CN210153949U - Water collector and air conditioner of vertical air conditioner - Google Patents

Abstract

The utility model provides a vertical air conditioner's water collector and air conditioner, this water collector include the water receiving subassembly, set up the water receiving side of water collector, the water receiving subassembly includes heat exchanger water receiving tank, electric auxiliary heater water receiving tank and last wind channel water receiving tank, is used for collecting the comdenstion water that heat exchanger subassembly, electric auxiliary heater, last wind channel subassembly produced respectively. The utility model discloses the comdenstion water that the heat exchanger subassembly produced not influencing under the prerequisite of wind channel subassembly air inlet not only can be collected through the heat exchanger water receiving tank to the water collector, can be used for collecting the comdenstion water that electric auxiliary heater, upper air channel subassembly produced respectively through electric auxiliary heater water receiving tank and upper air channel water receiving tank in addition, effectively avoids the comdenstion water to drip.

Description

Water collector and air conditioner of vertical air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a vertical air conditioner's water collector and air conditioner.

Background

On the market, after the vertical air conditioner adopted the mode of upper and lower air-out, the air current was directly to the people's face when can avoiding the air-out to improve and used the travelling comfort, became the new selling point of air conditioner, consequently, in order to satisfy the mode of upper and lower air-out, generally adopted centrifugal fan blade as the power supply, leaded to vertical air conditioner overall structure overall arrangement to have very big change, consequently need redesign the water receiving structure of the inside comdenstion water of air conditioner, was used for collecting the comdenstion water that the air conditioner produced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem how to design the water receiving structure for collect the comdenstion water that the air conditioner produced.

In order to solve the above problem, the utility model provides a water collector of vertical air conditioner, the water collector includes:

and the water receiving assembly is arranged on the water receiving side of the water receiving tray and comprises a heat exchanger water receiving tank, an electric auxiliary heater water receiving tank and an upper air duct water receiving tank which are respectively used for collecting condensed water generated by the heat exchanger assembly, the electric auxiliary heater and the upper air duct assembly.

From this, under the prerequisite that the air inlet of wind channel subassembly was not influenced to the water collector, not only can collect the comdenstion water that the heat exchanger subassembly produced through the heat exchanger water receiving tank, can be used for collecting the comdenstion water that electric auxiliary heater, last wind channel subassembly produced respectively through electric auxiliary heater water receiving tank and last wind channel water receiving tank moreover, effectively avoid the comdenstion water to drip.

Optionally, the electric auxiliary heat collector water receiving tank and the heat exchanger water receiving tank form a bridge-shaped structure; the upper air duct water receiving tank and the heat exchanger water receiving tank are enclosed to form an annular structure, and the annular structure is an air duct of the water receiving tray.

Therefore, the bridge-shaped structure is matched with the annular structure, condensed water can be reasonably collected, and airflow can rapidly flow to the lower air duct assembly from the water receiving side of the water receiving tray conveniently.

Optionally, a connecting piece is arranged in the water receiving tank of the heat exchanger and is suitable for being detachably connected with the heat exchanger bracket.

Therefore, under the action of the connecting piece, the water pan and the heat exchanger support can be assembled and disassembled.

Optionally. The connecting piece is one or more of a clamping hook, a buckle, a bolt and an inserting block.

Therefore, different types of connecting pieces are selected, and the water pan and the heat exchanger support can be assembled firmly.

Optionally, a flow guide assembly is arranged in the water receiving tank of the heat exchanger; when the water pan is in an installation state, the flow guide assembly is located below the heat exchanger assembly, and a gap is formed between the flow guide assembly and the heat exchanger assembly.

Therefore, the condensate water dripped from the heat exchanger can be drained to the heat exchanger water receiving tank through the flow guide assembly, the height is prevented from being too high, and the condensate water of the heat exchanger assembly splashes out of the heat exchanger water receiving tank when dripping.

Optionally, the water pan includes at least one heat exchanger connecting portion, and the heat exchanger connecting portion includes at least one mounting hole, and is suitable for and heat exchanger support and heat exchanger fixed connection.

From this, heat exchanger connecting portion can pass through the mounting hole and can with heat exchanger support, heat exchanger fixed connection, realized fixing between water collector, heat exchanger support and the heat exchanger three.

Optionally, the heat exchanger connecting part is a connecting plate formed by extending the periphery of the water pan upwards.

From this, when water collector and heat exchanger subassembly assemble, because the heat exchanger connecting portion are the peripheral connecting plate that extends formation towards the top of water collector, it has increased the area with the heat exchanger subassembly contact to can be better assemble the processing, realize fixing between water collector, heat exchanger support and the heat exchanger three.

Optionally, the water collector includes at least one back panel connecting portion, and the back panel connecting portion includes at least one mounting hole, is suitable for and back panel fixed connection.

From this, back panel connecting portion pass through the mounting hole can with back panel fixed connection, have realized fixing between water collector and the back panel.

Optionally, a first positioning piece is arranged on the side edge of the water receiving tray, and the first positioning piece is suitable for being matched with a second positioning piece on the back panel and used for positioning on the back panel.

From this, the cooperation of first setting element on the water collector and the second setting element on the back panel can realize the location of water collector and back panel, and the installation of water collector and back panel of being convenient for.

Optionally, the water pan further comprises an electric auxiliary heater installation part suitable for connection of an electric auxiliary heater; the electric auxiliary heater mounting part comprises a supporting leg and a mounting plate, one end of the supporting leg is connected with the edge of the air duct inlet, and the other end of the supporting leg is connected with the mounting plate; the orthographic projection of mounting panel is located in the wind channel, the mounting panel is equipped with electric auxiliary heater water receiving tank.

From this, electric auxiliary heater installation department can be used for installing electric auxiliary heater to be equipped with electric auxiliary heater water receiving tank, can be used for collecting the comdenstion water that electric auxiliary heater produced.

Optionally, a water outlet is arranged at one end of the water receiving tray, which is back to the water receiving side, and the water outlet is respectively communicated with the water receiving tank of the heat exchanger, the water receiving tank of the electric auxiliary heater and the water receiving tank of the upper air duct.

From this, the setting of delivery port can make the log raft that heat exchanger water receiving tank, electric auxiliary heater water receiving tank and upper air flue water receiving tank collected discharge, is unlikely to spill over from the three to the realization lasts the water receiving.

Another objective of the present invention is to provide an air conditioner to solve the problem of how to design a water receiving structure for collecting the condensed water generated by the air conditioner.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

an air conditioner comprises the water pan.

Compared with the prior art, the air conditioner has the same advantages as the water pan, and the description is omitted.

Optionally, the air conditioner further comprises a shell assembly, a heat exchanger assembly, an upper air duct assembly, an upper air outlet assembly, a lower air duct assembly and an electric auxiliary heat exchanger; the heat exchanger assembly, the upper air duct assembly, the upper air outlet assembly, the lower air duct assembly and the electric auxiliary heater are arranged inside the shell assembly; the heat exchanger assembly, the water pan and the lower air duct assembly are sequentially arranged from top to bottom along the gravity direction, and the air flow is suitable for passing through the water pan and flowing to the lower air duct assembly; the heat exchanger assembly and the upper air duct assembly are arranged in front and at back along the horizontal direction; the upper air outlet assembly is positioned above the upper air duct assembly.

From this, other subassemblies are used for settling to the casing subassembly, and the heat exchanger subassembly is used for the heat transfer, goes up the wind channel subassembly and realizes going up the air-out, and the wind channel subassembly realizes air-out down.

Optionally, in an installed state of the water pan, the air duct is adapted to vertically overlap at least a portion of the air inlet of the lower air duct assembly.

Therefore, when the lower air duct assembly works, at least one part of air flow vertically passes through the lower air duct assembly through the parallel flow from the inner side of the heat exchanger, the air inlet distance is shortened, and the phenomenon that the air inlet path is bent to increase the load of a fan in the lower air duct assembly is avoided.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a water pan;

FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;

FIG. 3 is a rear view of FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 1 at A;

FIG. 5 is an exploded schematic view of one embodiment of an air conditioner;

FIG. 6 is an assembled schematic view of the heat exchanger assembly, the electric auxiliary heater and the upper duct assembly;

FIG. 7 is a schematic diagram of an embodiment of an air conditioner;

FIG. 8 is a schematic view of air outlet of the air conditioner in a heating mode;

fig. 9 is a schematic view of air outlet of the air conditioner in the cooling mode.

Description of reference numerals:

1-a water receiving plate, 2-a water receiving component, 3-a mounting hole and 4-an air conditioner;

11-air duct, 12-heat exchanger connecting part, 13-back panel connecting part, 14-first positioning part, 15-electric auxiliary heater mounting part, 16-water outlet, 17-avoidance port, 21-heat exchanger water receiving tank, 22-upper air duct water receiving tank, 23-electric auxiliary heater water receiving tank, 41-back panel, 42-front panel assembly, 43-top cover, 44-heat exchanger assembly, 45-electric auxiliary heater, 46-air inlet, 47-lower air duct assembly, 48-upper air duct assembly, 49-chassis, 50-upper air outlet assembly and 51-shell assembly;

151-mounting plate, 152-support leg, 211-first connecting piece, 212-second connecting piece, 213-guide component, 231-hole structure, 232-groove structure, 233-mounting projection, 441-heat exchanger bracket, 442-heat exchanger, 443-heat exchanger connecting frame, 481-air suction structure, 501-guide cavity, 511-upper air outlet and 512-lower air outlet.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

It should be noted that the terms "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, are used herein to indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

As shown in fig. 1-4, a water pan of a vertical air conditioner, the water pan 1 includes a water receiving assembly 2.

Specifically, the water receiving assembly 2 includes a heat exchanger water receiving tank 21, an electric auxiliary heater water receiving tank 23, and an upper air duct water receiving tank 22, which are respectively used for collecting condensed water generated by the heat exchanger assembly 44, the electric auxiliary heater 45, and the upper air duct assembly 48. Therefore, under the premise that the water receiving tray 1 does not influence the air inlet of the lower air duct assembly 47, not only can the condensed water generated by the heat exchanger assembly 44 be collected through the heat exchanger water receiving groove 21, but also the condensed water generated by the electric auxiliary heater 45 and the upper air duct assembly 48 can be respectively collected through the electric auxiliary heater water receiving groove 23 and the upper air duct water receiving groove 22, and the condensed water is effectively prevented from dripping.

Herein, the drip tray 1, which is applied to a vertical air conditioner having the upper duct assembly 48 and the lower duct assembly 47, is capable of collecting not only condensed water generated from the heat exchanger assembly 44 but also condensed water generated from the upper duct assembly 48 and the electric auxiliary heater 45, as compared with the related art. When the air conditioner is not internally provided with the electric auxiliary heater 45, the water receiving assembly 2 can be used for collecting condensed water generated by the heat exchanger assembly 44 and the upper air duct assembly 48.

As shown in fig. 1, the electric auxiliary heater water receiving tank 23 and the heat exchanger water receiving tank 21 form a bridge-shaped structure, wherein the bridge-shaped structure is formed by upwards suspending the electric auxiliary heater water receiving tank 23 relative to the heat exchanger water receiving tank 21; the upper air duct water receiving tank 22 and the heat exchanger water receiving tank 21 are enclosed to form an annular structure, the annular structure is an air duct 11 of a water receiving tray, and airflow is suitable for passing through the inner side of the heat exchanger 442 and flowing to the lower air duct assembly 47; the water receiving component 2 is arranged on the water receiving side of the water receiving tray 1. Wherein, the water receiving side is the side of the water receiving tray 1 back to the lower air duct component 47. From this, through the setting in wind channel, the air current can be followed the wind channel and passed through, and the air current of being convenient for flows to down the wind channel subassembly from the water receiving side fast of water collector.

As shown in fig. 1, the water pan 1 is an integrated structure, is a plastic punching part, and has the characteristics of convenient processing, light volume, convenient installation and the like; meanwhile, the inner walls of the heat exchanger water receiving tank 21 and the upper air duct water receiving tank 22 enclose an air duct 11, so that the structure of the heat exchanger assembly 44 and the structure of the upper air duct assembly 48 in the air conditioner 4 are conveniently matched; the air duct 11 may be a large air duct, and may also be a plurality of small air ducts, and a structure of the large air duct is preferable in view of the air outlet effect.

Because the one end of heat exchanger 442 is equipped with the copper pipe, in order to avoid the water collector 1 to block the copper pipe, the water collector 1 is equipped with the mouth 17 of dodging that runs through water collector 1, dodges the mouth 17 and can select the type C, from this, is convenient for the copper pipe on the heat exchanger 442 to pass.

The connecting piece is arranged in the heat exchanger water receiving groove 21 and is suitable for being detachably connected with the heat exchanger support 441. Therefore, the water pan 1 and the heat exchanger support 441 can be assembled and disassembled under the action of the connecting piece.

Wherein, the connecting piece is in pothook, buckle, bolt, inserted block one or more, and wherein, the buckle is the back-off type, and the inserted block is equipped with anti-skidding rib in vertical direction, and from this, the selection of connecting piece different grade type, the assembly between water collector and the heat exchanger support of being convenient for is firm.

As shown in fig. 1, the connecting member includes a first connecting member 211 and a second connecting member 212, the first connecting member 211 and the second connecting member 212 are disposed in the heat exchanger water receiving tank 21, and the first connecting member 211 and the second connecting member 212 are disposed at an interval, the first connecting member 211 and the second connecting member 212 are respectively one of an insert block and a buckle, in an embodiment, the first connecting member 211 is a buckle, and the second connecting member 212 is an insert block.

A flow guide assembly 213 is arranged in the heat exchanger water receiving tank 21; in the installed state of the water collector 1, the flow guide assembly 213 is located below the heat exchanger assembly 44 with a gap therebetween. Therefore, the condensed water dropped from the heat exchanger assembly 44 can be drained to the heat exchanger water receiving tank 21 through the flow guide assembly 213, the height is prevented from being too high, and the condensed water of the heat exchanger assembly 44 is splashed out of the heat exchanger water receiving tank 21 when dropping.

As shown in fig. 1, the flow guiding assembly 213 is a bump, a gap is formed between the upper surface of the bump and the heat exchanger, and the gap has a size of 0.5mm to 1cm, and in order to better guide the condensed water dropping from the heat exchanger assembly 44, the upper surface of the flow guiding assembly 213 is provided with a slot for guiding the condensed water to flow toward both sides of the bump.

The water pan 1 comprises at least one heat exchanger connecting portion 12, and the heat exchanger connecting portion 12 comprises at least one mounting hole 3 suitable for being fixedly connected with the heat exchanger support 441 and the heat exchanger 442. Therefore, the heat exchanger connecting portion 12 can be fixedly connected with the heat exchanger support 441 and the heat exchanger 442 through the mounting hole 3, and the water pan 1, the heat exchanger support 441 and the heat exchanger 442 are fixed together.

The heat exchanger connecting part 12 is a connecting plate formed by extending the periphery of the water pan 1 upward.

Therefore, when the water pan 1 and the heat exchanger assembly 44 are assembled, the heat exchanger connecting part 12 is a connecting plate formed by extending the periphery of the water pan 1 upwards, the area of contact with the heat exchanger assembly 44 is increased, assembly processing can be better performed, and the water pan 1, the heat exchanger support 441 and the heat exchanger 442 are fixed.

The periphery means: when the water pan 1 is installed, the outermost wall of the water pan 1, and usually, the outermost wall of the water pan 1, is a part of the water receiving tank 21 of the heat exchanger. The upper part is as follows: and the water receiving tray 1 faces the direction of the heat exchanger assembly 4 in the installation state.

As shown in fig. 1 and 2, the water pan 1 is provided with two heat exchanger connecting portions 12 respectively disposed on two sides of the water pan 1, each heat exchanger connecting portion 12 is provided with a mounting hole 3, each mounting hole 3 is a pin hole or a threaded hole, and the corresponding heat exchanger support 441 and the corresponding heat exchanger 442 are provided with matching pin holes or threaded holes, and the three are connected together by pins or screws.

The water pan 1 comprises at least one back panel connecting part 13, and the back panel connecting part 13 comprises at least one mounting hole 3 suitable for being fixedly connected with the back panel 41. From this, backplate connecting portion 13 can be connected with backplate 41 fixed connection through mounting hole 3, has realized the fixed between water collector 1 and backplate 41.

As shown in fig. 3, the water pan 1 is provided with four back panel connecting parts 13, two of which are respectively arranged at two sides of the water pan 1 and are used for matching with two side edges of the back panel 41; the other two water receiving plates are arranged at the lower ends of the side edges, facing the back panel 41, of the water receiving plate 1 and are used for being matched with the plate body of the back panel 41. And each back panel connecting part 13 is provided with a mounting hole 3, the mounting hole 3 is a pin hole or a threaded hole, the corresponding back panel 41 is provided with a matched pin hole or threaded hole, and the pin hole or the threaded hole is connected with the corresponding back panel through a pin or a screw.

The side of the drip tray 1 is provided with a first positioning member 14 adapted to cooperate with a second positioning member on the back panel 41 for positioning on the back panel 41. Therefore, the first positioning piece 14 on the water pan 1 is matched with the second positioning piece on the back panel 41, so that the water pan 1 and the back panel 41 can be positioned, and the water pan 1 and the back panel 41 can be conveniently installed.

As shown in fig. 3, the first positioning element 14 is a groove, the second positioning element on the back panel 41 is a matched protrusion, and when the water pan 1 is mounted on the back panel 41, the first positioning element 14 and the second positioning element are matched, so that the back panel connecting portion 13 and the back panel 41 are fixedly connected. The groove and the bump are one of a triangle and a square, which is not limited herein and depends on the actual requirement.

As shown in fig. 4, the water pan 1 further includes an electric auxiliary heater installation portion 15 adapted to be connected with an electric auxiliary heater 45; the electric auxiliary heater installation part 15 comprises a supporting leg 152 and an installation plate 151, wherein one end of the supporting leg 152 is connected with the edge of an inlet of the air duct 11, specifically, the inlet of the air duct 11 is an inlet positioned at the water receiving side of the water receiving disc 1, and the other end of the supporting leg 152 is connected with the installation plate 151; the orthographic projection of the mounting plate 151 is positioned in the air duct 11, and the mounting plate 151 is provided with an electric auxiliary heater water receiving tank 23. Thus, the electric auxiliary heater mounting portion 15 can be used to mount the electric auxiliary heater 45, and the electric auxiliary heater water receiving tank 23 is provided to collect the condensed water generated by the electric auxiliary heater 45.

At least one of the supporting legs 152 is provided, as shown in fig. 1, three supporting legs 152 are provided, and are respectively located on three sides of the mounting plate 151, so that the mounting plate 151 is conveniently and stably supported, and meanwhile, the supporting legs 152 are bent upwards, so that the height of the mounting plate 151 is conveniently raised, the electric auxiliary heater 45 is conveniently mounted, the position of the electric auxiliary heater 45 is positioned, and the influence on the air intake of the lower air duct assembly 47 is reduced.

As shown in fig. 4, the water receiving tank 23 of the electric auxiliary heater 45 is provided with a hole structure 231 and a groove structure 232, and the hole structure 231 and the groove structure 232 are suitable for being matched with the electric auxiliary heater bracket so as to fix the electric auxiliary heater 45 therein. The hole structure 231 is a pin hole or a threaded hole, the corresponding electric auxiliary heater bracket is provided with a matched pin hole or threaded hole, and the pin hole or the threaded hole and the corresponding electric auxiliary heater bracket are connected through a pin or a screw; the groove structure 232 is a slot, and the corresponding electric auxiliary heater bracket is provided with a matched insert block which is inserted together, in one embodiment, the groove structure 232 is arranged on the side wall of the electric auxiliary heater water receiving groove 23 and extends along the horizontal direction, and the corresponding electric auxiliary heater bracket is provided with a matched insert block; in another embodiment, the groove structure 232 is provided at the bottom end face of the electric auxiliary heater 45, which extends in the vertical direction, and the corresponding electric auxiliary heater support is provided with a mating insert.

When the electric auxiliary heater mounting part 15 is used for mounting the electric auxiliary heater 45, the electric auxiliary heater is firstly positioned through the groove structure 232 and then fixedly connected through the hole structure 231. Meanwhile, in order to cooperate with the electric auxiliary heater support structure and facilitate the collection of the condensed water of the electric auxiliary heater 45, a mounting protrusion 233 is provided in the electric auxiliary heater water receiving tank 23, and the mounting protrusion 233 is provided with a hole structure 231.

One end of the water receiving plate 1, which is back to the water receiving side, is provided with a water outlet 16, and the water outlet 16 is respectively communicated with a heat exchanger water receiving tank 21, an electric auxiliary heater water receiving tank 23 and an upper air duct water receiving tank 22. Therefore, the arrangement of the water outlet 16 can promote the water collected by the heat exchanger water receiving tank 21, the electric auxiliary heater water receiving tank 23 and the upper air duct water receiving tank 22 to be discharged, so that the water cannot overflow from the heat exchanger water receiving tank, the electric auxiliary heater water receiving tank and the upper air duct water receiving tank, and the continuous water receiving is realized.

In one embodiment, a confluence communication mode is adopted, namely, the heat exchanger water receiving tank 21 is firstly communicated with the electric auxiliary heater water receiving tank 23 and the upper air duct water receiving tank 22 respectively, the heat exchanger water receiving tank 21 is communicated with the water outlet 16, and finally, the water outlet 16 is communicated with the three. Specifically, one end of the upper air duct water receiving tank 22 is communicated with the heat exchanger water receiving tank 21, so that the communication between the upper air duct water receiving tank and the heat exchanger water receiving tank is realized; the supporting leg 152 is provided with a drainage groove, one end of the drainage groove is communicated with the electric auxiliary heater water receiving groove 23, and the other end of the drainage groove is communicated with the heat exchanger water receiving groove 21, so that the two are communicated.

In one embodiment, the water outlet 16 is separately communicated with the heat exchanger water receiving tank 21, the electric auxiliary heater water receiving tank 23 and the upper air duct water receiving tank 22 through pipes, and finally, the water outlet 16 is communicated with the heat exchanger water receiving tank, the electric auxiliary heater water receiving tank and the upper air duct water receiving tank.

Another object of the present invention is to provide an air conditioner.

As shown in fig. 5-9, an air conditioner includes the above-mentioned water pan 1.

Specifically, the air conditioner 4 is a floor air conditioner, and further includes a housing assembly 51, a heat exchanger assembly 44, an upper duct assembly 48, an upper outlet assembly 50, a lower duct assembly 47, and an electric auxiliary heat exchanger 45.

The housing component 51 is provided with an article placing cavity inside, the housing is also provided with an air inlet 46 and at least two air outlets, and the two air outlets are separately arranged up and down, so that the air conditioner 4 can wind up and down; the heat exchanger assembly 44, the upper air duct assembly 48, the upper air outlet assembly 50, the lower air duct assembly 47 and the electric auxiliary heat device 45 are respectively positioned in the storage cavity, and the heat exchanger assembly 44, the water pan 1 and the lower air duct assembly 47 are sequentially arranged from top to bottom along the gravity direction, so that air can be conveniently fed into the lower air duct assembly 47; the heat exchanger assembly 44 and the upper duct assembly 48 are arranged in the front-rear direction in the horizontal direction; the upper air outlet assembly 50 is positioned above the upper air outlet assembly 50, and the upper air outlet assembly 50 is respectively communicated with the air outlet with the high position and the upper air duct assembly 48; the electric auxiliary heater 45 is positioned on one side of the heat exchanger assembly 44 facing the upper air duct assembly 48 and is connected with the water pan 1.

The shell assembly 51 comprises a back panel 41, a front panel assembly 42, a top cover 43 and a chassis 49, and an article accommodating cavity is formed by the four components; the back panel 41 and the front panel assembly 42 are inserted together along the front-back direction, the top cover 43 and the chassis 49 are respectively covered on the upper end and the lower end of the back panel 41 and the lower end of the front panel assembly 42, so that other components can be conveniently installed, the back panel 41 is provided with an air inlet 46 communicated with the storage cavity, the front panel assembly 42 is provided with an upper air outlet 511 and a lower air outlet 512 communicated with the storage cavity, and therefore air inlet of the back panel 41 and air outlet of the front panel assembly 42 are achieved.

The heat exchanger assembly 44 comprises a heat exchanger support 441, a heat exchanger 442 and a heat exchanger connecting frame 443, wherein the heat exchanger support 441 is of a hollow structure, so that airflow can pass through the heat exchanger support, the heat exchanger support plays a role in protecting fins of the heat exchanger 442, and the problem of deformation caused by collision of the fins in the installation process is solved; the heat exchanger 442 is located on one side, opposite to the back panel 41, of the heat exchanger support 441, the heat exchanger connecting frame 443 is located at the upper ends of the heat exchanger support 441 and the heat exchanger 442, and the heat exchanger connecting frame 443 is respectively clamped with the heat exchanger support 441 and the heat exchanger 442, so that a relatively closed structure is formed at the joint of the heat exchanger connecting frame 443 and the heat exchanger 442, air leakage is prevented, and the heat exchanger connecting frame can support an upper electric control box; meanwhile, the heat exchanger connecting frame 443 is also fixedly connected with the back panel 41, and the heat exchanger connecting frame 443 and the heat exchanger 442 are clamped to play a role in assisting in fixing the heat exchanger 442.

In order to be matched with the water receiving tray 1, the lower end of the heat exchanger bracket 441 is provided with a clamping structure which is respectively used for matching a first connecting piece 211 and a second connecting piece 212 in the heat exchanger water receiving groove 21; in one embodiment, the engaging structure is a slot, and the slot is engaged with a buckle and/or a block in the water receiving tank 21 of the heat exchanger.

The heat exchanger support 441 and the heat exchanger 442 are also provided with matched connecting structures, so that the heat exchanger connecting part 12 of the water pan 1 can be matched conveniently. In one embodiment, the connection structure is a pin hole or a threaded hole, and the pin hole or the threaded hole is matched with the pin hole or the threaded hole of the water pan 1 and fixedly connected with the pin hole or the threaded hole.

The upper air duct assembly 48 comprises a first shell and at least one air suction structure 481, the air suction structure 481 is arranged on the first shell, an air inlet of the air suction structure 481 faces the heat exchanger assembly 44, and an air outlet of the air suction structure 481 is located at one end, in contact with the upper air outlet assembly 50, of the first shell, so that air is sucked from the direction of the heat exchanger assembly 44 by the air suction structure 481 and is supplied air towards the upper air outlet assembly 50. The upper duct assembly 48 is fixedly connected to the back panel 41 by means of a snap and/or threaded hole in the first housing.

The upper air outlet assembly 50 includes a second housing and a flow guiding cavity 501, the flow guiding cavity 501 includes an air inlet and an air outlet, the air inlet is communicated with the air outlet of the air suction structure 481, and the air outlet is communicated with the upper air outlet 511 of the front panel assembly 42. The number of the flow guide cavities 501 is determined according to the number of the air suction structures 481, and a plurality of corresponding flow guide cavities 501 are arranged by the air suction structures 481 to mainly play a role in changing direction. The upper air outlet assembly 50 may be fixedly connected to the upper duct assembly 48, or fixedly connected to the back panel 41, and may be implemented by a snap and/or a threaded hole on the second housing.

In one embodiment, the upper air duct assembly 48 is provided with two air suction structures 481, the air suction structures 481 can be selected as volute fans, and the air inlets of the air suction structures 481 face the heat exchanger assembly 44; therefore, the upper air outlet assembly 50 is provided with two diversion cavities 501, and the two diversion cavities 501 are respectively matched with the two air suction structures 481, so that the air flow is suitable for being blown out from the upper air outlet 511 of the shell assembly 1 through the air suction structures 481 and the diversion cavities 501. Here, the number of the upper air outlets 511 is also changed along with the change of the number of the air suction structures 481, and two air outlets are provided.

The lower air duct assembly 47 is a volute fan, which is fastened and fixed with the front panel assembly 42 through the back panel 41, an air inlet of the volute fan faces the air duct 11 of the water pan 1, and an air outlet of the volute fan faces the lower air outlet 512.

When the drip tray 1 is in the installed state, the air duct 11 is adapted to vertically coincide with at least a portion of the air inlet of the lower air duct assembly 47. Therefore, when the lower air duct assembly 47 works, at least a part of air flow vertically passes through the inner side of the heat exchanger 442 and flows to the lower air duct assembly 47, the air inlet distance is shortened, and the phenomenon that the load of a fan in the lower air duct assembly 47 is increased due to the bending of an air inlet path is avoided.

In the assembled state of the air conditioner 4, the projection of the heat exchanger assembly 44 is positioned in the heat exchanger water receiving tank 21; the projection of the electric auxiliary heater 45 is positioned in the electric auxiliary heater water receiving tank 23; the side of the upper air duct assembly 48 facing the heat exchanger is a flow guide surface, the projection of the lower half section of the flow guide surface is positioned in the upper air duct water receiving tank 22, and the condensed water of the upper air duct assembly 48 is guided by the flow guide surface under the action of gravity and finally falls into the upper air duct water receiving tank 22. Therefore, the condensed water generated by the heat exchanger 442 assembly 44, the electric auxiliary heater 45 and the upper air duct assembly 48 is collected by the heat exchanger water receiving tank 21, the electric auxiliary heater water receiving tank 23 and the upper air duct water receiving tank 22, and does not drop to the lower end of the air conditioner, especially to the air inlet of the lower air duct assembly 47.

The air conditioner 4 is provided with an upper air outlet 511 and a lower air outlet 512, wherein the arrangement of the lower air duct assembly 47 and the lower air outlet 512 mainly solves the problem of uneven air outlet during heating, and the air conditioner does not work during cooling; the specific control logic is as follows:

as shown in fig. 7, during heating: the upper air outlet 511 and the lower air outlet 512 are opened simultaneously, the upper air duct assembly 48 and the lower air duct assembly 47 work simultaneously, air flow exchanges heat through the heat exchanger 442 and enters the air conditioner 4, a part of the heated air flow is sucked by the volute fan of the upper air duct assembly 48 and enters the upper air outlet assembly 50, the upper air outlet assembly 50 changes direction and then blows into a room through the upper air outlet 511, and the other part of the heated air flow is sucked by the lower air duct assembly 47 and blows into the room through the lower air outlet 512.

As shown in fig. 8, during cooling: the upper air outlet 511 is opened, the lower air outlet 512 is closed, meanwhile, the upper air duct assembly 48 works, the lower air duct assembly 47 does not work, air flow enters the air conditioner 4 through heat exchange of the heat exchanger 442, cold air enters the upper air outlet assembly 50 through suction of a volute fan of the upper air duct assembly 48, and the upper air outlet assembly 50 changes in direction and blows the air indoors through the upper air outlet 511.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (14)

1. The utility model provides a water collector of floor air conditioner which characterized in that, water collector (1) includes:

the water receiving assembly (2) is arranged on the water receiving side of the water receiving tray (1), and the water receiving assembly (2) comprises a heat exchanger water receiving groove (21), an electric auxiliary heater water receiving groove (23) and an upper air duct water receiving groove (22) and is used for collecting condensed water generated by the heat exchanger assembly (44), the electric auxiliary heater (45) and the upper air duct assembly (48) respectively.

2. A drip tray according to claim 1, wherein the electric auxiliary heater drip tray (23) and the heat exchanger drip tray (21) form a bridge-like structure; the upper air duct water receiving groove (22) and the heat exchanger water receiving groove (21) are enclosed to form an annular structure, and the annular structure is an air duct (11) of the water receiving tray (1).

3. A drip tray according to claim 1, wherein the heat exchanger drip tray (21) is provided with a connector therein adapted to be detachably connected to a heat exchanger bracket (441).

4. A water collector as claimed in claim 3 wherein the connector is one or more of a catch, latch or insert.

5. The water pan according to claim 1, wherein a flow guide assembly (213) is arranged in the heat exchanger water receiving tank (21); when the water pan (1) is in an installation state, the flow guide assembly (213) is located below the heat exchanger assembly (44) and a gap is formed between the flow guide assembly and the heat exchanger assembly.

6. A drip tray according to claim 1, wherein the drip tray (1) comprises at least one heat exchanger attachment portion (12), the heat exchanger attachment portion (12) comprising at least one mounting hole (3) adapted to fixedly connect with a heat exchanger bracket (441) and a heat exchanger (442).

7. A water tray according to claim 6, characterised in that the heat exchanger connection (12) is a connection plate formed by extending the periphery of the water tray (1) upwards.

8. A drip tray according to claim 1, characterised in that the drip tray (1) comprises at least one back panel connection portion (13), the back panel connection portion (13) comprising at least one mounting hole (3) adapted to be fixedly connected to a back panel (41).

9. A drip tray according to claim 1, characterised in that the sides of the drip tray (1) are provided with first locating means (14) adapted to co-operate with second locating means on the back panel (41) for locating on the back panel (41).

10. A drip tray according to any one of claims 1 to 9, wherein the drip tray (1) further comprises an electrical heat booster mounting portion (15), the electrical heat booster mounting portion (15) comprising a foot (152) and a mounting plate (151), the foot (152) being connected at one end to the edge of the inlet of the air duct (11) and at the other end to the mounting plate (151); the orthographic projection of mounting panel (151) is located in wind channel (11), mounting panel (151) are equipped with electric auxiliary heater water receiving tank (23).

11. A water pan according to claim 1, wherein a water outlet (16) is arranged at one end of the water pan (1) opposite to the water receiving side, and the water outlet (16) is respectively communicated with the heat exchanger water receiving tank (21), the electric auxiliary heater water receiving tank (23) and the upper air duct water receiving tank (22).

12. An air conditioner, characterized in that it comprises a drip tray (1) according to any one of claims 1-11.

13. The air conditioner according to claim 12, wherein the air conditioner (4) further comprises a housing assembly (51), a heat exchanger assembly (44), an upper duct assembly (48), an upper outlet air assembly (50), a lower duct assembly (47) and an electric auxiliary heater (45); the heat exchanger assembly (44), the upper air duct assembly (48), the upper air outlet assembly (50), the lower air duct assembly (47) and the electric auxiliary heater (45) are arranged inside the shell assembly (51); the heat exchanger assembly (44), the water pan (1) and the lower air duct assembly (47) are sequentially arranged from top to bottom along the gravity direction, and the air flow is suitable for passing through the water pan (1) and flowing to the lower air duct assembly (47); the heat exchanger assembly (44) and the upper air duct assembly (48) are arranged in front and behind along the horizontal direction; the upper air outlet assembly (50) is positioned above the upper air duct assembly (48).

14. Air conditioner according to claim 12, characterized in that the water pan (1) has a duct (11) adapted to vertically coincide with at least a portion of an air inlet of a lower duct assembly (47) in the mounted state of the water pan (1).

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