second slot section 3113 are smoothly connected, and the lowermost end of the first slot section 3112 is higher than The lowermost end of second slot section 3113, the bottom of 3113 curved surface of the second slot section are in the lowest order of opposite groove body 318；

Preferably, the circumferential shape of the second slot section and the circumferential shape for wheel 315 of fetching water are adapted, wheel 315 of fetching water is mounted on Above the bottom surface of second slot section, so that fetching water for wheel 315 of fetching water is more efficient；

Preferably, the one end of the second slot section 3113 far from the first slot section 3112 is concordantly or higher than the second slot section 3113 The other end, with the rotation for wheel 315 of fetching water, condensate liquid can be flowed directly into the second slot section 3113 of groove body 318, and assemble In bottom end；

Two kinds of slot sections match, and while allowing condensed water preferably to flow into groove body 318, eliminate groove body 318 It fetches water dead angle, so that the structural behaviour for slot 316 of fetching water is more preferable.

Slot 316 of fetching water further includes a step structure 319, and the top of step structure 319 is additionally provided with a buffering table top, table top To fetching water, 316 side of slot slightly extends, and is connected with groove body 318, is gathered in groove body 318 convenient for condensed water；

Preferably, buffer table face includes first side and second side, first side and second side are located at buffering table top Opposite two sides, first side are inclined outwardly with second side, and second side is connected with groove body 318.

The recess two sides of groove body 318 are additionally provided with first flap 3110 and second flap 3111, first flap 3110 and second Baffle 3111 is higher than slot 316 of fetching water, and first flap 3110 and second flap 3111 can limit the circulation path of condensed water；

Preferably, the top of first flap 3110 and second flap 3111 is equipped with one or more notches, it is convenient for condensed water It is gathered in slot 316 of fetching water.

First flap and second flap are relative to being all Yi Shuitai below the another side of groove body 318, and water platform is the bottom of relative to The vertical height of disk is higher than groove body, and the notch depth and water platform table top flush of first flap and second flap are convenient for liquid flow Enter in groove body.

The installation site for corresponding to wheel 315 of fetching water of second flap 3111 is equipped with groove, and groove bottom end is to lower recess Cambered surface, groove are used to accommodate the connecting shaft of motor 317 of fetching water, connect axis connection and fetch water wheel 315；

Preferably, the shape of groove and the circumferential shape of the connecting shaft for motor 317 of fetching water are adapted.

Water fetching structure, which is set to, fetches water in area 330, and area 330 of fetching water is between suction zones 321 and water level control area 313, Area 330 of fetching water is engaged with sink area 313；

Condenser is housed, condenser includes at least two fins, and wheel 315 of fetching water, which is mounted on, to be corresponded to above sink area 322 Between two fins, wheel 315 of fetching water gets to the condensed water gathered in groove body 318 on two fins, can accelerate condensed water Evaporation, while making structural arrangement even closer, saved space.

Preferably, 315 quantity of wheel of fetching water are one in the present embodiment.

Example IV

Mobile air-conditioner as described above, the present embodiment are different from place and are, in conjunction with shown in Figure 11, Figure 12, beat Water wheels 315 include first fetching water wheel 3151, and second fetches water wheel 3152, and third is fetched water wheel 3153；

First fetches water wheel 3151 and the second wheel 3152, third wheel 3153 of fetching water of fetching water is all set in the top of slot 316 of fetching water.

Motor 317 of fetching water fetches water wheel 3151 with first via a first rotating shaft 3174 and the second wheel of fetching water 3152 is connect, the One shaft 3174 drives first to fetch water wheel 3151 and the second wheel of fetching water 3152 coaxially rotates in same direction；

First rotating shaft 3174 is connect via gear set with the second shaft 3175；Second shaft 3175 drives third to fetch water wheel 3153 rotations.Second shaft 3175 via gear set transmission, and then it is opposite with 3174 rotation direction of first rotating shaft；Then, A dozen water wheels 3151 are identical with the second 3152 rotation directions of wheel of fetching water, and third wheel 3153 of fetching water fetches water with first and takes turns 3151 or the Two fetch water wheel 3152 rotation direction it is opposite.

Preferably, the second shaft 3175 is coaxially disposed with first rotating shaft 3174.

Preferably, gear set includes the first cone tooth 3171, the second cone tooth 3172, triconodont 3173；First cone tooth 3171 It connect and rotates in same direction with first rotating shaft 3174；Second cone tooth 3172 connect and rotates in same direction with the second shaft 3175；Third cone Tooth 3173 is engaged with the first cone tooth 3171 and the second cone tooth 3172 simultaneously, to make the first cone tooth 3171 and the second cone tooth 3172 Rotation direction it is opposite.

Third wheel 3153 of fetching water fetches water wheel 3151 with first or the second wheel of fetching water 3152 rotates in the opposite direction, being capable of general Condensed water is write freely and easily in the opposite direction, increases the contact area of condenser and condensed water, improves volatilization efficiency.

As another implementation of the present embodiment, in conjunction with shown in Figure 13, wheel 315 of fetching water includes first fetching water wheel 3151, second fetches water wheel 3152；And second shaft 3175 and the non-coaxial setting of first rotating shaft 3174；First cone tooth 3171 and the Plug tap tooth 3172 is intermeshed, to make first to fetch water wheel 3151 and the second wheel of fetching water 3152 rotates in the opposite direction；

Preferably, the first cone tooth 3171 is an integral structure with first rotating shaft 3174；Second cone tooth 3172 and the second shaft 3175 are an integral structure；

Unlike those described above, the first cone tooth 3171 and first rotating shaft 3174 are split type structure；Second cone tooth 3172 and the Two shafts 3175 are split type structure.

Embodiment five

Mobile air-conditioner as described above, the present embodiment is different from place and is, in conjunction with shown in Figure 13 to 20, moves Dynamic air conditioner further includes an at least liquid level prior-warning device, is monitored for the ponding to chassis water level control area, liquid level early warning Device includes：

Water storage flume, including the first water storage flume 3947 and the second water storage flume 3948 generate in the process for collecting operation of air conditioner Ponding；

Liquid-level switch, including：First order liquid-level switch 3921, suspension are fixed on the top of the first water storage flume 3947, are used for The water level of first water storage flume 3947 is monitored；The second water storage flume 3948 is fixed in second level liquid-level switch 3922, suspension Top is monitored for the water level to the second water storage flume 3948；

First order liquid-level switch 3921 and second level liquid-level switch 3922 trigger the height difference of water level when alarming, thus Guarantee after first order liquid-level switch 3921 triggers alarm, guarantee has sufficient time to respond air-conditioning, issues in time Adjustment order.It is different with the opportunity of the triggering alarm of second level liquid-level switch 3922 by first order liquid-level switch 3921, to realize Control to mobile air conditioner operating.When the water level rising of 3947 water of the first water storage flume, the float of first order liquid-level switch 3921 When the arrival level-one alert locations that float, level-one alarm signal is triggered, breeze fan revolving speed is slack-off, and condenser temperature increases, water removal Efficiency enhancing；When the water level of 3948 water of the second water storage flume continues to rise, float floats to secondary alarm position, triggers again Alarm signal, mobile air conditioner are shut down.

Preferably, first order liquid-level switch 3921 is connected by connecting rod one with the fixed bracket 1 of liquid-level switch, First order liquid-level switch 3921 is set to hang the top for being fixed on the first water storage flume 3947, second level liquid-level switch 3922 passes through company Extension bar two is connected with the fixed bracket 2 3944 of liquid-level switch, and the suspension of second level liquid-level switch 3922 is made to be fixed on the second water The top of slot 3948 facilitates installation and removal to repair, keeps away to efficiently avoid being directly connected to for liquid-level switch and chassis Exempt from unnecessary trouble.

Preferably, level-one alert locations are different from the height of secondary alarm position.The advantages of this arrangement are as follows guaranteeing There is certain time interval between level-one alarm and secondary alarm, after making the triggering alarm of air-conditioning first order liquid-level switch 3921, has Time enough is ordered to respond and issue adjustment in time, also avoids level-one alarm and the appearance of secondary alarm simultaneously.

Preferably, the lower surface of the float of first order liquid-level switch 3921 will be lower than the top edge of the first water storage flume 3947. Guarantee that first order liquid-level switch 3921 before full first water storage flume 3947 of water product, can be responded effectively；Preferably, The lower surface of the float of second level liquid-level switch 3922 will be lower than 3948 top edge of the second water storage flume.Guarantee that second level liquid level is opened 3922 are closed before full second water storage flume 3948 of water product, can effectively be responded.

Preferably, the depth of the first water storage flume 3947 is different from the depth of the second water storage flume 3948.The benefit being arranged in this way It is, on the one hand, can preferably save space；On the other hand, it is contemplated that the structure setting on chassis makes the first water storage flume 3947 can store ponding more as far as possible before level-one alarm.

Preferably, the height of first order liquid-level switch 3921 and second level liquid-level switch 3922 relative to water level control area It is different.Guarantee to have between the triggering of first order liquid-level switch 3921 alarm and the triggering alarm of second level liquid-level switch 3922 certain Time interval allows air-conditioning to be unlikely to be performed simultaneously two alarm signals and lose Protection significance.

Preferably, the slot bottom of the first water storage flume 3947 and the second water storage flume 3948 is provided with discharge outlet, what is be arranged in this way is good It is in the critical moment, ponding can be discharged in time, avoid potential security risk, on the other hand, facilitate the row of ponding Out and after-sales service.

Preferably, the form of liquid-level switch can be float type level switch or tongue tube liquid-level switch.

Liquid-level switch further includes a clamp device, for realizing the fastening between liquid-level switch 3913 and air-conditioner base plate, tightly Be fixedly mounted with set including：

Liquid-level switch fixes bracket 3912, is rendered as L shape, and the end face 39124 of the fixed bracket 3912 of liquid-level switch opens up There is at least one through-hole, liquid-level switch 3913 is connected with end face 39124, the side 39123 of the fixed bracket 3912 of liquid-level switch Lower edge be provided with connecting pin 39121, connecting pin 39121 is the thin-walled boss structure that bottom opens up set access slot；Screw pole 3911, it is set on the chassis of air-conditioning, screw pole 3911 is step structure, including pillar 39112 and huge pillar 39111；

The set access slot of connecting pin 39121 is socketed in outside pillar 39112, is formed dismountable socket connection, is realized to liquid The limit of the fixed bracket 3912 of bit switch.Liquid-level switch 3913 and the chassis of air-conditioning are linked together, avoids and opens liquid level The generation for the inconsistent phenomenon that pass 3913 is likely to occur when other non-chassis structures are connect with air-conditioning, in addition, solid by liquid-level switch Fixed rack 3912 is directly connected to chassis, need to be only dismantled when disassembly to the fixed bracket 3912 of liquid-level switch, be facilitated installation With demolition and maintenance, while also avoiding frequently dismantling liquid-level switch 3913 and 3913 bring of liquid-level switch is destroyed.

Preferably, the inner section of the set access slot of connecting pin 39121 is identical as the cross sectional shape of pillar 39112, and pillar 39112 insertion set access slots can be slided in the axial direction freely.Guarantee that set access slot is socketed on the stability after pillar 39112 Meanwhile being easily installed the convenience with disassembly.

Preferably, the center of 3911 upper surface of screw pole offers threaded hole 39113；The setting of 39121 upper surface of connecting pin There is through-hole 39122, through-hole 39122 runs through 39121 sets of access slots of connecting pin；The set access slot of connecting pin 39121 is socketed in pillar Outside 39112, the through-hole 39122 and the threaded hole that opens up of 3911 upper surface of screw pole of the setting of 39121 upper surface of connecting pin 39113 position consistencies, realization is concentric to hole location, avoids misplacing when installation；Through-hole 39122 is passed through simultaneously by a screw It is fixed with threaded hole 39113, and then the fixed bracket 3912 of liquid-level switch is fixed with screw pole 3911, further The movement of liquid-level switch 3913 in above-below direction is limited, while also facilitating later maintenance.

Preferably, the sectional area of pillar 39112 is smaller than the sectional area of huge pillar 39111.After pillar insertion set access slot, set The outer wall of access slot outer wall and pillar flushes, and ensure that the aesthetic feeling of appearance.

Preferably, the upper surface of huge pillar 39111 can abut the bottom surface of connecting pin 39121, conveniently it is installed to Position, while guaranteeing the position precision of liquid-level switch 3913.

Preferably, extend outwardly knot of the liquid-level switch 3913 by connecting rod 39131 and the fixed bracket 3912 of liquid-level switch Structure 39124 is connected, and realizes the fixation to liquid-level switch 3913 by the fastening of the fixed bracket 3912 of liquid-level switch, thus Being directly connected to for liquid-level switch 3913 and air-conditioner base plate is efficiently avoided, facilitates installation and removal to repair, avoids unnecessary Trouble.

Preferably, 3911 structure type of screw pole includes the following two kinds：First, screw pole 3911 is individually designed knot Structure is separated with air-conditioner base plate, is socketed by screw fastening means or snap or with the mounting post being arranged on the chassis of air-conditioning Mode realize the connection of screw pole 3911 Yu air-conditioner base plate.The advantages of this arrangement are as follows can be beaten on chassis multiple Hole, mounting screw column, avoids the waste of cost caused by designing multiple screw poles on chassis in place, Whole aesthetics can also be increased simultaneously.Second, screw pole 3911 and air-conditioner base plate design for integral type, screw is avoided Unnecessary process caused by the independent processing of column 3911, to generate biggish waste.

Further, the fixed bracket 3912 of liquid-level switch is provided with a knob, by knob to the height of liquid-level switch 3913 Degree is adjusted, and then improves service precision, facilitates and carries out pre-sales debugging and after-sales service.

Preferably, screw pole is provided with around water storage flume, by the support bracket fastened connection of screw pole and liquid-level switch come real Now to the support bracket fastened connection of liquid-level switch, the fixation to liquid-level switch is realized indirectly.Wherein, by screw pole 1 with Connecting to realize to the fixation of the fixed bracket 1 of liquid-level switch for the fixed bracket 1 of liquid-level switch, passes through screw pole 2 3946 fix the connection of bracket 2 3944 with liquid-level switch to realize the fixation to the fixed bracket 2 3944 of liquid-level switch.

Preferably, level-one alert locations are lower than the top edge of water storage flume, mobile air conditioner can be made timely to receive signal, Keep breeze fan revolving speed slack-off, condenser temperature increases, and prevents air-conditioning from continuing a possibility that normal operation causes ponding to overflow. Guarantee that first order liquid-level switch 3921 before water storage flume product full water, can be responded effectively.

First order liquid-level switch 3921 is connect by the fixed bracket of liquid-level switch with air-conditioning bottom plate, solid by liquid-level switch The fixation and disassembly of level-one liquid-level switch liquid-level switch 3921 are realized in the fixation of fixed rack with disassembly, prevent first order liquid level The damage that the disassembly of switch 3921 frequently results in；Second level liquid-level switch 3922 passes through the fixed bracket of liquid-level switch and air-conditioning bottom Plate connection, the fixation of second level liquid-level switch liquid-level switch 3922 is realized by the support bracket fastened fixation of liquid-level switch and disassembly With disassembly, the damage for preventing the disassembly of second level liquid-level switch 3922 from frequently resulting in.

Preferably, the form of first order liquid-level switch 3921 and second level liquid-level switch 3922 can be floating ball type liquid level Switch or tongue tube liquid-level switch.

Preferably, water storage flume is provided with discharge outlet in slot bottom, so that water can be discharged in time for Emergency time.Deposit Water area is provided with discharge outlet in slot bottom, and effectively ponding can be discharged.

Liquid-level switch can also be multi-stage level switch, and multi-stage level switch 3930 hangs the top for being fixed on water storage flume, It is monitored for the water level to water storage flume, such as schemes, multi-stage level switch includes：

Guide rod 3936, is rendered as circular cone rod structure, and circular cone rod structure sectional area gradually subtracts along water level ascent direction It is small, guiding role is generated for the restriction to floating ball 3931 and the position of float, and to the movement of floating ball 3931 and float.

Floating ball 3931, is rendered as cyclic structure, is surrounded on guide rod 3936, is set to the sectional area of guide rod 3936 most Big side, when water level rise when, floating ball 3931 along guide rod 3936 upwards float, when the water level descends, floating ball 3931 along Guide rod 3936 declines, until dropping back into initial position；

Float, quantity are one or more, are rendered as cyclic structure, are surrounded on guide rod 3936, along water level rising side To level-one float 3932, second level float 3933, three-level float 3934 is successively named as, float puts in order by natural number upwards It is set in turn in 3931 top of floating ball, when water level floats, float floats along guide rod 3936, when the water level descends, float Decline along guide rod 3936, until dropping back into initial position；

When the water level of water storage flume constantly rises, and floating ball 3931 touches level-one float 3932, multi-stage level switch 3930 is touched Hair alarm, breeze fan revolving speed is slack-off, and condenser temperature increases, water rem oval enhancing；When water level continues to rise, floating ball 3931 drive level-one floats 3932 continue to float, and when touching second level float 3933, breeze fan revolving speed is further slack-off, cold Condenser temperature increases, and water rem oval further enhances；When water level continues to rise, floating ball 3931 drives 3932 He of level-one float Second level float 3933 continues to float, and when touching three-level float 3934, liquid-level switch alarm, mobile air conditioner is shut down.It is arranged in this way It is advantageous in that, takes the mode of multiple protective, enhance the monitoring to the water level of water storage flume, meanwhile, air-conditioning is carried out multiple Regulation, strengthens the protection to mobile air conditioner.

Preferably, the inner ring of float includes a ring 39311 and two rings 39313, the area of two rings 39313 is greater than a ring 39311 area.The advantages of this arrangement are as follows since guide rod 3936 gradually subtracts along the direction sectional area that water level rises Small, after float disengaging position starts floating, float no longer by the constraint of guide rod 3936, reduces when float floats and is held The external resistance of load.

Preferably, be provided with guide rail 3937 on guide rod 3936, so as to preferably to floating ball 3931 and small float Movement generates guiding role, prevents all floats from rotating or overturning during the motion.

Preferably, guide groove 39312 is provided with around the inner ring of float, the equivalent width of width and guide rail 3937, and stay The gap for thering is float to move along guide rail 3937.The advantages of this arrangement are as follows reaching matching relationship with guide rail 3937, sufficiently Using the guiding role of guide rail 3937,

Preferably, the inner ring of single float along water level ascent direction, different location sectional area it is different, with respective institute The area of section for locating 3936 position of guide rod is identical.The advantages of this arrangement are as follows each float is in fixed position, it can It with the position where accurately induction level, prevents all floats from connecting together, generates unnecessary touch, to multistage liquid The alarm of bit switch 3930 is misled.

Preferably, there are gaps between floating ball 3931 and float and adjacent float, the contact of adjacent float is avoided Interference to alarm signal.The advantages of this arrangement are as follows being made according to the speed that actual water level rises by the size of float The distance between adjacent buoys are certain certain value, are connected in and to alarm that there are certain response times next time.

Preferably, guide rod 3936 is provided with snap ring 3935, snap ring 3935 is set to above all floats, to float into Row limit, prevents float from skidding off.

Preferably, the smaller side of the sectional area of guide rod 3936 is provided with connecting rod 3938, by connecting rod 3938 and more The fixed bracket 3939 of grade liquid-level switch connects, to realize the connection of multi-stage level switch and chassis.It is straight to avoid multi-stage level switch The connection between chassis or air-conditioning side plate is connect, can be destroyed caused by multi-stage level switch to avoid frequent dismounting in this way, The directly fixed bracket of disassembly liquid-level switch, can be realized the dismounting of multi-stage level switch.

Preferably, the inner ring of different floats is all different along water level ascent direction, in the sectional area of different location, but with Respectively the area of section of locating 3936 position of guide rod is identical, guarantees that float is surrounded on the different location of guide rod 3936.

Preferably, guide rail 3937 is at least 1, a plurality of guide rail 3937 can better ensure that stabilization when float floats Property.Around guide rod 3936, symmetrical structure can guarantee when float floats about guiding all 3937 array distributions of guide rail The symmetry of bar 3936 further increases the stability in float uphill process.

Float can have a multistage, respectively one, two, three ... N grades of float, and N is the sum of all floats, N grades of floats to On put in order by natural number and be set in turn in the top of floating ball 3931, all floats float and decline each along guide rod 3936, When liquid level constantly rises, floating ball 3931 is moved upwards along guide rod 3936, is successively touched N grades of floats and is driven all touch The float crossed moves upwardly together, and triggers corresponding N grades of alarm signal, when triggering N-1 grades of signals, breeze fan revolving speed Slack-off, condenser temperature increases, and water rem oval enhancing, when triggering N grades of signals, multi-stage level switch 3930 is alarmed, mobile Air-conditioning is shut down.The advantages of this arrangement are as follows according to the depth of different air-conditioning water storage flumes, it is more smart to adjust the number of float It really realizes the monitoring to water storage flume water level, enhances the protection to air-conditioning.

Embodiment six

Mobile air-conditioner as described above, the present embodiment are different from place and are that mobile air-conditioner further includes a row Water-bound, in conjunction with shown in Figure 21 and Figure 29, discharge structure include filter assemblies 361, water pump 362, draining mouth structure 363 and First connecting pipe 364 and the second connecting pipe 365；

Filter assemblies 361 are mounted in the groove 323 being arranged on chassis, groove 323 from chassis plane to lower recess and At filter assemblies 361 are set in groove 323, facilitate the liquid for blotting chassis accumulation；Filter assemblies 361 connect by first Thread a pipe and 364 be connected with the water inlet of water pump 362, the water outlet of water pump 362 by the second connecting pipe 365 be located at bottom The draining mouth structure 363 of plate edge is connected；

Under gravity, the condensed water gathered in chassis flows into the groove 323 of low level, makees in 362 suction of water pump Under, condensed water filters out the impurity in liquid by the strainer of filter assemblies 361, flows into water pump 362, then flows through second Connecting pipe 365, and the filtered liquid of filter assemblies is passed through by the discharge of draining mouth structure 363；

What water pump 362 transmitted is filtered condensate liquid, prevents from being mingled in the intracorporal impurity of liquid entering in water pump 362 and damage The normal use of evil water pump 362 is conducive to the working performance for improving air conditioner, reduces failure rate, while can will be less than draining The condensed water of mouth structure 363 is discharged to outside air conditioner, increases air-conditioning internal metal parts service life.

Filter assemblies 361 include a filter 366, a fixation kit 367 and a connection ring set 368, filter assemblies 361 Fixation kit 367 include cover 3671 for enclosed filters 366, and be used to support the fixed arm of filter assemblies 3672；

Preferably, cover 3671 is an integral structure with fixed arm 3672.

There are a hollow pipeline 3673, the circulation for liquid among fixation kit 367；Hollow pipeline extends to outside, structure At a conducting orifice, conducting orifice is also used to be connected with the first connecting pipe 364, so that filter assemblies 361 are connected to water pump 362；

Filter 366 is engaged with fixation kit 367 by connecting ring set 368, using detachable connection method； Filter 366 can be to snap connection, be threadedly coupled with the connection type of fixation kit 367, convenient for removing when later maintenance Filter clears up the impurity of aggregation；

Preferably, fixed arm 3672 includes symmetrically being consolidated to two sides horizontal-extending first centered on hollow pipeline 3673 Fixed arm and the second fixed arm；

Preferably, being additionally provided with sealing structure in connection ring set 368, sealing structure can play the performance of sealing, make Filter 366 and fixation kit 367 connect even closer, prevent the condensate liquid filtered from leaking outside and unfiltered liquid Into in pipeline.

Fixed arm 3672 is fixed by the fixed structure that chassis is arranged, and fixed structure is located at 3672 length direction of fixed arm On two sides；The fixed structure of side is the first fixing piece 3693 on chassis, and the other side is the second fixing piece.

First fixing piece 3693 is a three-dimensional platform, and shape can be cuboid, bucking ladder or rotary table, the first fixing piece 3693 wall surfaces towards 366 side of filter are equipped with a hollow out mouth, and hollow out mouth is fixed for accommodating the first of fixed arm 3672 Arm；

Preferably, being additionally provided at least one arrived piece inside hollow out mouth, it is used to abut the first fixed arm, prevents first Fixed arm play along its length in hollow out mouth；

Preferably, the first fixing piece 3693 extends downwardly out a groove body from top, groove body and hollow out mouth are penetrated through, and slot is arranged Body clearly can observe whether the first fixed arm is installed in place during the installation process.

Preferably, the shape of hollow out mouth and the shape of the first fixed arm are adapted, and then reduce by the first fixed arm in hollow out Play in mouthful.

Second fixing piece consists of two parts, and a part is supporter 3692, and supporter 3692 is equipped with and fixed arm 3372 The adaptable openings of shape, openings can be open-topped groove, the hollow out being also possible on 3692 wall surface of supporter Channel, the outside of supporter 3692 are equipped with a card column 3691, and card column 3691 is elastic component, and the top of card column 3691 is equipped with a card Part；

The first fixed arm and the second fixed arm of fixed arm 3672 are each passed through the hollow out mouth and supporter of three-dimensional platform 3696 3692 openings, by the vertical direction of both the groove body bottom surface of three-dimensional platform 3696 and the openings bottom surface of supporter 3692 Support and card column 3691 fastener and groove body hollow out mouth top surface limit, fixed arm 3672 is fixed on to certain height Degree；

The arrived piece of three-dimensional platform 3693 and the wall surface of card column 3691 pass through three-dimensional platform respectively against the both ends of fixed arm 3672 Fixed arm 3672, is fixed on certain horizontal position by the restriction in the horizontal direction of 3696 3691 wall surface of arrived piece and card column；

Preferably, an inclined surface is provided on fastener, when installing filter assemblies 361, first by the of fixed arm 3672 One fixed arm is inserted into the hollow out mouth of three-dimensional platform 3696, and then presses down on the second fixed arm of fixed arm 3672, card column 3691 It is bent under the effect of elasticity to the direction far from filter assemblies 361, the second fixed arm will slide into along the inclined surface of fastener and support In the openings of body 3692, after being installed in place, card column 3691 is sprung back, and realizes the clamping to filter assemblies 361；In disassembly process, Card column 3691 is moved, can easily be taken out filter assemblies 361.

Fixed arm 3672 is fixed on certain position by the interaction force that fixed structure passes through between all parts, and being can Separate structure, good fixing effect are easy for installation and removal.

Preferably, having screw hole in the two-arm of fixed arm 3672, fixed arm 3672 can be threadedly coupled by screw hole Mode fix.

Connection type between first connecting pipe 364 and filter assemblies 361 and the water inlet of water pump 362 is detachable Formula connection；Connection type between second connecting pipe 365 and the water outlet and draining mouth structure 363 of water pump 362 is detachable Formula connection；Above-mentioned detachable connection, such as can be and connected by spiral, socket can also be realized using the elasticity of hose, Pipeline is regularly cleared up when facilitating later maintenance, the impurity effect system gathered in pipeline after preventing prolonged liquid from flowing The work of system.

Embodiment seven

Mobile air-conditioner as described above, the present embodiment are different from place and are,

Draining mouth structure 363 includes mounting rack 3610, water draining beak ontology 341 and the water cover 3611 for sealing, water draining beak Ontology 341 is hollow structure, and water draining beak ontology 341 includes external water outlet 342, fixed plate 3613 and discharge outlet connector 3614, Second connecting pipe 365 is connect with discharge outlet connector 3614, and water cover 3611 is connect with external water outlet 342；

Preferably, the axis perpendicular of the plane of fixed plate 3613 and external water outlet 342, fixed water draining beak ontology 341；Discharge outlet connector 3614 and external water outlet 342 are axial perpendicular, and discharge outlet connector 3614 and external water outlet 342 Intersection, internal run-through, joint face part uses arc-shaped structure, to seamlessly transit, convenient for the circulation of liquid, discharge outlet is connect First 3614 section radius is less than the section radius of external water outlet 342；The axis of the axis of discharge outlet connector and external water outlet Line is angled；

Preferably, the connection type of water cover 3611 and water draining beak ontology 341 is detachable connection, such as can be logical Threaded connection is crossed, when drainage system is not in the working condition under heating mode, water cover 3611 is connected with water draining beak ontology 341 It connects, prevents dust and other impurities from entering the operation of damage machine in machine, drainage system is in the working condition under heating mode When, water cover 3611 is removed, condensed water is flowed out by draining mouth structure 363；

Preferably, draining mouth structure 363 is installed in the top of 361 top level of filter assemblies, 362 bottom end of water pump The lower section of horizontal plane, convenient for the discharge of liquid.

The fixed plate 3613 of water draining beak ontology 341 is equipped with a fixing groove 3615, and corresponding mounting rack 3610 is equipped with one Fixation hole, at least a connection structure are fixedly connected through fixing groove 3615 with fixation hole；And be fixed fixed plate 3613, At least one location hole 3616 is additionally provided in fixed plate 3613, corresponding bottom case position is equipped at least one positioning region 3617； Positioning region 3617 passes through location hole 3616, water draining beak ontology 341 is stuck in certain height, preferably, fixation hole and fixing groove It can be connected through a screw thread, water draining beak ontology 341 is fixed；

Preferably, compared to horizontal plane, external 342 inner wall of water outlet is downward after discharge outlet connector 3614 is fixed on bottom case Inclination, convenient for the discharge of water.

Discharge outlet connector 3614, the water inlet of hollow pipeline 3673 and water pump 362, water outlet outer surface be wave Shape structure is conducive to improve the leakproofness of each interface and hose, while increasing friction force, prevents air-conditioning using wavy shaped configuration In device use process, hose surprisingly falls off.

Water draining beak ontology 341 is both ends open and the hollow structure that two sides penetrate through；

External 342 water outlet bottom of water outlet is equipped with a notch, and notch is recessed inwardly by water outlet bottom, is used for Water surface tension is destroyed, since water surface tension makes the condensed water of accumulation block external water outlet 342, can not be successfully discharge, notch The condensed water gathered in ground end disk can be made efficiently to be discharged, residual is less, and the shape of notch can be semicircle, ellipse, and three Angular, polygon is trapezoidal.

Draining mouth structure 363 further includes an external Notched specimen 346, and external 346 1 side end face of Notched specimen is provided with a socket Portion, socket part can be socketed on outside water draining beak, so that external Notched specimen 346 be connect with external water outlet 342；It is external to lack A notch is provided on mouth part 346, notch far from one side end face of socket part by being recessed inwardly；

The connection type of socket part and external water outlet 342 be it is detachable so that the adaptability of external water outlet 342 More preferably, it can be socketed different external Notched specimens or different components, so that application is wider.

A diversion column 347 is additionally provided on external Notched specimen 346, diversion column 347 is triangular structure, in external notch After part 346 is socketed on external water outlet 342,347 first side of diversion column is bonded with external 342 end face of water outlet, diversion column 347 Second is sloped downwardly, and extends to the position of notch；Diversion column 347 can lead to the water of external 342 end of water outlet scarce To drip at mouthful.

On external 342 outer wall of water outlet, it is additionally provided with helicitic texture, it can be close by screw thread with water cover, it can also be used to connect Conduit pipe, helicitic texture is simple, and connection and sealing effect is good.

Under use state, the inner wall of external water outlet 342 is tilted down compared to horizontal plane, under the action of inclined-plane, liquid Body is easier to flow downward.

Embodiment eight

Mobile air-conditioner as described above, the present embodiment is different from place and is, in conjunction with shown in Figure 30, sink area At least one supporting rib 633 is provided in 322, supporting rib 633 is plate structure, is connected to the bottom of sink area 322；Support Muscle is used to support the condenser in portion placed thereon, while feed trough area 322 reserves the space of accommodating water, and supporting rib can Stop hot wind to be blown over from sink area 322, to make what hot wind more concentrated to blow on condenser, reduces wind-force and be lost.

There are gaps between adjacent supports muscle 633, form the drainage channel of intercommunication；Avoid the condensed water in sink area 322 Generate slough；The quantity of supporting rib 633 is depending on the size in 322 space of sink area.

Embodiment nine

As shown in figure 32, mobile air conditioner includes：It is upper layer drip tray 1, middle layer drip tray 2, chassis structure 3, evaporator 4, cold Condenser 5, wheel of fetching water, wherein the top of mobile air conditioner air-supply spiral case 11 is arranged in upper layer drip tray 1, for receiving air-supply spiral case The condensed water of air outlet 12；Middle layer drip tray 2 is mounted on the bottom of evaporator 4 and air-supply spiral case 11 in mobile air conditioner, for connecing Receive the condensed water on the evaporator 4 and air-supply 11 lateral wall of spiral case of mobile air conditioner；Condenser 5, installation drip tray 2 in middle level Lower section is fixed on chassis structure 3, for heating the condensed water on 5 lateral wall of condenser, to vaporize at least partly condensed water； The bottom of mobile air conditioner is arranged in chassis structure 3, gets off for receiving from middle layer drip tray 2 and 1 water conservancy diversion of upper layer drip tray Unboiled partial condensation water on 5 lateral wall of condensed water and condenser；It fetches water wheel, is mounted on the chassis structure 3 of mobile air conditioner On, wheel of fetching water is fixedly mounted between any adjacent condenser 5 by the motor drive shaft for motor of fetching water, and motor of fetching water is for leading to It crosses wheel of fetching water to get to unboiled partial condensation water on the lateral wall of condenser 5, so that condenser 5 vaporizes unboiled portion again Divide condensed water.

Specifically, when mobile air conditioner operates normally, as under in refrigeration mode, at 12 position of air outlet cold air with Condensed water is generated when extraneous hot air, air-flow generates condensed water, and air-supply spiral case by the evaporator 4 of mobile air conditioner 11 lateral walls generate condensed water due to there are heat exchange, can be abundant since the condensate temperature of above-mentioned generation is relatively low The low condensed water of this portion temperature is recycled, and condensed water is automatically discharged from mobile air conditioner simultaneously, to ensure that Mobile air conditioner can be with continuous service, and also avoids the condensed water that mobile air conditioner generation is discharged in user manually, makes mobile air conditioner It is more intelligent, and then the demand of the hommization of mobile air conditioner is improved, the user experience is improved.Specifically, it is connect by upper layer Water pond 1, middle layer drip tray 2 structure setting condensed water is drained on the lateral wall of condenser 5, due to the condensed water of low temperature Heat exchange is carried out with 5 lateral wall of condenser of high temperature, so that a part of condensed water direct boiling is water vapour from mobile air conditioner Discharge, the first time for realizing condensed water recycle；Furthermore it is also possible to by be constantly in operating condition refrigeration mould The unboiled partial condensation water of another part can be got into the outer of condenser 5 with the wheel of fetching water of compressor coordinated operation under formula On side wall, condensed water is made to carry out heat exchange with the lateral wall of condenser 5 again, to realize second of circulation of condensed water It utilizes, while condensed water can be vaporized again and is discharged out of mobile air conditioner, so that realize mobile air conditioner is automatically drained out condensation The function of water is not necessarily to user intervention.

Embodiment ten

As shown in figure 33, in the present embodiment, air outlet 12, air outlet is arranged in air-supply spiral case 11 at the top of mobile air conditioner 12 setting upper layer drip trays 1, upper layer drip tray 1 include several wind deflectors 13 and shaft 14, and wind deflector 13 is fixed by shaft 14 On air outlet 12, wind deflector 13 can be rotated by shaft 14, change air blowing from air outlet 12 by rotation wind deflector 13 Direction out.

Upper layer drip tray 1 further includes polywater device, and polywater device includes ponding component 17 and water collect plate 15, water collect plate 15 It is arranged between ponding component 17 and air outlet 12, water collect plate 15 is fixed on the side of air outlet 12, and 15 upper surface of water collect plate With the integral inclined setting of air outlet 12, preferably, integral inclined angle is generally set to 1-2 °；Specifically, air outlet 12 and poly- The brim height that water plate 15 connects is less than brim height of the air outlet 12 far from water collect plate 15, the i.e. position at 12 edge of air outlet Height increases with the increase with water collect plate 15 apart from size, therefore the wind deflector 13 being arranged on air outlet 12 equally inclination is set It sets, guarantees that the condensed water on wind deflector 13 slides along wind deflector 13 to water collect plate 15 under self gravitation effect；Likewise, Water collect plate 15 is obliquely installed, and the condensed water on water collect plate 15 is caused to be moved in ponding component 17 under the effect of gravity.

Water collect plate 15 and 12 link position of air outlet are preferably provided with an inclined end face 16, the tilt angle of inclined end face 16 It is traditionally arranged to be 4-5 °, guarantees that the condensed water generated on air outlet 12 is easier to slide to water collect plate 15, improves polywater device Ponding ability.

Since air outlet 12 continues outlet air, when condensed water flows to 12 periphery of air outlet, condensed water by airflow influence, To be not easy condensed water collecting on water collect plate 15.In not set inclined end face 16, the level height of air outlet 12 is opposite It is little in the level height difference of water collect plate 15, then being likely to result in 12 air-flow of air outlet to condensed water on water collect plate 15 The adverse effect of flowing, or even condensed water can blow off water collect plate 15 in the biggish situation of air-flow, eventually lead to condensed water edge The side wall or panel of mobile air conditioner flow down.To avoid the occurrence of this, in the present embodiment, the setting of inclined end face 16 is caused Water collect plate 15 is set to form concave station structure, i.e. the level height of water collect plate 15 is avoided far below the level height of air outlet 12 from out Air port 12 blows out influence of the air-flow to condensed water on water collect plate 15.

Under the action of blower, cold air, cold air and extraneous hot air is discharged from air outlet 12 in air-supply spiral case 11 When be easy to produce condensed water, condensed water can gather on the marginal position and wind deflector 13 of air outlet 12, by water collect plate 15 The integral inclined setting on surface and air outlet 12 guarantees that condensed water collects in ponding component 17.

Embodiment 11

As shown in figure 34, on the basis of embodiment ten, in the present embodiment, ponding component 17 includes the first sink 171, First sink 171 is to receive the condensed water for generating and collecting by water collect plate 15 in air outlet 12, the setting of the first sink 171 To there is the trough body structure of certain depth.

Specifically, after assembling certain condensed water on wind deflector 13 and water collect plate 15, due to 15 upper surface of water collect plate With the integral inclined setting of air outlet 12, so condensed water eventually flows to the first sink positioned at 1 lower end of upper layer drip tray In 171.

First sink 171 can be located at some orientation of water collect plate 15, as long as keeping condensed water sustainable from wind deflector 13 and water collect plate 15 flow to first sink 171 in the orientation.Preferably, water collect plate 15 is set as rectangle, on water collect plate 15 The corresponding two edges of the one of end face are connect with air outlet 12, the first sink 171 respectively, and other corresponding the two of 15 upper surface of water collect plate Water fender 172 (backstop water flow flows out 1 position of upper layer drip tray from other orientation of water collect plate 15) is arranged in edge, so as to Make the water flow on water collect plate 15 that can only flow into the first sink 171 from the marginal position of corresponding first sink 171 of water collect plate 15.

Preferably, conducting element 173 is arranged in air outlet 12 and 15 periphery of water collect plate in upper layer drip tray 1, conducting element 173 can It is set as diversion trench, diversion trench and the connection of the first sink 171.Since air outlet 12 continues outlet air, condensed water is flowed along wind deflector 13 When dynamic, condensed water is vulnerable to windage, to be not easy to flow on water collect plate 15 by self gravitation effect, or even if condensing In the case that the less wind-force of water is excessive, condensed water can overcome self gravity along 13 reverse flow of wind deflector under the action of the wind；It leads The setting of part 173 is flowed, when guaranteeing that condensed water is moved to upper layer 1 marginal position of drip tray in the case where reverse flow, conducting element Condensed water can also be received and is guided in the first sink 171 by 173.

By the way that the first sink 171 is arranged in upper layer drip tray 1, the aggregation of mobile air conditioner top plate is received by the first sink 171 Condensed water, it is inconvenient to user bring due to condensed water is flowed down along air-conditioning side wall or panel so as to avoid.

In view of the water accumulating volume of the first sink 171 is smaller, once condensed water is more, the first sink 171 may fill with quickly Condensed water.In the present embodiment, in order to solve this problem, 171 bottom of the first sink is provided with scupper 174；Scupper 174 Guiding subassembly is set, by guiding subassembly by the condensate water guide in the first sink 171 to being located at fetching water for mobile air conditioner bottom On wheel.

As shown in figure 35, the condensed water on wind deflector 13 may be subjected to diagonally downward in flow process from air outlet 12 The airflow influence of blowout and change original flow direction, in this way, condensation flow can shift to the path of water collect plate 15, no Conducive to the ponding of the first sink 171.Arc-shaped is set by the cross-sectional shape of wind deflector 13, guarantees condensed water in wind deflector 13 shape of wind deflector has certain restricted guidance effect to condensed water when forming aggregation on 13, and condensed water is avoided to make in air-flow With lower 13 surface of disengaging wind deflector；Preferably, 13 liang of arc-shaped surfaces of wind deflector are respectively provided with guiding rib 131, guiding rib 131 prolongs Stretch that direction is identical as 13 extending direction of wind deflector, two arc surfaces of wind deflector 13 are divided into several by the setting of guiding rib 131 Strip trench structure, condensed water are assembled in strip trench structure and under the action of guiding rib 131 along the extension of wind deflector 13 Direction is mobile, reduce air-flow to condensation flow to influence, avoid under the action of the wind condensed water be disengaged to from wind deflector 13 It outside mobile air conditioner, or drops to and is blown in spiral case 11 under self gravity, influence user experience.

Embodiment 12

Embodiment 12 is further improved on the basis of embodiment 11, it is improved in that ponding component 17 include the second sink 175；As shown in figure 36, in the present embodiment, the first water in 175 alternate embodiment three of the second sink Slot 171；Second sink 175 is to receive the condensed water for being generated by air outlet 12 and being collected by water collect plate 15.

Second sink 175 is provided with the trough body structure of certain depth；It is enclosed preferably, the second sink 175 includes four pieces Plate, coaming plate are tightly connected form notch-like each other, and one of coaming plate and 15 1 lower end edge seal of water collect plate connect It connects, this coaming plate connecting with water collect plate 15 is Diversion Plate 176；The top edge height of other three blocks of coaming plates is slightly above and water collect plate The Diversion Plate 176 of 15 connections；Bottom plate 177 is arranged in second sink, 175 bottom, and bottom plate 177 is obliquely installed, convenient for condensed water the bottom of at Aggregation at certain low dot location of plate 177；Ponding component 17 further includes hollow guiding component 178, and guidance set 178 is preferably provided with One end for inverted "L" shape, guidance set 178 is arranged on Diversion Plate 176, makes inside guidance set 178 and the second sink 175 Connection, and port setting of the guidance set 178 on Diversion Plate 176 guarantees second in the inclined minimum end position of bottom plate 177 Condensed water in sink 175 is when on bottom plate 177 to the port aggregation of guidance set 178；178 other end of guidance set with give 11 annular outer wall of wind spiral case is fixedly connected, to realize that the position of guidance set 178 and air-supply spiral case 11, upper layer drip tray 1 is solid It is fixed；Preferably, reinforcing rib, reinforcing rib and water collect plate is arranged in 15 lower end surface of water collect plate and 178 upper surface corresponding position of guidance set 15, guidance set 178, Diversion Plate 176 are fixedly connected, to guarantee that guidance set 178 is being realized to cold in the second sink 175 While condensate is oriented to guide functions, there is certain reinforcing to the connection status between upper layer drip tray 1 and air-supply spiral case 11 Reinforcement effect.

Guidance set 178 includes the second guide pipe 1782 that first be laterally arranged guide pipe 1781 and be vertically arranged, the One guide pipe, 1781 lower end surface is obliquely installed, and guaranteeing can be in the effect of self gravity when condensed water is in the first guide pipe 1781 Downstream in the second guide pipe 1782.In the case where guaranteeing that bottom plate 177 is obliquely installed, to guarantee under the first guide pipe 1781 End face is equally obliquely installed, and 1781 lower end surface part of the first guide pipe is arranged on bottom plate 177, causes the first guide pipe 1781 Part backplane 177 is replaced in lower end surface, to guarantee that bottom plate 177 is led to the first the integral inclined of guide pipe 1781, realizes to the second water The guiding of condensed water in slot 175, while convenient for the preparation of connection structure between the first sink 171 and the first guide pipe 1781.

Diversion Plate 176 and 15 link position of water collect plate are set as circular arc type, slide from water collect plate 15 to drawing convenient for condensed water On water plate 176.

Specifically, after assembling certain condensed water on wind deflector 13 and water collect plate 15, due to 15 upper surface of water collect plate With the integral inclined setting of air outlet 12, so condensed water eventually flows to the second sink 175 positioned at 1 low side of upper layer drip tray.

Second sink 175 can be located at some orientation of water collect plate 15, as long as keeping condensed water sustainable from wind deflector 13 and water collect plate 15 flow to second sink 175 in the orientation.Preferably, water collect plate 15 is set as rectangle, on water collect plate 15 The corresponding two edges of the one of end face are connect with air outlet 12, the second sink 175 respectively, and other corresponding the two of 15 upper surface of water collect plate Water fender 172 (backstop water flow flows out 1 position of upper layer drip tray from other orientation of water collect plate 15) is arranged in edge, so as to Make the water flow on water collect plate 15 that can only flow into the second sink 175 from the marginal position of corresponding second sink 175 of water collect plate 15.

Embodiment 13

As shown in figure 37, in embodiment 13, ponding component 17 includes the first sink 171 and the second sink simultaneously 175, i.e. the first sink 171 and water collect plate 15 connect, the first sink 171 and the connection of the second sink 175；Specifically, stating the first water Cofferdam 179 is set between slot 171 and the second sink 175, and notch 1791, the first sink 171 and the second sink is arranged in cofferdam 179 175 are connected to by notch 1791；179 upper surface height of cofferdam is higher than the height of air outlet 12,1791 bottom end height of notch be equal to or Lower than 15 least significant end height of water collect plate, when guaranteeing that the scupper 174 in the first sink 171 blocks, in the first sink 171 Condensed water can be flow to by notch 1791 in second sink 175, and mobile air conditioner is further flow to by guidance set 178 Middle layer drip tray on, avoid abnormal stacking of the condensed water in the first sink 171.

Notch 1791 may be configured as the biggish notch of cross-sectional area, or be set as the notch of several strips；When When notch 1791 is set as a cross-sectional area biggish notch, it is ensured that condensed water flow to the second sink from the first sink 171 Flow in 175；When notch 1791 is set as the notch of several strips, the structure setting of notch 1791 can avoid the Floating sundries in one sink 171 is entered in the second sink 175 by notch 1791, and further by guidance set 178 into Enter inside mobile air conditioner, to cause the pollution or damage of mobile air conditioner internal part.

Embodiment 14

It is further improved, thes improvement is that, scupper on the basis of embodiment 11 and embodiment 13 Downpipe 1741 is arranged in 174 lower ends.As shown in figure 38, notch 1742, downpipe 1741 are set at 1741 outlet edge of downpipe Inner wall tilts down；The settable screw thread of 1741 outer wall of downpipe, is easily installed water cover or water pipe.

Since the tension of condensed water is larger, when the condensed water in the first sink 171 is in compared with low water level, condensed water exists The surface tension of 1741 position of downpipe is larger to cause condensed water that can not be discharged normal through scupper 174.Downpipe 1741 Notch 1742 is arranged, and realizes the destruction to 1741 outlet port of downpipe condensation water surface tension, to guarantee the first sink It can be still smoothly discharged when condensed water is in compared with low water level in 171, avoid long-term accumulation of the condensed water in the first sink 171.

Embodiment 15

It is further improved, thes improvement is that on the basis of embodiment 11 and embodiment 13, scupper 174 Lower port edge several tooth mouths 1743 are set, as shown in figure 39, Figure 39 is the structure chart of scupper embodiment seven；Tooth mouth 1743 are preferably arranged to be evenly distributed with around 174 axis annular of scupper, and tooth mouth 1743 may be configured as the triangular groove with sharp edge or acute angle Other Reasonable Shapes such as type.

Since the tension of condensed water is larger, when the condensed water in the first sink 171 is in compared with low water level, condensed water is logical When crossing 174 position of scupper, the surface tension due to condensed water in 174 lower port of scupper larger causes condensed water can not be just Often it is discharged by scupper 174.Due to the setting of tooth mouth 1743,174 lower end surface varying aperture of scupper and 1743 sharp edge of tooth mouth Acute angle has an impact condensed water in the liquid surface that 174 lower end surface of scupper is formed, and causes to condense the broken of water surface tension It is bad, to guarantee still be smoothly discharged when condensed water is in compared with low water level in the first sink 171, avoid condensed water first Long-term accumulation in sink 171.

Embodiment 16

Upper layer drip tray 1 further includes drainage component 18, and the setting of drainage component 18 is wrapped in 4 top of evaporator, drainage component 18 Drainage plate 181 is included, drainage plate 181 is fixedly connected with air outlet 12, water collect plate 15, and drainage plate 181 and 4 upper end of evaporator are solid Fixed connection, makes the positional relationship between evaporator 4 and polywater device be positioned and be reinforced under the influence of drainage component 18 Effect.

Drainage plate 181 is obliquely installed, in order to which a certain position of the condensed water on drainage plate 181 on drainage plate 181 is converged Collection.Water blocking component 182 is arranged in 181 periphery of drainage plate, and the condensed water on drainage plate 181 is avoided to flow from 181 edge of drainage plate Out, the setting of drainage plate 181 and water blocking component 182 constitutes ponding slot structure, and the condensed water on drainage plate 181 is in water storage tank Collect.

As shown in figure 40, preferably, several drainage holes 183, the condensation on drainage plate 181 is arranged in the side of drainage plate 181 Water can flow to middle layer drip tray 2 by drainage hole 183；Drainage plate 181 is tilted to the side of setting drainage hole 183, and drainage plate 181 and the tilt angle of horizontal plane be generally set to 1-2 °；Drainage plate 181 is equipped with several gib blocks 184, and gib block 184 can wait Away from being arranged in parallel, 181 upper surface of drainage plate is caused to be divided into several regions, the setting of gib block 184 guarantees on drainage plate 181 Condensed water assemble under the influence of the airflow on 184 periphery of gib block, and finally flowed under the influence of air-flow and self gravity Realize condensed water from the discharge on drainage plate 181 in 183 position of drainage hole.The height dimension of gib block 184 is less than water blocking component 182 height dimension, avoids in each region separated that water level is excessively high, influences the normal discharge of condensed water.

Embodiment 17

As shown in figure 41, it to guarantee preferably to be oriented to condensed water to collect effect, is respectively provided on gib block 184 several Communication port 185, the different zones for being directed to the separation of item 184 can be connected to by communication port 185, can will be each by communication port 185 The condensed water assembled in region by gib block 184 finally collects in 183 position of drainage hole, and is discharged by drainage hole 183. The setting of communication port 185 simultaneously, can play certain filtration, the sundries such as the floating material on drainage plate 181 is avoided to pass through row Water hole 183 enters inside mobile air conditioner.It can be by changing the size of communication port 185 to adapt to different filter effects.

Since the evaporator 4 inside mobile air conditioner is arranged, under the influence of 4 heat exchange of evaporator, 4 periphery of evaporator is easy A large amount of condensed waters are generated, this kind of condensed water generally all collects processing by the middle layer drip tray 2 of 4 bottom of evaporator is arranged in, but right The component fixed with spiral case 11 of blowing is realized in being located at 4 top of evaporator, i.e., the drainage plate 181 in the present embodiment, due to drainage The temperature under the influence of heat exchange of evaporator 4 of plate 181 is lower, and condensed water is easy to produce when encountering extraneous hot air, and Assemble on drainage plate 181.If handling not in time the condensed water on drainage plate 181, a large amount of remittances of condensed water are easily caused Collection, and condensed water oozes out easily from mobile air conditioner and along the side wall of mobile air conditioner under the influence of mobile air conditioner internal gas flow Or panel flows down, and causes inconvenience to the user；By the setting of drainage component 18, the condensed water on drainage plate 181 can be converged in time Collection drainage discharge, improves the usage experience of user.

Embodiment 18

Embodiment 18 is further improved on the basis of embodiment 17, thes improvement is that water blocking component 182 In the position of corresponding first sink 171, deflector hole 186 is set；As shown in figure 42, deflector hole 186 is by water storage tank and the first sink 171 connections, and drainage plate 181 is tilted to 171 direction of the first sink, guarantees the condensed water on drainage plate 181 in self gravity Assemble under effect to deflector hole 186 and further flow into the first sink 171, avoids setting for drainage hole 183 on drainage plate 181 It sets.

Settable filter device in deflector hole 186 avoids the sundries such as the floating material on drainage plate 181 from passing through deflector hole 186 Into in the first sink 171.

Embodiment 19

Guiding subassembly may be configured as hose, and one end of hose and scupper 174 are tightly connected, the other end of hose with set The pilot hole connection on drip tray 2 in middle level is set, pilot hole is arranged through middle layer drip tray 2.The first water is realized in the setting of hose The conducting of slot 171 and pilot hole, so as to which the condensed water in the first sink 171 is directly passed through hose guide into pilot hole, And cause to condense directly by condensate water guide to the fetching water on wheel of mobile air conditioner bottom is located at by the guide frame of pilot hole Water is under the action of potential energy and opposite collision occurs for wheel of fetching water, and is finally atomized condensed water to obtain water mist, last water mist is logical The air draft spiral case discharge that mobile air conditioner bottom is set is crossed, to improve the velocity of discharge of mobile air conditioner internal condensation water, in turn The source of condensed water in chassis structure 3 is avoided, to control the raising of the condensate water level in chassis structure 3, is avoided because of chassis Condensation dilutional hyponatremia in structure 3 and the operation for needing user that condensed water is discharged manually, keep mobile air conditioner more intelligent, simultaneously Also assure that mobile air conditioner can be with continuous service, and then the user experience is improved.

Embodiment 20

On the basis of embodiment 19, it is further improved, is specifically theed improvement is that, guiding subassembly packet Include the first diversion division 191, the second diversion division 192 and third diversion division 193, as shown in Figure 43 and Figure 44, the first diversion division 191 are arranged in scupper 174, and on air-supply spiral case 11, the setting of third diversion division 193 is being oriented to the setting of the second diversion division 192 Kong Shang；First diversion division 191 and the connection of the second diversion division 192, the second diversion division 192 and third diversion division 193 are connected, are realized The connection of scupper 174 and pilot hole.

Specifically, the first diversion division 191 is the tubulose being obliquely or vertically arranged or groove-like structure, if the first diversion division 191 For groove-like structure, then direction of the open end of the first diversion division 191 facing towards air-supply 11 position of spiral case, the first diversion division 191 1 End is fixed on 174 position of scupper, and the other end is connect with the second diversion division 192；Second diversion division 192 is along air-supply spiral case 11 The setting of circular arc outer edge, and the second diversion division 192 is set as tubulose or groove-like structure, guarantees condensed water in the second diversion division 192 The interior circular arc outer edge flowing along air-supply spiral case 11；Third diversion division 193 is arranged on drip tray 2 in middle level and is in evaporator 4 Lower part, third diversion division 193 and horizontal plane form certain slanted angle, and third diversion division 193 is obliquely installed to pilot hole, It is flowed under the influence of self gravity to guiding hole site convenient for the condensed water in third diversion division 193；Third diversion division 193 One end is fixedly connected with pilot hole, and 193 other end of third diversion division is connect with the second diversion division 192, to realize scupper 174 are connected to pilot hole.

Preferably, it is U-shaped notch shape that the second diversion division 192, which is arranged to cross section, and the second diversion division 192 is spacious The circular arc edge surface of mouth end face and air-supply spiral case 11 is tightly connected to form the pipeline configuration with internal chamber；Second water conservancy diversion Portion 192 and air-supply spiral case 11 center line in the direction of the width are coplanar, convenient for the installation of the second diversion division 192, diversion division Width dimensions may be configured as the width for being equal to or slightly less than air-supply spiral case 11, convenient on 192 pairs of air-supply spiral cases 11 of the second diversion division The collection of the condensed water of generation；The center line of scupper 174 may be provided at the second diversion division 192 and the above-mentioned of spiral case 11 of blowing In center line plane, convenient for the connection between the first diversion division 191 and the second diversion division 192；Third diversion division 193 is fixed on On middle layer drip tray 2, and being obliquely installed for third diversion division 193 is guaranteed by the support rod of setting.

Guiding subassembly further includes several connection components 194, and 171 bottom surface of the first diversion division 191 and the first sink, first are led Being detachably connected between stream portion 191 and the second diversion division 192, the second diversion division 192 and third diversion division 193 passes through company Connected components 194 are realized.

As shown in figure 45, connection component 194 includes first connecting portion 1941 and second connecting portion 1942, first connecting portion 1941 and second connecting portion 1942 be separately positioned on two component interconnected, first connecting portion 1941 and second connecting portion 1942 are equipped with and are detachably connected；First connecting portion 1941 is arranged in 191 both ends of the first diversion division specifically, can be； First connecting portion 1941 and second connecting portion 1942 is respectively set in second diversion division, 192 both ends；The setting of first sink, 171 bottom surface Second connecting portion 1942；First connecting portion 1941 is arranged in third diversion division 193.

First connecting portion 1941 includes the fixed block of U-shaped structure, and the card slot extended along U-shaped structure is arranged on fixed block 1943；Correspondingly, second connecting portion 1942 includes the coordinating block of U-shaped structure, extension 1944, extension are set on coordinating block 1944 can be caught in card slot 1943, realize the detachable connection of first connecting portion 1941 and second connecting portion 1942；Fixed block It is arranged with the U-shaped structure of coordinating block, guarantees the connection position-limiting action between first connecting portion 1941 and second connecting portion 1942； And first connecting portion 1941 and second connecting portion are guaranteed using the type of attachment being clamped between card slot 1943 and extension 1944 The leakproofness of link position between 1942 avoids condensed water from oozing out from the position of connection component 194.

The both ends of the surface that first diversion division 191 is equipped with first connecting portion 1941 are preferably horizontally disposed, are convenient for the first diversion division 191 pair relative to the second connecting portion 1942 of the second connecting portion 1942 and the second diversion division 192 of 171 bottom of the first sink Position installation；Specifically, it is only necessary to by two positions extension 1944 and card slot 1943 be aligned, pass through the first water conservancy diversion of Level Promoting The connection of the first diversion division 191 and the first sink 171, the second diversion division 192 can be realized in portion 191.

First diversion division 191 and the second diversion division 192 are made of the material with certain elastic module, such as plastics, It is connected convenient for the integral installation of guiding subassembly.Preferably, 1943 size of card slot is greater than 1944 size of extension, cause card slot 1943 and 1944 clearance fit of extension, convenient for the connection between first connecting portion 1941 and second connecting portion 1942.Card slot Flexible layer is set between 1943 and extension 1944, and hard foam, fiber etc. can be used in flexible layer, guarantees card slot 1943 and prolongs Stretch the leakproofness between part 1944；Simultaneously because the setting of the second diversion division 192, on air-supply spiral case 11, air-supply spiral case 11 works When can generate certain vibration, flexible layer has certain cushioning effect, avoids the whole vibration of guiding subassembly.

The unlimited setting of first diversion division 191 is more advantageous to stream of the condensed water in guiding subassembly compared with the setting of hose It is dynamic, it is easy to guiding subassembly to the guide functions of condensed water, and the unlimited setting of 192 upper port of the second diversion division, a part are being sent The condensed water that wind spiral case 11 generates can be entered in the second diversion division 192 by upper port, take turns condensed water to fetching water to realize Drainage guiding.

By the setting of guiding subassembly, guarantees that condensed water that upper layer drip tray 1 is collected directly passes through pilot hole and is directed to and beat On water wheels, under the influence of condensed water gravitional force, cause condensed water with the impact of higher flow velocity on the wheel blade for fetching water wheel, Finally condensed water is atomized to obtain water mist under the opposite collision of fetch water wheel and condensed water, last water mist is existed by setting The air draft spiral case of mobile air conditioner bottom is discharged, to improve the velocity of discharge of mobile air conditioner internal condensation water, and then avoids chassis The source of condensed water in structure 3 avoids to control the raising of the condensate water level in chassis structure 3 because in chassis structure 3 Condensation dilutional hyponatremia and need user manually by condensed water be discharged operation, keep mobile air conditioner more intelligent, also assure simultaneously Mobile air conditioner can be with continuous service, and then the user experience is improved.

Embodiment 21

Mobile air-conditioner as described above, the present embodiment are different from place and are, water retaining ribs 3926 are multiple water blocking The combination of muscle, including：First water retaining ribs 325, the second water retaining ribs 326, third water retaining ribs 327, fourth gear water muscle 328 and the 5th The height of water retaining ribs 329, water retaining ribs 3926 is sequentially increased along the water flow of sink area 322 to the direction of suction zones 321, adjacent There are certain gap between water retaining ribs 3926, the bottom of the interface channel 3925 between adjacent water retaining ribs 3926 is provided with Discharge outlet, and the height of water retaining ribs 3926 is not higher than the top edge of interface channel 3925.The advantages of this arrangement are as follows On the one hand, the speed that ponding flows into suction zones 321 from sink area 322 can be slowed down, ponding is made to be not enough to overflow, on the other hand, It can be according to the suitable water retaining ribs of power selection height for wheel of fetching water.

Preferably, the top of water retaining ribs 3926 offers multiple notches 39261, reduce the tension of water when ponding covers, product The generation for the phenomenon that water is covered along notch 39261, prevents the ponding covered simultaneously excessive and ponding is caused to overflow.Further , 39261 array distribution of notch is in the top of water retaining ribs 3926, wavy distribution.The advantages of this arrangement are as follows increasing Channel when ponding covers prevents notch 39261 very few, causes ponding that cannot timely overflow, the notch of array distribution, Ponding equilibrium can be made to cover water retaining ribs 3926, it is also possible to increase the aesthetics of structure.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of mobile air-conditioner, including upper layer drip tray (1) and chassis structure (3), which is characterized in that the chassis structure (3) include：Suction zones (321), sink area (322), area of fetching water (330), water level control area (313), the chassis structure (3) is also Including：

Water retaining ribs (3926), for the suction zones (321) to be isolated with the sink area (322)；

Convergence portion (332) fetches water between area (330) and the sink area (322) positioned at described, and close to the area of fetching water (330) convergence mouth (331)；

Slot (316) bottom surface is fetched water in the sink area (322) as groove body (318), the groove body (318) is along the radial direction side for wheel of fetching water To from both ends to intermediate recess；Wheel of fetching water is provided with above the slot of fetching water (316)；

The upper layer drip tray (1) includes sink and water collect plate (15), and the water collect plate (15) is arranged in the sink and air-supply Between the air outlet (12) of spiral case, water collect plate (15) upper surface is obliquely installed, the water collect plate (15) and the air outlet (12) link position setting one inclined end face (16), the sink is set as trough body structure, and the bottom of gullet is provided with and falls Guiding subassembly is arranged in water hole (174), the scupper (174).

2. mobile air-conditioner according to claim 1, which is characterized in that the convergence portion (332) is that intermediate low surrounding is high Concave structure；The concave structure of the convergence portion (332) is composed of multiple convergence faces, and all convergence faces intersect at remittance Accumulation (333).

3. mobile air-conditioner according to claim 1, which is characterized in that the wheel construction of fetching water includes：First fetches water wheel (3151), second wheel (3152) are fetched water；Described first fetch water wheel (3151) and described second fetch water wheel (3152) be set to it is described It fetches water above slot (316)；Described first fetch water wheel (3151) and described second wheel (3152) rotation direction of fetching water it is opposite.

4. mobile air-conditioner according to claim 1, which is characterized in that the convergence face is by being the convergence face being obliquely installed One (336), convergence face two (337), convergence face three (338) and converge face four (339) be successively spliced, adjacent Mosaic face it Between present degree be 174 degree -178 spend angle.

5. mobile air-conditioner according to claim 4, which is characterized in that the convergence face one (336) and the convergence face three (338) inclined direction is tilted with the sink area (322) to the convergence portion (332) from high to low.

6. mobile air-conditioner according to claim 3, which is characterized in that the liquid-level switch, including：First order liquid-level switch (3921), the top of the first water storage flume (3947) is fixed in suspension, is carried out for the water level to first water storage flume (3947) Monitoring；The top of the second water storage flume (3948) is fixed in second level liquid-level switch (3922), suspension, for second water The water level of slot (3948) is monitored；When the water level of the first water storage flume (3947) water rises, the first order liquid level is opened When closing the float rising arrival level-one alert locations of (3921), level-one alarm signal is triggered；When second water storage flume (3948) When the water level of water rises, the float of the second level liquid-level switch (3942) floating reaches secondary alarm position, second level report is triggered Alert signal.

7. mobile air-conditioner according to claim 1, which is characterized in that the convergence portion (332) and the area of fetching water (330) Between be provided with water bloking piece (335), the convergence portion (332) and the area of fetching water (330) are separated, the water bloking piece (335) Offer convergence mouth (331), the convergence mouth (331) mutually staggers with the convergent point (333) position, thus avoid ponding from The convergent point (333) fetches water area (330) described in flowing directly into.

8. mobile air-conditioner according to claim 7, which is characterized in that the guiding subassembly include the first diversion division (191), Second diversion division (192) and third diversion division (193), first diversion division (191) is arranged in the scupper, described In air-supply spiral case (11), the third diversion division (193) is arranged in air-conditioning middle layer drip tray for second diversion division (192) setting (2)；First diversion division (191) and second diversion division (192) connection, second diversion division (192) and described the Three diversion divisions (193) connection realizes that the scupper (174) is connected to pilot hole on the middle layer drip tray (2)；It is described to lead It is arranged to hole through the middle layer drip tray (2).

9. mobile air-conditioner according to claim 8, which is characterized in that second diversion division (192) is arranged to cross section For U-shaped notch shape, and the circular arc outer edge of the open end face of second diversion division (192) and air-supply spiral case (11) Face is tightly connected to form the pipeline configuration with internal chamber.

10. mobile air-conditioner according to claim 8, which is characterized in that second diversion division (192) and the air-supply snail The center line of shell (11) in the direction of the width is coplanar；The center line of the scupper (174) is arranged in second diversion division (192) and in the center line plane of air-supply spiral case (11).