CN205619532U - Heat pump air conditioner and condensate recovering unit thereof - Google Patents

Abstract

The utility model discloses a heat pump air conditioner and condensate recovering unit thereof, the condensate recovering unit of heat pump air conditioner includes: water collect structures for collect the comdenstion water of the outside heat exchanger production of heat pump air conditioner, drainage structure for cause the comdenstion water among the water collect structures surface of the inboard heat exchanger of heat pump air conditioner. The utility model discloses a condensate recovering unit of heat pump air conditioner, comdenstion water that the outside heat exchanger that utilizes water collect structures to collect the heat pump air conditioner produced utilizes the comdenstion water of drainage structure in with water collect structures to cause the surface of inboard heat exchanger, has then realized the comdenstion water that recycle outside heat exchanger produced, simultaneously, realize the humidification, can effectively improve indoor seasoning's when heating the condition, improved the indoor humidity to improve the performance of heat pump air conditioner, the comdenstion water has also been used, the comdenstion water can be reduced, eliminate.

Description

Heat pump air conditioner and condensate water recovery device thereof

Technical field

This utility model relates to heat pump air conditioner technical field, more particularly, it relates to a kind of heat pump air conditioner and Its condensate water recovery device.

Background technology

When the outside heat exchanger of heat pump air conditioner is as evaporator operation, such as, is heating, heating defrost process In, outside heat exchanger can produce condensed water.At present, the condensed water that outside heat exchanger produces passes through drain valve Or on chassis outside direct perforate discharge chamber, condensed water is not recycled.

During it addition, heat pump air conditioner installation site is higher, condensed water is expelled directly out outdoor, then condensed water drippage Splashing is easier to pollute external wall；When temperature is relatively low, condensed water relatively easy freezing, block drainage channel, lead Cause condensed water cannot get rid of；When temperature is relatively low, condensed water is easier to freeze in discharge outlet form icicle, and icicle falls Fall to there is potential safety hazard.

In sum, how to recycle the condensed water that outside heat exchanger produces, be current art technology Personnel's problem demanding prompt solution.

Utility model content

The purpose of this utility model is to provide the condensate water recovery device of a kind of heat pump air conditioner, to recycle The condensed water that outside heat exchanger produces.Another object of the present utility model is to provide one and has above-mentioned condensation The heat pump air conditioner of apparatus for recovering.

To achieve these goals, the following technical scheme of this utility model offer:

A kind of condensate water recovery device of heat pump air conditioner, including:

Water collecting structure, for collecting the condensed water that the outside heat exchanger of heat pump air conditioner produces；

Flow guiding structure, changes for the condensed water in described water collecting structure causes the inner side of described heat pump air conditioner The outer surface of hot device.

Preferably, described water collecting structure is the water leg on the chassis being located at described heat pump air conditioner.

Preferably, described flow guiding structure includes: the water pump connected with described water collecting structure；For by described The condensed water drain point water assembly on the heat exchanger of described inner side；And connect described water pump and described point of water The water-supply-pipe of assembly.

Preferably, described point of water assembly includes: for being arranged on the tank on heat exchanger top, described inner side； And be installed on described tank and the notch of described tank is divided into point water bar of some points of mouths.

Preferably, described point of water bar includes: transverse slat, and some is fixed on described transverse slat and along described transverse slat The riser that length direction is sequentially distributed；Wherein, the length direction of described transverse slat and the length side of described tank To identical, described transverse slat is connected with the first groove side plate of described tank, the of described riser and described tank Two groove side plates are connected.

Preferably, described transverse slat abuts with described first groove side plate and is connected, and described riser passes through buckle and institute State the second groove side plate clamping to be connected.

Preferably, described point of water bar also includes: at least two and being sequentially distributed along described transverse slat length direction Horizontal stripe, described horizontal stripe connects riser described at least two.

Preferably, described riser and described horizontal stripe are all uniformly distributed along the length direction of described transverse slat.

Preferably, described flow guiding structure also includes:

Divided flow box, described divided flow box has: cavity volume, the water inlet that all connects with described cavity volume, outlet And water return outlet, and described divided flow box is serially connected with described water-supply-pipe by described water inlet and described outlet；

Return pipe, one end of described return pipe connects with described water return outlet, the other end of described return pipe with Described water collecting structure connects.

Preferably, the condensate water recovery device of above-mentioned heat pump air conditioner also includes: catchment described in being used for heating knot The heater of the condensed water in structure.

Preferably, described heater is ribbon heater.

Preferably, the condensate water recovery device of above-mentioned heat pump air conditioner also includes water-retaining structure, and described water receiving is tied Structure flows through the condensed water of described inner side heat exchanger for collecting.

Preferably, described water-retaining structure is for being arranged on the drip tray below the heat exchanger of described inner side.

Preferably, described water-retaining structure connects with described water collecting structure.

The condensate water recovery device of heat pump air conditioner based on above-mentioned offer, this utility model additionally provides one Heat pump air conditioner, this heat pump air conditioner includes: inner side heat exchanger and outside heat exchanger, described in above-mentioned any one The condensate water recovery device of heat pump air conditioner.

Preferably, described heat pump air conditioner is window-mounted air conditioner.

The condensate water recovery device of the heat pump air conditioner that this utility model provides, utilizes water collecting structure to collect heat pump The condensed water that the outside heat exchanger of air-conditioning produces, utilizes flow guiding structure to be caused by the condensed water in water collecting structure The outer surface of the inner side heat exchanger of heat pump air conditioner, then achieve the condensation that outside recycling, heat exchanger produces Water.

Meanwhile, the condensate water recovery device of the heat pump air conditioner that this utility model provides, in causing condensed water Side heat exchanger so that condensation flow is through inner side heat exchanger, then, in heating operations, indoor circulation air will Condensed water on the heat exchanger of inner side takes indoor to, it is achieved that humidification, can be effectively improved Indoor Dry when heating Dry situation, improves indoor humidity, thus improves the serviceability of heat pump air conditioner；Also using cold Solidifying water, it is possible to reduce, eliminate condensed water.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will The accompanying drawing used required in embodiment or description of the prior art is briefly described, it should be apparent that, Accompanying drawing in describing below is only embodiment of the present utility model, comes for those of ordinary skill in the art Say, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the accompanying drawing provided.

The structural representation of the condensate water recovery device of the heat pump air conditioner that Fig. 1 provides for this utility model embodiment Figure；

The part-structure of the condensate water recovery device of the heat pump air conditioner that Fig. 2 provides for this utility model embodiment Schematic diagram；

Water-retaining structure in the condensate water recovery device of the heat pump air conditioner that Fig. 3 provides for this utility model embodiment Structural representation with water collecting structure；

Divided flow box in the condensate water recovery device of the heat pump air conditioner that Fig. 4 provides for this utility model embodiment Structural representation；

The knot of tank in the condensate water recovery device of the heat pump air conditioner that Fig. 5 provides for this utility model embodiment Structure schematic diagram；

Point water bar in the condensate water recovery device of the heat pump air conditioner that Fig. 6 provides for this utility model embodiment Front view；

Point water bar in the condensate water recovery device of the heat pump air conditioner that Fig. 7 provides for this utility model embodiment Top view；

Point water bar in the condensate water recovery device of the heat pump air conditioner that Fig. 8 provides for this utility model embodiment Side view.

In figure 1 above-8:

1 be outside heat exchanger, 2 for return pipe, 3 for water leg, 4 for chassis, 5 for water pump, 6 for tank, 61 it is the first groove side plate, 62 is the second groove side plate, 7 is a point water bar, 71 is transverse slat, 72 is riser, 73 is Horizontal stripe, 74 be buckle, 8 for inner side heat exchanger, 9 for water-supply-pipe, 10 for divided flow box, 101 for water inlet, 102 be water return outlet, 103 be outlet, 104 be cavity volume, 11 for drip tray.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, to the technology in this utility model embodiment Scheme is clearly and completely described, it is clear that described embodiment is only this utility model one Divide embodiment rather than whole embodiments.Based on the embodiment in this utility model, this area is common The every other embodiment that technical staff is obtained under not making creative work premise, broadly falls into this The scope of utility model protection.

As depicted in figs. 1 and 2, the condensing hot air furnace dress of the heat pump air conditioner that this utility model embodiment provides Put, including: water collecting structure, flow guiding structure, water-retaining structure；Wherein, water collecting structure is used for collecting heat pump The condensed water that the outside heat exchanger 1 of air-conditioning produces；Flow guiding structure is for drawing the condensed water in water collecting structure Outer surface to the inner side heat exchanger 8 of heat pump air conditioner.

It is understood that flow guiding structure connects with water collecting structure, to ensure that flow guiding structure drain is catchmented knot Condensed water in structure.

The condensate water recovery device of the heat pump air conditioner that this utility model embodiment provides, utilizes water collecting structure to receive The condensed water that the outside heat exchanger 1 of heat-collecting pump air-conditioning produces, utilizes cold by water collecting structure of flow guiding structure Solidifying water causes the outer surface of the inner side heat exchanger 8 of heat pump air conditioner, then achieve heat exchanger 1 outside recycling The condensed water produced.

Meanwhile, the condensate water recovery device of the heat pump air conditioner that this utility model embodiment provides, by condensed water Cause inner side heat exchanger 8 so that condensation flow is through inner side heat exchanger 8, then, in heating operations, indoor are followed Annular space gas takes the condensed water on inner side heat exchanger 8 to indoor, it is achieved that humidification, can be effectively improved system During heat, the situation of indoor seasoning, improves indoor humidity, thus improves the serviceability of heat pump air conditioner； Also using condensed water, it is possible to reduce, eliminate condensed water.

Meanwhile, the condensate water recovery device of the heat pump air conditioner that this utility model embodiment provides, condensed water is Outside discharge chamber, then avoid condensed water drippage ejecta pollution external wall, when it also avoid condensed water discharge Freeze, block drainage channel, it is thus also avoided that when temperature is relatively low, condensed water freezes in discharge outlet and forms icicle, Eliminate the potential safety hazard existed because icicle drops.

In above-mentioned condensate water recovery device, water collecting structure can be separate part, such as water collector, and this catchments Device is for being arranged on the chassis 4 of heat pump air conditioner；Also may select water collecting structure by the chassis 4 of heat pump air conditioner Formed.In order to reduce parts, prioritizing selection the latter, specifically, water collecting structure is the collection being located at chassis 4 Tank 3, as shown in Figures 2 and 3.Further, by less for the bottom land area design ground of water leg 3, Higher water level can be obtained with the less condensed water water yield, facilitate flow guiding structure diversion；When water leg 3 When inside heater is set, also helps heater heating, keep area of dissipation.

, there is various structures in above-mentioned flow guiding structure, as long as guaranteeing condensed water causes inner side heat exchanger 8 ?.Preferably, flow guiding structure includes: the water pump 5 connected with water collecting structure；For by condensed water drain Point water assembly on inner side heat exchanger 8；And connect water pump 5 and the water-supply-pipe 9 of point water assembly.Certainly, Also may select flow guiding structure to include: water pump 5, water-supply-pipe 9 and the shower nozzle being sequentially communicated, it is not limited on State embodiment.

Condensed water is drenched on inner side heat exchanger 8 by above-mentioned point of water assembly, specifically, as viewed in figures 5-8, point Water assembly includes: for being arranged on the tank 6 on heat exchanger 8 top, inner side；And be installed on tank 6 and incite somebody to action The notch of tank 6 is divided into point water bar 7 of some points of mouths.

Above-mentioned tank 6 is for being arranged on the top of inner side heat exchanger 8, and so, condensed water is at self gravitation Flow through whole inner side heat exchanger 8 along gravity direction under effect, improve humidifying effect.

In the condensate water recovery device of above-mentioned heat pump air conditioner, in condensation flow to tank 6, from tank 6 Notch overflows, and the condensed water of spilling pours on the heat exchanger 8 of inner side.

Certainly, it is possible to select tank 6 to be arranged on the middle part of inner side heat exchanger 8, also optional point of water assembly For other structures, such as, dividing water assembly to include a point water box, point water box sets towards the side plate of inner side heat exchanger 8 There are some tapping holes, it is not limited to said structure.

In order to ensure that condensed water is evenly distributed on the heat exchanger 8 of inner side, prioritizing selection is along the length of tank 6 Direction, any two divides the length of mouth equal.

There is various structures in above-mentioned point of water bar 7, only ensure that a point water.Preferably, such as Fig. 6-8 Shown in above-mentioned point of water bar 7 include: transverse slat 71, and some be fixed on transverse slat 71 and along transverse slat 71 length side To the riser 72 being sequentially distributed；Wherein, the length direction of transverse slat 71 is identical with the length direction of tank 6, Transverse slat 71 is connected with the first groove side plate 61 of tank 6, riser 72 and the second groove side plate 62 of tank 6 It is connected.

It is understood that along the width of tank 6, the first groove side plate 61 and the second groove side plate 62 It is sequentially distributed.Between transverse slat 71 and riser 72, there is angle, arrange for convenience and shunt, preferentially select Select transverse slat 71 and be perpendicular to riser 72.

Installing point water bar 7 and a tank 6 for convenience, above-mentioned transverse slat 71 abuts with the first groove side plate 61 and is connected, Riser 72 is connected with the second groove side plate 62 clamping by buckle 74.

Preferably, above-mentioned point of water bar 7 also includes: at least two and the length direction along transverse slat 71 divide successively The horizontal stripe 73 of cloth, a horizontal stripe 73 connects at least two riser 72.As described in Figure 7, there is a horizontal stroke Bar 73 connects two risers 72, there is also a horizontal stripe 73 and connects three risers 72, i.e. two horizontal stripes 73 The number of the riser 72 connected can be different.

Above-mentioned point of water bar 7, by arranging horizontal stripe 73, improves a point stability for water bar 7, thus improves Point aqueous energy.

Further, riser 72 and horizontal stripe 73 are all uniformly distributed along the length direction of transverse slat 71, such as Fig. 7 Shown in.So, it is achieved that uniformly divide water, it is ensured that condensed water is uniformly distributed along the length direction of tank 6 In inner side heat exchanger 8.It is understood that all of riser 72 is wide.

Preferably, in the condensate water recovery device of above-mentioned heat pump air conditioner, flow guiding structure also includes: divided flow box 10 and return pipe 2；Wherein, divided flow box 10 has: cavity volume 104, the water inlet all connected with cavity volume 104 Mouth 101, outlet 103 and water return outlet 102, and divided flow box 10 is by water inlet 101 and outlet 103 It is serially connected with water-supply-pipe 9；One end of return pipe 2 connects with water return outlet 102, the other end of return pipe 2 and collection Water-bound connects, as shown in Figure 4.

In the condensate water recovery device of above-mentioned heat pump air conditioner, enter in the cavity volume 104 of divided flow box 10, one Divide condensed water to flow out from outlet 103 and cause inner side heat exchanger 8, unnecessary condensed water by water-supply-pipe 9 It is back to water collecting structure from the water return outlet 102 of divided flow box 10, continues cycling through use, then pass through divided flow box 10 control condensation flow, to the water yield of inner side heat exchanger 8, prevent the condensed water on the heat exchanger 8 of inner side too much. Certainly, it is possible to by other structure control condensate flow, such as valve etc., it is not limited to above-mentioned reality Execute example.

Further, in above-mentioned divided flow box 10, the centrage of water inlet 101 and the center of outlet 103 Line is above the centrage of water return outlet 102.

Preferably, the condensate water recovery device of above-mentioned heat pump air conditioner also includes: be used for heating in water collecting structure The heater of condensed water.

So, the heat pump of operation it is applied under cryogenic conditions when the condensate water recovery device of above-mentioned heat pump air conditioner During air-conditioning, ribbon heater heating condensate water, prevent condensed water frozen under cryogenic；Heat simultaneously Condensed water, it is ensured that water temperature, preventing condensed water to be transported to during the vaporizer 8 of inner side affects because water temperature is too low Inner side heat, the condensed water that temperature is high simultaneously is conducive to improving humidifying effect.Further, side ring outside When border temperature is near but greater than 0 DEG C, such as outside environment temperature is 0-5 DEG C, and heater begins to warm up, with Prevent outside condensed water frozen.

The kind of above-mentioned heater is more, such as, and electrical bar, ribbon heater etc..Arrange for convenience, excellent First selecting heater is ribbon heater.

Condensation flow is when the heat exchanger 8 of inner side, and condensed water can all evaporate, it is possible to part evaporation.When cold During solidifying water section evaporation, need to arrange water-retaining structure, to improve reliability.Specifically, above-mentioned heat pump is empty The condensate water recovery device adjusted also includes water-retaining structure, and this water-retaining structure flows through inner side heat exchanger 8 for collection Condensed water.It is understood that water-retaining structure is positioned at the bottom of inner side heat exchanger 8, to realize water receiving.

For the ease of water receiving, above-mentioned water-retaining structure is for being arranged on the drip tray below the heat exchanger 8 of inner side 11.Above-mentioned drip tray 11 can be separate part, it is possible to formed by the housing below inner side heat exchanger 8.For Simplification structure, prioritizing selection the latter, as shown in Figure 3.

In order to realize recycling of condensed water, above-mentioned water-retaining structure connects with water collecting structure.Specifically, Water-retaining structure and water collecting structure can pass through pipeline communication, it is possible to by importing and exporting alignment connection, this practicality is new The connectivity structure of the two is not limited by type embodiment.

When heat pump air conditioner freezes, inner side heat exchanger 8 produces condensed water, and this condensed water is received by water-retaining structure Collection, owing to water-retaining structure connects with water collecting structure, then the condensed water that inner side heat exchanger 8 produces enters and catchments In structure, therefore after heat pump air conditioner uses the condensate water recovery device of above-mentioned heat pump air conditioner, in cooling mode It also is able to realize humidification, improves serviceability.

In the condensate water recovery device of above-mentioned heat pump air conditioner, heat pump air conditioner heats or during heating and defrosting, outward Side heat exchanger 1 produces condensed water, and this condensed water focuses in water collecting structure, relatively low in outside environment temperature In the case of, the heating to condensed water opened by heater, and condensed water is extracted by water-supply-pipe 9 road by water pump 5 Delivering in divided flow box 10, a part of condensed water is sent by water-supply-pipe 9 from the outlet 103 of divided flow box 10 In tank 6 on inner side heat exchanger 8, unnecessary condensed water returns to from the water return outlet 102 of divided flow box 10 Water collecting structure continues cycling through；The condensed water being transported in tank 6 is equal by tank 6 and point water bar 7 Even flows on the heat exchanger 8 of inner side, and the condensed water on inner side heat exchanger 8 is taken away by inner side circulation air, Evaporation humidification, the water-retaining structure below unnecessary condensation flow to inner side heat exchanger 8, passes through water-retaining structure It is back in water collecting structure, it is achieved recycle.

Condensate water recovery device based on the heat pump air conditioner that above-described embodiment provides, this utility model embodiment Additionally providing a kind of heat pump air conditioner, this heat pump air conditioner includes: inner side heat exchanger 8 and outside heat exchanger 1, on State the condensate water recovery device of heat pump air conditioner described in embodiment.

It should be noted that water collecting structure is arranged on the bottom of outside heat exchanger 1, water-retaining structure is arranged on The bottom of inner side heat exchanger 8.Bottom herein, refers to bottom when heat pump air conditioner is normally placed.

Owing to the condensate water recovery device of the heat pump air conditioner of above-described embodiment offer has above-mentioned technique effect, The heat pump air conditioner that this utility model embodiment provides has the condensate water recovery device of above-mentioned heat pump air conditioner, then The heat pump air conditioner that this utility model embodiment provides also has corresponding technique effect, repeats no more herein.

Above-mentioned heat pump air conditioner, can be integrated machine, it is possible to for fraction structure, apply above-mentioned condensation for convenience Apparatus for recovering, prioritizing selection heat pump air conditioner is integrated machine, and specifically, heat pump air conditioner is window-mounted air conditioner.

Described above to the disclosed embodiments, makes those skilled in the art be capable of or uses this reality With novel.Multiple amendment to these embodiments will be apparent from for a person skilled in the art, Generic principles defined herein can in the case of without departing from spirit or scope of the present utility model, Realize in other embodiments.Therefore, this utility model is not intended to be limited to these realities shown in this article Execute example, and be to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (16)

1. the condensate water recovery device of a heat pump air conditioner, it is characterised in that including:

Water collecting structure, for collecting the condensed water that the outside heat exchanger (1) of heat pump air conditioner produces；

Flow guiding structure, changes for the condensed water in described water collecting structure causes the inner side of described heat pump air conditioner The outer surface of hot device (8).

The condensate water recovery device of heat pump air conditioner the most according to claim 1, it is characterised in that institute State the water leg (3) that water collecting structure is the chassis (4) being located at described heat pump air conditioner.

The condensate water recovery device of heat pump air conditioner the most according to claim 1, it is characterised in that institute State flow guiding structure to include: the water pump (5) connected with described water collecting structure；For by described condensed water drain Point water assembly on described inner side heat exchanger (8)；And connect described water pump (5) and described point of water The water-supply-pipe (9) of assembly.

The condensate water recovery device of heat pump air conditioner the most according to claim 3, it is characterised in that institute State point water assembly to include: be used for being arranged on the tank (6) on heat exchanger (8) top, described inner side；And It is installed on described tank (6) and the notch of described tank (6) is divided into point water bar (7) of some points of mouths.

The condensate water recovery device of heat pump air conditioner the most according to claim 4, it is characterised in that institute State a point water bar (7) to include: transverse slat (71), and some be fixed on described transverse slat (71) and along described horizontal stroke The riser (72) that plate (71) length direction is sequentially distributed；Wherein, the length side of described transverse slat (71) To identical with the length direction of described tank (6), the of described transverse slat (71) and described tank (6) One groove side plate (61) is connected, described riser (72) and the second groove side plate (62) of described tank (6) It is connected.

The condensate water recovery device of heat pump air conditioner the most according to claim 5, it is characterised in that institute Stating transverse slat (71) and abut with described first groove side plate (61) connected, described riser (72) passes through buckle (74) it is connected with described second groove side plate (62) clamping.

The condensate water recovery device of heat pump air conditioner the most according to claim 5, it is characterised in that institute State point water bar (7) also to include: at least two and the horizontal stroke being sequentially distributed along described transverse slat (71) length direction Bar (73), a described horizontal stripe (73) connects riser (72) described at least two.

The condensate water recovery device of heat pump air conditioner the most according to claim 7, it is characterised in that institute State riser (72) and described horizontal stripe (73) is all uniformly distributed along the length direction of described transverse slat (71).

The condensate water recovery device of heat pump air conditioner the most according to claim 3, it is characterised in that institute State flow guiding structure also to include:

Divided flow box (10), described divided flow box (10) has: cavity volume (104), all with described cavity volume (104) Water inlet (101), outlet (103) and the water return outlet (102) of connection, and described divided flow box (10) It is serially connected with described water-supply-pipe (9) by described water inlet (101) and described outlet (103)；

Return pipe (2), one end of described return pipe (2) connects with described water return outlet (102), described The other end of return pipe (2) connects with described water collecting structure.

The condensate water recovery device of heat pump air conditioner the most according to claim 1, it is characterised in that Also include: for heating the heater of the condensed water in described water collecting structure.

The condensate water recovery device of 11. heat pump air conditioners according to claim 10, it is characterised in that Described heater is ribbon heater.

12. according to the condensate water recovery device of the heat pump air conditioner described in any one in claim 1-11, It is characterized in that, also include water-retaining structure, described water-retaining structure flows through described inner side heat exchanger for collection (8) condensed water.

The condensate water recovery device of 13. heat pump air conditioners according to claim 12, it is characterised in that Described water-retaining structure is the drip tray (11) being used for being arranged on lower section, described inner side heat exchanger (8).

The condensate water recovery device of 14. heat pump air conditioners according to claim 12, it is characterised in that Described water-retaining structure connects with described water collecting structure.

15. 1 kinds of heat pump air conditioners, including: inner side heat exchanger (8) and outside heat exchanger (1), it is special Levy and be, also include that the condensing hot air furnace of the heat pump air conditioner as described in any one in claim 1-14 fills Put.

16. heat pump air conditioners according to claim 15, it is characterised in that described heat pump air conditioner is window Air conditioner.