CN1441209A - Air conditioner - Google Patents

Abstract

The invention provides a method for improving an air conditioner by disposing of condensed water inside an apparatus without draining it to the outside. This air conditioner is composed of: a heat absorbing part including an evaporator and absorbing heat from indoor air; a radiating part including a compressor and a condenser and emitting heat absorbed from the indoor air, to the open air; a base plate forming the lower structure of the radiating part to allow condensed water produced from the heat absorbing part, to flow therein; a housing connected to the base plate so as to surround the condenser, and comprising intake ports for allowing the inflow of outside air; and a splashing means provided on the base plate to splash the condensed water flowing into the base plate toward the condenser.

Description

Air conditioner

Technical field

The present invention relates to air conditioner, particularly relate to the structure that the condensed water of the generation of the evaporimeter from air conditioner is handled.

Background technology

Generally, air conditioner as shown in Figure 1, by compressor 1, condenser 2, expansion valve 3, form with evaporimeter, it carries out isobaric condensation by compressed machine 1 refrigerant compressed by condenser 2, by expansion valve 3, carries out heat insulation expansion, by a series of refrigerant cycles that evaporimeter 4 carries out isobaric evaporation, room air is cooled off.

More particularly, air conditioner is divided into the heat unit and the endothermic section that absorbs heat of discharges heat in large quantities, and described heat unit comprises described compressor 1 and condenser 2, and described endothermic section comprises described expansion valve 3 and evaporimeter 4.

In addition since with the temperature difference of outside, produce condensed water on the surface of evaporimeter 4, for it is discharged to the outside, a condensed water processor is set in addition also in described air conditioner.

Here, the condensation water treatment structure is not shown in the drawings, but as known in the art, includes the independent condensed water reservoir that is arranged at air conditioner inside, the condensed water that produces from described evaporimeter 4 remains in the reservoir of condensed water, is discharged to the outside at regular intervals.

But, the condensed water that described existing condensation water treatment structure is not produced by evaporimeter 4 in the inner processing of air conditioner own, and make its outside that flows to air conditioner, therefore produce the problem in the use.

Promptly in the processing structure of described condensed water, produce unusually, sharply produce the occasion of condensed water in large quantities, have condensed water not to be discharged to the outside, and flow to indoor danger.In addition, also have, make the danger of the other parts generation fault of air conditioner because of such outflow process.

Summary of the invention

The present invention is used to solve described existing technical problem, the object of the present invention is to provide a kind of air conditioner, and this air conditioner can be handled it in empty talk machine inside voluntarily condensed water not being discharged under the outside situation.

In addition, another object of the present invention is to provide a kind of air conditioner, this air conditioner adopts described condensed water, and air-conditioner efficiency is improved.

In order to realize described purpose, the invention provides a kind of air conditioner, this air conditioner is configured to by following parts: the endothermic section, it comprises evaporimeter, and absorbs heat from room air; Heat unit, it comprises compressor and condenser, and will be discharged to outdoor from the heat that room air absorbs; Base plate, it forms the polycrystalline substance of described heat unit, and accepts the condensed water that generates from described endothermic section; Shell, it is connected with described base plate according to the mode around described condenser, and has and be used for making condensed water to flow to the suction inlet of extraneous air from described condenser; The mechanism of splashing, it is arranged on the described base plate, and the condensed water that flows on the described base plate is splashed towards described condenser.

Here, the described mechanism of splashing comprises: support unit, and it is in fact near described condenser setting; The fan that splashes, it is arranged at a side of described support unit with rotary way, in rotation condensed water is splashed on the described condenser; Motor, it is arranged at the opposite side of described support unit, is connected with the described fan that splashes by axle, and the described fan that splashes is rotated.

At first, described support unit is connected with base plate with described condenser respectively, so that described condenser is fixed on the described base plate.

The described fan that splashes is preferably the cross flow fan that condensed water is splashed in the direction vertical with described motor shaft.

Here, in the height of described condenser occasion less than 300mm, the blade exterior front end of the described fan that splashes preferably relatively radial axle along the circumferential direction tilt 5～30 °; In the height of described condenser occasion greater than 300mm, the blade exterior front end of the described fan that splashes preferably relatively radial axle along the circumferential direction tilt 30～60 °.

In addition, the described fan that splashes preferably is provided with according to the mode that tilts towards described condenser.

More particularly, the described fan that splashes radially preferably the horizontal direction of described relatively condenser tilt 5～15 °.In addition, in the height of described condenser occasion less than 300mm, described cross flow fan radially preferably the vertical direction of described relatively condenser tilt 1～3 °; In the height of described condenser occasion greater than 300mm, described cross flow fan radially preferably the vertical direction of described relatively condenser tilt 0～1 °.

In addition, air conditioner of the present invention is characterised in that and also comprises the sealing mechanism that is provided with near the described mechanism of dispersing that it prevents that condensed water from leaking into the outside in the process of splashing.

Described sealing mechanism can comprise the vertical member that is provided with near the described fan that splashes, and this vertical member comprises that the condensed water that will splash is sent to the inflow entrance that imports described condenser.In addition, sealing mechanism also comprises seal member, and the sealing parts prolong according to the inner face ways of connecting with the sidewall of described vertical next door and described shell.

Described sealing mechanism can comprise horizontal partition wall, this horizontal partition wall is arranged at described heat unit top, prevent from condensed water is splashed to the top of described heat unit, described sealing mechanism also can comprise inclined partitions, this inclined partitions is extended specific length downwards from described horizontal partition wall, at the inboard of described heat unit inclination predetermined angular.

Described sealing mechanism also can comprise the additional vertical next door, this additional vertical next door is according to being provided with the isolated mode in described vertical next door with prescribed distance, in addition, described sealing mechanism comprises the insertion section, and this insertion section is inserted into the sidewall of described housing department according to the top of described base plate the mode of whole lower layer part forms.

The bottom surface of described base plate tilts according to the mode that condensed water retains in the described mechanism side of splashing, and in the bottom surface of described base plate, is formed with blank part, so that condensed water remains in described mechanism's one side of splashing with ormal weight.

So air conditioner of the present invention can be handled by the condenser of air conditioner inside itself condensed water not being discharged under the outside situation, and in the refrigeration of condenser, air-conditioner efficiency is improved.

Description of drawings

Fig. 1 is the block diagram of the building block of the existing air conditioner of expression;

Fig. 2 is the stereogram that the major part of expression air conditioner of the present invention is cut open;

Fig. 3 is the side view of the major part of Fig. 2;

Fig. 4 is the vertical view of the major part of Fig. 2;

The figure of Fig. 5 major part that " A " locates to see in Fig. 2;

Fig. 6 is the cutaway view along the I-I line among Fig. 2;

Fig. 7 is the cutaway view along the II-II line among Fig. 2;

Fig. 8 is the plane of the base plate of presentation graphs 2;

Fig. 9 is the cutaway view along the III-III line among Fig. 8;

Figure 10 major part figure that " B " locates to see in Fig. 8.

The specific embodiment

With reference to the accompanying drawings, the present invention is described more specifically.

Fig. 2 is the stereogram cut open of major part of expression air conditioner of the present invention, and Fig. 3 is the side view of the major part of Fig. 2, and Fig. 4 is the plane of the major part of Fig. 2, the figure of the major part that Fig. 5 sees from Fig. 2 " A ".

In addition, Fig. 6 is the cutaway view along the I-I line among Fig. 2, and Fig. 7 is the cutaway view along the II-II line among Fig. 7, and Fig. 8 is the plane of the base plate of presentation graphs 2, and Fig. 9 is the cutaway view along the III-III line among Fig. 8, and Figure 10 is the major part that " B " locates to see among Fig. 8.

Generally, air conditioner is divided into the integrated air conditioner of described endothermic section and heat unit merging, and the type-dividing conditioner that lays respectively at indoor and outdoors is separated in the endothermic section with heat unit.

Following the present invention is described the embodiment that is suitable for type-dividing conditioner.In addition, because the endothermic section in the air conditioner of the present invention is identical with general endothermic section, the Therefore, omited is to its specific descriptions.

Heat unit in the air conditioner of the present invention comprises as shown in Figure 2: base plate 10, and this base plate 10 forms the polycrystalline substance of described heat unit; Shell 30, this shell 30 is around condenser 20; The mechanism 40 of splashing, this mechanism 40 of splashing is arranged on the described base plate 10.

Here, the condensation flow that generates from described endothermic section is equipped with compressor 1 on described base plate 10 to described base plate 10.In addition, be connected with base plate 10 according to described shell 30, inner compressor 1 and the condenser 20 that is provided with of protection, and, be provided with inflow entrance 31 by the mode that the space outerpace of described condenser 20 coolings flows into.In order to represent inner building block etc., the shell 30 that omits top is shown in the drawings.

In addition, in fact the described mechanism 40 of dispersing is arranged at a side of base plate 10, and the condensed water that will flow on the base plate 10 splashes towards described condenser 20.At this moment, the described mechanism 40 of splashing comprises: support unit 41, this support unit 41 be installed on condenser 20 near; The fan 42 that splashes, this fan 42 that splashes is according to being provided with in the rotating mode of a side of described support unit; Motor 43, this motor 43 is arranged at the opposite side of described support unit 41, is connected with the described fan 42 that disperses by axle, and the described fan 42 that splashes is rotated.

Below the described mechanism 40 of splashing is specifically described, at first, described support unit 41 is the panel component that are connected on the base plate 10, and it is between the sidewall of condenser 20 and shell 30.Described support unit 41 preferably is connected with condenser 20, thus, can realize stably described condenser 20 being fixed in the function on the described base plate 10.

The described fan 42 that splashes is between the sidewall of support unit 41 and shell 30, and in rotation, realization will remain in the function that the condenser on the described base plate 10 splashes towards condenser 20.Here, when consider the described fan 42 that splashes the position is set the time, the cross flow fan that the described fan 42 that splashes preferably can splash condensed water in the vertical direction of the axle of described motor 41 is so that the condensed water that has splashed arrives condenser 20 places.

Here, splash towards condenser 20 more equably, suitably make the described fan 42 that splashes, and it is suitably installed is very important in order to make condensed water.That is and since the angle of the blade front end 42a of the described fan 42 that splashes and the fan that splashes that direction is set is different, the angle that condensed water splashes is different with scope.

At first, with regard to the angle of blade front end 42a, if with reference to Fig. 3, (promptly at lower condenser 20, the height of described condenser 20 is less than 300mm) occasion, the relative radial axle of described blade exterior front end 42a is preferably towards tilt 5～30 ° angle (θ 1) of circumferencial direction.In addition, in the occasion of height greater than the condenser 20 of 300mm, the relative radial axle of described blade exterior front end 42a is preferably towards tilt 30～60 ° angle (θ 1) of circumferencial direction.

In addition, with regard to the direction that is provided with of the fan 42 that splashes, as shown in Figure 4 and Figure 5, the described fan 42 that splashes is provided with towards the mode that described condenser 20 tilts basically, is more exposing on the large tracts of land to make condenser 20 in the scope of splashing of condensed water.In addition, the described fan 42 that splashes is that benchmark tilts to install with the horizontal plane of condenser 20 or vertical plane, or described relatively level and vertical plane the two tilt to install.

More particularly, as shown in Figure 4, on the horizontal plane of condenser 20, radially best the tilt angle of 5～15 ° (θ 2) of the horizontal direction of described relatively condenser 20 of the main body of the described fan 42 that splashes.Be described splash fan 42 on described horizontal plane from side wall of outer shell position side by side towards described condenser 20, install in the mode of the angular turn of 5～15 ° (θ 2).When the angle of inclination (θ 2) of the fan 42 that splashes of the horizontal direction of relative condenser 20 when being 10 °, the described fan 42 that splashes is arranged at the optimum position.

In addition, as shown in Figure 5, in the occasion of described height less than the condenser 20 of 300mm, on the vertical plane of condenser 20, the radially relative vertical direction of condenser 20 of the described fan 42 that splashes, 1～3 ° angle (θ 3) preferably tilts.

Also have, with regard to lower condenser 20 (height is less than 300mm), the suitable angle of inclination (θ 3) of the fan 42 relative condenser vertical direction of splashing is 2 °.In addition, in the height of condenser 20 occasion greater than 300mm, described angle of inclination (θ 3) are preferably in 0～1 ° scope.

Also have, described air conditioner of the present invention preferably also can have sealing mechanism 50 as shown in Figure 2, and sealing mechanism 50 is arranged near the described mechanism 40 of splashing, and leaks into the outside so that prevent condensed water in the process of splashing.

When reference Fig. 2 and Fig. 3, described sealing mechanism 50 comprises vertical next door 51, and this vertical next door 51 is installed near the described fan 52 that splashes.Described vertical next door 51 is according in fact being connected with the side of described support unit 41 and the mode of the direction of splashing of crosscut condensed water is installed.In addition, in described vertical next door 51, offer inflow entrance 51a, the length of this inflow entrance 51a is longer, and its condensed water that will splash is sent to condenser 20.Therefore, condensed water can pass through described inflow entrance 51a, and only towards required direction, promptly condenser side splashes, and prevents that it from splashing towards unwanted other direction.

In addition, as shown in Figure 4, described sealing mechanism 50 comprises the seal member 52 that the inner face with the described vertical next door 51 and the sidewall of shell 30 is connected.Described seal member 52 seals described inner face with the gap between the vertical next door 41, prevent that the condensed water that splashes from passing from this gap.

Therefore, described seal member 52 prevents condensed water leakage-proof by the suction inlet 31 of described side wall of outer shell.

Also have, as Fig. 2 and Fig. 3 and shown in Figure 6, horizontal part 53 is installed on the top of described heat unit.Described horizontal part 53 prevents that condensed water is splashed to the top of heat unit and condenses.Therefore, be condensed in condensed water on the described horizontal part 53 and under the effect of deadweight, fall and flow to once more immediately and splash near the fan 42, it promptly can be splashed once more thus.

Have again, as shown in Figure 6, inclined partitions 54 is preferably according to extending specific lengths downwards from described horizontal partition wall 53, and forms the angle of inclination of regulation in the inboard of heat unit, so that the condensed water that is condensed on the described horizontal partition wall 53 does not flow along the side wall inner surface of described shell 30.Its reason is that during flowing on the described side wall inner surface, described condensed water can leak into the outside by suction inlet.

In described sealing mechanism 50, additional vertical next door 55 additional spacings are according to the rules installed with described vertical next door 55 mode at interval.The part that described additional vertical next door 55 prevents to flow through the condensed water of described inflow entrance 51a is splashed towards side wall of outer shell, thus, can prevent that condensed water from passing through suction inlet 31 and leaking.

In addition, the condensed water that splashes might leak into along the inner face of the sidewall of described shell 30 in the gap between described shell 30 and the base plate 10.Therefore, as Fig. 2 and shown in Figure 7,, be formed with the insertion section 56 on the top that is inserted with described base plate in the bottom of described shell 30.At this moment, described insertion section 56 can be from the inner face of described shell 30 shape outstanding and that bend downwards.

In addition, as Fig. 8 and shown in Figure 9, the bottom surface of described base plate 10 preferably retains in described mode of the splashing mechanism's 40 sides predetermined angular θ 4 that tilts according to condensed water.Also have, as shown in Figure 9, in the bottom surface of described base plate 10, can form blank part 11, so that the condensed water of ormal weight retains in described mechanism's 40 1 sides of splashing.

Also have, as shown in figure 10, be installed on outdoor occasion in described heat unit, if rainwater flows on the described base plate, then the big water of amount that in fact can handle than the described mechanism 40 of splashing is positioned on the described base plate 10 continuously.

Therefore, in order to prevent resident water, be preferably in the additional tap 12 of offering on the described base plate 10.

Below with reference to Fig. 2, the action of air conditioner of the present invention is described.

When the condensation flow that forms from the endothermic section to the base plate 10 of heat unit and riddle the blank part 11 of base plate with ormal weight after, by the action of motor 43 fan 42 rotations of splashing.

Afterwards, be splashed on the condenser 20 at the condensed water of fan 42 rotation of splashing, the condensed water that splashes makes condenser 20 coolings when evaporate on the surface of the condenser 20 of high temperature.

At this moment, described vertical next door 51 and inflow entrance 51a the condensed water that splashes that forms thereon import the outside of condenser 20, and described seal member 52 forms and makes condensed water not leak into the suction inlet 31 of shell 30.

In addition, described horizontal partition wall 53 is with the splash partition of condensed water towards the top side of heat unit, and the condensed water that described inclined partitions 54 prevents to be condensed on the horizontal partition wall 53 leaks by described suction inlet 31.In addition, described additional vertical next door 55 prevents that the condensed water that splashes is splashed on the sidewall of shell 30.

As mentioned above, adopt the present invention can obtain following effect.

The 1st, if adopt the present invention, can handle voluntarily by the condenser of air conditioner inside condensed water not being discharged under the outside situation.

The 2nd, have, make the condenser cooling on the condenser by condensed water is splashed to, thereby make the advantage of air-conditioner efficiency (" the refrigerating efficiency ") raising of air conditioner.

The 3rd, if adopt the present invention, owing to voluntarily condensed water is handled, so can prevent the leakage that produced in advance in air conditioner inside.

As mentioned above, mechanism 40 and the sealing mechanism 50 of splashing of the present invention installed under the situation of the structure generation moderate finite deformation that does not make heat unit substantially.

Therefore, the present invention can also be applicable to integrated air conditioner under indeformable situation.Even not carrying out supplemental instruction for the embodiment of integrated air conditioner still can understand.In addition, described mechanism 40 and the sealing mechanism 50 of splashing can be by independent establishment of component, and this independent assembly also is installed in the air conditioner that has used easily, can realize and described identical functions.

Above a preferred embodiment of the present invention is described, but is not limited to described embodiment, can carry out various distortion and change according to technical conceive of the present invention.

Claims (22)

1. an air conditioner is characterized in that, comprising:

The endothermic section, it comprises evaporimeter, and absorbs heat from room air;

Heat unit, it comprises compressor and condenser, and will be discharged to outdoor from the heat that room air absorbs;

Base plate, it forms the polycrystalline substance of described heat unit, and accepts the condensed water that generates from described endothermic section;

Shell, it is connected with described base plate according to the mode around described condenser, and has and be used to make condensed water to flow to the suction inlet of extraneous air from described condenser;

The mechanism of splashing, it is arranged on the described base plate, and the condensed water that flows on the described base plate is splashed towards described condenser.

2. air conditioner as claimed in claim 1 is characterized in that, the described mechanism of splashing comprises:

Support unit, it is near described condenser setting;

The fan that splashes, it rotatably is arranged at a side of described support unit, and it is splashed to condensed water on the described condenser in rotation;

Motor, it is arranged at the opposite side of described support unit, is connected with the described fan that splashes by axle, and the described fan that splashes is rotated.

3. air conditioner as claimed in claim 2 is characterized in that described support unit is connected with base plate with described condenser respectively, so that described condenser is fixed on the described base plate.

4. air conditioner as claimed in claim 2 is characterized in that, the described cross flow fan of fan in the direction vertical with described motor shaft condensed water being splashed that splash.

5. air conditioner as claimed in claim 3 is characterized in that, in the height of the described condenser occasion less than 300mm, the relative radial axle of blade exterior front end of the described fan that splashes along the circumferential direction tilts 5～30 °.

6. air conditioner as claimed in claim 3 is characterized in that, in the height of the described condenser occasion greater than 300mm, the relative radial axle of blade exterior front end of the described fan that splashes along the circumferential direction tilts 30～60 °.

7. air conditioner as claimed in claim 2 is characterized in that, the described fan that splashes is provided with according to the mode that tilts towards described condenser.

8. air conditioner as claimed in claim 7 is characterized in that, the radially horizontal direction of described relatively condenser of the described fan that splashes tilts 5～15 °.

9. air conditioner as claimed in claim 8 is characterized in that, the horizontal direction of the radially described relatively condenser of described cross flow fan tilts 10 °.

10. air conditioner as claimed in claim 7 is characterized in that, in the height of the described condenser occasion less than 300mm, the vertical direction of the radially described relatively condenser of described cross flow fan tilts 1～3 °.

11. air conditioner as claimed in claim 10 is characterized in that, in the height of the described condenser occasion less than 300mm, the vertical direction of the radially described relatively condenser of described cross flow fan tilts 2 °.

12. air conditioner as claimed in claim 7 is characterized in that, in the height of the described condenser occasion greater than 300mm, the vertical direction of the radially described relatively condenser of described cross flow fan tilts 0～1 °.

13. air conditioner as claimed in claim 1 is characterized in that, the described mechanism of splashing also comprises sealing mechanism, and sealing mechanism is near being provided with, and it prevents that condensed water from leaking into the outside in the process of splashing.

14. air conditioner as claimed in claim 13 is characterized in that, described sealing mechanism comprises vertical member, and this vertical member is near the described fan setting of splashing, and this vertical member comprises that the condensed water that will splash imports the inflow entrance of described condenser.

15. air conditioner as claimed in claim 14, it is characterized in that, described sealing mechanism prolongs according to the inner face ways of connecting with the sidewall of described vertical next door and described shell, and the condensed water that splashes passes through from the gap between the inner face of described vertical next door and described side wall of outer shell.

16. air conditioner as claimed in claim 13 is characterized in that, described sealing mechanism also comprises horizontal partition wall, and this horizontal partition wall is arranged at described heat unit top, to prevent from condensed water is splashed to the top of described heat unit.

17. air conditioner as claimed in claim 16, it is characterized in that, described sealing mechanism also comprises inclined partitions, this inclined partitions is extended specific length downwards from described horizontal partition wall, at the inboard of described heat unit inclination predetermined angular, so that the condensed water that splashes that condenses from described horizontal partition wall does not flow along the inner face of the sidewall of described shell.

18. air conditioner as claimed in claim 14, it is characterized in that, described sealing mechanism also comprises the additional vertical next door, and this additional vertical next door is according to being provided with the isolated mode in described vertical next door with prescribed distance, prevents that condensed water is splashed on the inner face of sidewall of described shell.

19. air conditioner as claimed in claim 13, it is characterized in that, described sealing mechanism also comprises the insertion section, this insertion section is inserted into the sidewall of described housing department according to the top of described base plate the mode of whole lower layer part forms, so that prevent the condensed water that splashes by the described fan that splashes side wall inner surface, leak between the connecting portion of described shell and base plate along described shell.

20. air conditioner as claimed in claim 19 is characterized in that, described insertion section comprises muscle, and its inner face at the sidewall of described shell is outstanding, bending downwards.

21. air conditioner as claimed in claim 1 is characterized in that, the bottom surface of described base plate tilts according to the mode that condensed water retains in the described mechanism side of splashing.

22. air conditioner as claimed in claim 1 is characterized in that, in the bottom surface of described base plate, is formed with blank part, so that condensed water remains in described mechanism's one side of splashing with ormal weight.

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