CN108870551B - Mobile air conditioner - Google Patents

Abstract

The invention provides a mobile air conditioner, which comprises an upper water-collecting tray and a chassis structure, wherein the chassis structure comprises: absorb water district, basin district, beat water district, water level control district, still include: the water retaining rib is used for isolating the water absorption area from the water tank area; the converging part is positioned between the water pumping area and the water tank area and is close to a converging port of the water pumping area; a water pumping wheel is arranged on the converging part; at least one supporting rib is arranged in the water tank area. The mobile air conditioner provided by the invention adopts the matching of the upper water receiving disc and the base plate, can reasonably distribute water on the upper water receiving disc and the base plate in the mobile air conditioner, preferentially supplies the water to the water pumping area, and can directly supply the upper water to the water pumping area, so that the circulation steps of water are reduced, and the water pumping efficiency is improved.

Description

Mobile air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a mobile air conditioner.

Background

Compared with the traditional vertical air conditioner, the mobile air conditioner has the advantages that the hanging air conditioner is smaller in size, does not need to be installed, is convenient to move, and can be randomly placed in different positions in a house. When the top of the mobile air conditioner is exhausted, condensed water can be condensed on the top plate, and the condensed water can flow downwards along the side wall or the panel of the mobile air conditioner after being excessively condensed, so that inconvenience is brought to users.

The mobile air conditioner is provided with a chassis, and the chassis can be divided into four areas according to a water channel, wherein the four areas are respectively as follows: water level control district, water absorption district, basin district and the district of fetching water. Wherein the basin district with absorb water district, the district intercommunication of fetching water, the basin district is used for caching the water on the chassis, and the water in the district of fetching water can be beaten the condenser fin evaporation through fetching water the wheel, and the water in the district of absorbing water is taken out through the pump. Whether the structural design of the mobile air conditioner chassis is reasonable or not directly influences the service efficiency, service life, long service life and the like of the mobile air conditioner.

Disclosure of Invention

In view of the above, the present invention is directed to a mobile air conditioner for reasonably distributing water on an upper water tray and a bottom tray in the mobile air conditioner.

In order to achieve the purpose, the technical scheme of the invention is realized as follows: a mobile air conditioner comprising an upper water tray and a base pan structure, the base pan structure comprising: absorb water district, basin district, beat water district, water level control district, the chassis structure still includes: the water retaining rib is used for isolating the water absorption area from the water tank area; the converging part is positioned between the water pumping area and the water tank area and is close to a converging port of the water pumping area; a water beating wheel is arranged on the converging part; a water storage tank is arranged at the bottom of the water level control area, and at least one liquid level switch is arranged above the water storage tank; a groove is formed in the bottom of the water absorption area, and a filtering component connected with a water pump is mounted at the groove; the bottom surface of the water beating tank in the water tank area is a tank body, and the tank body is sunken from two ends to the middle along the radial direction of the water beating wheel; a water pumping wheel is arranged above the water pumping groove;

the upper water tray comprises a water tank and a water collecting plate, the water collecting plate is arranged between the water tank and an air outlet of the air supply volute, the upper surface of the water collecting plate is inclined, the water collecting plate and the air outlet connecting position are provided with an inclined end face, the inclination angle of the inclined end face is larger than that of the water collecting plate, the water tank is arranged to be of a tank body structure, a water falling hole is formed in the bottom of the water tank, a flow guide assembly is arranged on the water falling hole, and the flow guide assembly is used for guiding the condensed water in the water tank to the position above the water collecting tank and arranged on the water collecting tank.

Furthermore, the convergence part is of a concave structure with a low middle part and high four sides; the concave structure of the convergence part is formed by combining a plurality of convergence surfaces, and all the convergence surfaces are intersected at a convergence point.

Further, the turbine structure includes: the first water beating wheel, the second water beating wheel and the third water beating wheel; the first water beating wheel and the second water beating wheel are arranged above the water beating groove; the third water beating wheel is arranged above the converging part; the first water beating wheel and the second water beating wheel rotate in the same direction, and the third water beating wheel and the first water beating wheel or the second water beating wheel rotate in opposite directions.

Furthermore, the converging surface is formed by sequentially splicing a converging surface I, a converging surface II, a converging surface III and a converging surface IV which are obliquely arranged, and the adjacent splicing surfaces form included angles with the degrees of 174-178 degrees.

Furthermore, the inclination directions of the first converging surface and the third converging surface incline from high to low from the water tank area to the converging part.

Further, the liquid level switch includes: the first-stage liquid level switch is fixedly suspended above the first water storage tank and is used for monitoring the water level of the first water storage tank; the second-stage liquid level switch is fixedly suspended above the second water storage tank and used for monitoring the water level of the second water storage tank; when the water level of the water stored in the first water storage tank rises and the floater of the first-stage liquid level switch rises to reach a first-stage alarm position, triggering a first-stage alarm signal; and triggering a secondary alarm signal when the water level of the water stored in the second water storage tank rises and the floater of the secondary liquid level switch floats to reach a secondary alarm position.

Furthermore, the mobile air conditioner also comprises a middle water receiving disc, the flow guide assembly is arranged as a hose, one end of the hose is hermetically connected with the water falling hole, and the other end of the hose is connected with a guide hole arranged on the middle water receiving disc of the air conditioner; the guide hole penetrates through the middle water receiving disc.

Further, the flow guide assembly comprises a first flow guide part, a second flow guide part and a third flow guide part, the first flow guide part is arranged on the water falling hole, the second flow guide part is arranged on the air supply volute, and the third flow guide part is arranged on a middle water receiving disc of the air conditioner; the first flow guide part is connected with the second flow guide part, and the second flow guide part is connected with the third flow guide part to realize the communication between the water falling hole and the guide hole on the middle layer water receiving tray; the guide hole penetrates through the middle water receiving disc.

Furthermore, the second flow guide part is arranged in a U-shaped groove opening shape in cross section, and the open end face of the second flow guide part is connected with the arc outer edge face of the air supply volute in a sealing mode to form a pipeline structure with an inner cavity.

Further, the center lines of the second flow guide part and the air supply volute in the width direction are coplanar; the central line of the water falling hole is arranged on the central line plane of the second flow guide part and the air supply volute.

Compared with the prior art, the chassis structure has the following advantages:

(1) adopt the manger plate muscle will the district of absorbing water keeps apart with the basin district, makes the basin district can store certain ponding, and when condenser during operation, the ponding in basin district can be assembled the district of fetching water preferentially, beats the fin of condenser with ponding through fetching water the wheel on. On the other hand, the design of the water retaining ribs can effectively prevent accumulated water from flowing back to the water absorption area, so that the phenomenon that condensed water in the water pumping area is insufficient when the water pumping wheel works is caused, and unnecessary waiting time is generated; the convergence part is arranged, and accumulated water is preferentially introduced into the convergence part before entering the water pumping area; the water retaining ribs are matched with the converging part, so that the water on the chassis can be guided to flow to the water pumping area preferentially;

(2) the inclination directions of the first converging surface and the third converging surface incline from high to low from the water tank area to the converging part, so that water in the water tank area is preferentially guided to the converging part, and water on the chassis preferentially flows to the water pumping area;

(3) the arrangement of the flow guide assembly ensures that the condensed water in the first water tank is directly guided into the guide hole through the flow guide assembly, and the condensed water is directly guided onto the paddling wheel at the bottom of the mobile air conditioner through the guide structure of the guide hole, so that the condensed water is atomized, and the condensed water in the mobile air conditioner is conveniently discharged;

(4) through the structures of the water retaining ribs, the convergence part, the air guide part, the water storage tank, the groove and the like arranged on the chassis structure, the water on the chassis can be reasonably planned, condensed water is effectively scheduled to flow from the water tank area to the water pumping area preferentially, then flows to the water level control area and finally flows to the water absorption area, and when the water amount is excessive, the graded alarm is carried out, the service time is prolonged, and the downtime is reduced; the structural reasonability of the chassis is improved, the refrigeration efficiency is improved, and the service life is prolonged;

(5) adopt the cooperation on upper strata water collector and chassis, water on upper strata water collector and the chassis in can rational distribution mobile air conditioner, the preferential district of fetching water of supplying with, and can directly supply with the upper water and beat the water district, reduce the circulation step of water, improve and beat water efficiency.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a general schematic view of the chassis structure of the present invention;

FIG. 2 is a first partial schematic view of a chassis structure according to the present invention;

FIG. 3 is a schematic structural view of a plurality of water blocking ribs;

FIG. 4 is a schematic view of the structure of the plugging portion;

FIG. 5 is a schematic view of a water blocking rib;

FIG. 6 is a second partial schematic view of the chassis structure of the present invention;

FIG. 7 is a schematic view of a convergence section of the present invention;

FIG. 8 is a schematic view of the mounting position of the paddlewheel of the present invention;

FIG. 9 is a first schematic structural view of the watering trough of the present invention;

FIG. 10 is a second schematic view of the structure of the watering trough of the present invention;

FIG. 11 is a schematic view of the water turbine according to the present invention;

FIG. 12 is a top plan view of the paddlewheel of the present invention;

FIG. 13 is a second plan view of the paddlewheel of the present invention;

FIG. 14 is an overall schematic view of a fastening device of the level switch of the present invention;

FIG. 15 is a schematic view of a screw post of the present invention;

FIG. 16 is a schematic view of the connection of the level switch and the level switch fixing bracket of the present invention;

FIG. 17 is an overall schematic view of the level switch of the present invention;

FIG. 18 is a schematic view of a water level control area according to the present invention;

FIG. 19 is a first schematic view of a multi-level switch of the present invention;

FIG. 20 is a schematic view of a second multi-level liquid level switch of the present invention;

FIG. 21 is a schematic view of a float in the present invention;

FIG. 22 is a schematic structural view of a drainage structure of the present invention;

FIG. 23 is a schematic view of the location of the grooves of the base plate structure of the present invention;

FIG. 24 is a schematic view of a filter assembly of the present invention;

FIG. 25 is an enlarged view at A of FIG. 23;

FIG. 26 is a schematic view of a drain nozzle according to the present invention;

FIG. 27 is a schematic view of the installation of the structure of the drain nozzle of the present invention;

FIG. 28 is a schematic view of a notch of a drain nozzle of the present invention;

FIG. 29 is a schematic view of the notched nozzle assembly of the present invention;

FIG. 30 is a schematic view of the outer socket member of the present invention;

FIG. 31 is a schematic view of a support bar according to the present invention;

fig. 32 is a structural view of a mobile air conditioner according to an embodiment of the present invention;

FIG. 33 is a top view of an upper drip pan according to an embodiment of the present invention;

FIG. 34 is a block diagram of a water accumulation assembly according to an eleventh embodiment of the invention;

FIG. 35 is a schematic view of an embodiment of an air deflector;

FIG. 36 is a block diagram of a water accumulation assembly according to a twelfth embodiment of the invention;

FIG. 37 is a block diagram of a water accumulation assembly according to the thirteenth embodiment of the invention;

fig. 38 is a structural view of a water drainage hole according to a fourteenth embodiment of the present invention;

fig. 39 is a structural diagram of a fifteen-described water drainage hole according to the embodiment of the invention;

FIG. 40 is a block diagram of a flow directing assembly according to a sixteen embodiment of the present invention;

FIG. 41 is a block diagram of a drainage assembly according to a seventeenth embodiment of the invention;

FIG. 42 is a block diagram of a drainage assembly according to eighteen embodiments of the invention;

FIG. 43 is a front view of the flow directing assembly according to an embodiment of the present invention;

FIG. 44 is a side view of the construction of the deflector assembly according to an embodiment of the invention;

fig. 45 is a structural view of a connecting member according to an embodiment of the present invention.

Description of reference numerals:

321-a water absorption area, 322-a water tank area, 330-a water pumping area, 313-a water level control area, 323-a groove, 3925-a connecting channel, 3926-a water retaining rib, 325-a first water retaining rib, 326-a second water retaining rib, 327-a third water retaining rib, 328-a fourth water retaining rib, 329-a fifth water retaining rib, 320-a splicing part and 39261-a notch; 331-convergence port, 332-convergence part, 333-convergence point, 334-water inlet, 335-water retaining block, 336-convergence surface one, 337-convergence surface two, 338-convergence surface three, 339-convergence surface four, 3310-water retaining structure, 322-water trough area; 315-water beating wheel, 316-water beating tank, 317-water beating motor, 318-tank body, 319-step structure, 3110-first baffle plate, 3111-second baffle plate, 3112-first tank section and 3113-second tank section; 3911-screw column, 3912-liquid level switch fixing bracket, 3913-liquid level switch, 39111-large column, 39112-small column, 39113-screw hole, 39121-connecting pin, 39122-through hole, 39123-side edge, 39124-outward extending structure, 39131-connecting rod, 3921-first level liquid level switch, 3922-second level liquid level switch, 3943-first level switch bracket, 3944-second level switch bracket, 3945-first screw column, 3946-second screw column, 3947-first water storage tank, 3948-second water storage tank, 3925-connecting channel, 3926-water retaining rib, 39261-notch, 3930-multistage liquid level switch, 3931-floating ball, 3932-first level float, 3933-second level float, 3934-third level float, 3935-floating ball, 3936-guide rod, 3937-guide rail, 3938-connecting rod, 3939-multi-stage liquid level switch fixing bracket, 39311-one ring, 39312-guide groove and 39313-two rings; 361-filtering component, 362-water pump, 363-water discharging nozzle structure, 364-first communicating pipeline, 365-second communicating pipeline, 366-filter, 367-fixing component, 368-connecting ring sleeve, 3671-surface cover, 3672-fixing arm, 3673-hollow pipeline, 3610-mounting rack, 3611-water cover, 3613-fixing plate, 3614-water discharging port connector, 3615-fixing groove, 3616-positioning hole, 3617-positioning part, 341-water discharging nozzle body, 342-external water outlet, 346-external notch part, 347-water guiding column and 633-supporting rib;

1-upper layer water-collecting tray; 2-the middle layer is connected with a water tray; 3-a chassis structure; 4-an evaporator; 5-a condenser; 11-an air supply volute; 12-an air outlet; 13-a wind deflector; 14-a rotating shaft; 15-water collecting plate; 16-an inclined end face; 17-a water accumulation assembly; 18-a drainage assembly; 131-a guide rib; 171-a first water tank; 172-water baffles; 173-a flow guide; 174-a water falling hole; 175-a second water tank; 176-a water diversion plate; 177-a base plate; 178-a guide assembly; 179-cofferdam; 181-a drainage plate; 182-a water retaining component; 183-drain hole; 184-a guide bar; 185-a flow port; 186-diversion holes; 191-a first flow guide; 192-a second flow guide; 193-third flow guide; 194-a connecting member; 1741-downpipe; 1742-notches; 1743-tooth mouth; 1781-first guiding tube; 1782-second guiding tube; 1791-notch; 1941-a first connection; 1942-a second connecting portion; 1943-card slot; 1944-extension.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example one

The present invention provides a mobile air conditioner, which comprises a chassis structure, shown in fig. 1 to 5, the chassis structure comprises: a water suction area 321, a water level control area 313, a water tank area 322 and a water beating area 330; the chassis structure further includes:

a connecting channel 3625, disposed between the water absorption region 321 and the water tank region 322, for connecting the water absorption region 321 and the water tank region 322;

at least one water blocking rib 3926 is arranged at any axial position of the connecting channel 3925 in parallel with the cross section of the connecting channel and is used for isolating the water absorbing area 321 from the water tank area 322.

Adopt manger plate muscle 3926 to keep apart water absorption area 321 and basin district 322, make basin district 322 can store certain ponding, when condenser during operation, the ponding of basin district 322 can be preferentially assembled and get the district of fetching water, beat the fin of condenser with ponding through fetching water the wheel on, also can effectively prevent ponding refluence to water absorption area 321 to when fetching water the wheel during operation, avoid fetching water the not enough phenomenon of district's 321 comdenstion water and take place, bring unnecessary latency.

Preferably, the bottom of the water absorption region 321 is provided with a groove 323. This has the advantage that the water absorption area 321 is provided with a groove 323, and when the accumulated water is excessive, the groove 323 can effectively buffer a part of the accumulated water.

Preferably, the water blocking ribs 3926 include two arrangement forms, one of which is that the water blocking ribs 3926 and the connecting channels 3925 are integrated, so that the water blocking ribs 3926 do not need to be manufactured separately, the processing procedures are reduced, and extra cost waste caused by separate manufacturing of the water blocking ribs 3926 is avoided. Secondly, the water blocking rib 3926 is an independent structure, and is matched with at least one inserting part 320 arranged on the connecting channel 3925, and the water blocking rib 3926 is inserted into different inserting parts 320, so that the area size of the water absorption area 321 and the water tank area 322 is changed, and the water storage capacity is adjusted.

Example two

As described above, the present embodiment is different from the above-mentioned mobile air conditioner in that, with reference to fig. 6 and 7, the chassis structure further includes: a converging part 332 for connecting the water tank region 322 and the water beating region 330, which is located between the water beating region 330 and the water tank region 322 and is close to the converging port 331 of the water beating region 330;

the converging portion 332 is a concave structure with a low middle part and a high periphery, and the arrangement is beneficial in that before the accumulated water enters the water pumping area 330, the accumulated water is preferentially introduced into the converging portion 332, so that a part of the accumulated water is cached in the converging portion 332; simultaneously, alleviate the speed that ponding got into water area 330, reduce the load of fetching water wheel.

Preferably, the concave structure of the converging portion 332 is formed by combining a plurality of converging surfaces, including: the first converging surface 336, the second converging surface 337, the third converging surface 338 and the fourth converging surface 339 are combined and spliced along the counterclockwise direction, the converging surfaces are all obliquely arranged, a certain included angle is formed between every two adjacent converging surfaces, and all the converging surfaces are intersected at a converging point 333. This arrangement has the advantage of allowing a portion of the accumulated water to be buffered at the convergence 332 before entering the pumping region 330; meanwhile, the speed of the accumulated water flowing into the pumping area 330 can be slowed down. Further, the included angle between adjacent converging surfaces ranges from 174 degrees to 178 degrees. The arrangement has the advantages that the included angle between the adjacent converging surfaces is prevented from being too large, so that the whole converging surface is a plane and accumulated water cannot be effectively buffered; on the other hand, the included angle between the adjacent convergence parts 332 is prevented from being too small, so that the whole convergence part 332 is too deep, and the accumulated water is buffered too much, so that the accumulated water cannot enter the water pumping area 330 in time.

Preferably, the inclination directions of the first converging surface 336 and the third converging surface 338 are inclined from high to low from the water channel area 322 to the converging portion 332, so that the water in the water channel area 322 is preferentially guided to the converging portion 332, and the water on the chassis preferentially flows to the water beating area 330.

Preferably, the converging surfaces are planar surfaces, and all of the converging surfaces intersect at a convergence point 333. The advantage of this arrangement is that it facilitates the shaping of the converging surfaces.

Preferably, the converging surfaces are arcuate surfaces, and all of the converging surfaces intersect at a converging point 333 to provide better cushioning for accumulated water flowing into the converging portion 332. Furthermore, the concave structure of the converging portion 332 is a round-bottom pot-shaped structure, so that a part of accumulated water can be buffered in the converging portion 332 before the accumulated water enters the water pumping region 330; at the same time, the velocity of the accumulated water flowing into the pumping area 330 can be slowed. In addition, the round bottom design also avoids the phenomenon that silt is accumulated at a point which is difficult to clean.

Preferably, a water blocking block 335 is arranged between the converging portion 332 and the water fetching area 330 to separate the converging portion 332 from the water fetching area 330, the water blocking block 335 is provided with a converging port 331, and the positions of the converging port 331 and the converging point 333 are staggered with each other, so that accumulated water is prevented from directly flowing into the water fetching area 330 from the converging point 333, and a good accumulated water buffering effect is achieved.

Preferably, a water retaining structure 3310 is disposed between the converging portion 332 and the trough area 322, the water retaining structure is provided with a water inlet 334, the positions of the water inlet 334 and the converging point 333 are staggered, and the positions of the water inlet 334 and the converging port 331 are staggered, so that the accumulated water firstly passes through the converging point 333 and then flows into the converging port 331 from the converging point 333, the accumulated water is buffered at the converging point 333, and the accumulated water is prevented from directly flowing into the converging port 331.

Preferably, a water retaining structure 3310 is disposed around the converging portion 332, the water retaining structure 3310 separates the water trough 322 from the converging portion 332, the water retaining structure 3310 defines a plurality of water inlets 334, the water inlets 334 are disposed at a position of the converging portion 332 where the water level is higher than the converging point 333, the water inlets 334 are staggered from the converging point 333, and the water inlets 334 are staggered from the converging port 331. This provides the benefit of allowing the accumulation to pass smoothly from the sump region 322 to the convergence 332.

EXAMPLE III

As described above, the present embodiment is different from the above-mentioned mobile air conditioner in that the mobile air conditioner further includes a water spraying structure for spraying condensed water onto the condenser fins, and as shown in fig. 8 to 10, the water spraying structure includes: a gutter 316 for accumulating condensed water; at least one watering wheel 315, at least a portion of which is accommodated in the watering trough 316 and adapted to volatilize condensed water accumulated in the watering trough 316; a water beating motor 317 which is connected with the water beating wheel 315 and drives the water beating wheel 315 to rotate; the bottom surface of the water beating groove 316 is a groove body 318, and the groove body 318 is sunken from two ends to the middle along the radial direction of the water beating wheel 315 so as to form a groove structure with two sides higher than the middle part lower than the middle part; the structural form of the trough body 318 can enable the condensed water flowing into the trough body 318 to be gathered at the bottom of the trough body 318, which is beneficial to eliminating accumulated water dead angles of the water fetching trough 316 and avoiding idle waste of part of the condensed water, so that the condensed water gathered in the trough body 318 can be fetched to fins of a condenser by the water fetching wheel 315 as much as possible, and the working efficiency of the water fetching wheel 315 is improved;

preferably, the groove structure of the trough body 318 is an arc structure matched with the shape of the water beating wheel 315.

The channel 318 includes a first channel section 3112 and a second channel section 3113; the first tub section 3112 is a smooth slope inclined downward so that condensed water can rapidly flow into the pumping tub; the second groove section 3113 is an arc-shaped curved surface fitted with the shape of the water beating wheel 315, the bottom end of the first groove section 3112 is smoothly connected with one end of the second groove section 3113, the lowest end of the first groove section 3112 is higher than the lowest end of the second groove section 3113, and the bottom of the curved surface of the second groove section 3113 is located at the lowest position relative to the groove body 318;

preferably, the circumferential shape of the second groove section is adapted to the circumferential shape of the water fetching wheel 315, and the water fetching wheel 315 is installed above the bottom surface of the second groove section, so that the water fetching efficiency of the water fetching wheel 315 is higher;

preferably, one end of the second groove section 3113 far away from the first groove section 3112 is flush with or higher than the other end of the second groove section 3113, and as the water-spraying wheel 315 rotates, the condensate can directly flow into the second groove section 3113 of the groove body 318 and gather at the bottom end;

the two groove sections are matched, so that condensed water can better flow into the groove body 318, meanwhile, the water-fetching dead angle of the groove body 318 is eliminated, and the structural performance of the water-fetching groove 316 is better.

The water beating tank 316 further comprises a step structure 319, the top of the step structure 319 is also provided with a buffering table board, and the table board slightly extends towards the side of the water beating tank 316 and is connected with the tank body 318 so as to facilitate the condensation water to be gathered in the tank body 318;

preferably, the buffering table comprises a first side surface and a second side surface, the first side surface and the second side surface are located at two opposite sides of the buffering table, the first side surface and the second side surface incline outwards, and the second side surface is connected with the groove body 318.

A first blocking piece 3110 and a second blocking piece 3111 are arranged on two sides of the recess of the groove body 318, the first blocking piece 3110 and the second blocking piece 3111 are higher than the water beating groove 316, and the first blocking piece 3110 and the second blocking piece 3111 can limit the circulation path of the condensed water;

preferably, one or more notches are formed at the top ends of the first and second stoppers 3110 and 3111 to facilitate the condensed water to be collected in the water beating tank 316.

The first baffle sheet and the second baffle sheet are both water platforms below the other side face of the groove body 318, the water platforms are higher than the groove body relative to the vertical height of the chassis, the notch depth of the first baffle sheet and the notch depth of the second baffle sheet are parallel and level with the surface of the water platform, and liquid can conveniently flow into the groove body.

A groove is formed in the mounting position, corresponding to the water beating wheel 315, of the second baffle 3111, the bottom end of the groove is a downward-concave arc surface, the groove is used for accommodating a connecting shaft of the water beating motor 317, and the connecting shaft is connected with the water beating wheel 315;

preferably, the shape of the groove is adapted to the circumferential shape of the connecting shaft of the water beating motor 317.

The water fetching structure is arranged in the water fetching area 330, the water fetching area 330 is positioned between the water absorbing area 321 and the water level control area 313, and the water fetching area 330 is connected with the water tank area 313;

the condenser is arranged above the water tank area 322 and comprises at least two fins, the water beating wheel 315 is arranged between the two fins, and the condensed water accumulated in the tank body 318 is beaten onto the two fins by the water beating wheel 315, so that the evaporation of the condensed water can be accelerated, meanwhile, the structure arrangement is tighter, and the space is saved.

Preferably, in this embodiment, the number of the water beating wheels 315 is one.

Example four

As shown in fig. 11 and 12, the water turbine 315 includes a first water turbine 3151, a second water turbine 3152, and a third water turbine 3153;

the first water beating wheel 3151, the second water beating wheel 3152 and the third water beating wheel 3153 are all arranged above the water beating tank 316.

The water fetching motor 317 is connected with the first water fetching wheel 3151 and the second water fetching wheel 3152 through a first rotating shaft 3174, and the first rotating shaft 3174 drives the first water fetching wheel 3151 and the second water fetching wheel 3152 to coaxially rotate in the same direction;

the first shaft 3174 is connected to the second shaft 3175 via a gear set; the second rotating shaft 3175 drives the third water beating wheel 3153 to rotate. The second rotating shaft 3175 is driven by the gear set, and the rotating direction of the second rotating shaft 3175 is opposite to that of the first rotating shaft 3174; then, the first and second water wheels 3151 and 3152 rotate in the same direction, and the third water wheel 3153 rotates in the opposite direction to the first or second water wheel 3151 or 3152.

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

Preferably, the gear set includes a first bevel gear 3171, a second bevel gear 3172, a third bevel gear 3173; the first bevel gear 3171 is connected with a first rotating shaft 3174 and rotates in the same direction; the second bevel gear 3172 is connected with the second rotating shaft 3175 and rotates in the same direction; the third bevel gear 3173 simultaneously engages both the first bevel gear 3171 and the second bevel gear 3172 such that the first bevel gear 3171 and the second bevel gear 3172 rotate in opposite directions.

The third water turbine 3153 rotates in the opposite direction to the first water turbine 3151 or the second water turbine 3152, so that the condensed water can be volatilized in the opposite direction, the contact area between the condenser and the condensed water is increased, and the volatilization efficiency is improved.

As another implementation manner of this embodiment, as shown in fig. 13, the water wheel 315 includes a first water wheel 3151, a second water wheel 3152; the second rotating shaft 3175 and the first rotating shaft 3174 are arranged non-coaxially; the first bevel 3171 and the second bevel 3172 are engaged with each other, so that the first and second water wheels 3151 and 3152 are rotated in opposite directions;

preferably, the first bevel gear 3171 and the first rotating shaft 3174 are an integral structure; the second bevel gear 3172 and the second rotating shaft 3175 are of an integrated structure;

different from the above, the first bevel gear 3171 and the first rotating shaft 3174 are of a split structure; the second bevel gear 3172 and the second rotating shaft 3175 are of a split structure.

EXAMPLE five

As described above, this embodiment is different from it in that, combine fig. 13 to 20 to show, mobile air conditioner still includes an at least liquid level early warning device for monitoring the ponding in chassis water level control district, liquid level early warning device includes:

water storage tanks including a first water storage tank 3947 and a second water storage tank 3948 for collecting accumulated water generated during operation of the air conditioner;

a level switch, comprising: a first-stage liquid level switch 3921 suspended and fixed above the first water storage tank 3947 and used for monitoring the water level of the first water storage tank 3947; a second-stage liquid level switch 3922 suspended and fixed above the second water storage tank 3948 for monitoring the water level of the second water storage tank 3948;

the heights of the water levels are different when the first-stage liquid level switch 3921 and the second-stage liquid level switch 3922 trigger the alarm, so that enough time is guaranteed for the air conditioner to respond and send out an adjusting command in time after the first-stage liquid level switch 3921 triggers the alarm. The operation of the mobile air conditioner is controlled by different triggering times of the first-stage liquid level switch 3921 and the second-stage liquid level switch 3922. When the water level of the water stored in the first water storage tank 3947 rises and the floater of the first-level liquid level switch 3921 floats upwards to reach a first-level alarm position, a first-level alarm signal is triggered, the rotating speed of the air supply fan is slowed down, the temperature of the condenser is increased, and the water removal efficiency is enhanced; when the water level of the water stored in the second water storage tank 3948 continuously rises, the floater floats to the secondary alarm position, the alarm signal is triggered again, and the mobile air conditioner is stopped.

Preferably, first order liquid level switch 3921 links to each other with liquid level switch fixed bolster 3943 through connecting rod one and connects, make first order liquid level switch 3921 hang and be fixed in the top of first basin 3947 of depositing, second level liquid level switch 3922 is connected with liquid level switch fixed bolster two 3944 through connecting rod two, make second level liquid level switch 3922 hang and fix in the top of second basin 3948 of depositing, thereby avoided the lug connection on liquid level switch and chassis effectively, easy to assemble and dismantle the maintenance, avoid unnecessary troublesome.

Preferably, the height of the first-level alarm position is different from that of the second-level alarm position. The advantage of setting up like this is, guarantee to have certain time interval between the first-level warning and the second alarm, make air conditioner primary liquid level switch 3921 trigger after the warning, have enough time to respond to and in time send the adjustment command, also avoided the appearance simultaneously of first-level warning and second alarm.

Preferably, the lower surface of the float of the first stage level switch 3921 is below the upper edge of the first reservoir 3947. Ensuring that the first level switch 3921 responds effectively before the first reservoir 3947 is filled with water; preferably, the lower surface of the float of the second stage level switch 3922 is below the upper edge of the second reservoir 3948. Ensuring that the second stage level switch 3922 responds effectively before the second reservoir 3948 is filled.

Preferably, the first reservoir 3947 has a depth different from the depth of the second reservoir 3948. The advantage of this is that, on the one hand, better space saving is possible; on the other hand, the first water reservoir 3947 may store as much water as possible before the primary alarm in consideration of the structural arrangement of the chassis.

Preferably, the first stage fluid level switch 3921 and the second stage fluid level switch 3922 have different heights relative to the level control area. A certain time interval is ensured between the triggering alarm of the first-stage liquid level switch 3921 and the triggering alarm of the second-stage liquid level switch 3922, so that the air conditioner cannot execute two alarm signals simultaneously to lose the protection significance.

Preferably, the bottoms of the first water storage tank 3947 and the second water storage tank 3948 are provided with water outlets, so that the arrangement has the advantages that accumulated water can be discharged in time at a critical moment, potential safety hazards are avoided, and on the other hand, the accumulated water is convenient to discharge and maintain after sale.

Preferably, the liquid level switch can be in the form of a floating ball type liquid level switch or a reed pipe liquid level switch.

The level switch also includes a securing device for securing the level switch 3913 to the air conditioner base pan, the securing device including:

the liquid level switch fixing support 3912 is L-shaped, at least one through hole is formed in an end face 39124 of the liquid level switch fixing support 3912, the liquid level switch 3913 is connected with the end face 39124, a connecting pin 39121 is arranged at the lower edge of a side edge 39123 of the liquid level switch fixing support 3912, and the connecting pin 39121 is of a thin-wall boss structure with a sleeving groove formed in the bottom; the screw column 3911 is arranged on a chassis of the air conditioner, and the screw column 3911 is of a step structure and comprises a small column 39112 and a large column 39111;

the socket joint groove of connecting pin 39121 cup joints in the columella 39112 outside, forms detachable and cup joints the connection, realizes the spacing to liquid level switch fixed bolster 3912. Link together the chassis of liquid level switch 3913 and air conditioner, avoided the dislocation that probably appears when being connected liquid level switch 3913 with other non-chassis structures of air conditioner, in addition, through the lug connection on liquid level switch fixed bolster 3912 and chassis, only need dismantle liquid level switch fixed bolster 3912 during the dismantlement, easy to assemble maintains with the dismantlement, also avoided frequently dismantling the destruction that liquid level switch 3913 brought liquid level switch 3913 simultaneously.

Preferably, the inner cross-section of the socket groove of connecting leg 39121 is the same as the cross-section of post 39112, and post 39112 is inserted into the socket groove to slide freely in the axial direction. The stability of the sleeving groove sleeved behind the small column 39112 is guaranteed, and meanwhile, the installation and the disassembly are convenient.

Preferably, the center of the upper surface of the screw post 3911 is provided with a threaded hole 39113; a through hole 39122 is formed in the upper surface of the connecting pin 39121, and the through hole 39122 penetrates through the connecting pin 39121 and is sleeved with the groove; sleeving the sleeving grooves of the connecting pins 39121 outside the small column 39112, wherein the through holes 39122 formed in the upper surface of the connecting pins 39121 are consistent with the threaded holes 39113 formed in the upper surface of the screw columns 3911, so that the coaxial hole positions are realized, and the dislocation during installation is avoided; pass through-hole 39122 and fix with screw hole 39113 through a screw, and then fix liquid level switch fixed bolster 3912 and screw post 3911, further restrict the removal of liquid level switch 3913 in upper and lower direction, also make things convenient for later maintenance simultaneously.

Preferably, the cross-sectional area of small column 39112 is smaller than the cross-sectional area of large column 39111. After the small column is inserted into the sleeving groove, the outer wall of the sleeving groove is flush with the outer wall of the small column, and the aesthetic feeling of the appearance is guaranteed.

Preferably, the upper surface of big post 39111 can carry out the butt to the bottom surface of connecting pin 39121, and easy to assemble targets in place guarantees the position accuracy of level switch 3913 simultaneously.

Preferably, liquid level switch 3913 is connected through connecting rod 39131 with the outside extension structure 39124 of liquid level switch fixed bolster 3912, realizes fixing liquid level switch 3913 through the fastening of liquid level switch fixed bolster 3912 to avoid the lug connection on liquid level switch 3913 and air conditioner chassis effectively, easy to assemble and dismantle the maintenance, avoid unnecessary troublesome.

Preferably, the screw post 3911 has two structural forms: first, the screw post 3911 is a separately designed structure, and is separated from the air conditioner chassis, and the connection between the screw post 3911 and the air conditioner chassis is realized in a screw fastening mode or a buckling mode or a mode of sleeving with a mounting post arranged on the air conditioner chassis. The advantage that sets up like this lies in, can beat a plurality of holes on the chassis, in suitable position installation screw post can, avoided the waste of the cost that a plurality of screw posts of design caused on the chassis, also can increase holistic aesthetic property simultaneously. Secondly, the screw post 3911 and the air conditioner chassis design as an organic whole, avoided the unnecessary process that the independent processing of screw post 3911 caused to produce great waste.

Further, liquid level switch fixed bolster 3912 is provided with a knob, adjusts liquid level switch 3913's height through the knob, and then improves the use accuracy, conveniently carries out debugging before selling and after-sale maintenance.

Preferably, be provided with the screw post around the basin of depositing, realize being connected liquid level switch fixed bolster through being connected of screw post and liquid level switch fixed bolster, the indirect fixed of realizing liquid level switch. Wherein, realize the fixed of liquid level switch fixed bolster one 3943 through being connected of screw post one 3945 and liquid level switch fixed bolster one 3943, realize the fixed of liquid level switch fixed bolster two 3944 through being connected of screw post two 3946 and liquid level switch fixed bolster two 3944.

Preferably, the primary alarm position is lower than the upper edge of the water storage tank, so that the mobile air conditioner can receive signals in time, the rotating speed of the air supply fan is slowed down, the temperature of the condenser is raised, and the possibility that accumulated water overflows due to the fact that the air conditioner continues to operate normally is prevented. Ensuring that the first level switch 3921 responds effectively before the holding tank is full of water.

The first-stage liquid level switch 3921 is connected with the air conditioner bottom plate through a liquid level switch fixing support, and the first-stage liquid level switch 3921 is fixed and detached through fixing and detaching of the liquid level switch fixing support, so that damage caused by frequent detaching of the first-stage liquid level switch 3921 is prevented; second level liquid level switch 3922 passes through the liquid level switch fixed bolster to be connected with the air conditioner bottom plate, and the fixed and dismantlement that realize second level liquid level switch 3922 through the fixed of liquid level switch fixed bolster prevents the frequent damage that leads to of dismantlement of second level liquid level switch 3922.

Preferably, the first stage fluid level switch 3921 and the second stage fluid level switch 3922 may be in the form of float level switches or reed pipe fluid level switches.

Preferably, the water storage tank is provided with a water outlet at the bottom of the tank, so that water can be discharged in time in emergency. The storage water storage area is provided with a water outlet at the bottom of the tank, so that accumulated water can be effectively discharged.

The liquid level switch can also be multistage liquid level switch, and multistage liquid level switch 3930 hangs and is fixed in the top of depositing the basin for monitor the water level of depositing the basin, like the figure, multistage liquid level switch includes:

the guide rod 3936 has a conical column structure, and the cross-sectional area of the conical column structure gradually decreases along the water level rising direction, so that the guide rod is used for limiting the positions of the floating ball 3931 and the float and guiding the movement of the floating ball 3931 and the float.

A float 3931, which is in a ring-shaped structure, surrounds the guide rod 3936, and is disposed on the side of the guide rod 3936 with the largest cross-sectional area, wherein when the water level rises, the float 3931 floats upwards along the guide rod 3936, and when the water level falls, the float 3931 descends along the guide rod 3936 until it falls back to the initial position;

the number of the floaters is 1 or more, the floaters are all in an annular structure, the floaters surround the guide rod 3936 and are sequentially named as a primary floater 3932, a secondary floater 3933 and a tertiary floater 3934 along the rising direction of the water level, the floaters are upwards arranged above the floating ball 3931 in sequence according to the natural number arrangement sequence, when the water level floats upwards, the floaters float upwards along the guide rod 3936, and when the water level descends, the floaters descend along the guide rod 3936 until the floaters fall back to the initial position;

when the water level of the water storage tank continuously rises and the floating ball 3931 touches the first-level floater 3932, the multi-level liquid level switch 3930 triggers an alarm, the rotating speed of the air supply fan is reduced, the temperature of the condenser is increased, and the water removal efficiency is enhanced; when the water level continues to rise, the floating ball 3931 drives the primary floater 3932 to continue to float, and when the secondary floater 3933 is touched, the rotation speed of the air supply fan is further slowed down, the temperature of the condenser is increased, and the water removal efficiency is further enhanced; when the water level continues rising, the floating ball 3931 drives the primary floater 3932 and the secondary floater 3933 to continue floating, and when the tertiary floater 3934 is touched, the liquid level switch gives an alarm, and the mobile air conditioner stops. The advantage that sets up like this lies in, adopts the mode of multiple protection, has strengthened the monitoring to the water level of water storage tank, simultaneously, carries out multiple regulation and control to the air conditioner, has strengthened the protection to mobile air conditioner.

Preferably, the inner ring of the float comprises a ring 39311 and a ring 39313, the ring 39313 having an area greater than the area of the ring 39311. This has the advantage that, as the guide rod 3936 gradually reduces in cross-sectional area in the direction of rising water level, after the float starts to float upward away from the water level, the float is no longer restrained by the guide rod 3936, and the external resistance borne by the float when it floats upward is reduced.

Preferably, the guide rod 3936 is provided with a guide rail 3937, so that the movement of the floating ball 3931 and the small floats can be better guided, and all the floats can be prevented from rotating or overturning in the movement process.

Preferably, the float has a guide channel 39312 around its inner ring with a width corresponding to the width of the rail 3937, leaving clearance for the float to move along the rail 3937. This arrangement has the advantage of being able to engage the guide 3937, taking advantage of the guiding action of the guide 3937,

preferably, the inner ring of the single float has a different cross-sectional area at different positions in the water level rising direction, which is the same as the cross-sectional area of the guide rod 3936 at each position. This has the advantage that each float is in a fixed position and can accurately sense the position of the liquid level, preventing all the floats from being linked together and causing unnecessary activation and misleading of the alarm of the multi-stage level switch 3930.

Preferably, a gap is left between the floating ball 3931 and the float and between adjacent floats, so that interference of contact of adjacent floats on the alarm signal is avoided. The advantage of setting like this is that, according to the speed that actual water level rises, through the size of float, make the distance between the adjacent float be a certain definite value, indirectly leave certain response time for next warning.

Preferably, the guide rod 3936 is provided with a snap ring 3935, and the snap ring 3935 is disposed above all the floats to limit the floats and prevent the floats from sliding out.

Preferably, a connecting rod 3938 is disposed on the side of the guide rod 3936 with a smaller cross-sectional area, and the multistage liquid level switch is connected to the chassis by connecting the connecting rod 3938 to the multistage liquid level switch fixing bracket 3939. Avoid being connected between multistage liquid level switch is direct and chassis or the air conditioner curb plate, can avoid frequent dismouting to the destruction that multistage liquid level switch caused like this, directly dismantle liquid level switch fixed bolster, can realize multistage liquid level switch's dismouting.

Preferably, the inner rings of different floats have different cross-sectional areas at different positions along the water level rising direction, but have the same cross-sectional area as the guide rod 3936, so that the floats can surround the guide rod 3936 at different positions.

Preferably, the number of the guide rails 3937 is at least 1, and a plurality of the guide rails 3937 can better ensure the stability of the floater during floating. All the guide rails 3937 are distributed around the guide rods 3936 in an array, and the symmetrical structure can ensure the symmetry of the floater on the guide rods 3936 when the floater floats upwards, so that the stability of the floater in the ascending process is further improved.

The floater can have multistage, be respectively one, two, three … … N grades of floaters, N is the total number of all floaters, N grades of floaters upwards arrange the order in proper order according to the natural number and set up in the floater 3931 top in proper order, all floaters all rise and descend along guide bar 3936, when the liquid level is constantly rising, floater 3931 moves upwards along guide bar 3936, touch N grades of floaters in proper order and drive all floaters touched to move upwards together, and trigger corresponding N grades of alarm signal, when triggering N-1 grade signal, the air supply fan rotational speed slows down, condenser temperature rises, dewatering efficiency strengthens, when triggering N grades of signal, multistage liquid level switch 3930 reports to the police, the mobile air conditioner shuts down. The advantage that sets up like this lies in, according to the degree of depth of different air conditioner water storage tanks, adjusts the number of float, realizes the control to water storage tank water level more accurately, the reinforcing is to the protection of air conditioner.

EXAMPLE six

As described above, the present embodiment is different from the above-mentioned mobile air conditioner in that the mobile air conditioner further includes a water drainage structure, as shown in fig. 21 and 29, the water drainage structure includes a filter assembly 361, a water pump 362, a water drainage nozzle structure 363, a first communication pipe 364 and a second communication pipe 365;

the filter assembly 361 is arranged in a groove 323 formed in the base plate, the groove 323 is formed by sinking the plane of the base plate downwards, and the filter assembly 361 is arranged in the groove 323 and is helpful for sucking up liquid accumulated on the base plate; the filter assembly 361 is connected with the water inlet of the water pump 362 through a first communication pipe 364, and the water outlet of the water pump 362 is connected with a water outlet nozzle structure 363 positioned at the edge of the chassis through a second communication pipe 365;

under the action of gravity, condensed water accumulated in the chassis flows into the low-level groove 323, under the action of suction of the water pump 362, the condensed water filters impurities in liquid through a filter screen of the filter assembly 361, flows into the water pump 362, then flows through the second communication pipeline 365, and is discharged by the water discharge nozzle structure 363;

the water pump 362 transmits the filtered condensate, so that impurities mixed in the liquid are prevented from entering the water pump 362 to damage the normal use of the water pump 362, the working performance of the air conditioner is improved, the failure rate is reduced, meanwhile, the condensate below the water discharge nozzle structure 363 can be discharged out of the air conditioner, and the service life of metal parts in the air conditioner is prolonged.

The filter assembly 361 includes a filter 366, a fixing assembly 367 and a connecting collar 368, the fixing assembly 367 of the filter assembly 361 includes a face cover 3671 for closing the filter 366, and a fixing arm 3672 for supporting the filter assembly;

preferably, the face cover 3671 and the fixing arm 3672 are of an integral structure.

A hollow channel 3673 is arranged in the middle of the fixing component 367 and is used for the circulation of liquid; the hollow pipe extends to the outside to form a communication port, and the communication port is also used for connecting with a first communication pipe 364, so that the filter assembly 361 is communicated with the water pump 362;

the filter 366 is connected with the fixing component 367 through a connecting ring 368 by adopting a separable connecting method; the filter 366 and the fixing component 367 can be connected in a buckling mode or a threaded mode, so that the filter can be conveniently detached in the later maintenance process, and accumulated impurities can be cleaned;

preferably, the fixing arm 3672 includes a first fixing arm and a second fixing arm which are symmetrically and horizontally extended to both sides with the hollow conduit 3673 as a center;

preferably, a sealing structure is further provided in the connection ring 368, and the sealing structure can provide a sealing function, so that the filter 366 and the fixing component 367 are connected more tightly, and filtered condensate is prevented from leaking out and unfiltered liquid enters the pipeline.

The fixing arm 3672 is fixed by a fixing structure arranged on the chassis, and the fixing structure is positioned on two sides of the fixing arm 3672 in the length direction; the fixed structure on one side is a first fixed piece 3693 located on the chassis and the second fixed piece on the other side.

The first fixing piece 3693 is a three-dimensional table, and can be a rectangular parallelepiped, a trapezoidal table or a circular table in shape, a hollowed-out opening is formed in the wall surface of the first fixing piece 3693 facing one side of the filter 366, and the hollowed-out opening is used for accommodating the first fixing arm of the fixing arm 3672;

preferably, the hollow opening is internally provided with at least one abutting piece which is used for abutting against the first fixed arm to prevent the first fixed arm from moving in the length direction in the hollow opening;

preferably, first mounting 3693 extends a cell body downwards from the top, and the cell body link up with the fretwork mouth, sets up the cell body and can be in the installation, and whether the first fixed arm of clear observation is installed and is targetting in place.

Preferably, the shape of the hollow-out opening is matched with the shape of the first fixing arm, so that the movement of the first fixing arm in the hollow-out opening is reduced.

The second fixing part is composed of two parts, one part is a supporting body 3692, the supporting body 3692 is provided with a through opening which is matched with the fixed arm 3372 in shape, the through opening can be a groove with an opening at the top, and can also be a hollow channel on the wall surface of the supporting body 3692, the outer side of the supporting body 3692 is provided with a clamping column 3691, the clamping column 3691 is an elastic piece, and the top end of the clamping column 3691 is provided with a clamping piece;

a first fixing arm and a second fixing arm of the fixing arm 3672 respectively penetrate through the hollow opening of the three-dimensional platform 3696 and the through opening of the support body 3692, and are limited by the bottom surface of the groove body of the three-dimensional platform 3696 and the bottom surface of the through opening of the support body 3692 in the vertical direction, the clamping piece of the clamping column 3691 and the top surface of the hollow opening of the groove body, so that the fixing arm 3672 is fixed at a certain height;

the abutting piece of the three-dimensional table 3693 and the wall surface of the clamping column 3691 abut against two ends of the fixing arm 3672 respectively, and the fixing arm 3672 is fixed at a certain horizontal position through the limitation of the abutting piece of the three-dimensional table 3696 and the wall surface of the clamping column 3691 in the horizontal direction;

preferably, the clamping piece is provided with an inclined plane, when the filter assembly 361 is installed, the first fixing arm of the fixing arm 3672 is inserted into the hollow hole of the three-dimensional platform 3696, the second fixing arm of the fixing arm 3672 is pressed downwards, the clamping column 3691 is bent towards the direction far away from the filter assembly 361 under the action of elastic force, the second fixing arm slides into the through hole of the supporting body 3692 along the inclined plane of the clamping piece, and after the clamping piece 3691 is installed in place, the clamping of the filter assembly 361 is realized; during the disassembly process, the locking pin 3691 is broken off, so that the filter assembly 361 can be easily taken out.

The fixing structure fixes the fixing arm 3672 at a certain position through interaction force among various parts, and is a separable structure, so that the fixing effect is good, and the mounting and the dismounting are convenient.

Preferably, the fixing arm 3672 has screw holes on both arms, and the fixing arm 3672 can be fixed by screwing through the screw holes.

The first communicating pipe 364 is detachably connected with the filter assembly 361 and the water inlet of the water pump 362; the second communicating pipe 365 is detachably connected with the water outlet of the water pump 362 and the water discharging nozzle structure 363; above-mentioned detachable connection, for example can be through screwed connection, can also utilize the elasticity of hose to realize cup jointing, and the regular clearance of pipeline when making things convenient for later maintenance prevents that long-time liquid from flowing the work that the impurity that the back is gathered in the pipeline influences the system.

EXAMPLE seven

The present embodiment is different from the above-mentioned mobile air conditioner in that,

the drain nozzle structure 363 comprises an installation frame 3610, a drain nozzle body 341 and a water cover 3611 for sealing, the drain nozzle body 341 is of a hollow structure, the drain nozzle body 341 comprises an external water outlet 342, a fixing plate 3613 and a drain nozzle joint 3614, a second communicating pipeline 365 is connected with the drain nozzle joint 3614, and the water cover 3611 is connected with the external water outlet 342;

preferably, the plane of the fixing plate 3613 is perpendicular to the axis of the external water outlet 342, and the drainage nozzle body 341 is fixed; the water outlet joint 3614 is axially vertical to the external water outlet 342, the water outlet joint 3614 is intersected with the external water outlet 342 and is communicated internally, the connecting surface part adopts an arc structure, so that the transition is smooth, the liquid circulation is convenient, and the section radius of the water outlet joint 3614 is smaller than that of the external water outlet 342; the axis of the water outlet joint and the axis of the external water outlet form a certain angle;

preferably, the water cover 3611 is detachably connected with the drain nozzle body 341, for example, the connection may be by a screw connection, when the drain system is not in a working state in a heating mode, the water cover 3611 is connected with the drain nozzle body 341 to prevent impurities such as dust from entering the machine and damaging the operation of the machine, and when the drain system is in a working state in a heating mode, the water cover 3611 is detached to allow condensed water to flow out through the drain nozzle structure 363;

preferably, the water outlet nozzle structure 363 is installed above the top horizontal surface of the filter assembly 361 and below the bottom horizontal surface of the water pump 362, so as to facilitate the drainage of the liquid.

A fixing groove 3615 is formed on a fixing plate 3613 of the drain nozzle body 341, a fixing hole is formed on a corresponding mounting frame 3610, and at least one connecting structure penetrates through the fixing groove 3615 and is fixedly connected with the fixing hole; the fixing plate 3613 is pressed and fixed, at least one positioning hole 3616 is further formed in the fixing plate 3613, and at least one positioning portion 3617 is arranged at the corresponding position of the bottom shell; the positioning portion 3617 penetrates through the positioning hole 3616 to clamp the drainage nozzle body 341 at a certain height, and preferably, the fixing hole and the fixing groove may be connected by a screw thread to fix the drainage nozzle body 341;

preferably, after the water outlet connector 3614 is fixed to the bottom case, the inner wall of the external water outlet 342 is inclined downward compared to the horizontal plane, so as to facilitate the water discharge.

The outer surfaces of the water inlet and the water outlet of the water outlet joint 3614, the hollow pipeline 3673 and the water pump 362 are all wave-shaped structures, the wave-shaped structures are favorable for improving the sealing performance of each interface and the hose, meanwhile, the friction force is increased, and the hose is prevented from falling off accidentally in the use process of the air conditioner.

The drain nozzle body 341 is a hollow structure with openings at both ends and with two sides through;

the bottom of the water outlet end of the external water outlet 342 is provided with a notch, the notch is formed by inwards sinking the bottom of the water outlet and is used for destroying the water surface tension, the accumulated condensed water is blocked by the external water outlet 342 due to the water surface tension and cannot be smoothly discharged, the notch can enable the condensed water accumulated in the ground tray to be efficiently discharged, the residual amount is less, and the shape of the notch can be semicircular, oval, triangular, polygonal and trapezoidal.

The drainage nozzle structure 363 further comprises an external notch piece 346, one end face of one side of the external notch piece 346 is provided with a sleeving part, and the sleeving part can be sleeved outside the drainage nozzle, so that the external notch piece 346 is connected with the external water outlet 342; the external notch piece 346 is provided with a notch, and the notch is formed by inwards sinking the end surface of one side far away from the sleeving part;

the connection mode of the sleeve joint part and the external water outlet 342 is detachable, so that the external water outlet 342 is better in adaptability, different external gap pieces or different parts can be sleeved, and the applicability is wider.

The external notch piece 346 is also provided with a water diversion column 347, the water diversion column 347 is of a triangular structure, after the external notch piece 346 is sleeved on the external water outlet 342, the first side of the water diversion column 347 is attached to the end face of the external water outlet 342, and the second side of the water diversion column 347 inclines downwards and extends to the position of the notch; the water guiding column 347 can guide the water at the end of the external water outlet 342 to the notch to drop.

The external water outlet 342 is also provided with a thread structure on the outer wall, which can be tightly screwed with the water cover and can also be used for connecting a water diversion pipeline, and the thread structure is simple and has good connecting and sealing effects.

In a use state, the inner wall of the external water outlet 342 is inclined downwards compared with the horizontal plane, and liquid can flow downwards more easily under the action of the inclined plane.

Example eight

As shown in fig. 30, the present embodiment of the mobile air conditioner is different from the above-mentioned mobile air conditioner in that at least one supporting rib 633 is disposed in the water tank area 322, and the supporting rib 633 is a plate-shaped structure and is connected to the bottom of the water tank area 322; the brace rod is used for supporting the condenser placed on the upper portion of the support rod, meanwhile, a space for containing water is reserved in the water tank area 322, and the brace rod can block hot air from blowing over the water tank area 322, so that the hot air is blown onto the condenser in a more concentrated mode, and wind power loss is reduced.

Gaps are reserved between adjacent support ribs 633 to form communicated drainage channels; the condensate water in the water tank area 322 is prevented from generating a dead water area; the number of the support ribs 633 is determined according to the size of the space of the water tank area 322.

Example nine

As shown in fig. 32, the mobile air conditioner includes: the upper water receiving disc 1, the middle water receiving disc 2, the chassis structure 3, the evaporator 4, the condenser 5 and the water pumping wheel, wherein the upper water receiving disc 1 is arranged at the top of the air supply volute 11 of the mobile air conditioner and used for receiving condensed water at the air outlet 12 of the air supply volute; the middle layer water receiving disc 2 is arranged at the bottoms of the evaporator 4 and the air supply volute 11 in the mobile air conditioner and is used for receiving condensed water on the outer side walls of the evaporator 4 and the air supply volute 11 of the mobile air conditioner; the condenser 5 is arranged below the middle water receiving tray 2, fixed on the chassis structure 3 and used for heating condensed water on the outer side wall of the condenser 5 so as to vaporize at least part of the condensed water; the chassis structure 3 is arranged at the bottom of the mobile air conditioner and is used for receiving the condensed water guided from the middle-layer water-collecting tray 2 and the upper-layer water-collecting tray 1 and the non-vaporized part condensed water on the outer side wall of the condenser 5; and the water beating wheel is arranged on the chassis structure 3 of the mobile air conditioner, the water beating wheel is fixedly arranged between any two adjacent condensers 5 through a motor shaft of the water beating motor, and the water beating motor is used for beating the non-vaporized part of the condensed water onto the outer side wall of each condenser 5 through the water beating wheel so as to enable the condenser 5 to vaporize the non-vaporized part of the condensed water again.

Specifically, when the mobile air conditioner normally operates, if in a refrigeration mode, the cold air at the position of the air outlet 12 generates condensed water when contacting with the external hot air, the air flow generates condensed water through the evaporator 4 of the mobile air conditioner, and the outer side wall of the air supply volute 11 generates condensed water due to heat exchange. Specifically, the condensed water is guided to flow to the outer side wall of the condenser 5 through the structural arrangement of the upper water receiving tray 1 and the middle water receiving tray 2, and because the low-temperature condensed water exchanges heat with the outer side wall of the high-temperature condenser 5, a part of the condensed water is directly vaporized into water vapor and discharged from the mobile air conditioner, so that the first recycling of the condensed water is realized; in addition, the other part of non-vaporized condensate water can be sprayed onto the outer side wall of the condenser 5 through the water spraying wheel which is always in the running state and can run along with the linkage of the compressor in the refrigeration mode, so that the condensate water can exchange heat with the outer side wall of the condenser 5 again, secondary recycling of the condensate water is achieved, meanwhile, the condensate water can be vaporized again and discharged from the mobile air conditioner, the function of automatically discharging the condensate water of the mobile air conditioner is achieved, and user intervention is not needed.

Example ten

As shown in fig. 33, in the present embodiment, the air-supplying volute 11 is provided with an air outlet 12 at the top of the mobile air conditioner, the air outlet 12 is provided with an upper water-collecting tray 1, the upper water-collecting tray 1 includes a plurality of air deflectors 13 and a rotating shaft 14, the air deflectors 13 are fixed on the air outlet 12 through the rotating shaft 14, the air deflectors 13 can rotate through the rotating shaft 14, and the blowing direction of air from the air outlet 12 is changed by rotating the air deflectors 13.

The upper water tray 1 further comprises a water collecting device, the water collecting device comprises a water collecting assembly 17 and a water collecting plate 15, the water collecting plate 15 is arranged between the water collecting assembly 17 and the air outlet 12, the water collecting plate 15 is fixed on one side of the air outlet 12, the upper surface of the water collecting plate 15 and the whole air outlet 12 are arranged in an inclined mode, and preferably, the whole inclined angle is generally set to be 1-2 degrees; specifically, the height of the edge of the air outlet 12 connected with the water collecting plate 15 is less than the height of the edge of the air outlet 12 far away from the water collecting plate 15, that is, the height of the edge of the air outlet 12 increases with the increase of the distance from the water collecting plate 15, so that the air deflector 13 arranged on the air outlet 12 is also obliquely arranged, and the condensed water on the air deflector 13 is ensured to slide onto the water collecting plate 15 along the air deflector 13 under the action of self gravity; similarly, the water trap 15 is disposed obliquely, so that the condensed water on the water trap 15 moves into the water accumulation assembly 17 under the action of its own gravity.

The preferred slope terminal surface 16 that sets up of water trap 15 and air outlet 12 hookup location, the inclination angle of slope terminal surface 16 generally sets up to 4-5, guarantees that the comdenstion water that produces on the air outlet 12 changes the landing to water trap 15 on, improves water trap's ponding ability.

Because the air outlet 12 continues to discharge air, when the condensed water flows to the periphery of the air outlet 12, the condensed water is influenced by the air flow, so that the condensed water is not easy to collect on the water-collecting plate 15. When the inclined end face 16 is not provided, the difference of the horizontal height of the air outlet 12 relative to the horizontal height of the water collecting plate 15 is not large, which may possibly cause adverse effect of the airflow of the air outlet 12 on the flow of the condensed water on the water collecting plate 15, and even blow the condensed water away from the water collecting plate 15 under the condition of large airflow, and finally cause the condensed water to flow down along the side wall or the panel of the mobile air conditioner. In order to avoid this, in the present embodiment, the inclined end surface 16 is disposed to make the water trap 15 form a concave structure, that is, the horizontal height of the water trap 15 is far lower than the horizontal height of the air outlet 12, so as to avoid the influence of the air flow blown out from the air outlet 12 on the condensed water on the water trap 15.

Under the effect of fan, the air supply spiral case 11 discharges the cold air from air outlet 12, produces the comdenstion water easily when cold air and external hot air contact, and the comdenstion water can gather on the border position of air outlet 12 and aviation baffle 13, sets up through the whole slope of water trap 15 upper surface and air outlet 12, guarantees that the comdenstion water collects in ponding subassembly 17.

EXAMPLE eleven

As shown in fig. 34, in the present embodiment, on the basis of the tenth embodiment, the water accumulation assembly 17 includes a first water tank 171, the first water tank 171 is configured to receive the condensed water generated at the air outlet 12 and collected by the water collection plate 15, and the first water tank 171 is configured as a tank body structure having a certain depth.

Specifically, after a certain amount of condensed water is collected on the air deflector 13 and the water trap 15, the condensed water finally flows into the first water tank 171 located at the lower end of the upper water tray 1 because the upper surface of the water trap 15 and the whole air outlet 12 are inclined.

The first water tank 171 may be located in any one of the orientations of the water collecting plate 15, and it is sufficient to keep the condensed water continuously flowing from the air guide plate 13 and the water collecting plate 15 to the first water tank 171 in the orientation. Preferably, the water trap 15 is rectangular, two corresponding edges of the upper end surface of the water trap 15 are respectively connected to the air outlet 12 and the first water tank 171, and two other corresponding edges of the upper end surface of the water trap 15 are provided with water baffles 172 (stopping water flow from flowing out of the upper water tray 1 from other directions of the water trap 15), so that water flow on the water trap 15 can only flow into the first water tank 171 from the edge of the water trap 15 corresponding to the first water tank 171.

Preferably, the upper water tray 1 is provided with a diversion member 173 around the air outlet 12 and the water collecting plate 15, and the diversion member 173 may be provided as a diversion trench communicated with the first water tank 171. Because the air outlet 12 continuously exhausts air, when the condensed water flows along the air deflector 13, the condensed water is easily subjected to wind resistance, so that the condensed water is not easy to flow onto the water trap 15 under the action of self gravity, and even if the condensed water is less and the wind force is too large, the condensed water can overcome the self gravity and reversely flow along the air deflector 13 under the action of the wind force; the guiding member 173 is disposed to ensure that the condensed water is received and guided into the first water tank 171 by the guiding member 173 when the condensed water moves to the edge of the upper water tray 1 in the reverse flow.

By providing the first water tank 171 in the upper water tray 1, the condensed water collected on the top plate of the mobile air conditioner is received by the first water tank 171, so that inconvenience to a user due to the condensed water flowing down along the side wall or the panel of the air conditioner can be avoided.

Considering that the amount of the accumulated water in the first water tank 171 is small, once the condensed water is large, the first water tank 171 may be quickly filled with the condensed water. In the present embodiment, to solve this problem, the bottom of the first water tank 171 is provided with a water falling hole 174; the drain hole 174 is provided with a guide assembly, and the guide assembly guides the condensed water in the first water tank 171 to the paddling wheel located at the bottom of the mobile air conditioner.

As shown in fig. 35, during the process of the condensate water flowing down obliquely on the air deflector 13, the original flowing direction may be changed by the air flow from the air outlet 12, and thus, the path of the condensate water flowing to the water trap 15 may be deviated, which is not favorable for the water accumulation of the first water tank 171. The cross section of the air deflector 13 is designed to be arc-shaped, so that the shape of the air deflector 13 has a certain limiting and guiding effect on condensed water when the condensed water is gathered on the air deflector 13, and the condensed water is prevented from being separated from the surface of the air deflector 13 under the action of air flow; preferably, the two arc surfaces of the air deflector 13 are both provided with the guide ribs 131, the extending direction of the guide ribs 131 is the same as the extending direction of the air deflector 13, the two arc surfaces of the air deflector 13 are equally divided into a plurality of strip groove-shaped structures by the guide ribs 131, condensed water is gathered in the strip groove-shaped structures and moves along the extending direction of the air deflector 13 under the action of the guide ribs 131, the influence of airflow on the flow direction of the condensed water is reduced, and the phenomenon that the condensed water breaks away from the air deflector 13 to the outside of the mobile air conditioner under the action of wind power or drops into the air supply volute 11 under the action of self gravity to influence the user experience is avoided.

Example twelve

The twelfth embodiment is further improved over the eleventh embodiment in that the water accumulation assembly 17 includes a second water tank 175; as shown in fig. 36, in the present embodiment, a second water tank 175 replaces the first water tank 171 in the third embodiment; the second water tank 175 is configured to receive the condensed water generated by the air outlet 12 and collected by the water collecting plate 15.

The second water tank 175 is configured as a tank structure having a certain depth; preferably, the second water tank 175 comprises four enclosing plates which are connected with each other in a sealing manner to form a notch shape, wherein one enclosing plate is connected with the lower end edge of the water collecting plate 15 in a sealing manner, and the enclosing plate connected with the water collecting plate 15 is a water diversion plate 176; the height of the upper edges of the other three enclosing plates is slightly higher than that of the water diversion plate 176 connected with the water collection plate 15; a bottom plate 177 is arranged at the bottom of the second water tank 175, and the bottom plate 177 is obliquely arranged, so that condensed water is convenient to collect at a certain low point of the bottom plate 177; the water accumulation assembly 17 further comprises a hollow guide assembly 178, the guide assembly 178 is preferably arranged in an inverted L shape, one end of the guide assembly 178 is arranged on the water diversion plate 176, so that the guide assembly 178 is communicated with the interior of the second water tank 175, and a port of the guide assembly 178 on the water diversion plate 176 is arranged at the lowest inclined end of the bottom plate 177, so that condensed water in the second water tank 175 is gathered to the port of the guide assembly 178 when the condensed water is on the bottom plate 177; the other end of the guide assembly 178 is fixedly connected with the annular outer wall of the air supply volute 11, so that the guide assembly 178, the air supply volute 11 and the upper water tray 1 are fixed; preferably, the lower end face of the water collecting plate 15 and the upper end face of the guiding component 178 are provided with reinforcing ribs, and the reinforcing ribs are fixedly connected with the water collecting plate 15, the guiding component 178 and the water diversion plate 176, so that the guiding component 178 can guide and divert the condensed water in the second water groove 175, and meanwhile, a certain reinforcing effect is achieved on the connection state between the upper water collecting tray 1 and the air supply volute 11.

The guiding assembly 178 includes a first guiding tube 1781 disposed horizontally and a second guiding tube 1782 disposed vertically, and the lower end surface of the first guiding tube 1781 is disposed obliquely to ensure that the condensed water can flow into the second guiding tube 1782 under the action of its own gravity when the condensed water is in the first guiding tube 1781. Under the condition that the bottom plate 177 is ensured to be obliquely arranged, in order to ensure that the lower end face of the first guide pipe 1781 is also obliquely arranged, the lower end face of the first guide pipe 1781 is partially arranged on the bottom plate 177, so that the lower end face of the first guide pipe 1781 replaces part of the bottom plate 177, the bottom plate 177 is ensured to be obliquely guided to the whole first guide pipe 1781, the guide of the condensed water in the second water tank 175 is realized, and meanwhile, the preparation of the connecting structure between the first water tank 171 and the first guide pipe 1781 is facilitated.

The connection position of the water diversion plate 176 and the water collection plate 15 is set to be arc-shaped, so that the condensed water can conveniently slide onto the water diversion plate 176 from the water collection plate 15.

Specifically, after a certain amount of condensed water is collected on the air deflector 13 and the water trap 15, the condensed water finally flows to the second water tank 175 located at the lower end of the upper water tray 1 because the upper surface of the water trap 15 and the whole of the air outlet 12 are inclined.

The second water tank 175 may be located in any orientation of the water collecting plate 15 as long as the condensed water is kept to continuously flow from the air guide plate 13 and the water collecting plate 15 to the second water tank 175 in the orientation. Preferably, the water trap 15 is rectangular, two corresponding edges of the upper end surface of the water trap 15 are respectively connected to the air outlet 12 and the second water tank 175, and two other corresponding edges of the upper end surface of the water trap 15 are provided with water baffles 172 (for stopping water flow flowing out of the position of the upper water tray 1 from other directions of the water trap 15), so that water flow on the water trap 15 can only flow into the second water tank 175 from the edge position of the water trap 15 corresponding to the second water tank 175.

EXAMPLE thirteen

As shown in fig. 37, in the thirteenth embodiment, the water accumulation assembly 17 includes both the first water tank 171 and the second water tank 175, that is, the first water tank 171 is connected to the water collection plate 15, and the first water tank 171 is connected to the second water tank 175; specifically, a cofferdam 179 is provided between the first water tank 171 and the second water tank 175, a notch 1791 is provided in the cofferdam 179, and the first water tank 171 and the second water tank 175 are communicated with each other through the notch 1791; the height of the upper end face of the cofferdam 179 is higher than the height of the air outlet 12, the height of the bottom end of the notch 1791 is equal to or lower than the height of the lowest end of the water collecting plate 15, so that when the water falling hole 174 in the first water tank 171 is blocked, condensed water in the first water tank 171 can flow into the second water tank 175 through the notch 1791 and further flow onto a middle water receiving tray of the mobile air conditioner through the guide assembly 178, and the abnormal accumulation of the condensed water in the first water tank 171 is avoided.

The notch 1791 can be a notch with a larger cross-sectional area or a plurality of strip-shaped notches; when the notch 1791 is configured as a notch with a large cross-sectional area, the flow rate of the condensed water flowing from the first water tank 171 to the second water tank 175 can be ensured; when the notch 1791 is configured to be a plurality of elongated notches, the notch 1791 is configured to prevent the floating impurities in the first water tank 171 from entering the second water tank 175 through the notch 1791 and further entering the interior of the mobile air conditioner through the guide assembly 178, thereby causing contamination or damage to the interior components of the mobile air conditioner.

Example fourteen

A further improvement is made over the eleventh and thirteenth embodiments in that a downpipe 1741 is provided at the lower end of the downhole 174. As shown in fig. 38, a notch 1742 is provided at the outlet edge of the downpipe 1741, and the inner wall of the downpipe 1741 is inclined downwards; the outer wall of the downpipe 1741 may be threaded to facilitate installation of a water cap or pipe.

Due to the high tension of the condensed water, when the condensed water in the first water tank 171 is at a low water level, the surface tension of the condensed water at the position of the downpipe 1741 is high, so that the condensed water cannot be discharged through the downpipe 174 normally. The notch 1742 of the downpipe 1741 is arranged to destroy the surface tension of the condensed water at the outlet of the downpipe 1741, so that the condensed water in the first water tank 171 can be discharged smoothly when the condensed water is at a low water level, and the condensed water is prevented from being accumulated in the first water tank 171 for a long time.

Example fifteen

A further improvement is made on the basis of the eleventh embodiment and the thirteenth embodiment, wherein a plurality of tooth openings 1743 are arranged at the edge of the lower port of the water falling hole 174, as shown in fig. 39, and fig. 39 is a structural diagram of the seventh embodiment of the water falling hole; the notches 1743 are preferably arranged to be annularly and uniformly distributed around the axis of the water falling hole 174, and the notches 1743 may be arranged in other reasonable shapes such as a triangular groove with a sharp edge or an acute angle.

Due to the high tension of the condensed water, when the condensed water in the first water tank 171 is at a low water level and passes through the position of the water falling hole 174, the condensed water cannot be discharged through the water falling hole 174 due to the high surface tension of the condensed water at the lower end of the water falling hole 174. Due to the arrangement of the tooth openings 1743, the change of the aperture diameter of the lower end face of the water falling hole 174 and the acute angle of the sharp edge of the tooth openings 1743 affect the liquid surface formed by the condensed water on the lower end face of the water falling hole 174, so that the surface tension of the condensed water is damaged, the condensed water in the first water tank 171 can be discharged smoothly when the condensed water is at a low water level, and the condensed water is prevented from being accumulated in the first water tank 171 for a long time.

Example sixteen

Upper water tray 1 still includes drainage subassembly 18, and drainage subassembly 18 sets up on 4 upper portions of evaporimeter, and drainage subassembly 18 includes drainage plate 181, and drainage plate 181 and air outlet 12, water collecting plate 15 fixed connection, and drainage plate 181 and 4 upper ends fixed connection of evaporimeter make the position relation between evaporimeter 4 and the water collecting device obtain location and reinforced effect under drainage subassembly 18's influence.

The drainage plate 181 is disposed in an inclined manner, so that the condensed water on the drainage plate 181 is collected at a certain position on the drainage plate 181. The peripheral manger plate subassembly 182 that sets up of drainage plate 181 avoids the comdenstion water on the drainage plate 181 to flow from drainage plate 181 edge, and drainage plate 181 and manger plate subassembly 182 set up and constitute the ponding groove structure, and the comdenstion water on the drainage plate 181 collects in the ponding groove.

As shown in fig. 40, preferably, a plurality of drainage holes 183 are disposed on one side of the drainage plate 181, and the condensed water on the drainage plate 181 flows to the middle water receiving tray 2 through the drainage holes 183; the drainage plate 181 is inclined towards the side where the drainage hole 183 is arranged, and the inclination angle between the drainage plate 181 and the horizontal plane is generally set to be 1-2 degrees; be equipped with a plurality of gibs 184 on the drainage plate 181, but the equidistance parallel arrangement of gib 184 causes the upper surface of drainage plate 181 to separate for a plurality of regions, and the setting of gib 184 guarantees that the comdenstion water on the drainage plate 181 is at the peripheral gathering of gib 184 under the influence of air current to the drainage hole 183 position of flowing down realizes the comdenstion water and discharges from the drainage plate 181 under the influence of air current and self gravity finally. The height dimension of the guide strip 184 is smaller than that of the water blocking component 182, so that the water level in each separated area is prevented from being too high, and the normal discharge of condensed water is prevented from being influenced.

Example seventeen

As shown in fig. 41, in order to ensure a better guiding and collecting effect for the condensed water, a plurality of flow ports 185 are provided on the guide strip 184, different regions partitioned by the guide strip 184 can be communicated through the flow ports 185, and the condensed water collected by the guide strip 184 in each region can be finally collected at the position of the drain hole 183 through the flow ports 185 and discharged through the drain hole 183. Meanwhile, the arrangement of the circulation port 185 can play a certain role in filtering, so that sundries such as floaters on the drainage plate 181 are prevented from entering the interior of the mobile air conditioner through the drainage hole 183. The size of flow ports 185 can be varied to accommodate different filtering effects.

Because the evaporator 4 in the mobile air conditioner is arranged, under the influence of heat exchange of the evaporator 4, a large amount of condensed water is easily generated on the periphery of the evaporator 4, and the condensed water is generally collected and treated by the middle water receiving tray 2 arranged at the bottom of the evaporator 4, but for a component which is positioned at the upper part of the evaporator 4 and is fixed with the air supply volute 11, namely the drainage plate 181 in the embodiment, because the temperature of the drainage plate 181 is lower under the influence of heat exchange of the evaporator 4, the condensed water is easily generated when the external hot air contacts, and is collected on the drainage plate 181. If the condensed water on the drainage plate 181 is not treated in time, a large amount of condensed water is easily collected, and the condensed water is easily seeped out of the mobile air conditioner and flows down along the side wall or the panel of the mobile air conditioner under the influence of the air flow inside the mobile air conditioner, which causes inconvenience to users; through the setting of drainage subassembly 18, can in time collect the drainage with the comdenstion water on the drainage plate 181 and discharge, improve user's use experience.

EXAMPLE eighteen

Eighteen, a further improvement is made on the seventeenth embodiment, in that the water blocking member 182 is provided with a diversion hole 186 at a position corresponding to the first water tank 171; as shown in fig. 42, the drainage hole 186 communicates the water collecting tank with the first water tank 171, and the drainage plate 181 inclines towards the first water tank 171, so as to ensure that the condensed water on the drainage plate 181 is collected towards the drainage hole 186 under the action of gravity and further flows into the first water tank 171, thereby avoiding the arrangement of the drainage hole 183 on the drainage plate 181.

The filtering device can be arranged in the diversion hole 186, so that sundries such as floaters on the diversion plate 181 are prevented from entering the first water tank 171 through the diversion hole 186.

Example nineteen

The diversion component can be set as a hose, one end of the hose is hermetically connected with the water falling hole 174, the other end of the hose is connected with a guide hole arranged on the middle water receiving tray 2, and the guide hole penetrates through the middle water receiving tray 2. The hose is arranged to realize the conduction between the first water tank 171 and the guide hole, so that condensed water in the first water tank 171 can be directly guided into the guide hole through the hose, and the condensed water is directly guided to the water beating wheel at the bottom of the mobile air conditioner through the guide structure of the guide hole, so that the condensed water is in relative collision with the water beating wheel under the action of potential energy, and finally the condensed water is atomized to obtain water mist, and finally the water mist is discharged through the exhaust volute arranged at the bottom of the mobile air conditioner, so that the discharge speed of the condensed water in the mobile air conditioner is improved, the source of the condensed water in the chassis structure 3 is avoided, the rise of the water level of the condensed water in the chassis structure 3 is controlled, the operation that a user needs to manually discharge the condensed water due to excessive condensed water in the chassis structure 3 is avoided, the mobile air conditioner is more intelligent, and the continuous operation of the mobile air conditioner is also, and then user experience is improved.

Example twenty

On the basis of the nineteenth embodiment, the flow guide assembly is further improved in that the flow guide assembly includes a first flow guide portion 191, a second flow guide portion 192, and a third flow guide portion 193, as shown in fig. 43 and 44, the first flow guide portion 191 is provided on the drop hole 174, the second flow guide portion 192 is provided on the supply air volute 11, and the third flow guide portion 193 is provided on the guide hole; the first flow guiding part 191 is connected with the second flow guiding part 192, and the second flow guiding part 192 is connected with the third flow guiding part 193, so that the water falling hole 174 is communicated with the guiding hole.

Specifically, the first flow guiding portion 191 is a tubular or groove-shaped structure which is obliquely or vertically arranged, if the first flow guiding portion 191 is of a groove-shaped structure, the open end surface of the first flow guiding portion 191 faces the direction of the position of the air supply volute 11, one end of the first flow guiding portion 191 is fixed at the position of the water dropping hole 174, and the other end of the first flow guiding portion 191 is connected with the second flow guiding portion 192; the second guiding portion 192 is disposed along the outer circular edge of the air supply volute 11, and the second guiding portion 192 is disposed in a tubular or trough-shaped structure, so as to ensure that the condensed water flows along the outer circular edge of the air supply volute 11 in the second guiding portion 192; the third diversion part 193 is arranged on the middle water receiving tray 2 and is positioned at the lower part of the evaporator 4, a certain inclined included angle is formed between the third diversion part 193 and the horizontal plane, and the third diversion part 193 is obliquely arranged towards the guide hole, so that the condensed water in the third diversion part 193 can conveniently flow towards the guide hole under the influence of the self gravity; one end of the third flow guide part 193 is fixedly connected with the guide hole, and the other end of the third flow guide part 193 is connected with the second flow guide part 192, so that the water falling hole 174 is communicated with the guide hole.

Preferably, the second guiding portion 192 is configured to be a U-shaped notch, and an open end surface of the second guiding portion 192 is connected with an arc outer edge surface of the air supply volute 11 in a sealing manner to form a pipeline structure with an inner cavity; the center lines of the second flow guide part 192 and the air supply volute 11 in the width direction are coplanar, so that the second flow guide part 192 is convenient to mount, the width of the flow guide part can be set to be equal to or slightly smaller than the width of the air supply volute 11, and the second flow guide part 192 is convenient to collect condensed water generated on the air supply volute 11; the center line of the drop hole 174 may be disposed on the above-mentioned center line plane of the second deflector 192 and the supply scroll 11, facilitating the connection between the first deflector 191 and the second deflector 192; the third diversion part 193 is fixed on the middle layer water receiving tray 2, and the inclined arrangement of the third diversion part 193 is ensured through the arranged supporting ribs.

The flow guide assembly further comprises a plurality of connecting assemblies 194, and the detachable connection between the first flow guide part 191, the bottom surface of the first water tank 171, the first flow guide part 191, the second flow guide part 192 and the third flow guide part 193 is achieved through the connecting assemblies 194.

As shown in fig. 45, the connection assembly 194 includes a first connection portion 1941 and a second connection portion 1942, the first connection portion 1941 and the second connection portion 1942 are respectively provided on two parts connected to each other, and the first connection portion 1941 and the second connection portion 1942 are fittingly provided and detachably connected; specifically, the first connection portions 1941 may be disposed at both ends of the first flow guide portion 191; a first connection portion 1941 and a second connection portion 1942 are respectively arranged at two ends of the second flow guide portion 192; the second connecting part 1942 is arranged on the bottom surface of the first water tank 171; the third flow guide part 193 is provided with a first connection part 1941.

The first connecting portion 1941 comprises a fixing block with a U-shaped structure, and a clamping groove 1943 extending along the U-shaped structure is formed in the fixing block; correspondingly, the second connecting part 1942 comprises a matching block with a U-shaped structure, an extending part 1944 is arranged on the matching block, the extending part 1944 can be clamped in the clamping groove 1943, and the first connecting part 1941 and the second connecting part 1942 can be detachably connected; the U-shaped structures of the fixed block and the matching block are arranged, so that the connection limiting effect between the first connecting part 1941 and the second connecting part 1942 is guaranteed; and the connection form of clamping between the clamping groove 1943 and the extension piece 1944 is adopted to ensure the tightness of the connection position between the first connection part 1941 and the second connection part 1942, and the leakage of condensed water from the position of the connection assembly 194 is avoided.

The two end surfaces of the first diversion part 191 provided with the first connection part 1941 are preferably horizontally arranged, so that the first diversion part 191 is convenient to be installed in a positioning way relative to the second connection part 1942 at the bottom of the first water tank 171 and the second connection part 1942 of the second diversion part 192; specifically, the extension piece 1944 and the locking groove 1943 at two positions only need to be aligned, and the first guide part 191, the first water tank 171 and the second guide part 192 can be connected by horizontally pushing the first guide part 191.

The first and second guiding portions 191 and 192 are made of a material having a certain elastic variable, such as plastic, to facilitate the integral installation and connection of the guiding assembly. Preferably, the catch 1943 is sized larger than the extension 1944 such that the catch 1943 and the extension 1944 are in a clearance fit to facilitate connection between the first and second connection portions 1941 and 1942. A flexible layer is arranged between the clamping groove 1943 and the extending piece 1944, and hard sponge, fiber and the like can be adopted as the flexible layer to ensure the sealing performance between the clamping groove 1943 and the extending piece 1944; meanwhile, as the second flow guide part 192 is arranged on the air supply volute 11, certain vibration can be generated when the air supply volute 11 works, and the flexible layer has certain vibration reduction effect, so that the whole vibration of the flow guide assembly is avoided.

The open setting of first water conservancy diversion portion 191, the setting of hose more is favorable to the flow of comdenstion water in the water conservancy diversion subassembly, and the water conservancy diversion effect of easy water conservancy diversion subassembly to the comdenstion water, and the open setting of port on second water conservancy diversion portion 192, partly in the comdenstion water accessible that air supply spiral case 11 generated gets into in second water conservancy diversion portion 192 to the drainage direction with the comdenstion water to the wheel of fetching water is realized.

By arranging the flow guide assembly, the condensed water collected by the upper water receiving tray 1 is directly guided to the water beating wheel through the guide holes, under the influence of gravitational potential energy of the condensed water, the condensed water is impacted on the vanes of the water beating wheel at a higher flow speed, the condensed water is finally atomized under the relative collision of the water beating wheel and the condensed water to obtain water mist, and finally the water mist is discharged through an exhaust volute arranged at the bottom of the mobile air conditioner, so that the discharge speed of the condensed water in the mobile air conditioner is improved, and then avoid the source of condensate water in the chassis structure 3 to the rising of the condensate water level in the control chassis structure 3 avoids needing the manual operation with condensate water exhaust of user because of the excessive condensate water in the chassis structure 3, makes mobile air conditioner more intelligent, has still guaranteed simultaneously that mobile air conditioner can continuously run, and then has promoted user experience.

Example twenty one

As mentioned above, the present embodiment is different from the above embodiment in that the water blocking rib 3926 is a combination of a plurality of water blocking ribs, and includes: first manger plate muscle 325, second manger plate muscle 326, third manger plate muscle 327, fourth manger plate muscle 328 and fifth manger plate muscle 329, the high rivers that follow basin district 322 of manger plate muscle 3926 increase in proper order to the direction of district 321 that absorbs water, leave certain clearance between the adjacent manger plate muscle 3926, the bottom of the connecting channel 3925 between the adjacent manger plate muscle 3926 is provided with the outlet, and the high all not higher than the upper edge of connecting channel 3925 of manger plate muscle 3926. The benefit that sets up like this lies in, on the one hand, can slow down ponding and follow the speed that basin district 322 flowed into water absorption area 321, makes ponding not enough spill over, and on the other hand can select highly suitable manger plate muscle according to the power of fetching water the wheel.

Preferably, a plurality of notches 39261 are seted up at the top of water blocking muscle 3926, reduce the ponding and spill over the tension of water, ponding is too much and cause the emergence of the phenomenon that ponding spills over along notch 39261 to prevent that the ponding that overflows simultaneously from crossing. Further, the gaps 39261 are distributed on the top of the water blocking ribs 3926 in a wave shape. The benefit that sets up like this lies in, increases ponding and overflows the time passageway, prevents that breach 39261 is too little, leads to ponding not timely overflow, and the breach that the array distributes also can make ponding balanced overflow manger plate muscle 3926, simultaneously, also can increase the aesthetic property of structure.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A mobile air conditioner comprising an upper water tray (1) and a base tray structure (3), characterized in that the base tray structure (3) comprises: water absorption area (321), basin district (322), water fetching area (330), water level control district (313), chassis structure (3) still includes:

the water retaining rib (3926) is used for isolating the water absorption area (321) from the water tank area (322);

a convergence (332) between the sump region (322) and the pumping region (330) proximate to a convergence port (331) of the pumping region (330);

the bottom surface of a water beating tank (316) in the water tank area (322) is a tank body (318), and the tank body (318) is sunken from two ends to the middle along the radial direction of the water beating tank; a water beating wheel is arranged above the water beating tank (316);

upper water tray (1) includes basin and water trap (15), water trap (15) set up between air outlet (12) of basin and air supply spiral case, water trap (15) upper surface slope sets up, water trap (15) with air outlet (12) hookup location sets up an inclined end face (16), the basin sets up to the cell body structure, just the basin bottom is provided with hole (174) of falling into water, hole (174) of falling into water sets up the water conservancy diversion subassembly, the lower port edge department of hole (174) of falling into water sets up a plurality of tooth mouths (1743), tooth mouth (1743) set up to the triangle cell type that is equipped with sharp edge or acute angle.

2. The mobile air conditioner as claimed in claim 1, wherein the convergence part (332) is a concave structure with a low middle and a high periphery; the concave structure of the convergence part (332) is formed by combining a plurality of convergence surfaces, and all the convergence surfaces are intersected at a convergence point (333).

3. The mobile air conditioner of claim 1, wherein the turbine structure comprises: a first water beating wheel (3151), a second water beating wheel (3152); the first water beating wheel (3151) and the second water beating wheel (3152) are arranged above the water beating tank (316); the first water beating wheel (3151) and the second water beating wheel (3152) rotate in opposite directions.

4. The mobile air conditioner as claimed in claim 2, wherein the convergence surface is formed by splicing a first convergence surface (336), a second convergence surface (337), a third convergence surface (338) and a fourth convergence surface (339) which are all obliquely arranged, and the adjacent splicing surfaces form included angles of 174-178 degrees.

5. The mobile air conditioner as claimed in claim 4, wherein the inclination directions of the first converging surface (336) and the third converging surface (338) are inclined from high to low in the direction from the sump region (322) to the converging portion (332).

6. The mobile air conditioner of claim 3, further comprising: the first-stage liquid level switch (3921) is fixedly suspended above the first water storage tank (3947) and is used for monitoring the water level of the first water storage tank (3947); the second-stage liquid level switch (3922) is fixedly suspended above the second water storage tank (3948) and is used for monitoring the water level of the second water storage tank (3948); when the water level of the water stored in the first water storage tank (3947) rises and the floater of the first-level liquid level switch (3921) rises to reach a first-level alarm position, triggering a first-level alarm signal; when the water level of the water stored in the second water storage tank (3948) rises and the floater of the secondary liquid level switch (3922) floats to reach a secondary alarm position, a secondary alarm signal is triggered, the water pumping area (330) is located at one end of the water tank area (322), the first water storage tank (3947) is located on one side of the other end of the water tank area (322), and the second water storage tank (3948) is located on the other side of the other end of the water tank area (322).

7. The mobile air conditioner according to claim 2, characterized in that a water blocking block (335) is disposed between the convergence portion (332) and the water pumping region (330) to separate the convergence portion (332) from the water pumping region (330), the water blocking block (335) is provided with a convergence port (331), and the convergence port (331) and the convergence point (333) are staggered from each other, so as to prevent accumulated water from directly flowing into the water pumping region (330) from the convergence point (333).

8. The mobile air conditioner as claimed in claim 7, wherein the guide assembly comprises a first guide (191), a second guide (192) and a third guide (193), the first guide (191) is disposed on the downpipe hole, the second guide (192) is disposed on the air supply volute (11), and the third guide (193) is disposed on the drip pan (2) in the air conditioner; the first flow guide part (191) is connected with the second flow guide part (192), and the second flow guide part (192) is connected with the third flow guide part (193), so that the water falling hole (174) is communicated with a guide hole in the middle layer water receiving tray (2); the guide hole penetrates through the middle layer water receiving disc (2), wherein the middle layer water receiving disc (2) is installed at the bottom of an evaporator (4) and an air supply volute (11) of the mobile air conditioner.

9. The mobile air conditioner according to claim 8, wherein the second guide portion (192) is provided in a shape of a U-shaped cross-section notch, and an open end surface of the second guide portion (192) is sealingly connected to a circular arc outer edge surface of the blowing scroll (11) to form a duct structure having an inner chamber.

10. The mobile air conditioner according to claim 8, wherein the second deflector (192) and the center line of the blower scroll (11) in the width direction are coplanar; the center line of the water dropping hole (174) is arranged on the center line plane of the second flow guide part (192) and the air supply volute (11).

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