CN204786824U

CN204786824U - Window -type air conditioner

Info

Publication number: CN204786824U
Application number: CN201520304919.XU
Authority: CN
Inventors: 陈城彬; 张先雄; 娄建锋; 黄彩凤; 张舒伟
Original assignee: TCL Air Conditioner Zhongshan Co Ltd
Current assignee: TCL Air Conditioner Zhongshan Co Ltd
Priority date: 2015-05-12
Filing date: 2015-05-12
Publication date: 2015-11-18
Anticipated expiration: 2025-05-12

Abstract

The utility model discloses a window -type air conditioner, this window -type air conditioner includes preceding frame, evaporimeter and atomization component, preceding frame includes curb plate and bottom plate, be equipped with the air intake on the curb plate, the curb plate with the evaporimeter is located on the bottom plate, just on the bottom plate in the evaporimeter with be equipped with the catch basin between the curb plate, atomization component locates in the catch basin. The utility model discloses window -type air conditioner is through setting up the catch basin on lieing in the bottom plate of evaporimeter below to set up atomization component in the catch basin, when certain water level is stored up to comdenstion water in the catch basin, open atomization component, through the atomizing comdenstion water of atomization component by centrifugal fan take away return side by side indoor to the balance of indoor humidity has been guaranteed.

Description

Window air conditioner

Technical field

The utility model relates to air-conditioner manufacturing technology field, particularly relates to a kind of window air conditioner.

Background technology

Current air-conditioner is generally divided into split type and monoblock type, and monoblock type mainly with window machine for representative.So-called monoblock type, namely all parts of air-conditioner are all in a casing, such as compressor, condenser, evaporimeter, throttle part and relevant pipe arrangement device etc.

During air-conditioner refrigerating operaton, because room is generally in closed state, house interior air is when the condenser with window air conditioner carries out heat exchange, steam is met cold and forms condensed water, and by outside drainpipe discharge chamber, so, the humidity of air can reduce along with the increase of air-conditioner running time, thus room becomes dry, and then reduce the humidity quality of space air.

Utility model content

Main purpose of the present utility model is to provide a kind of window air conditioner, is intended to solve the technical problem that existing window air conditioner easily causes indoor air humidity to reduce when the operation of freezing.

For achieving the above object, the utility model provides a kind of window air conditioner, and this window air conditioner comprises front frame, evaporimeter and atomizing component; Described front frame comprises side plate and base plate; Described side plate is provided with air inlet; Described side plate and described evaporimeter are located on described base plate, and described base plate is provided with catch basin between described evaporimeter and described side plate; Described atomizing component is located in described catch basin.

Preferably, the bottom of described front frame is provided with the exhalant canal in order to be discharged by the condensed water of described window air conditioner; Described catch basin is provided with the spillway hole communicated with described exhalant canal.

Preferably, described catch basin is extended along the junction of described side plate and described base plate and in microscler setting.

Preferably, the one side towards described evaporimeter of described base plate is provided with the through guiding gutter to described catch basin, and described guiding gutter is in order to be drained to described catch basin by the condensed water dripped from described evaporimeter.

Preferably, described window air conditioner also comprises level sensor and controller; Described level sensor is arranged in described catch basin; Described controller is electrically connected with described atomizing component and described level sensor, and the water level signal in order to detect according to described level sensor controls described atomizing component.

Preferably, described atomizing component comprises mount pad and atomizing piece; Described mount pad comprises the shell on the diapire being fixedly installed on described catch basin; Described shell is that hollow tube-shape is arranged, and the junction of described shell and described reservoir bottom wall is provided with inlet opening; Described atomizing piece is fixedly installed in described shell, and and the diapire interval of described catch basin arrange.

Preferably, described mount pad also comprises the dividing plate be arranged in described shell; Described dividing plate is provided with moisturizing hole; Described atomizing piece is fixedly installed on described dividing plate; The tip edges of described shell is provided with gap and the buckle for fixing described atomizing piece, and the lower limb of described gap is higher than the upper surface of described atomizing piece.

Preferably, described level sensor comprises contact assembly and seesaw part; Described contact assembly comprises the contact and shell fragment that are electrically connected with described controller; The two relative side of described seesaw part is provided with rotating shaft, and is rotatably connected with described front frame; One end of described seesaw part is provided with float, and described float is positioned at described catch basin; Fluctuating of described float drives described seesaw part around described axis of rotation; When the other end of described seesaw part is in order to float with described float and described shell fragment conflict and promote described shell fragment and the electrical contact of described contact.

Preferably, the contiguous described catch basin place of described base plate is provided with raised line; Described raised line is provided with the mounting groove for installing described level sensor; The side of the contiguous described catch basin of the through described raised line of described mounting groove; Described mounting groove comprises bottom surface and the first cell wall be oppositely arranged and the second cell wall; Described contact is located on described bottom surface, and described first cell wall or the second cell wall are provided with the axis hole with described rotating shaft adaptation; One end of described shell fragment is fixedly installed on described first cell wall or the second cell wall, and described shell fragment is between described seesaw part and described contact.

Preferably, described seesaw part comprises pressing plate portion and connecting portion between described pressing plate portion and float; Described pressing plate portion is provided with the projection in order to conflict with described shell fragment towards the one side of described shell fragment; Described connecting portion opposing platen portion is obliquely installed, and stretches into described catch basin to make float.

The utility model window air conditioner by arranging catch basin being positioned on the base plate below evaporimeter, and arranges atomizing component in catch basin, when the condensed water in catch basin accumulates certain water level, opens atomizing component; Condensed water through atomizing component atomization to be taken away by centrifugal fan and to flow back to indoor, thus ensure that the balance of indoor humidity.

Accompanying drawing explanation

Fig. 1 is the utility model window air conditioner one embodiment perspective view;

Fig. 2 is the structural representation in Fig. 1 after window air conditioner removal evaporimeter;

Fig. 3 is the modular construction schematic diagram of front frame, atomizing component and level sensor in Fig. 2;

Fig. 4 is A place partial enlargement structural representation in Fig. 3;

Fig. 5 is the perspective view of seesaw part and float in Fig. 4;

Fig. 6 is front another angled arrangement schematic diagram of frame, atomizing component and level sensor assembly in Fig. 3, and wherein level sensor eliminates seesaw part and float;

Fig. 7 is B place partial enlargement structural representation in Fig. 6;

Fig. 8 is front frame, an atomizing component and level sensor assembly angled arrangement schematic diagram again in Fig. 3;

Fig. 9 is C place partial enlargement structural representation in Fig. 8.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of window air conditioner, and referring to figs. 1 through Fig. 3, in one embodiment, this window air conditioner comprises front frame 1, evaporimeter 2 and atomizing component 3.Front frame 1 comprises side plate 12 and base plate 13.Side plate 12 is provided with air inlet 121.The edge of base plate 13 upwards extends and is provided with knife edge 132.Described evaporimeter 2 is fixedly installed on base plate 13, and base plate 13 is provided with catch basin 131 between evaporimeter 2 and side plate 12.Catch basin 131 is located in described atomizing component 3.

Particularly, window air conditioner also comprises centrifugal fan 61, aerofoil fan 62, condenser 63, compressor 64 and chassis 65; Front frame 1 also comprises the auxiliary frame 66 arranging former frame 1 body side, is provided with air outlet 661 in the middle part of auxiliary frame 66; Fig. 1 and Fig. 2 arrow shows the flow direction of air inlet 121 and air outlet 661 air; Water in catch basin 131 is under the process of atomizing component 3, produce the globule of a large amount of atomizations, and under the effect of centrifugal fan 61, the atomization globule is centrifuged fan 61 together with the air after refrigeration and sucks, by ducting system after mixing, blow out from air outlet 661.

The utility model window air conditioner by arranging catch basin 131 on the base plate 13 be positioned at below evaporimeter 2, and arranges atomizing component 3 in catch basin 131, when the condensed water in catch basin 131 accumulates certain water level, opens atomizing component 3; The condensed water be atomized through atomizing component 3 to be taken away by centrifugal fan 61 and to flow back to indoor, thus ensure that the balance of indoor humidity.

Further, the bottom of front frame 1 is provided with the exhalant canal 14 in order to be discharged by the condensed water of window air conditioner.Catch basin 131 is provided with the spillway hole 134 communicated with exhalant canal 14, and thus, when height higher than spillway hole 134 bottom margin of the height of water level in catch basin 131, unnecessary condensed water can be discharged from spillway hole 134.

Further, catch basin 131 extends along side plate 12 and the junction of base plate 13 in a lateral direction and is microscler setting; Thus, the water be atomized through atomizing component 3 in catch basin 131 can fully be sucked by the centrifugal fan 61 of window air conditioner.

Further, base plate 13 is being provided with the through guiding gutter 133 to catch basin 131 towards the one side of evaporimeter 2, guiding gutter 133 is in order to be drained to catch basin 131 by the condensed water dripped from evaporimeter 2.Arranging guiding gutter 133 can guide the condensed water dripped from evaporimeter 2 to flow rapidly into catch basin 131.Preferably, the length direction of the vertical catch basin 131 of length direction of guiding gutter 133, can shorten the water conservancy diversion distance of guiding gutter 133 pairs of condensed waters thus, and condensed water can be accumulated to catch basin 131 as early as possible.

Further, with reference to Fig. 8 and Fig. 9, in one embodiment, window air conditioner also comprises level sensor 4 and controller (not shown).Level sensor 4 is arranged in catch basin 131.Controller is electrically connected with atomizing component 3 and level sensor 4, controls atomizing component 3 in order to the water level signal detected according to level sensor 4.

Further, atomizing component 3 comprises mount pad (sign) and atomizing piece 32.Mount pad comprises the shell 31 on the diapire being fixedly installed on catch basin 131.Shell 31 is arranged in hollow tube-shape, and shell 31 is provided with inlet opening 311 with the junction of catch basin 131 diapire flows in shell 31 to make the water in catch basin 131.Atomizing piece 32 is fixedly installed in shell 31, and and the diapire interval of catch basin 131 arrange that the water in catch basin is fully contacted with atomizing piece 32, improve nebulization efficiency.Atomizing piece 32 is electrically connected with controller.

Further, mount pad also comprises the dividing plate 312 be arranged in shell 31.Dividing plate 312 is provided with moisturizing hole 313, is upwards replenished to atomizing piece 32 to make the water in shell 31.Atomizing piece 32 is fixedly installed on dividing plate 312.The tip edges of shell 31 is provided with gap 314 and the buckle 315 for fixing atomizing piece 32, and the lower limb of gap 314 is higher than the upper surface of atomizing piece 32.

Further, with reference to Fig. 4 to Fig. 7, in one embodiment, level sensor 4 comprises contact assembly 41 and seesaw part 42.Contact assembly 41 comprises the contact 411 and shell fragment 412 that are electrically connected with controller.The two relative side of seesaw part 42 is provided with rotating shaft 421, and is rotatably connected with front frame 1.One end of seesaw part 42 is provided with float 422, and float 422 is positioned at catch basin 131.Fluctuating of float 422 drives seesaw part 42 421 to rotate around the shaft, and as shown in Figure 4, arrow illustrates the force direction of buoyancy suffered by float 422.When the other end of seesaw part 42 is in order to float with float 422 and shell fragment 412 conflict and promote shell fragment 412 and contact 411 electrical contact.Level sensor 4, according to condensation buoyancy of water in catch basin 131, controls the break-make of contact assembly, simplifies the control circuit of level sensor 4.

Further, contiguous catch basin 131 place of base plate 13 is provided with raised line 15.Raised line 15 is provided with the mounting groove 16 for installing level sensor 4.The side of the contiguous catch basin 131 of the through raised line 15 of mounting groove 16.The first cell wall 162 and the second cell wall 163 that mounting groove 16 comprises bottom surface 161 and is oppositely arranged.Contact 411 is located on bottom surface 161, and the first cell wall 162 or the second cell wall 163 are provided with the axis hole 164 with rotating shaft 421 adaptation.One end of shell fragment 412 is fixedly installed on the first cell wall 162 or the second cell wall 163, and shell fragment 412 is between seesaw part 42 and contact 411.Particularly, when the water level in catch basin 131 is very low, float 422 lets droop under the effect of self gravitation, and drive seesaw part 42 to be upturned, seesaw part 42 is separated with shell fragment 412, shell fragment 412 is discharged, and namely shell fragment 412 and contact 411 are in non-contact condition, now do not open atomizing component 3.When water level rising reach a certain height, float 422 rises with the water level in catch basin 131 groove and upwards floats, and seesaw part 42 is conflict shell fragment 412 downwards, and shell fragment 412 is bending to be contacted with contact 411, now opens atomizing component 3.

Further, seesaw part 42 comprises pressing plate portion 423 and the connecting portion between pressing plate portion 423 and float 422 424.Pressing plate portion 423 is provided with the projection 425 in order to conflict with shell fragment 412 towards the one side of shell fragment 412, to make pressing plate portion 423 more medially conflict with shell fragment 412, and then improves the centering that shell fragment 412 contacts with contact 411, improves the sensitivity that contact assembly is communicated with.Connecting portion 424 opposing platen portion 423 is obliquely installed, and stretches into catch basin 131 to make float 422.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims

1. a window air conditioner, is characterized in that, comprises front frame, evaporimeter and atomizing component; Described front frame comprises side plate and base plate; Described side plate is provided with air inlet; Described side plate and described evaporimeter are located on described base plate, and described base plate is provided with catch basin between described evaporimeter and described side plate; Described atomizing component is located in described catch basin.

2. window air conditioner as claimed in claim 1, it is characterized in that, the bottom of described front frame is provided with the exhalant canal in order to be discharged by the condensed water of described window air conditioner; Described catch basin is provided with the spillway hole communicated with described exhalant canal.

3. window air conditioner as claimed in claim 2, is characterized in that, described catch basin extends along described side plate and the junction of described base plate and is microscler setting.

4. window air conditioner as claimed in claim 2, is characterized in that, the one side towards described evaporimeter of described base plate is provided with the through guiding gutter to described catch basin, and described guiding gutter is in order to be drained to described catch basin by the condensed water dripped from described evaporimeter.

5. window air conditioner as claimed in claim 1, it is characterized in that, described window air conditioner also comprises level sensor and controller; Described level sensor is arranged in described catch basin; Described controller is electrically connected with described atomizing component and described level sensor, and the water level signal in order to detect according to described level sensor controls described atomizing component.

6. window air conditioner as claimed in claim 5, it is characterized in that, described atomizing component comprises mount pad and atomizing piece; Described mount pad comprises the shell on the diapire being fixedly installed on described catch basin; Described shell is that hollow tube-shape is arranged, and the junction of described shell and described reservoir bottom wall is provided with inlet opening; Described atomizing piece is fixedly installed in described shell, and and the diapire interval of described catch basin arrange.

7. window air conditioner as claimed in claim 6, it is characterized in that, described mount pad also comprises the dividing plate be arranged in described shell; Described dividing plate is provided with moisturizing hole; Described atomizing piece is fixedly installed on described dividing plate; The tip edges of described shell is provided with gap and the buckle for fixing described atomizing piece, and the lower limb of described gap is higher than the upper surface of described atomizing piece.

8. window air conditioner as claimed in claim 5, it is characterized in that, described level sensor comprises contact assembly and seesaw part; Described contact assembly comprises the contact and shell fragment that are electrically connected with described controller; The two relative side of described seesaw part is provided with rotating shaft, and is rotatably connected with described front frame; One end of described seesaw part is provided with float, and described float is positioned at described catch basin; Fluctuating of described float drives described seesaw part around described axis of rotation; When the other end of described seesaw part is in order to float with described float and described shell fragment conflict and promote described shell fragment and the electrical contact of described contact.

9. window air conditioner as claimed in claim 8, is characterized in that, the contiguous described catch basin place of described base plate is provided with raised line; Described raised line is provided with the mounting groove for installing described level sensor; The side of the contiguous described catch basin of the through described raised line of described mounting groove; Described mounting groove comprises bottom surface and the first cell wall be oppositely arranged and the second cell wall; Described contact is located on described bottom surface, and described first cell wall or the second cell wall are provided with the axis hole with described rotating shaft adaptation; One end of described shell fragment is fixedly installed on described first cell wall or the second cell wall, and described shell fragment is between described seesaw part and described contact.

10. window air conditioner as claimed in claim 9, it is characterized in that, described seesaw part comprises pressing plate portion and connecting portion between described pressing plate portion and float; Described pressing plate portion is provided with the projection in order to conflict with described shell fragment towards the one side of described shell fragment; Described connecting portion opposing platen portion is obliquely installed, and stretches into described catch basin to make float.