CN205678846U - Water-receiving tray and there is its air conditioner - Google Patents

Abstract

The utility model provides a kind of water-receiving tray and has its air conditioner, and this water-receiving tray includes: main body；Water-retaining structure, water-retaining structure is arranged in main body, and water-retaining structure has water receiving chamber；Water structure, water structure is arranged in main body, and water structure has water chamber, and water receiving chamber is conducted with water chamber.The condensation water received in water-retaining structure in the utility model flows ultimately in water structure and stores further, thus effectively prevent condensation water and flow to outside air conditioner, improves the experience of user.

Description

Water-receiving tray and there is its air conditioner

Technical field

The utility model relates to air-conditioning technical field, in particular to a kind of water-receiving tray and the air conditioner with it.

Background technology

Current floor air conditioner operationally, when the cold wind of hot blast in air and air-conditioning blowout crosses, outside water Steam reaches below condensation point, and will condense becomes condensation water.Condensation water than more serious region be mainly around heat exchanger with And around upper and lower air outlet, and cause condensation water to flow to outside air conditioner, affect using effect.Solution for condensation water at present Way is all to be discharged outside air-conditioning by drip tray water receiving drainage.And for lower air outlet, due to restriction spatially, be then By increasing electric heater unit process, control more than condensation point with the temperature by neighbouring steam, so can increase cabinet type The cost of air conditioner, and make deflector structure complicate.

Utility model content

Main purpose of the present utility model is the air conditioner providing a kind of water-receiving tray and having it, to solve existing skill Condensation water in art readily flows to the problem outside air conditioner.

To achieve these goals, according to an aspect of the present utility model, a kind of water-receiving tray is provided, comprising: main Body；Water-retaining structure, water-retaining structure is arranged in main body, and water-retaining structure has water receiving chamber；Water structure, water structure is arranged on In main body, water structure having water chamber, water receiving chamber is conducted with water chamber.

Further, water-receiving tray also includes flow-guiding channel, and flow-guiding channel is connected between water chamber and water receiving chamber.

Further, water-retaining structure is water receiving tank.

Further, water receiving tank is arc groove.

Further, the bottom surface of water receiving tank is inclined-plane or cambered surface, and the height of inclined-plane or cambered surface is from water receiving chamber to water chamber Direction is gradually lowered.

Further, flow-guiding channel is guiding gutter or pod apertures.

Further, the short transverse of flow-guiding channel and the thickness direction of main body are consistent, and flow-guiding channel includes: the first water conservancy diversion Section, the first end of the first diversion section is connected with water-retaining structure；Second diversion section, the first end of the second diversion section and the first diversion section The second end connect, the second end of the second diversion section is connected with water structure, and between the first diversion section and the second diversion section Angle is in the range of 90 degree to 180 degree.

Further, water structure includes multiple water storage flume, and multiple water storage flumes are spaced and are uniformly arranged.

According to another aspect of the present utility model, providing a kind of air conditioner, including water-receiving tray, this water-receiving tray is upper State water-receiving tray.

Further, air conditioner includes deflector, and deflector is arranged on water-receiving tray, and the guide face of deflector with connect It is provided with water conservancy diversion gap between water-bound.

Further, the width in water conservancy diversion gap is 3mm to 5mm.

Further, water-receiving tray is additionally provided with multiple structural strengthening groove, and multiple structural strengthening grooves and water structure are many Individual water storage flume is spaced along same circumferencial direction and is evenly arranged.

Application the technical solution of the utility model, the condensation water being formed in air conditioner, when flowing down, can flow to this practicality new The water-receiving tray of type, condensation water is caught and carries out certain storage by water-retaining structure, to prevent outside its runner, in water-retaining structure Condensation water flow ultimately in water structure and store further, thus effectively prevent condensation water and flow to outside air conditioner Portion, improves the experience of user.

Brief description

A part of Figure of description constituting the application is used for providing being further appreciated by of the present utility model, this practicality Novel schematic description and description is used for explaining the utility model, is not intended that to improper restriction of the present utility model. In the accompanying drawings:

Fig. 1 diagrammatically illustrates the sectional view of water-receiving tray of the present utility model；

Fig. 2 diagrammatically illustrates the top view of water-receiving tray of the present utility model；

Fig. 3 diagrammatically illustrates the structure chart that deflector of the present utility model is arranged on water-receiving tray；

Fig. 4 diagrammatically illustrates the enlarged drawing in Tu3Zhong M district；

Fig. 5 diagrammatically illustrates the top view that deflector of the present utility model is arranged on water-receiving tray；

Fig. 6 diagrammatically illustrates the structure chart from forward observation for the air-conditioning of the present utility model joint；

Fig. 7 diagrammatically illustrates the overall structure figure of air conditioner of the present utility model；And

Fig. 8 diagrammatically illustrates the explosive view of air conditioner of the present utility model.

Wherein, above-mentioned accompanying drawing includes that the following drawings marks:

10th, main body；11st, structural strengthening groove；20th, water-retaining structure；30th, water structure；31st, water storage flume；40th, flow-guiding channel； 41st, the first diversion section；42nd, the second diversion section；50th, shell；51st, deep bead parts；52nd, deflector；53rd, base member；54th, change Hot device parts；55th, air intake parts；56th, ducting part.

Detailed description of the invention

It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can phases Combination mutually.Describe the utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

It it is noted that described further below is all exemplary, it is intended to provide further instruction to the application.Unless it is another Indicating, all technology used herein and scientific terminology have usual with the application person of an ordinary skill in the technical field The identical meanings understanding.

It should be noted that term used herein above merely to describe detailed description of the invention, and be not intended to restricted root Illustrative embodiments according to the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative Be also intended to include plural form, additionally, it should be understood that, when use in this manual term "comprising" and/or " bag Include " when, it indicates existing characteristics, step, operation, device, assembly and/or combinations thereof.

It should be noted that term " first " in the description and claims of this application and above-mentioned accompanying drawing, " Two " it is etc. for distinguishing similar object, without being used for describing specific order or precedence.Should be appreciated that so use Data can exchange in the appropriate case, in order to presently filed embodiment described herein for example can be with except here Order beyond those of diagram or description is implemented.

Additionally, term " includes " and " having " and their any deformation, it is intended that cover non-exclusive comprising, example As contained process, method, system, product or the equipment of series of steps or unit and being not necessarily limited to those that clearly list Step or unit, but can include clearly not listing or for intrinsic other of these processes, method, product or equipment Step or unit.

For the ease of describing, space relative terms here can be used, as " ... on ", " ... top ", " at ... upper surface ", " above " etc., be used for describing such as a device shown in the figure or feature and other devices or spy The spatial relation levied.It should be appreciated that space relative terms is intended to comprise except the described in the drawings orientation of device Outside different azimuth in use or operation.

For example, it if the device in accompanying drawing is squeezed, then is described as " above other devices or construction " or " at other devices On part or construction " device after will be positioned as " at other devices or construct below " or " at other devices or construct it Under ".Thus, exemplary term " in ... top " can include " in ... top " and " in ... lower section " two kinds of orientation.Should Device also can be with other different modes positioning (90-degree rotation or be in other orientation) and relative to space used herein above Respective explanations is made in description.

Seeing shown in Fig. 1 to Fig. 8, wherein, the arrow in Fig. 1 and Fig. 2 represents condensation water flow direction, new according to this practicality One aspect of type provides a kind of air conditioner, and this air conditioner includes heat exchanger component the 54th, deep bead parts the 51st, ducting part 56th, deflector the 52nd, air intake parts the 55th, shell the 50th, base member 53 and water-receiving tray, this water-receiving tray includes main body the 10th, water receiving Structure 20 and water structure 30, wherein, water-retaining structure 20 is arranged in main body 10, and water-retaining structure 20 has water receiving chamber, water Structure 30 is arranged in main body 10, and water structure 30 has water chamber, and water receiving chamber is conducted with water chamber.Of the present utility model Water-receiving tray is used in air conditioner, and during work, the condensation water being formed in air conditioner flows down, and flow at the bottom of water receiving of the present utility model Dish, condensation water is caught and carries out certain storage, to prevent the condensation outside its runner, in water-retaining structure 20 by water-retaining structure 20 Water flows ultimately in water structure 30 and stores further, thus effectively prevent condensation water and flow to, outside air conditioner, carry The high experience of user.

Store in order to the condensation water in water-retaining structure 20 is guided water structure 30 smoothly, it is preferable that water-receiving tray Also including flow-guiding channel 40, flow-guiding channel 40 is connected between water chamber and water receiving chamber.During work, it is solidifying that water-retaining structure 20 is received Dew is simultaneously stored in water receiving chamber, then is flowed in water chamber by flow-guiding channel 40 and stores, due to the water in water chamber Flow into while evaporating, so condensation water will not flow to outside.

Preferably, the flow-guiding channel 40 in the utility model is guiding gutter or pod apertures, during work, in water-retaining structure 20 Condensation water is flowed in water chamber by guiding gutter or pod apertures and stores, and is certainly also not limited to both structures, water conservancy diversion The structure of passage 40 is adjusted according to different use environment, as long as disclosure satisfy that and import to the water in water-retaining structure 20 Flow-guiding channel 40 in water structure 30.

Specifically, the water-retaining structure 20 in the utility model is water receiving tank, during work, catches air conditioner by water receiving tank Produce condensation water and carry out temporary storage, the water in water receiving tank imports to water structure 30 by flow-guiding channel 40 afterwards In.

In order to make the water receiving tank in the utility model can adapt to the water conservancy diversion direction of deflector 52 of air conditioner, to prevent from leading Condensation water on stream plate 52 flows to outside air conditioner, it is preferable that the water receiving tank in the utility model is arc groove, during work, connects Tank is positioned at the lower section of air conditioner, and the condensation water on deflector 52 flows downward along deflector 52 and flows ultimately into arc groove In.

In order to make the condensation water in the water receiving tank in the utility model to flow in flow-guiding channel more glibly, this reality The bottom surface of the water receiving tank in novel is provided with certain difference in height, is least significant end near one end of flow-guiding channel 40, allows the water to Enough moving in flow-guiding channel 40 by Action of Gravity Field, specifically, the bottom surface of water receiving tank is inclined-plane or cambered surface, inclined-plane or cambered surface Height be gradually lowered from water receiving chamber to the direction in water chamber.During work, the condensation water that water receiving tank is received is from water receiving tank bottom surface Eminence flows to lower, flows ultimately in flow-guiding channel 40.

In order to make the flow-guiding channel 40 in the utility model when turning on condensation water more smooth, it is preferable that the utility model In the short transverse of flow-guiding channel 40 consistent with the thickness direction of main body 10, flow-guiding channel 40 includes the first diversion section 41 and Two diversion sections 42, the first end of the first diversion section 41 is connected with water-retaining structure 20, and the first end and first of the second diversion section 42 are led Second end of stream section 41 connects, and the second end of the second diversion section 42 is connected with water structure 30, and the first diversion section 41 and second Angle between diversion section 42 is in the range of 90 degree to 180 degree.During work, condensation water first passes through the first diversion section 41, then warp Being flowed into after crossing the second diversion section 42 in water structure 30, the angle between the first diversion section 41 and the second diversion section 42 is When 180 degree, the i.e. first diversion section 41 and the second diversion section 42 are on same inclined-plane, and now, the flow velocity of condensation water is the most stable. When angle between the first diversion section 41 and the second diversion section 42 is 90 degree, the i.e. first diversion section 41 is in plumbness, the Two diversion sections 42 are in level, and now, on the first diversion section 41, the condensation water speed of flowing is relatively anxious, and condensation current To also having bigger speed during the second diversion section 42, the conducting speed of flow-guiding channel 40 can be made faster.

Certainly, the angle between the first diversion section 41 from the second diversion section 42 can be adjusted according to different use conditions Whole, as long as can make the more smooth angle of the flow-guiding channel water conservancy diversion in the utility model.

In order to make condensation water from the first diversion section 41 flow between the second diversion section 42 when excessively steady, in the utility model The first diversion section 41 and the second diversion section 42 between be provided with chamfering, this chamfering is applied except the first diversion section 41 and second Between diversion section 42, angle is not in other embodiments of 180 degree, and the radius of chamfering can be the scope of 1 to 10 millimeter, certainly, The radius of chamfering can according to the specifically used situation of water-receiving tray of the present utility model be defined as 2 to 11 millimeters scope, 3 to The scope etc. of 10 millimeters.

In order to make water-receiving tray of the present utility model have good water performance, so that more condensation water can be deposited, excellent Selection of land, the water structure 30 in the utility model includes multiple water storage flume 31, and multiple water storage flumes 31 are spaced and are uniformly arranged.Work When, in water-retaining structure 20, condensation water is flowed in multiple water storage flume 31 by flow-guiding channel 40.

In order to enable the condensation water in the water receiving tank in the utility model to be flowed in multiple water storage flume 31, it is preferable that Flow-guiding channel 40 in the utility model is multiple, and multiple flow-guiding channels 40 are conducted with multiple water storage flumes 31 respectively, and each is deposited Tank 31 is at least conducted with a flow-guiding channel 40, and during work, the condensation water in water receiving tank flows into from multiple flow-guiding channels 40 In multiple water storage flumes 31.

Due to air conditioner of the present utility model deflector 52 flow condensation water when, some region on deflector 52 than The flow in other regions is many, it is preferable that can be by flow-guiding channel 40 mutually close for the region bigger with the deflector 52 condensation water yield Flow liquid cross-sectional area strengthen, or at this multiple flow-guiding channel of region concentrated setting, with prevent condensation water from water receiving tank to The flow of water storage flume 31 is less than the situation that deflector 52 causes condensation water to overflow to the flow of water receiving tank.

In another kind of embodiment of the present utility model, flow-guiding channel 40 of the present utility model is set to one, Duo Gecun Being turned on by pod apertures between tank 31, during work, the water in water receiving tank flows in certain water storage flume 31 by flow-guiding channel 40, Condensation water in this water storage flume 31 is flow in other water storage flumes 31 by the pod apertures between water storage flume 31 and water storage flume 31 again Store.

In order to make the condensation water on deflector 52 not flow at the bottom of water receiving of the present utility model during flowing into water receiving tank Outside dish, it is preferable that air conditioner of the present utility model includes deflector 52, and deflector 52 is arranged on water-receiving tray, and deflector It is provided with water conservancy diversion gap between the guide face of 52 and water-retaining structure 20.During work, the condensation water on deflector 52 is by between water conservancy diversion Gap enters in water-retaining structure 20.

Specifically, the width in the water conservancy diversion gap in the utility model is 3mm to 5mm, it is preferable that in the utility model The width in water conservancy diversion gap is 4mm.

In order to enable the stable support air conditioner of water-receiving tray of the present utility model, the water-receiving tray in the utility model Being additionally provided with multiple structural strengthening groove 11, multiple water storage flumes 31 of multiple structural strengthening grooves 11 and water structure 30 are along same circumference Direction is spaced and is evenly arranged.Specifically, the side relative with water storage flume 31 at water-receiving tray of the present utility model is arranged Having multiple structural strengthening groove 11, in order to strengthen stability, these structural strengthening grooves 11 are consistent with the shape size of water storage flume 31, and These structural strengthening grooves 11 and water storage flume 31 are arranged uniformly, and water-receiving tray of the present utility model is circle, then the utility model In strengthening groove and water storage flume 31 arrange uniformly in a circumferential direction.

According to the above embodiments it is recognised that the 53rd, air conditioner of the present utility model includes ducting part the 56th, base member Air intake parts the 55th, heat exchanger component the 54th, shell the 50th, deflector the 52nd, deep bead parts 51.And this air conditioner has up and down simultaneously Two air outlets.

Lower air outlet i.e. deflector 52 position, when air conditioner refrigerating, indoor hot-air and air outlet are discharged Cold air crosses, and air is drastically lowered the temperature.Temperature reaches below condensation point, just creates condensation water.Condensation water can be attached to water conservancy diversion On the air outlet grille of plate 52, and condensation water can not evaporate under air effect.So when refrigeration mode, deflector 52 On can adhere to more condensation water and cannot drain.

Water-receiving tray is opening water receiving tank with the region that deflector 52 assembles, and ensures water-receiving tray inner ring when assembling and leads The gap of 4mm is left in stream plate 52 outer ring.And deflector 52 has latch spacing with water-receiving tray when assembling, it is ensured that deflector 52 Do not have too big displacement.The gap of 4mm can ensure that the water of attachment on deflector 52 can be connect by the water receiving tank of water-receiving tray Arrive, will not directly drip to outside air-conditioning.

Water receiving tank on chassis and flow-guiding channel 40 have certain difference in height, and flow-guiding channel 40 and water storage flume 31 have certain Difference in height, it is simple to drainage.Water receiving tank on chassis after receiving the condensation water of deflector 52 landing, flow-guiding channel 40 meeting at five Guide condensation water to enter the water storage flume 31 on chassis, water receiving tank ponding will not be allowed too much.And the water storage flume 31 on chassis i.e. plays reinforcement Supporting role, can accommodate again condensation water.And the enough condensation waters in space of water storage flume 31 enter, and the water in water storage flume 31 is also Evaporation during air-conditioning uses, will not store too much.

Using air conditioner of the present utility model, during air-conditioning work, the water receiving tank on water-receiving tray just can catch deflector The condensation water staying at 52, is subsequently introduced in water storage flume 31.Successfully solve deflector 52 and flow down condensation water to the fraud on ground End, water-receiving tray of the present utility model also achieves support, water receiving in the function of one.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for this For the technical staff in field, the utility model can have various modifications and variations.All in spirit of the present utility model and principle Within, any modification, equivalent substitution and improvement etc. made, should be included within protection domain of the present utility model.

Claims (12)

1. a water-receiving tray, it is characterised in that include:

Main body (10)；

Water-retaining structure (20), described water-retaining structure (20) is arranged in described main body (10), and described water-retaining structure has on (20) Water receiving chamber；

Water structure (30), described water structure (30) is arranged in described main body (10), and described water structure (30) has Water chamber, described water receiving chamber is conducted with described water chamber.

2. water-receiving tray according to claim 1, it is characterised in that described water-receiving tray also includes flow-guiding channel (40), Described flow-guiding channel (40) is connected between described water chamber and described water receiving chamber.

3. water-receiving tray according to claim 2, it is characterised in that described water-retaining structure (20) is water receiving tank.

4. water-receiving tray according to claim 3, it is characterised in that described water receiving tank is arc groove.

5. water-receiving tray according to claim 4, it is characterised in that the bottom surface of described water receiving tank is inclined-plane or cambered surface, institute State inclined-plane or the height of cambered surface is gradually lowered from described water receiving chamber to the direction in described water chamber.

6. water-receiving tray according to claim 2, it is characterised in that described flow-guiding channel (40) is guiding gutter or water conservancy diversion Hole.

7. water-receiving tray according to claim 2, it is characterised in that the short transverse of described flow-guiding channel (40) with described The thickness direction of main body (10) is consistent, and described flow-guiding channel (40) includes:

First diversion section (41), the first end of described first diversion section (41) is connected with described water-retaining structure (20)；

Second diversion section (42), the first end of described second diversion section (42) connects with the second end of described first diversion section (41) Connecing, the second end of described second diversion section (42) is connected with described water structure (30), and described first diversion section (41) and institute State the angle between the second diversion section (42) in the range of 90 degree to 180 degree.

8. water-receiving tray according to claim 1, it is characterised in that described water structure (30) includes multiple water storage flume (31), the plurality of water storage flume (31) is spaced and is uniformly arranged.

9. an air conditioner, including water-receiving tray, it is characterised in that described water-receiving tray is claim 1 to 8 any one institute The water-receiving tray stated.

10. air conditioner according to claim 9, it is characterised in that described air conditioner includes deflector (52), described water conservancy diversion Plate (52) is arranged on described water-receiving tray, and arranges between the guide face of described deflector (52) and described water-retaining structure (20) There is water conservancy diversion gap.

11. air conditioners according to claim 10, it is characterised in that the width in described water conservancy diversion gap is 3mm to 5mm.

12. air conditioners according to claim 11, it is characterised in that described water-receiving tray is additionally provided with multiple structural strengthening Groove (11), multiple water storage flumes (31) of the plurality of structural strengthening groove (11) and described water structure (30) are along same circumferencial direction It is spaced and be evenly arranged.