CN109974279A - A kind of air conditioner chassis structure and air conditioner - Google Patents

Abstract

The present invention provides a kind of air conditioner chassis structure and air conditioners, are related to air-conditioning technical field.Air conditioner chassis structure of the present invention, the chassis structure include main gathering ground, the first storage area, the second storage area, water level switch area, fetch water slot and drainage area；Main gathering ground respectively with the first storage area, the second storage area, water level switch area, fetch water slot and drainage area is connected；When chassis level is placed, on gravity direction, vertical height of the main gathering ground respectively with slot of fetching water, drainage area, the second storage area, the first storage area in intersection is sequentially increased and is above the minimum point of the bottom surface of main gathering ground.The present invention guarantees that condensed water preferentially converges to main gathering ground, so that condensed water in main gathering ground is preferentially flowed into slot of fetching water, when water continues to increase in main gathering ground, then water is drained into drainage area, ponding is discharged in time by drainage area, condensed water aggregation in main gathering ground is avoided excessively to cause to overflow.

Description

A kind of air conditioner chassis structure and air conditioner

Technical field

The present invention relates to the technical fields of air-conditioning, in particular to a kind of air conditioner chassis structure and air conditioner.

Background technique

In the operational process of air conditioner, it will usually be generated on condensed water, such as heat exchanger in structure inside it.To shifting For dynamic formula air conditioner, under normal circumstances, the condensed water that internal structure generates can be by internal consumption, but it is excessive to work as air humidity When, the generation speed of condensed water is typically larger than the speed of internal consumption, and therefore, extra condensed water is often through air conditioner chassis The discharge structure of structure is discharged.But in the prior art, because of the unreasonable structural design of chassis structure, so that chassis drains With water storage function it is uncoordinated the problems such as, influence the service performance of air conditioner.

Summary of the invention

The present invention in view of the above-mentioned prior art situation and complete, its purpose is to provide one kind be more conducive to drain and storage The chassis structure and air conditioner that water is more coordinated.

For this purpose, an aspect of of the present present invention provides a kind of air conditioner chassis structure, the chassis structure include main gathering ground, First storage area, the second storage area, water level switch area, fetch water slot and drainage area；It is stored up respectively with described first the main gathering ground Pool, second storage area, water level switch area, slot of fetching water are connected with the drainage area；When the chassis level is placed, On gravity direction, the main gathering ground respectively with the slot of fetching water, the drainage area, second storage area, described first Vertical height of the storage area in intersection is sequentially increased and is above the minimum point of the bottom surface of the main gathering ground；The master catchments The vertical height of area and the water level switch area in intersection is higher than the bottom surface of the main gathering ground.

The advantages of this arrangement are as follows guarantee that condensed water preferentially converges to main gathering ground, when main gathering ground water level increases, Condensed water flows into slot of fetching water and water is then drained into drainage area when water continues to increase in main gathering ground in main gathering ground, passes through draining Ponding is discharged in time for area, and condensed water aggregation in main gathering ground is avoided excessively to cause to overflow；When main gathering ground water level continues to increase When, at this time, it may be necessary to enable the precautionary measures, therefore by the water flow of main gathering ground to the second storage area, on the one hand will can lead in time The water of gathering ground is discharged, and on the other hand can lay in condensed water；When the water level of main gathering ground continues to increase, second level need to be used Prevention, therefore, by the water flow of main gathering ground to the first storage area；Main gathering ground and the height of the connectivity part in water level switch area are located at Predeterminated position, it is ensured that water enters water level switch area, realizes to the monitoring water level in chassis structure.

Optionally, the bottom in the water level switch area is provided with water storage flume, is provided with product on the bottom surface of the water storage flume Dirt slot, the dust trap are concave structure.

Thereby it is ensured that the bottom surface of dust trap and water level switch have enough distances, in the dust deposit of long period In the case of, it still is able to guarantee that the plaster in dust trap will not impact water level switch.

Optionally, the water level switch area, further includes blocking part, the blocking part be arranged in the water level switch area into At the mouth of a river, the blocking part is groove structure.

Barrier rib effectively stops soft flocks to enter water level switch area as a result, prevents water level switch dieback.

Optionally, barrier rib is provided on the blocking part, the barrier rib is for obstructing water into the water level switch Area.

Prevent water from entering water level switch area as a result, allow water earlier, it is more enter slot of fetching water, improve efficiency.

Optionally, wind screen rib, the relatively described main gathering ground of the wind screen rib and the water are provided in the main gathering ground The intersection in bit switch area is arranged.

The leakage at communication port is reduced under the premise of not influencing water flow flowing by the setting of setting wind screen rib as a result, Wind.

Optionally, the wind screen rib is three, and three wind screen ribs are in Chinese character pin-shaped structure distribution.

It is as a result, that Chinese character pin-shaped structure reduces leakage under the premise of not influencing flow direction by three wind screen ribs of setting The probability that wind happens.

Optionally, first storage area was equipped with water notch and wind shielding structure, and the wind shielding structure is suitable in assembly shape The air for coming flash-pot direction is hindered to enter first storage area from the water indentation, there of crossing under state.

In this way, on the one hand the setting of wind shielding structure strengthens the structural strength of storage area, it can be in the assembled condition to steaming It sends out device and support force is provided；On the other hand, the air in evaporator can also be hindered to enter storage area from water indentation, there is crossed, to rise To leakproof wind action, the working efficiency of evaporator is improved.

Optionally, the wind shielding structure includes that first gusset and second that keeps out the wind keeps out the wind gusset, described first keep out the wind gusset and Described second keep out the wind gusset it is described cross water notch institute in the plane projection covering it is described excessively water notch.

In this way, can all be blown on wind shielding structure when the air in evaporator is blown into storage area by crossing water notch, and First keep out the wind gusset and second keep out the wind gusset blocking under largely flow back in main gathering ground, to reduce the leakage of evaporator Wind.

Optionally, the wind shielding structure further includes that third is kept out the wind gusset, and described first gusset and described second that keeps out the wind keeps out the wind Gusset keeps out the wind with the third link of boards, and is located at the third and keeps out the wind the two sides of gusset；The third wind screen rib One end of plate extends to the water indentation, there excessively, and the water notch of crossing is divided into two parts.

In this way, third is kept out the wind, gusset is divided into two water notch is crossed, so that the air-flow for flowing into storage area by crossing water notch exists It crosses water indentation, there and realizes shunting, reduce the flow velocity of air-flow, and according to bernoulli principle, pressure will when the flow velocity of air-flow reduces Increase, resistance is bigger when air-flow is flowed to storage area, further reduces leaking out for evaporator；Meanwhile the fish of wind shielding structure Bone formula structure, it is ensured that chassis is not allowed to be also easy to produce shrink in injection molding, at storage area, improves the manufacture matter on chassis Amount.

Optionally, described first keep out the wind gusset, described second keep out the wind gusset and the third keeps out the wind gusset in plshy bone open point Cloth.

In this manner it is ensured that chassis is not allowed to be also easy to produce shrink in injection molding, at storage area, the manufacture on chassis is improved Quality.

Optionally, first storage area has the first side wall, the V-shaped knot of the first side wall in its longitudinal direction Structure, side of the opening of the v-shaped structure towards the storage area far from the evaporator, the water notch of crossing are set to the V The top of shape structure flows to the water notch excessively along the first side wall suitable for guidance condensed water.

In this way, the condensed water for dropping onto storage area can be along the first side wall to the flowing of water indentation, there is crossed, so that the first side wall With guide functions, condensed water is prevented to be detained in storage area, to improve the drainage effect on chassis.

Optionally, the main gathering ground includes convergence portion, and the convergence portion is the high concave structure of intermediate low surrounding.

As a result, by the way that convergence portion is designed as concave structure, it is advantageously implemented the water collecting function of main gathering ground.

Optionally, the convergence portion includes four convergence faces, and four convergence faces intersect at convergent point.

As a result, by setting convergent point, the condensed water of main gathering ground can be flowed to convergent point.

Optionally, the convergent point is located at the notch of the slot of fetching water.

It is located at the notch for slot of fetching water by setting convergent point as a result, smooth flow to of condensed water is fetched water in slot And air conditioner is discharged.

Optionally, second storage area includes water conservancy diversion bottom surface, and in the longitudinal direction, the water conservancy diversion bottom surface is adjacent to the master The side of gathering ground is lower than the side far from the main gathering ground, to guide condensation flow to the main gathering ground.

As a result, by the way that the water conservancy diversion bottom surface being obliquely installed to main gathering ground is arranged in the second storage area, so that the second storage area Condensed water can smoothly flow to main gathering ground.

Optionally, the drainage area is provided with drainpipe, and the edge of the outlet of the drainpipe is jagged.

Notch is arranged by the outlet edge in drainpipe as a result, can effectively eliminate the stress of water itself, and give Water, which provides shearing force, can continue to flow, to promote the completeness that water is discharged in drainpipe.

The present invention also provides a kind of air conditioners, including any of the above-described air conditioner chassis structure.

Optionally, air conditioner further include: mechanism of fetching water, fetch water motor area and condenser, the mechanism of fetching water are suitable for institute It states the water in slot of fetching water to get on the condenser, the water that the motor area of fetching water is suitable for fetching water in mechanism described in collection.

As a result, by the way that the water level switch area is connected with the slot of fetching water, as the water row in the water level switch area When out, it is not expelled directly out air conditioner chassis, but the water in the water level switch area is discharged to the slot of fetching water, guarantees described beat The water of the work of water dispenser structure, the slot that makes to fetch water is got by mechanism of fetching water；In addition, the drainage area is then to the electricity of fetching water of water pump structure The water thrown away in machine shaft is collected.

Optionally, the motor area of fetching water only is connected with the drainage area, suitable for fetching water described on machine shaft Water is guided to the drainage area.

It avoids the water fetched water in mechanism to be again introduced into the main gathering ground as a result, avoids condensed water repetitive cycling, make to drain Not exclusively, but water is directly discharged by air conditioner by drainage area.

Optionally, the motor area of fetching water includes water guide bottom surface, when air conditioner chassis structure level is placed, in right and left Upwards, the height on the water guide bottom surface far from the drainage area side is higher than the water guide bottom surface close to the drainage area side Height.

In this case, the left and right sides difference in height of the water guide bottom surface motor area that can make to fetch water is in heeling condition, thus The condensed water for keeping it internal is flowed to lower side, namely is flowed to the direction of drainage area, is more conducive to motor area of fetching water as a result, The discharge of interior water promotes its expulsion efficiency, and ensures the completeness of its internal condensation water discharge simultaneously.

Detailed description of the invention

The attached drawing for constituting a part of the invention is used to provide further understanding of the present invention, schematic reality of the invention It applies mode and its explanation is used to explain the present invention, do not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is the axonometric drawing of the chassis discharge structure of embodiments of the present invention；

Fig. 2 is the front view of the chassis discharge structure of embodiments of the present invention；

Fig. 3 is the water level switch area schematic diagram of embodiments of the present invention；

Fig. 4 is embodiments of the present invention water level switch area cross-sectional view；

Fig. 5 is the water level switch area main view of embodiments of the present invention；

Fig. 6 is the chassis structure external structure schematic diagram of embodiments of the present invention；

Fig. 7 is the main gathering ground schematic diagram of embodiments of the present invention；

Fig. 8 is the main gathering ground convergence portion schematic diagram of embodiments of the present invention；

Fig. 9 is the second storage area structural schematic diagram of embodiments of the present invention；

Figure 10 is the structural schematic diagram on chassis in the embodiment of the present invention；

Figure 11 is partial enlarged view at A in Figure 10；

Figure 12 is evaporator and the cross section structure schematic diagram of chassis in the mounted state in the embodiment of the present invention；

Figure 13 is evaporator and the top view of chassis in the mounted state in Figure 12；

Figure 14 is the top view on chassis in the embodiment of the present invention；

Figure 15 is structural schematic diagram of the chassis at storage area in the embodiment of the present invention；

Figure 16 is partial enlarged view at B in Figure 15；

Figure 17 is the cross section structure schematic diagram of storage area in the embodiment of the present invention；

Figure 18 is the front view on chassis in the embodiment of the present invention；

Figure 19 is partial enlarged view at C in Figure 18；

Figure 20 is structural schematic diagram when storage area bottom surface is tilted by left side towards right side in the embodiment of the present invention；

Figure 21 is switch region main view of fetching water in the embodiment of the present invention；

Figure 22 is switch region cross-sectional view of fetching water in the embodiment of the present invention；

Figure 23 is connecting pipeline structure schematic diagram in the embodiment of the present invention；

Figure 24 is position of drain pipe structural schematic diagram in the embodiment of the present invention；

Figure 25 is transition region structural schematic diagram in the embodiment of the present invention；

Figure 26 is drainage area cross-sectional view in the embodiment of the present invention；

Figure 27 is drainpipe cross-sectional view in the embodiment of the present invention；

Figure 28 is drainpipe side view in the embodiment of the present invention；

Figure 29 is another cross-sectional view of drainpipe in the embodiment of the present invention.

Description of symbols:

10- evaporator, 11- bracket, the main gathering ground 100-, the storage area 200-, 210- wind shielding structure, the first wind screen rib of 211- Plate, 212- second keep out the wind gusset, and 213- third is kept out the wind gusset, 220- the first side wall, and 221- crosses water notch, the first notch of 2211-, The second notch of 2212-, the first side 222-, the second side 223-, 230- second sidewall, 231- reinforcement structure, 240- first are stored up Sink, the second water storage tank of 250-, 300-, the drainage area 400-, 411- water guide area, 4113- water guide inclined-plane, 412- transition region, 413- Drainage area reinforcing rib, 420- drainpipe, 421- inner wall, 422- notch, 500- water level switch area, 510- water storage flume, 511- dust accumulation Slot, 512- blocking part, 513- barrier rib, 514- flow-guiding channel, 515- are oriented to cell wall, and 5151- first is oriented to cell wall, 5152- the Two guiding cell walls, 600- fetch water motor area, 610- interface channel, 613- transition side wall, 6131- First Transition face, 6132- second Transition face, 6133- third transition face, 620- water guide bottom surface, 630- fetch water area's reinforcing rib, and 700- fetches water slot, and 800- fetches water mechanism, 810- fetches water wheel, and 820- fetches water motor shaft.

Specific embodiment

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can To be combined with each other.

In addition, all directions being previously mentioned in embodiments of the present invention or positional relationship are the position based on attached drawing Relationship, " front and back up and down " coordinate system occurred in attached drawing, only for the purposes of understanding the description that simplifies of the invention, rather than it is dark Show the specific orientation that signified device or element must have, is not considered as limiting the invention.

Below with reference to attached drawing and in conjunction with embodiment, the present invention will be described in detail.

The present embodiment provides a kind of air conditioner chassis structures, and as depicted in figs. 1 and 2, the chassis structure includes that master catchments Area 100, the first storage area 200, the second storage area 300, water level switch area 500, fetch water slot 700 and drainage area 400；The main collection Pool 100 respectively with first storage area 200, second storage area 300, water level switch area 500, fetch water slot 700 and institute Drainage area 400 is stated to be connected；When the chassis level place when, on gravity direction, the main gathering ground 100 respectively with it is described Fetch water slot 700, the drainage area 400, second storage area 300, first storage area 200 intersection vertical height It is sequentially increased and is above the bottom surface of the main gathering ground 100；The main gathering ground 100 is with the water level switch area 500 in phase Vertical height at friendship is higher than the bottom surface of the main gathering ground 100.

It should be noted that water level switch area 500 is equipped with water level switch, water level switch area 500 is for sensed water level Highly, when the water speed of generation is greater than the water of consumption, water level increases, and when reaching early warning position, water level switch can issue signal Close compressor and the effect for enhancing consumption water, prevent water from overflowing chassis.Water level switch floats up and down with water level height.This In, on gravity direction, water level switch area 500 and the height of the connectivity part of main gathering ground 100 are not limited clearly, water level switch The height of the connectivity part of area 500 and main gathering ground 100 can be greater than the main gathering ground 100 respectively with the slot 700 of fetching water, institute Drainage area 400, second storage area 300, first storage area 200 are stated in the vertical height of intersection, might be less that Intersecting respectively with the drainage area 400, second storage area 300, first storage area 200 the main gathering ground 100 The vertical height at place need to only guarantee the monitoring to water level in chassis.In air conditioner chassis structure, the water on heat exchanger is first converged to Main gathering ground 100, with gradually increasing for water level, condensed water is successively flowed into slot 700 of fetching water, drainage area 400, the second storage area 300, the first storage area 200, wherein when water level increases to a certain extent, water enters water level switch area 500, is opened by water level Area 500 is closed to be monitored the water level in air conditioner chassis structure.

The advantages of this arrangement are as follows guaranteeing that condensed water preferentially converges to main gathering ground 100, when main 100 water level of gathering ground When raising, condensed water flows into slot 700 of fetching water and water is then drained into row when water continues to increase in main gathering ground in main gathering ground 100 Ponding is discharged in time by drainage area 400 for pool 400, and condensed water aggregation in main gathering ground is avoided excessively to cause to overflow；Work as master When 100 water level of gathering ground continues to increase, at this time, it may be necessary to enable the precautionary measures, therefore the water flow of main gathering ground 100 is stored up to second On the one hand the water of main gathering ground can be discharged in time, on the other hand can lay in condensed water by pool 300；When master catchments It when the water level in area 100 continues to increase, need to be taken precautions against with second level, therefore, by the water flow of main gathering ground to the first storage area 200；Main collection The height of the connectivity part in pool 100 and water level switch area 500 is located at predeterminated position, it is ensured that and water enters water level switch area 500, It realizes to the monitoring water level in chassis structure.

As shown in figure 3, the bottom in the water level switch area 500 is provided with water storage flume 510, the wheel profile of water storage flume 510 Shape is set for determining according to the whole position functions on chassis, the chamfered shape of water storage flume 510 and the region in water level switch area Profile is adapted, and the depth of water storage flume 510 can be set according to the water level that the capacity on chassis can reach the most upper limit, this implementation In example, the depth of water storage flume is 14mm.When the ponding in chassis is excessive, the ponding in sink area can pass through water level switch area 500 water inlet enters in water storage flume 510, and water level switch detects entire chassis by the ponding situation in water storage flume 510 Ponding situation.It is provided with dust trap 511 in the water storage flume 510, since the original intention of setting dust trap 511 is to avoid water storage flume Influence of 510 dust to water level switch, it is preferable that the underface of water level switch is arranged in dust trap 511, keeps water level switch complete The bottom surface of the water storage flume 510 is isolated entirely, to avoid influence of the dirt mud of water storage flume 510 to water level switch completely.Dust trap 511 shape can be set to rectangular, circle, prismatic or other shapes, and the size of dust trap 511 is can place water Subject to bit switch, water level switch is not influenced and is floated up and down, it is preferable that in the present embodiment, dust trap 511 is provided in round slot, with It is adapted with the shape of water level switch, one integrated mass above and below dust trap 511 and water level switch meets traditional taste conceptions.It is described Dust trap 511 is provided on the bottom surface of water storage flume 510, the dust trap 511 is concave structure, and the dust trap 511 is for receiving Collect the dust generated during operation of air conditioner, since the bottom surface of the dust trap 511 is lower than the bottom surface of the water storage flume 510, Under the height facilities of water level switch routine, bottom surface of the water level switch apart from dust trap 511 has sufficiently large distance, even if Dust trap 511 has stockpiled plaster, it is also difficult to be attached on water level switch, it is entirely avoided influence of the plaster to water level switch, into One step ensure that the normal operation of air conditioner complete machine.

The depth of the dust trap 511 is 5-20mm, it is preferable that the depth of dust trap 511 is 8-15mm, to guarantee to accumulate The bottom surface of dirt slot 511 and water level switch have enough distances, and will not the water level monitoring function to water level switch area cause shadow It rings, in the case where the dust deposit of long period, still is able to guarantee that the plaster in dust trap 511 will not cause water level switch It influences, to extend the maintenance time period, make the user to use more convenient, enhance user experience.

The transversal cross-section of the dust trap 511 is circle, and the diameter of the dust trap 511 is 35-40mm, so that it is guaranteed that product Dirt slot 511 can be adapted to most water level switches on the market, and universality is higher.

It further include blocking part 512, the water inlet in the water level switch area 500, blocking part is arranged in the blocking part 512 512 be the groove structure being arranged on 510 bottom surface of water storage flume, and in the present embodiment, blocking part 512 is a square groove, blocking part The size of the water inlet in 512 size and the water level switch area 500 is adapted, and make the soft flocks in flowing water is deposited on blocking part In 512, so that extraneous soft flocks be stopped to enter the water level switch area 500, water level switch dieback is prevented.

The depth of the blocking part 512 is 1-3mm, it is preferable that the depth of blocking part 512 is set as 1mm, due in chassis Vapor of the ponding mostly in air condense, impurity is less, and the blocking part of 1mm depth can filter out once in a while The soft flocks impurity of appearance, and will not influence the intensity of the body construction on chassis.

Barrier rib 513 is provided on the blocking part 512, the barrier rib 513 is opened for obstructing water into the water level Area 500 is closed, in the present embodiment, blocking part 512 is arranged on the side in water level switch area 500 in barrier rib 513, in air conditioner When normal operation, drainage system consumes water in two kinds of situation, the first situation is that air-conditioning operates normally, internal when water is less Consume water；Second when being that air humidity is big, chassis hypervolia causes water level switch to be alarmed, and needs artificially to drain from discharge outlet. When drainage system water is less, water will preferentially enter area of fetching water, and when operation of air conditioner, water is more to be evaporated from condenser, It means that and takes away more heats, be conducive to efficiency, but water level switch area moisture storage capacity is big, barrier rib 513 prevents sink area Interior water enters water level switch area, allow water earlier, it is more enter area of fetching water, improve efficiency.

The height of the barrier rib 513 is 1-5mm, it is preferable that the height of barrier rib 513 is set as 3mm, thus guaranteeing The water level on chassis preferentially flows to area of fetching water in control range, is evaporated ponding by evaporator, improves the energy of air conditioner Effect.

As shown in figure 4, the side of the dust trap 511 is provided with flow-guiding channel 514, and in the present embodiment, flow-guiding channel 514 For straight-bar-shaped structure, it is unobstructed that the bottom surface of flow-guiding channel 514 is straight, and the connection of the flow-guiding channel 514 and the dust trap 511 Locate rounding off, the diversion effect of the ponding further increased, so that the ponding to dust trap 511 quickly thoroughly carries out water conservancy diversion, In other embodiments, flow-guiding channel 514 can also be other shapes structure, and details are not described herein.Specifically, dust trap 511 Setting is connected to flow-guiding channel 514, one end of the flow-guiding channel 514 is connected with the bottom surface of dust trap 511, the flow-guiding channel 514 other end is connected with the bottom surface of the water storage flume 510, and the flow-guiding channel 514 is in dust trap 511 described in water conservancy diversion Water flow is discharged into water storage flume 510, and the pico- dump angle of machine, flow-guiding channel 514 need to exist when user artificially drains It plays a key effect when toppling over water guide, is smoothly arranged by flow-guiding channel 514 to water storage flume convenient for the ponding in dust trap 511 In 510, ponding is avoided to retain in dust trap 511, it is clean to drain.

The flow-guiding channel 514 is inclined relative to horizontal setting, and the tilt angle of the flow-guiding channel 514 is 10 °- 50 °, it is preferable that in the present embodiment, 15 ° -30 ° of the tilt angle of flow-guiding channel, in this angular range, flow-guiding channel 514 Gradient is more gentle, and the ponding be conducive in dust trap 511 is flowed in water storage flume 510 by flow-guiding channel 514, thus water conservancy diversion Channel 514 has preferably diversion effect.

The bottom surface of the water storage flume 510 is inclined relative to horizontal setting, and the water storage flume 510 is by the dust trap 511 It is obliquely installed on to the direction of the flow-guiding channel 514, is arrived in the ponding of dust trap 511 by flow-guiding channel water conservancy diversion from high to low After in water storage flume 510, water conservancy diversion again is carried out to ponding in water storage flume 510, enables ponding that water is faster more thoroughly discharged Slot 510, the inclined bottom surface angle of the water storage flume 510 are 1 ° -10 °, it is preferable that the inclined bottom surface angle of water storage flume 510 is 2 ° - 5 °, in this angular range, the ponding in water storage flume 510 can be preferably discharged, and draining is clean.

Guiding cell wall 515 is provided on the water storage flume 510, the guiding cell wall and the flow-guiding channel are oppositely arranged, When ponding flows to the guiding cell wall 515 in water storage flume 510, the guiding cell wall 515 is again oriented to ponding, makes it The water inlet in water level switch area is flowed to, so that ponding is discharged.The guiding cell wall 515 is used for the flow-guiding channel 514 The water of outflow is oriented to.

As shown in Figure 4 and Figure 5, the guiding cell wall 515 includes that the first guiding cell wall 5151 and second are oriented to cell wall 5152, The first guiding cell wall 5151 and the second guiding adjacent connection of cell wall 5152, junction rounding off, convenient for water Water conservancy diversion.The first guiding cell wall 5151 is inclined relative to horizontal setting, the tilt angle of the first guiding cell wall 5151 It is 10 ° -60 °, it is preferable that in the present embodiment, the tilt angle of the first guiding cell wall 5151 is 30 ° -45 °, in this angle In range, smaller to the resistance of water when the ponding in water storage flume 510 flows to the first guiding cell wall 5151, ponding flows to the It takes advantage of a situation water conservancy diversion after one guiding cell wall 5151, and flows to blocking part 512 along the second guiding cell wall 5152.First guiding Cell wall 5151 and the flow-guiding channel 514 are oppositely arranged, and especially, the ponding in dust trap 511 passes through 514 water conservancy diversion of flow-guiding channel Out, ponding flows faster can weaken the impact of flowing water by the water conservancy diversion of the first guiding cell wall 5151, make it along institute State the second guiding cell wall 5152 it is faster and better flow to blocking part.It leads the side and described first of the second guiding cell wall 5152 It is connected to cell wall 5151, the other side of the second guiding cell wall 5152 and the blocking part 512 connect, and ponding is along described the Two guiding cell walls 5152 flow directly into blocking part 512, and then water storage flume 510 is discharged.

The width of the flow-guiding channel 514 is 8-15mm, and the length of the flow-guiding channel 514 is 20-40mm, it is preferable that In the present embodiment, the width of the flow-guiding channel 514 is 10mm, and the length of the flow-guiding channel 514 is 30mm, so that water conservancy diversion is logical Road 514 and the dust trap 511 can be good at being adapted to, and the ponding of dust trap 511 can be exported sufficiently.

As shown in fig. 6, a kind of air conditioner, including such as above-mentioned air conditioner chassis structure, in order to which air conditioner is easy to remove, bottom After pan bottom has 4 universal wheels, the air conditioner chassis structure to be installed to air conditioner, under the working condition of air conditioner, chassis The bottom ground clearance of dust trap cannot be too small, and at least more than 10mm, otherwise barrier is easy to block the chassis of air conditioner, causes Air conditioner walking ability is poor.

In the present embodiment, as illustrated in fig. 1 and 2, main gathering ground 100 is higher than the second storage area 300, and the second storage area 300 is high In drainage area 400.Specifically, " it is higher than " is defined as: when air conditioner is generally in horizontality, in main gathering ground 100 and second The junction of storage area 300, vertical height of the main gathering ground 100 in the junction are greater than the second storage area 300 in the junction Vertical height, i.e., form step-like structure in the junction, main gathering ground 100 and the second storage area 300；Second storage area 300 are greater than the vertical height of drainage area 400 with the junction of main gathering ground 100 with the vertical height of main 100 junction of gathering ground.

Wherein, main gathering ground 100 is the main region that chassis is catchmented, and main gathering ground 100 is located under the condenser of air conditioner Side, the condensed water of air conditioner enter main gathering ground 100 from condenser, and a certain amount of condensed water is accepted in main gathering ground 100, and will surpass The condensed water of storage capacity is sent to slot 700 or the drainage area 400 of fetching water out.

Meanwhile second storage area 300 be lower than main gathering ground 100, the second storage area 300 increases the moisture storage capacity on chassis, when When the water surface elevation of second storage area 300 is lower than the height of the second storage area 300 and main 100 junction of gathering ground, the second water storage Play the role of accepting condensed water in area 300；It is led when the water surface elevation of the second storage area 300 and main gathering ground 100 maintain an equal level or be higher than When the height of gathering ground 100, the condensed water of the second storage area 300 is converged to main gathering ground 100.Main gathering ground 100 and the second storage The height in pool 300 is both greater than the height of drainage area 400, thus the condensed water of main gathering ground 100 and from the second storage area 300 The condensed water to come over, when main gathering ground 100 can not be run out of above-mentioned condensed water by slot 700 of fetching water, this partial condensation water It is discharged by drainage area 400.Main gathering ground 100 is thus set higher than the second storage area 300, the second storage area 300 is higher than draining Area 400 is flowed using height fall bring gravity drive water flow, so that chassis can be realized quick and efficient draining.

Air conditioner chassis structure of the present invention is higher than the main gathering ground by the first storage area of setting, can not only It is enough to be flowed when water is few using height fall bring gravity drive water flow so that chassis can be realized it is quick and efficient Catchment, and can realize the common water storage of main gathering ground and the first storage area when water.

Optionally, as shown in connection with fig. 7, the main gathering ground 100 includes convergence portion 110, and the convergence portion 110 is intermediate low The high concave structure of surrounding.

Specifically, as shown in connection with fig. 8, convergence portion 110 is whole is presented concave structure, similar funnel type structure, wherein Fig. 8 The schematic diagram of 112 near zone of convergent point is shown, convergent point 112 is the minimum point in the region, while be also convergence portion 110 most Low spot, A1, A2, A3 and A4 are contour point, while being also the highest point in the region, and B1, B2, B3 and B4 are contour point, while It is the secondary high point in the region；Water flow flows through convergence face 111 via A and B point and assembles to convergent point 112, realizes main gathering ground 100 Water collecting function, and then realize effective discharge of condensed water.

Air conditioner chassis structure of the present invention is advantageously implemented main collection by the way that convergence portion is designed as concave structure The water collecting function in pool 100.

Optionally, referring to figs. 7 and 8, the convergence portion 110 includes four convergence faces 111, four convergence faces 111 intersect at the convergent point 112.

Specifically, convergence portion 110 includes four convergence faces 111, respectively: being made of A1, B1, B4 and convergent point 112 Convergence face 111, the convergence face 111 being made of A2, B1, B2 and convergent point 112, the remittance being made of A3, B2, B3 and convergent point 112 Poly- face 111, and the convergence face 111 being made of A4, B3, B4 and convergent point 112, four convergence faces 111 form intermediate low surrounding High concave structure.It should be noted that forming convergence portion 110 in this section explanation with four convergence faces 111 to be said Bright, but the scope of the present invention is not limited thereto, and convergence portion 110 can be made of the multiple convergence faces 111 for being not limited to four.

Air conditioner chassis structure of the present invention can be converged the condensed water of main gathering ground by the way that convergent point is arranged To convergent point.

Optionally, the angle γ range between the convergence face 111 and horizontal plane is 2~4 degree.

Specifically, as shown in connection with fig. 8, it by taking one of convergence face 111 as an example, is made of A1, B1, B4 and convergent point 112 Convergence face 111, the convergence face 111 rotates to the right an angle again and formed after rotating an angle upwardly by level, to During right rotation, the state that the line of B4 and convergent point 112 remains stationary is only on the convergence face 111 except B4 and remittance Part outside 112 line of accumulation is rotated, and can guarantee that multiple convergence faces 111 cross in convergent point 112 with this, remaining remittance Similarly, the convergence portion 110 of formation is the high concave structure of intermediate low surrounding to poly- 111 generation type of face；Such as above-mentioned rotation angle Be 2 degree, the angle γ between the convergence face 111 of formation and horizontal plane as shown in figure 8, the γ shown in Fig. 8 by two extension lines Angle indicate that from the extension line being located above is extended by the line of convergent point 112 and A1, underlying extension line is by converging Accumulation 112 and A1 extend in the line of the upright projection point of horizontal plane, limit the folder between convergence face 111 and horizontal plane The range of angle γ is 2~4 degree, guarantees to can be realized water flow in convergent point 112 and neighbouring aggregation by gravity, meanwhile, it is needing It does not need for air conditioner to be tilted over wide-angle when by the discharge of excessive condensed water yet, alleviates manpower burden.

Air conditioner chassis structure of the present invention is 2~4 by the range of setting convergence face and the angle γ of horizontal plane Degree, has been effectively ensured the aggregation of condensed water and effective progress of discharge process.

Optionally, the air conditioner chassis structure further includes slot 700 of fetching water, and the convergent point 112 is located at the slot of fetching water 700 notch 710.

Referring to figs. 7 and 8, convergent point 112 be located at fetch water slot 700 710 position of notch at, suitable condensed water from At the convergent point 112 of main gathering ground 100, it is flow to slot 700 of fetching water via notch 710, slot 700 of fetching water connects motor area 600 of fetching water, It by motor of fetching water by condensate water atomizing, and turns and makes condensate evaporation on condensed water to condenser, thus by air conditioner Condensed water discharge, thus be arranged convergent point 112 be located at notch 710, enable the condensed water of winner gathering ground 100 is smooth to flow Air conditioner is discharged in slot 700 of fetching water.

Air conditioner chassis structure of the present invention is located at the notch for slot of fetching water by setting convergent point, so that condensation Water energy is enough smooth to be flow in slot of fetching water and air conditioner is discharged.

As shown in connection with fig. 7, the main gathering ground 100 further includes wind screen rib 120, main gathering ground 100 and water level switch area 500 Junction be oppositely arranged with the wind screen rib 120.

Specifically, the junction in main gathering ground 100 and water level switch area 500 primarily serves the effect that water flow is passed through of accepting, But it there is also air leakage phenomena herein, therefore the junction of wind screen rib 120 and main gathering ground 100 and water level switch area 500 be set It is oppositely arranged, under the premise of not influencing water flow flowing, drops leaking out for junction.

As shown in connection with fig. 7, the wind screen rib 120 is three, and three wind screen ribs 120 are in Chinese character pin-shaped structure distribution.Tool Body, Chinese character pin-shaped structure as shown in Figure 7 is presented in three wind screen ribs 120, is stopped by the wind screen rib 120 of Chinese character pin-shaped structure composition The flow direction of wind under the premise of not influencing flow direction, is reduced to leak out and happened to limit situation of leaking out Probability.

Optionally, as shown in connection with fig. 9, second storage area 300 includes water conservancy diversion bottom surface 310, in the longitudinal direction, described Water conservancy diversion bottom surface 310 is lower than the side far from the main gathering ground 100 adjacent to the side of the main gathering ground 100, cold to guide Condensate flows to the main gathering ground 100.

Specifically, the second storage area 300 is located on the right side of condenser, and the second storage area 300, which is played, increases chassis moisture storage capacity Effect, thus the water conservancy diversion bottom surface 310 being obliquely installed to main gathering ground 100 is set in the second storage area 300, so that the second storage area For condensed water in 300 when its water level is higher than main gathering ground 100, condensed water can flow to main gathering ground 100 by gravity, then It is discharged by drainage area 400 or slot 700 of fetching water.

Air conditioner chassis structure of the present invention, is led by being arranged in the second storage area to what main gathering ground was obliquely installed Bottom surface is flowed, the condensed water of the second storage area is smoothly discharged when water level is higher than main gathering ground 100.

Optionally, the angular range between the water conservancy diversion bottom surface 310 and horizontal plane is 2-5 degree

Specifically, water conservancy diversion bottom surface 310 is tilted towards main gathering ground 100, which ensure that the second storage area 300 exists When playing water reservation, condensed water can effectively save in the second storage area 300, while the condensation in the second storage area 300 When water is flowed to main gathering ground 100, the automatic flowing of condensed water is realized by gravity, thus by the second storage area 300 Condensed water is effectively discharged.

Air conditioner chassis structure of the present invention, the range of tilt angles by the way that water conservancy diversion bottom surface 310 is arranged are 2~5 degree, The condensed water in the second storage area is enabled effectively to store and be discharged.

Optionally, as shown in connection with fig. 9, the second storage area 300 further includes water conservancy diversion side 320, in the lateral direction, water conservancy diversion side Face 320 is located at water conservancy diversion bottom surface 310 adjacent to the side of drainage area 400, and water conservancy diversion side 320 is relative to the angle beta model on front-rear direction It encloses for 5-10 degree.

Specifically, water conservancy diversion side 320 plays the role of guiding flow direction, such as when needing artificial drainage, manpower will Air conditioner is toppled over to the right, and water flow flow to main gathering ground 100 and drainage area 400 along water conservancy diversion side 320.Wherein water conservancy diversion side 320 with angle β range be in the front-back direction 5~10 degree, and under the angular range, water flow can rely on gravity smoothly flow to main collection Pool 100 and drainage area 400；Meanwhile water conservancy diversion side 320 moves closer to the back side on the chassis from front to back and refers to water conservancy diversion Side 320 is equivalent to one perpendicular to horizontal plane and the plane that extends along the longitudinal direction rotates clockwise β angle and formed.

Meanwhile second storage area 300 be additionally provided with wind screen rib 330, wind screen rib 330 is located at the water outlet of the second storage area 300 Mouth position, wind screen rib 330 primarily serve the effect for hindering the wind of main gathering ground 100 to be blown into the second storage area 300.

Air conditioner chassis structure of the present invention, by the second storage area be arranged water conservancy diversion side so that condensed water from Second storage area is more smooth when flowing out.

The present embodiment provides a kind of air conditioner chassis, and for installing evaporator 10, chassis is equipped with storage area 200, water storage Area 200 is located at the side of evaporator 10 in the assembled condition, and storage area 200 was equipped with water notch close to the side of evaporator 10 221 and wind shielding structure 210, wind shielding structure 210 is suitable for hindering to come in the assembled condition the air in 10 direction of flash-pot from crossing water Enter storage area 200 at notch 221.

Chassis is equipped with main gathering ground 100 and storage area 200, and water notch 221 is being crossed in main gathering ground 100 and storage area 200 Close cross at water notch 221 is arranged in storage area 200 in place's connection, wind shielding structure 210.When evaporator 10 is assembled on chassis When, main gathering ground 100 is located at the lower section of evaporator 10, and storage area 200 is located at the left side of evaporator 10, and wind shielding structure 210 with The bracket 11 in the left side of evaporator 10 is against enabling wind shielding structure 210 to provide support force to evaporator 10.Air conditioner is working When, evaporator 10 can generate a large amount of condensed water, these condensed waters largely drop onto main gathering ground 100 along evaporator 10, There are also sub-fractions to drop onto storage area 200 along the bracket 11 in 10 left side of evaporator, and the condensed water of this sub-fraction is received Collection flows into main gathering ground 100 in storage area 200, and from crossing water notch 221, then converges to the slot of fetching water on chassis, quilt It is mounted on the motor impact atomization of fetching water fetched water in slot, is got on the condenser of heat, so that condensate evaporation be allowed to fall.The prior art In, the air being blown into evaporator 10 is circulated in the inside of evaporator 10, to carry out heat exchange, and in the vaporizer 10 into The air recycled in row can also flow in main gathering ground 100, but since water notch is being crossed in main gathering ground 100 and storage area 200 It is connected at 221, therefore storage area 200 can be flowed into from water notch 221 is crossed in the air of main gathering ground 100 flowing, be not provided with In the case where wind shielding structure 210, air in evaporator 10 is unimpeded to enter storage area 200 from crossing water notch 221, leads 10 region of induced evaporation device is leaked out, and the heat exchange efficiency of evaporator 10 is influenced.And gear is set in storage area 200 in the present embodiment Wind structure 210, so that the air of water notch 221 was flowed under the obstruction of wind shielding structure 210 by main gathering ground 100, Bu Nengshun Benefit flows into storage area 200, can largely flow back in main gathering ground 100.

In this way, on the one hand the setting of wind shielding structure 210 strengthens the structural strength of storage area 200, it can be in assembled state Under give evaporator 10 provide support force；On the other hand, the air in evaporator 10 can also be hindered to enter from water notch 221 excessively Storage area 200 improves the working efficiency of evaporator 10 to play leakproof wind action.

Optionally, in conjunction with shown in Figure 10 and Figure 11, wind shielding structure 210 includes first keeping out the wind gusset 211 and the second wind screen rib Plate 212, first keep out the wind gusset 211 and second keep out the wind gusset 212 crossing the projection in the plane of the institute of water notch 221 to cover water scarce Mouth 221.

Wind shielding structure 210 includes two wind deflectors, is respectively that first gusset 211 and second that keeps out the wind keeps out the wind gusset 212, and the One keep out the wind gusset 211 and second keep out the wind gusset 212 height be higher than the height of water notch 221.First keeps out the wind gusset 211 and Two gussets 212 that keep out the wind can be connected with each other in end, i.e., the first rear end of gusset 211 and second of keeping out the wind is kept out the wind before gusset 212 End is connected；Can also be interlaced in end, i.e., when first keep out the wind gusset 211 and second keep out the wind gusset 212 be connected with each other when, the One keep out the wind gusset 211 rear end with second keep out the wind gusset 212 front end there are Chong Die, keep out the wind gusset 211 and second gear when first When wind gusset 212 is not attached to, first keep out the wind gusset 211 rear end and front end phase in the longitudinal direction that second keeps out the wind gusset 212 Mutually dislocation.That is, first keep out the wind gusset 211 cross water notch 221 in the plane be projected as the first projection, second gear Wind gusset 212 cross the institute of water notch 221 in the plane be projected as the second projection, the first projection and second projects and can intersect, It can also be connected in the edge of projection.First keep out the wind gusset 211 and second keep out the wind gusset 212 cross water notch 221 where put down Projection on face is the sum of the area of the first projection with the second projection, and the sum of the area of the first projection and the second projection is greater than The area of water notch 221 is crossed, water notch 221 can will be crossed and be completely covered.Wherein, it should be noted that in the first projection and second When projection intersection, after the first projected area adds the second projected area, then subtracts the first projection and second and project intersection Area, last obtained projected area are the sum of the area of the first projection with the second projection.

In this way, can all blow to the knot that keeps out the wind when the air in evaporator 10 is blown into storage area 200 by crossing water notch 221 On structure 210, and first keep out the wind gusset 211 and second keep out the wind gusset 212 blocking under largely flow back to main gathering ground 100 It is interior, to reduce leaking out for evaporator 10.

Optionally, in conjunction with shown in Figure 11, wind shielding structure 210 further includes that third is kept out the wind gusset 213, and first keeps out the wind gusset 211 It is connect with second gusset 213 that keeps out the wind with third of gusset 212 that keeps out the wind, and is located at third and keeps out the wind the two sides of gusset 213；Third Keep out the wind one end of gusset 213 extended at water notch 221, and was divided into two parts for water notch 221 is crossed.

The third gusset 213 that keeps out the wind is arranged in left-right direction in storage area 200, and third is kept out the wind the right end position of gusset 213 In crossing at water notch 221, water notch 221 will be crossed and be divided into two notches, i.e. the first notch 2211 and the second notch 2212.First Keep out the wind gusset 211 and second keep out the wind gusset 212 be located at third keep out the wind gusset 213 front side and rear side.First keeps out the wind gusset 211 front end be free end, not with other components formed connection relationship, first keep out the wind gusset 211 rear end and third wind screen rib Plate 213 is connected；Second keeps out the wind the front end of gusset 212 and the third gusset 213 that keeps out the wind is connected, second keep out the wind gusset 212 rear end be Free end does not form connection relationship with other components.

In this way, third is kept out the wind, gusset 213 is divided into two water notch 221 is crossed, so that flowing into storage area by crossing water notch 221 200 air-flow is crossing realization shunting at water notch 221, reduces the flow velocity of air-flow, and according to bernoulli principle, the flow velocity of air-flow Pressure just will increase when reduction, and resistance is bigger when air-flow is flowed to storage area 200, further reduce the leakage of evaporator 10 Wind.

Optionally, first keep out the wind gusset 211, second keep out the wind gusset 212 and the third gusset 213 that keeps out the wind is distributed in plshy bone open.

That is wind shielding structure 210 is in plshy bone open structure, wherein the third gusset 213 that keeps out the wind is constituted and the trunk of fish-bone Structure, first keep out the wind gusset 211, second keep out the wind gusset 212 constitute fish-bone trunk structure two sides collateral branch's structure.

The plshy bone open structure of wind shielding structure 210, it is ensured that chassis is not easy to produce in injection molding at storage area 200 It is raw to shrink, improve the manufacturing quality on chassis.

Optionally, the area equation of the first notch 2211 and the second notch 2212.

That is, third is kept out the wind, the end of gusset 213 was located at the middle position of water notch 221, by water notch 221 It is divided into two.

In this way, the air-flow of storage area 200 is flowed into after crossing the punishment stream of water notch 221 by crossing water notch 221, the first notch 2211 is identical with the pressure at the second notch 2212, also suitable to the obstruction effect of air-flow, and avoiding the occurrence of in two notches has one A obstruction to air-flow, to the obstruction of air-flow, causes the air-flow for blowing to water notch 221 most of much smaller than another indentation, there From hindering that small indentation, there to flow into storage area 200, to be further reduced leaking out for evaporator 10.

Optionally, in conjunction with shown in Figure 10 to Figure 17, storage area 200 in its longitudinal direction have the first side wall 220, first The V-shaped structure of side wall 220, side of the opening of v-shaped structure towards storage area 200 far from evaporator 10 are crossed water notch 221 and are set to The top of the v-shaped structure flowed to water notch 221 along the first side wall 220 suitable for guidance condensed water.

The size of storage area 200 in the longitudinal direction is greater than its size in the other direction, therefore the length of storage area 200 Direction is front-rear direction, and the first side wall 220 is arranged along the longitudinal direction on storage area 200, and crosses water notch 221 and be provided with the In one side wall 220.The V-shaped structure of the first side wall 220, and the top that water notch 221 is then provided with v-shaped structure is crossed, due to evaporation Device 10 and main gathering ground 100 are located at the right side of storage area 200, therefore the opening of the v-shaped structure of the first side wall 220 is towards left, top court It is right.

In this way, drop onto storage area 200 condensed water can along the first side wall 220 to cross water notch 221 at flow so that The first side wall 220 has guide functions, prevents condensed water to be detained in storage area 200, to improve the drainage effect on chassis.

Optionally, in conjunction with shown in Figure 10 to Figure 17, storage area 200 in its longitudinal direction have second sidewall 230, second Side wall 230 is equipped with reinforcement structure 231.

That is, second sidewall 230 is arranged along the longitudinal direction on storage area 200.Whole storage area 200 is in be similar to The groove structure of rectangle all has side wall on the four direction of front, rear, left and right, and the first side wall 220 and second sidewall 230 are divided Not Gou Cheng storage area 200 be located at the two side walls on left and right directions, i.e., the first side wall 220 and second sidewall 230 are also storage respectively The left side wall and right side wall in pool 200.Reinforcement structure 231 is arranged in the second sidewall 230 of storage area 200, in the present embodiment, The left end on chassis is arranged in storage area 200, and the left side wall of storage area 200 is a part of the left side wall on chassis, so, reinforce knot Structure 231 also corresponds to be arranged on the left side wall on chassis.

In this way, the structural strength on storage area 200 at second sidewall 230 can be enhanced, so that the intensity on chassis is improved, So that the storage area 200 on chassis is vibrated impact or does not also allow when hitting during transportation or in air conditioner work Easily deformation occurs, and then improves the use quality on chassis.

Optionally, reinforcement structure 231 can be plate structure, be also possible to block structure, can also be strip structure etc. Other structures are not limited in detail in the present embodiment.

Optionally, reinforcement structure 231 is provided with multiple, and the equidistantly distributed in second sidewall 230.

Multiple reinforcement structures 231 are distributed in second sidewall 230 along the length direction of second sidewall 230, and two neighboring The distance between reinforcement structure 231 is equal.

In this way, by the structural strength for further enhancing second sidewall 230, the intensity and matter of the chassis Lai Tigao left side wall Amount, extends the service life on chassis.

Optionally, in conjunction with shown in Figure 10 to Figure 17, the v-shaped structure of the first side wall 220 is in the front end for crossing water notch 221 with after End is respectively provided with first side 222 and second side 223, and first side 222 is situated between relative to the inclination angle alpha 1 on front-rear direction Between 5 ° -10 °, and/or, second side 223 is relative to the inclination angle alpha 2 on front-rear direction between 5 ° -10 °.

The first side wall 220 is crossed water notch 221 and is divided into two sections, and the first side wall 220 is perpendicular to left and right directions setting , therefore it is two lines section in Figure 14 that the first side wall 220, which is embodied in, this two lines section respectively constitutes two sides of V-arrangement, In, the line segment for being located at 221 front end of water notch constitutes the first side 222 of V-arrangement, is located at the line segment structure of 221 rear end of water notch The second side 223 of forming V-shape.First side 222 is relative to the as first side 222 of the inclination angle alpha 1 on front-rear direction with before Angle between rear direction, second side 223 are second side 223 and front and back relative to the inclination angle alpha 2 on front-rear direction Angle between direction.When first side 222 and/or second side 223 too big relative to the tilt angle on front-rear direction, Illustrate that the tilt angle for being crossed the first side wall 220 that water notch 221 is divided into two sections is also larger, since the structure on chassis itself limits System, when the tilt angle of the first side wall 220 is excessive, can impact other structures on chassis, or reduce storage area 200 Area, reduce the moisture storage capacity of storage area 200, cause the condensed water generated to occur condensed water when increasing and overflow chassis, cause sky The phenomenon that adjusting device leak.

α 1 and/or α 2 is arranged between 5 ° -10 ° the present embodiment, in this angular range, the water storage of storage area 200 The comprehensive performance of ability, diversion effect etc. is preferable, can guarantee storage area 200 the case where not influencing chassis other structures Under, not only there is enough water storage areas, the phenomenon that preventing air conditioner leak, it is ensured that the first side wall 220, which has, leads Stream effect, drainage effect are good.

Optionally, in conjunction with shown in Figure 15 and Figure 16, first keeps out the wind gusset 211 and second gusset 212 that keeps out the wind is obliquely installed, and First keep out the wind gusset 211 and second keep out the wind gusset 212 free end close to the first side wall 220, be suitable for guidance condensation flow to the One side wall 220.

That is, first keep out the wind gusset 211 and second keep out the wind gusset 212 free end be respectively facing positioned at water notch The first side wall 220 of 221 front-end and back-end tilts, that is, will be prolonged by the first side wall 220 that water notch 221 is divided into two sections excessively It extends to and intersects with the third gusset 213 that keeps out the wind, then direction from front to back, first, which keeps out the wind, gusset 211 and after extending and is located at third gear Minimum range between the first side wall 220 of 213 front end of wind gusset is gradually increased；Second keep out the wind gusset 212 and extend after and position In third keep out the wind 213 rear end of gusset the first side wall 220 between minimum range be gradually reduced.For coordinate system in figure, First keeps out the wind, and back sweep is arranged gusset 211 to the right, and second gusset 212 that keeps out the wind is obliquely installed to right front.

This way it is possible to avoid condensed water by first keep out the wind gusset 211 and second keep out the wind gusset 212 be blocked in far from cross water lack Mouthful 221 sides, so that dropping onto, condensed water in storage area 200 keeps out the wind gusset 211 along first and second gusset 212 that keeps out the wind flows It to the first side wall 220, was then flowed at water notch 221 along the first side wall 220, diversion effect is more preferable, improves storage area 200 drainage effect.

Optionally, in conjunction with shown in Figure 16, first keep out the wind gusset 211 relative to the inclination angle alpha 3 on front-rear direction between Between 15 ° -30 °, and/or, second keep out the wind gusset 212 relative to the inclination angle alpha 4 on front-rear direction between 15 ° -30 °.

Gusset 211 is kept out the wind and/or second gusset 212 that keeps out the wind is the uniform plate structure of thickness, therefore first gear due to first Wind gusset 211 is first to keep out the wind the side that gusset 211 is located on left and right directions relative to the inclination angle alpha 3 on front-rear direction Angle between front-rear direction；Second gusset 212 that keeps out the wind relative to the inclination angle alpha 4 on front-rear direction is second to keep out the wind Gusset 212 is located at the side on left and right directions and the angle between front-rear direction.And first keeps out the wind gusset 211 and/or second gear Wind gusset 212 is perpendicular to horizontal plane setting, wherein horizontal plane is also referred to as the plane perpendicular to up and down direction.Such as Figure 16 institute Show, in the present embodiment with first keep out the wind gusset 211 and/or second keep out the wind gusset 212 left side and front-rear direction between folder Angle illustrates.First keep out the wind gusset 211 and/or second keep out the wind gusset 212 left side be embodied in figure be a line segment. First keep out the wind gusset 211 and second keep out the wind gusset 212 free end and the first side wall 220 between be respectively formed one cross water area.With First keeps out the wind gusset 211 relative to being illustrated for the tilt angle on front-rear direction.When first keep out the wind gusset 211 relative to On front-rear direction tilt angle setting it is too much when, first keep out the wind gusset 211 free end and the first side wall 220 between most Small distance with regard to smaller so that first keep out the wind gusset 211 free end and the first side wall 220 between the mistake water area that is formed get over It is small, the water discharge time of storage area 200 is extended, the drainage effect of storage area 200 is reduced；When first gusset 211 that keeps out the wind is opposite When the tilt angle on front-rear direction is arranged too small, first gusset 211 that keeps out the wind almost loses water guiding action, diversion effect It is poor.

α 3 and/or α 4 is arranged between 15 ° -30 ° the present embodiment.In this angular range, first gear both ensure that Wind gusset 211 and/or second gusset 212 is kept out the wind with certain guide functions, in turn ensure that condensed water can be swimmingly from the One keep out the wind gusset 211 and/or second keep out the wind gusset 212 free end and the first side wall 220 between flow at the mistake water area that is formed Move to water notch 221, drainage effect is more preferable.

Optionally, in conjunction with shown in Figure 14 and Figure 17, keep out the wind one end of gusset 213 of third was extended at water notch 221, and Three other ends for keeping out the wind gusset 213 extend to side of the storage area 200 far from evaporator 10, and storage area 200 is divided into Far from third on the bottom surface of one water storage tank 240 and the second water storage tank 250, the bottom surface of the first water storage tank 240 and the second water storage tank 250 The keep out the wind side of gusset 213 is higher than and keeps out the wind the side that gusset 213 connect with third, is suitable for guiding condensation flow to third wind screen rib Plate 213.

The third gusset 213 that keeps out the wind is arranged in left-right direction in storage area 200, since second sidewall 230 is storage area 200 Side far from evaporator 10, therefore third is kept out the wind, gusset 213 is extended in second sidewall 230 by crossing water notch 221, by water storage Area 200 is separated into two water storage tanks, respectively the first water storage tank 240 and the second water storage tank 250, and the first water storage tank 240 is located at the Three front ends for keeping out the wind gusset 213, the second water storage tank 250 are located at third and keep out the wind the rear end of gusset 213.And first water storage tank 240 It is higher than and keeps out the wind the side that gusset 213 connect with third far from the keep out the wind side of gusset 213 of third on bottom surface, the second water storage tank 250 Bottom surface on be higher than and keep out the wind the side that gusset 213 connect with third far from the keep out the wind side of gusset 213 of third, that is to say, that store up The entire bottom surface in pool 200 keeps out the wind to sink at gusset 213 in third, so that the cross section of the bottom surface of storage area 200 is V-shaped, V-type Top be water flowing when minimum point.By taking the bottom surface of the first water storage tank 240 as an example, for coordinate system in figure, the first storage The front end of the bottom surface of sink 240 is higher than rear end.Drop onto the condensed water difference on the first water storage tank 240 and the second water storage tank 250 Under the guide functions of the bottom surface of the bottom surface and the second water storage tank 250 of the first water storage tank 240 to third keep out the wind gusset 213 flow, Water notch 221 was flow to then along the third gusset 213 that keeps out the wind, and storage area 200 is discharged.

In this way, increase condensed water in the first water storage tank 240 and the second water storage tank 250 to third keep out the wind gusset 213 flow Dynamic speed enables condensed water that storage area 200 is quickly discharged, and condensed water is also discharged cleaner, prevents cold Condensate is detained in the first water storage tank 240 and the second water storage tank 250, is formed ponding, is further improved the draining of storage area 200 Efficiency and drainage effect.

Optionally, in conjunction with shown in Figure 17, the angle α 5 between the bottom surface and horizontal plane of the first water storage tank 240 is between 2 ° -5 ° Between, and/or, the angle α 6 between the bottom surface and horizontal plane of the second water storage tank 250 is between 2 ° -5 °.

Bottom surface and the horizontal plane of angle α 5 and the second water storage tank 250 between the bottom surface and horizontal plane of first water storage tank 240 Between angle α 6 embodies respectively is that the bottom surface of the first water storage tank 240 and the bottom surface of the second water storage tank 250 are kept out the wind towards third The inclined degree of gusset 213.By taking the angle α 5 between the bottom surface and horizontal plane of the first water storage tank 240 as an example, when α 5 is arranged too When big, the bottom surface of storage area 200 is kept out the wind in third just to sink deeper at gusset 213, so that being located at storage area 200 on chassis Bottom surface apart from the distance between ground just it is smaller, in mobile air-conditioner, chassis be easy is scraped with the barrier on bottom surface It rubs or interferes, influence the movement and carrying of air conditioner；When α 5 is arranged too small, the bottom surface of the first water storage tank 240 and the second storage The bottom surface of sink 250 is almost parallel to the ground, and condensed water flows slowly in storage area 200, and diversion effect is poor.

α 5 and/or α 6 are arranged between 2 ° -5 ° for this implementation, in this way, in this angular range, can not only guarantee the The bottom surface of one water storage tank 240 and the bottom surface of the second water storage tank 250 have preferable diversion effect, can also ensure storage area 200 Bottom surface and ground between there is enough height, enable the smooth movement of air conditioner and carrying.

Optionally, in conjunction with shown in Figure 18 to Figure 20, on the bottom surface of the bottom surface of the first water storage tank 240 and the second water storage tank 250 It was higher than the side where water notch 221 far from the side for crossing water notch 221, and was suitable for guidance condensation flow to crossing water notch 221.

That is, water notch 221 after third keeps out the wind and sinks at gusset 213, is also being crossed in the entire bottom surface of storage area 200 The side at place sinks again or the entire bottom surface of storage area 200 is in the case where third is kept out the wind and do not formed at gusset 213 It is heavy, and only the side where crossing water notch 221 forms.By taking the bottom surface of the first water storage tank 240 as an example, in conjunction with coordinate in figure For system, on the basis of the front end of the bottom surface of the first water storage tank 240 is higher than rear end and is arranged, by the bottom surface of the first water storage tank 240 Left side be arranged higher than right side, alternatively, the front-end and back-end of the bottom surface of the first water storage tank 240 are located at sustained height, and first stores up The left side of the bottom surface of sink 240 is higher than right side.Drop onto the condensed water difference on the first water storage tank 240 and the second water storage tank 250 Under the guide functions of the bottom surface of the bottom surface and the second water storage tank 250 of the first water storage tank 240 to third keep out the wind gusset 213 flow, Water notch 221 was flow to then along the third gusset 213 that keeps out the wind, and storage area 200 is discharged.

In this way, flowing velocity of the condensed water in the first water storage tank 240 and the second water storage tank 250 is increased, so that condensation Water energy is enough to be quickly discharged storage area 200, and condensed water is also discharged cleaner, prevents condensed water in the first water storage tank 240 and second are detained in water storage tank 250, form ponding, corrode chassis, not only further improve the draining effect of storage area 200 Rate and drainage effect also improve the quality on chassis, extend the service life on chassis.

Optionally, in conjunction with shown in Figure 18 to Figure 20, the bottom surface of the first water storage tank 240 with perpendicular to plane phase in the front-back direction Friendship is formed by intersection, relative to the tilt angle on left and right directions between 2 ° -5 °, and/or, the second water storage tank 250 Bottom surface is formed by intersection with intersecting perpendicular to plane in the front-back direction, relative to the tilt angle on left and right directions between 2 °- Between 5 °.

By taking the bottom surface of the first water storage tank 240 as an example, the bottom surface of the first water storage tank 240 with perpendicular to plane phase in the front-back direction It is an oblique line section in Figure 20 that friendship, which is formed by intersection and is embodied in, and what the dotted line in Figure 20 referred to is left and right directions, and horizontal Perpendicular to the projection on front-rear direction, institute's shape is intersected with perpendicular to plane in the front-back direction in the bottom surface of the first water storage tank 240 in face At intersection, be to be formed by angle α 7 between the oblique line section and dotted line relative to the tilt angle on left and right directions.As α 7 When being arranged too much, side of the bottom surface of storage area 200 where crossing water notch 221 just sinks deeper, so that chassis is upper Bottom surface at storage area 200 is just smaller apart from the distance between ground, in mobile air-conditioner, chassis be easy on bottom surface Barrier occurs to scratch or interfere, and influences the movement and carrying of air conditioner；When α 7 is arranged too small, the first water storage tank 240 Bottom surface and the bottom surface of the second water storage tank 250 are almost parallel to the ground, and condensed water flows slowly in storage area 200, diversion effect Difference.

The bottom surface of first water storage tank 240 is formed by intersection with intersecting perpendicular to plane in the front-back direction by this implementation, phase For the tilt angle on left and right directions, and/or, the bottom surface of the second water storage tank 250 is intersected with perpendicular to plane in the front-back direction It is formed by intersection, is arranged between 2 ° -5 ° relative to the tilt angle on left and right directions, in this way, in this angular range, The bottom surface of the bottom surface and the second water storage tank 250 that can not only guarantee the first water storage tank 240 has preferable diversion effect, can be with Ensureing has enough height between the bottom surface and ground of storage area 200, enable the smooth movement of air conditioner and carrying.

A kind of air conditioner is provided in the present embodiment, including any of the above-described air conditioner chassis structure.

In the present embodiment, air conditioner chassis structure further include: mechanism of fetching water 800, fetch water motor area 600 and condenser, The mechanism 800 of fetching water is suitable for getting to the water in the slot 700 of fetching water on the condenser, and the motor area 600 of fetching water is suitable The water fetched water in mechanism 800 described in the collection.

It should be noted that the region in the water level switch area 500 is provided with water level switch, for in chassis Peak level is monitored, and the top in the water level switch area, water level switch are arranged in by cradle hangs for water level switch As water level height floats up and down, the height of water level in chassis is monitored by water level switch, avoids the ponding in chassis Excessively, air-conditioning work performance is influenced.Under normal circumstances, when condensed water is less, water is preferentially pooled to slot 700 of fetching water, and leads to It crosses wheel 810 of fetching water to get to the water in the slot 700 of fetching water on heat exchanger of air conditioner, improves the heat exchange efficiency of heat exchanger, herein It is equivalent in the process and gets the water in the slot 700 of fetching water, and in order to there is water in the slot 700 that guarantees to fetch water always, at this point, by institute It states water level switch area 500 to be connected to the slot 700 of fetching water, the water in the water level switch area 500 is allow to converge to described fetch water Slot 700, rather than the water level switch area 500 is directly connect with the drainage area 400, when the water level switch area 500 When water reaches a certain level spilling, the water in the water level switch area 500 is discharged, and the water that the water level switch area 500 is discharged is preferential Converge to the slot 700 of fetching water, the work of mechanism of fetching water described in guarantee 800, in the process, due to machine shaft 820 of fetching water It is connect with the wheel 810 of fetching water, has part water flow to the machine shaft 820 of fetching water on the wheel 810 of fetching water, and with institute The rotation for stating machine shaft 820 of fetching water is thrown away, and the water that machine shaft 820 is thrown away of fetching water then directly converges to the drainage area 400, it is discharged by the drainage area.

The advantages of this arrangement are as follows working as institute by the way that the water level switch area 500 is connected with the slot 700 of fetching water When stating the water discharge in water level switch area 500, it is not expelled directly out air conditioner chassis, but by the water level switch area 500 Water is discharged to the slot 700 of fetching water, the work of mechanism of fetching water described in guarantee 800, and the water for the slot 700 that makes to fetch water is beaten by mechanism of fetching water Out；In addition, the drainage area 400 is then collected the water thrown away on the machine shaft 820 of fetching water of water pump structure 800.

In the present embodiment, the motor area 600 of fetching water only is connected with the drainage area 400, the motor area 600 of fetching water Positioned at the lower section of the machine shaft 820 of fetching water, suitable for the water fetched water on machine shaft 820 is guided to the drainage area 400.Due to that water can be thrown to a certain distance when motor of fetching water rotates, the motor area 600 at this point, setting is fetched water, to described The water fetched water on machine shaft 820 is converged, and is enabled its flow into drainage area 400, in addition, it is described fetch water motor area 600 only with The drainage area 400 is connected.As shown in Figure 1, the slot 700 of fetching water is located at the main gathering ground 100 and the motor of fetching water Between area 600, the main gathering ground 100 and the motor area 600 of fetching water are separated by the slot 700 of fetching water, avoid fetching water Water in mechanism is again introduced into the main gathering ground 100, avoids condensed water repetitive cycling, makes draining not exclusively, but passes through row Directly air conditioner is discharged in water by pool.

In the present embodiment, air conditioner chassis structure further includes motor area 600 of fetching water, it is described fetch water motor area 600 only with institute It states drainage area 400 to be connected, suitable for the water fetched water on machine shaft 820 is guided to the drainage area 400.Due to fetching water Water can be thrown to a certain distance when rotation by motor, the motor area 600 at this point, setting is fetched water, to the machine shaft of fetching water Water on 820 is converged, and is enabled its flow into drainage area 400, in addition, it is described fetch water motor area 600 only with the drainage area 400 It is connected.As shown in Figure 1, the slot 700 of fetching water passes through between the main gathering ground 100 and the motor area 600 of fetching water The slot 700 of fetching water separates the main gathering ground 100 and the motor area 600 of fetching water, and the water for avoiding fetching water in mechanism is again Into the main gathering ground 100, condensed water repetitive cycling is avoided, makes draining not exclusively, but is directly arranged water by drainage area Air conditioner out.

In the present embodiment, as shown in figure 21 and figure, motor area 600 of fetching water may include water guide bottom surface 620.One In a little examples, when air conditioner chassis structure level is placed, in the lateral direction, far from drainage area 400 1 on water guide bottom surface 620 The height of side can be higher than water guide bottom surface 620 close to the height of 400 side of drainage area.In this case, a left side for water guide bottom surface The difference in height motor area that can make to fetch water in right side is in heeling condition, so that the condensed water for keeping it internal is flowed to lower side, Namely flowed to the direction of drainage area, the discharge of water, promotes its expulsion efficiency, and simultaneously in the motor area that is more conducive to fetch water as a result, Ensure the completeness of its internal condensation water discharge.

In the present embodiment, as shown in figure 22, the angle of water guide bottom surface 620 and horizontal plane can be ξ, and the numerical value of ξ is big It is small to be not particularly limited.In some instances, the value range of ξ can be 2 °≤ξ≤10 °.In other examples, ξ's is taken Value or 2 °≤ξ≤5 °.Here, so-called water guide bottom surface 620 and the angle of horizontal plane are ξ, refer to when air conditioner chassis knot When structure is horizontally arranged, the angle of water guide bottom surface 620 and horizontal plane is ξ.Under normal conditions, the excessive i.e. tilt angle of angle is excessive When, water velocity can be made excessive, situations such as splashing out during condensed water flows out is easy, to influence pedestal and its air conditioner Overall performance；And angle it is too small i.e. tilt angle it is too small when, water velocity is too small, to influence the expulsion efficiency of condensed water. Therefore, by the way that the setting of the angle of water guide bottom surface and horizontal plane in a certain range, not only can guarantee the expulsion efficiency of condensed water, but also Situations such as condensed water splashes out will not occur, improve the smoothness and stability of condensed water discharge.

In the present embodiment, as shown in figure 21 and figure, area's reinforcing rib of fetching water has can be set in motor area 600 of fetching water 630.In this case, by the setting for area's reinforcing rib of fetching water, the mechanical property for promoting motor area of fetching water can be made, to mention The stability in use for rising air conditioner chassis structure and its air conditioner, prolongs its service life；Also, area's reinforcing rib of fetching water is set It sets, also there is certain windproof effect, so as to effectively avoid air conditioner from leaking out, promote making for air conditioner Use comfort.

In the present embodiment, the quantity of area's reinforcing rib 630 of fetching water is not particularly limited.In some instances, it fetches water area The quantity of reinforcing rib 630 can be more than one, such as two, three or four etc..Thus, it is possible to according to the quantity in water guide area Different setting different numbers drainage area reinforcing ribs, to promote the overall stability of air conditioner chassis structure.

In the present embodiment, the setting direction of area's reinforcing rib 630 of fetching water is not particularly limited.In some instances, it beats Pool reinforcing rib 630 can be arranged along the longitudinal direction.Here, so-called front-rear direction, refers to when air conditioner chassis constitution water is laid flat Front-rear direction when setting, i.e. coordinate direction in attached drawing 1.It should be noted that area's reinforcing rib of fetching water is set to water guide bottom surface 620 On, and connect with the side plate in motor area of fetching water, it is possible thereby to promote the mechanical property of water guide bottom surface, further enhance motor of fetching water The overall stability in area.In addition, in the present embodiment, the purpose that area's reinforcing rib 630 can be arranged along the longitudinal direction of fetching water exists In the area's reinforcing rib 630 that makes to fetch water towards the side wall for being connected to side in motor area of fetching water with the drainage area 400.The area of fetching water adds Strengthening tendons 630 can be directly toward the direction setting of drainage area 400.Here, the so-called direction towards drainage area is arranged, refers to and fetch water Area's reinforcing rib 630 is tilted to the direction of drainage area.In such a case, it is possible to further guide the condensed water fetched water in motor area It is flowed to the direction of drainage area, promotes the completeness of air conditioner chassis structure drainage efficiency and draining.

In the present embodiment, as depicted in figs. 1 and 2, fetching water motor area 600 can be by interface channel 610 and draining Area 400 is connected, suitable for the water in motor area 600 of fetching water is introduced into drainage area 400.Described 610 one end of interface channel with fetch water Motor area 600 connects, and the other end is connect with the water guide area 411 of drainage area 400, and the motor area 600 of fetching water is located at drainage area 400 Rear side, machine shaft is arranged along the longitudinal direction, and the water in motor area 600 of fetching water flows from left to right, the water in drainage area 400 It flows from back to front, drainage area 400 is connected to the front side wall in motor area 600 of fetching water, and the drainage area 400 is located at motor of fetching water The right front in area 600.In the present embodiment, by the way that interface channel, Ke Yigeng are arranged between motor area and drainage area fetching water Add the discharge for easily realizing condensed water in motor area of fetching water, promotes the drainage efficiency of pedestal, condensed water is effectively prevent to fetch water The generation for the case where motor area accumulates and overflows pedestal, promotes the completeness of base drain, to promote the sky using the chassis Adjust the service performance of device.

In the present embodiment, in the present embodiment, as shown in 23, interface channel 610 further includes transition side wall 613, Suitable for along water (flow) direction, the width size that 610 entrance of interface channel is exported with interface channel 610 is not particularly limited.Here Width refers to the distance between two described transition side walls 613 of interface channel 610.In some instances, interface channel 610 The width of entrance can be greater than the width that interface channel 610 exports.In some instances, transition side wall 613 is suitable for keeping connection logical The width in road 610 is gradually reduced along water (flow) direction.In such a case, it is possible to which the condensed water fought each other in hydroelectric machine area carries out effectively Convergence effect, and inside condensed water formed convergence active force, with accelerate its flow into drainage area speed, promoted air conditioner bottom The drainage efficiency of dish structure.

In the present embodiment, as shown in figure 23, the transition side wall 613 includes multistage transition face, transition face here It can be two or more, in the present embodiment, the transition side wall 613 includes First Transition face 6131, the second mistake Face 6132 and third transition face 6133 are crossed, along water (flow) direction, the First Transition face 6131, second transition face 6132 and institute Third transition face 6133 is stated to be sequentially connected.Here, it sets the First Transition face 6131 and second transition face 6132 to Arcwall face, third transition face 6133 are set as inclined-plane.Under normal circumstances, water converges through interface channel and flows into drainage area, can be even Therefore the change that generation water (flow) direction is said in connection sets transition cambered surface for the transition side wall of interface channel, passes through multistage mistake The setting for crossing face can be such that condensed water gradually turns to, and play the role of multistage unhurried current.

In the present embodiment, fetch water motor area 600 height can be greater than drainage area 400 height.Here, so-called height Degree refers to when air conditioner chassis structure level is placed, the height of motor area 600 or drainage area 400 apart from holding plane of fetching water Difference.In this case, make to fetch water motor area higher than drainage area, can be further improved the draining effect of air conditioner chassis structure Rate, and be conducive to for the condensed water fetched water in motor area being thoroughly discharged, to promote the service performance of air conditioner.

As shown in Figure 21 to Figure 23, drainage area 400 includes water guide area 411, transition region 412 and drainpipe 420, drainpipe 420 are connected with transition region 412, and water guide area 411 can be connected with transition region 412, and water guide area 411 is suitable for introducing the water into transition Area 412.In the present embodiment, more sharp when chassis structure is applied to air conditioner by the way that drainpipe is arranged on chassis structure In collecting and be discharged the condensed water generated in air conditioner operation process, also, it is connected by being arranged in drainage area with drainpipe Transition region, allow the condensed water drawn from water guide area first to flow through the transition region, then be discharged from transition region through drainpipe, by This, can optimize the circulation path of condensed water, and promoting drainage efficiency keeps draining more smooth, while draining can also be made more thorough Bottom.

In the present embodiment, the shape and structure of transition region 412 is not particularly limited.In some instances, transition region 412 It can be transition arcs face.In other examples, transition region 412 or arc transition area.In such a case, it is possible to more Add the connection easily realized between transition region and drainpipe, promote the smoothness connected between transition region and drainpipe, with into One step promotes the smoothness of draining, more conducively raising drainage efficiency, it is ensured that the completeness of draining prevents ponding from remaining in chassis knot Structure and the overall performance etc. for influencing air conditioner.

In the present embodiment, as shown in figure 25, the curved angle in the section of transition cambered surface can be η₁, η₁Numerical value it is big It is small to be not particularly limited.In some instances, η₁Value range can be π/4≤η₁≤π/2.In other examples, η₁'s Value may be 2 π/5, that is, the section of transition cambered surface may be 1/5th circles.In such a case, it is possible to make The connection for crossing area and drainpipe is more efficient, reduces the obstacles such as drainage path further groove or chimb, so that drainage path is more logical Freely, the smoothness of draining is further promoted, more conducively raising drainage efficiency, it is ensured that the completeness of draining prevents ponding from remaining in Chassis structure and the overall performance etc. for influencing air conditioner.

In addition, in the present embodiment, the manufacture of transition region 412 is not particularly limited.In some instances, transition Area 412 can be formed through mold injection molding.In other examples, transition region 412 can be with drainpipe 420 and water guide area 411 are made of one piece through mold.In this case, by mold injection molding or integrated molding, transition region is not easy shape The sundries of drainpipe may be blocked at overlap or burr etc., to further improve the efficiency of condensed water discharge, and further Ensure the completeness of condensed water discharge.

In the present embodiment, as shown in figure 26, the bottom surface in the water guide area 411 is water guide inclined-plane 4113, when chassis is tied When structure is horizontally arranged, the height on the water guide inclined-plane 4113 far from 412 side of transition region is higher than the water guide inclined-plane 4113 connect the height of side with the transition region 412.In other examples, water guide area 411 can also include the first side plate. In this case, by the way that water guide inclined-plane to be obliquely installed, and the inflow side of water is made to be higher than its outflow side, even if the also outflow of water Path inclination, can further promote the expulsion efficiency of condensed water, and further ensure that the completeness of condensed water discharge.

In the present embodiment, the angle of water guide inclined-plane 4113 and horizontal plane can be η₂, η₂Numerical values recited it is not special Limitation.In some instances, η₂Value range can be 2 °≤η₂≤10°.In other examples, η₂Value range It can be 2 °≤η₂≤5°.Under normal conditions, when tilt angle is excessive, water velocity can be made excessive, is easy to flow out in condensed water Situations such as splashing out in the process, to influence the overall performance of pedestal and its air conditioner；And tilt angle it is too small when, water velocity It is too small, to influence the expulsion efficiency of condensed water.Therefore, by being arranged the angle on water guide inclined-plane and horizontal plane in a certain range It is interior, it not only can guarantee the expulsion efficiency of condensed water, but also situations such as condensed water splashes out will not occur, and improved the smooth of condensed water discharge Property and stability.

In addition, in the present embodiment, as shown in Figure 27 to Figure 29, drainpipe 420 can be hollow tubular structure.One In a little examples, drainpipe 420 can be the hollow tubular structure of rule, such as hollow round tubular structure, hollow square tube shape structure Deng, or the group of the hollow tubular structure and irregular hollow tubular structure of irregular hollow tubular structure or rule It closes.In other examples, the diameter of transition region 412 and can be identical as the diameter of drainpipe 420.In this case, may be used Further to promote the validity of transition region and drainpipe mating connection, to reduce influence water when the two is cooperatively connected comprehensively Thus the obstacle of flow velocity degree etc., such as groove or chimb etc. further promote the patency that transition region is connect with drainpipe, into One step promotes the smoothness of draining, more conducively raising drainage efficiency, it is ensured that the completeness of draining prevents ponding from remaining in chassis knot Structure and the overall performance etc. for influencing air conditioner.

In addition, the outlet of usually drainpipe will be installed water plug, drainpipe 420 is blocked, when needing to drain, by water Plug falls.In chassis structure provided by the present invention, the drainpipe 420 is connected with the side wall of the transition region 412.Institute It states drainpipe 420 to be connected to the right side wall of the transition region 412, so that the drainpipe 420 be made to be exposed to the outer of the air-conditioning Side.In this case, drainpipe is set to the side wall of the transition region, convenient for the installation and removal of water plug on drainpipe, together When, too drastic phenomenon can also be flowed out to avoid water to be occurred.

In the present embodiment, the size of drainpipe 420 is not particularly limited.In some instances, along drainpipe The outflow direction of water in 420, the diameter of the inner wall 421 of drainpipe 420 can be gradually increased.In other examples, drainpipe 420 and transition region 412 connect side and far from transition region 412 side have difference in height.By the drainpipe 420 and institute The side wall for stating transition region 412 is connected, that is to say, that if the side wall is vertical, the axis of the drainpipe 420 It is then in horizontality, and since the diameter of the inner wall of drainpipe 420 421 can be gradually increased, in the outflow side along water To the side for moving the water to flow into drainpipe is higher than the side of water outflow drainpipe, thus, it is possible to promote the stream of condensed water in drainpipe Speed out, and further ensure that the completeness of chassis structure draining.

In addition, in the present embodiment, the one of the side and separate transition region 412 of drainpipe 420 and the connection of transition region 412 The numerical values recited for the difference in height that side has is not particularly limited.In some instances, the size of the difference in height can be 2~6mm, Such as 3mm, 4mm or 5mm etc..Under normal circumstances, when difference in height is excessive, the tilt angle that will lead to drainpipe is excessive, thus can Keep water velocity excessive, be easy that situations such as going out rapidly occurs during condensed water flows out, is the collection or discharge of condensed water Bring certain pressure；And difference in height it is too small when, the tilt angle that will lead to drainpipe is too small, thus water velocity can be made too small, To influence the expulsion efficiency of condensed water.Therefore, by by the height difference setting of drainpipe two sides in a certain range, Ji Nengbao The expulsion efficiency for demonstrate,proving condensed water, and will not occur situations such as condensed water is gone out rapidly, improve the smoothness of condensed water discharge with Stability.

In the present embodiment, as shown in Figure 27 to Figure 29, the edge of the outlet of drainpipe 420 can open up jagged 422.In some instances, notch 422 can be to be recessed towards the side of transition region 412.Due to the drainpipe 420 with it is described The side wall of transition region 412 is connected, that is to say, that if the side wall is vertically, the axis of the drainpipe 420 is then In horizontality, at this point, the notch 422 is located at the lower end at the edge of the drainpipe 420, i.e., the described notch 422 is located at The minimum point at the edge that the drainpipe 420 exports.Under normal circumstances, when to be expelled to water level relatively low for the water in drainpipe When, water static 3 to 5mm height when, can not continue to flow due to its own stress, by drainpipe Outlet edge notch is set, can effectively eliminate the stress of water itself, and water supply shearing force is provided can be after afterflow It is dynamic, to promote the completeness that water is discharged in drainpipe.

In addition, in the present embodiment, the shape of notch 422 is not particularly limited.In some instances, notch 422 can Think the shape of rule, such as triangle, partially circular, polygonal etc., can also for irregular shape or regular shape with do not advise The then combination of shape.Thus, it is possible to according to actual needs, the setting of notch of different shapes be adjusted, to improve the whole of air conditioner Body applicability.

In addition, in the present embodiment, the quantity of notch 422 is not particularly limited.In some instances, notch 422 can Think more than one, such as two, three or four etc..In such a case, it is possible to which further eliminating water itself answers masterpiece With the completeness that further water is discharged in promotion drainpipe.

In the present embodiment, drainage area 400 is also provided with drainage area reinforcing rib 413.In some instances, it drains Area's reinforcing rib 413 can be set in water guide area 411.In other examples, drainage area reinforcing rib 413 can be located at drainpipe 420 sides being connected with transition region 412.In this case, by the setting of drainage area reinforcing rib, can make water guide area with Connection is formed between drainpipe, and promotes the stability of its connection, to promote the stability in use of chassis structure and its air conditioner, It prolongs its service life；Also, the setting of drainage area reinforcing rib has certain windproof effect, also so as to effectively keep away Exempt from air conditioner to leak out, promotes the comfort of air conditioner.

In addition, in the present embodiment, the quantity of drainage area reinforcing rib 413 is not particularly limited.In some instances, it arranges The quantity of pool reinforcing rib 413 can be more than one, such as two, four or five etc..Thus, it is possible to according to water guide area The drainage area reinforcing rib of the different setting different numbers of quantity, to promote the overall stability of chassis structure.

The foregoing is merely better embodiments of the invention, are not intended to limit the invention, any this field skill Art personnel, all within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in this Within the protection scope of invention.

Claims (20)

1. a kind of air conditioner chassis structure, which is characterized in that the chassis structure include main gathering ground (100),

First storage area (200), the second storage area (300), water level switch area (500), slot of fetching water (700) and drainage area (400)；

The main gathering ground (100) is opened with first storage area (200), second storage area (300), the water level respectively Close area (500), the slot of fetching water (700) is connected with the drainage area (400)；

The main gathering ground (100) and the slot of fetching water (700), the drainage area (400), second storage area (300), institute It states the first storage area (200) to intersect respectively, and the vertical height in intersection is sequentially increased and is above the main gathering ground (100) minimum point of bottom surface；Vertical height of the main gathering ground (100) with the water level switch area (500) in intersection Higher than the minimum point of the bottom surface of the main gathering ground (100).

2. air conditioner chassis structure according to claim 1, which is characterized in that the bottom in the water level switch area (500) Portion is provided with water storage flume (510), is provided with dust trap (511) on the bottom surface of the water storage flume (510), the dust trap (511) For concave structure.

3. air conditioner chassis structure according to claim 1, which is characterized in that the water level switch area (500) further includes Blocking part (512), the blocking part (512) are arranged in the water inlet of the water level switch area (500), the blocking part It (512) is groove structure.

4. air conditioner chassis structure according to claim 3, which is characterized in that be provided with resistance on the blocking part (512) Muscle (513), the barrier rib (513) is for obstructing water into the water level switch area (500).

5. air conditioner chassis structure according to claim 1, which is characterized in that be provided in the main gathering ground (100) Wind screen rib (120), the intersection of the wind screen rib (120) relatively described main gathering ground (100) and the water level switch area (500) Setting.

6. air conditioner chassis structure according to claim 5, which is characterized in that the wind screen rib (120) is three, three The wind screen rib (120) is in Chinese character pin-shaped structure distribution.

7. air conditioner chassis structure according to claim 1, which is characterized in that first storage area (200) was equipped with Water notch (221) and wind shielding structure (210), the wind shielding structure (210) are suitable for hindering to come flash-pot side in the assembled condition To air from it is described cross water notch (221) at enter first storage area (200).

8. air conditioner chassis structure according to claim 7, which is characterized in that the wind shielding structure (210) includes first The gusset (211) and second that keeps out the wind keeps out the wind gusset (212), and described first gusset (211) and described second that keeps out the wind keeps out the wind gusset (212) It is described cross water notch (221) institute in the plane projection covering it is described excessively water notch (221).

9. air conditioner chassis structure according to claim 8, which is characterized in that the wind shielding structure (210) further includes Three keep out the wind gusset (213), and described first keeps out the wind gusset (211) and described second gusset (212) that keeps out the wind keeps out the wind with the third Gusset (213) connection, and be located at the third and keep out the wind the two sides of gusset (213)；The third keeps out the wind the one of gusset (213) End extends at water notch (221) excessively, and cross water notch (221) are divided into two parts.

10. air conditioner chassis structure according to claim 9, which is characterized in that described first keeps out the wind gusset (211), institute It states second and keeps out the wind gusset (212) and the third gusset (213) that keeps out the wind is distributed in plshy bone open.

11. air conditioner chassis structure according to claim 10, which is characterized in that first storage area (200) is at it There are the first side wall (220) on length direction, the V-shaped structure of the first side wall (220), the opening direction of the v-shaped structure Side of the storage area (200) far from the evaporator (10), the top crossed water notch (221) and be set to the v-shaped structure End is suitable for guidance condensed water along the first side wall (220) and flows to mistake water notch (221).

12. air conditioner chassis structure according to claim 1, which is characterized in that the main gathering ground (100) includes convergence Portion (110), the convergence portion (110) are the high concave structure of intermediate low surrounding.

13. air conditioner chassis structure according to claim 12, which is characterized in that the convergence portion (110) includes four Convergence face (111), four convergence faces (111) intersect at convergent point (112).

14. air conditioner chassis structure according to claim 13, which is characterized in that the air conditioner chassis structure further includes It fetches water slot (700), the convergent point (112) is located at the notch (710) of slot (700) of fetching water.

15. air conditioner chassis structure according to claim 1, which is characterized in that second storage area (300) includes leading It flows bottom surface (310), in the longitudinal direction, the side of the neighbouring main gathering ground (100) of the water conservancy diversion bottom surface (310) is lower than separate The side of the main gathering ground (100), to guide condensation flow to the main gathering ground (100).

16. air conditioner chassis structure according to claim 1, which is characterized in that the drainage area (400) is provided with draining It manages (420), the edge of the outlet of the drainpipe (420) is jagged (422).

17. a kind of air conditioner, which is characterized in that including any air conditioner chassis structure of claim 1-16.

18. air conditioner according to claim 17, which is characterized in that further include: mechanism of fetching water (800), motor area of fetching water (600) and condenser, the mechanism of fetching water (800) are described to beat suitable for getting to the water in slot of fetching water (700) on the condenser Hydroelectric machine area (600) is suitable for the water fetched water on mechanism (800) described in collection.

19. air conditioner according to claim 18, which is characterized in that it is described fetch water motor area (600) only with drainage area (400) it is connected, described fetch water motor area (600) are located at the lower section of machine shaft (820) of fetching water, suitable for by the motor of fetching water Water in shaft (820) is guided to the drainage area (400).

20. air conditioner according to claim 19, which is characterized in that the motor area (600) of fetching water includes water guide bottom surface (620), when air conditioner chassis structure level is placed, in the lateral direction, far from the draining on the water guide bottom surface (620) The height of area (400) side is higher than the water guide bottom surface (620) close to the height of the drainage area (400) side.