CN202813602U - Air conditioning outdoor unit condenser and air conditioning outdoor unit provided with the same - Google Patents

Abstract

The utility model provides an air conditioning outdoor unit condenser and an air conditioning outdoor unit provided with the air conditioning outdoor unit condenser. The air conditioning outdoor unit condenser comprises three rows of condenser parts, an air intake pipe assembly, an elbow, a three-way assembly, an air outlet pipe assembly and a general outlet pipe. The air intake pipe assembly is arranged at the leeward side of the condenser. The air outlet pipe assembly is arranged at the windward side of the condenser which comprises a plurality of flow way branches. Each flow way branch is formed by connecting of two branch inlet ways, a plurality of U-shaped inner grooved copper tubes, the elbow, the three-way assembly and a branch outlet way. The number of the branch inlet ways is even. The number of the branch outlet ways is half of the number of the branch inlet ways. An undercooling section of the condenser is arranged at the lowest portion of the flow way branches. The utility model further provides the air conditioning outdoor unit provided with the air conditioning outdoor unit condenser. Through experiment tests, the air conditioning outdoor unit provided with the air conditioning outdoor unit condenser has the advantages of improving specified heating capacity, low temperature heating capacity and energy efficiency ratio and improving heating capacity by 5% to 10%.

Description

Condenser for outdoor unit of air conditioner and the air-conditioner outdoor unit of this condenser is installed

Technical field

The utility model belongs to air-conditioning and Refrigeration Engineering technical field, specifically, relates to a kind of improvement of condenser for outdoor unit of air conditioner structure.

Background technology

Chinese Home with convertible frequency air-conditioner at present take refrigeration seasonal energy efficiency ratio (seer) SEER as the grade evaluation standard, for and international joint, the existing new Energy Efficiency Standard of examining will be take APF as efficiency grade evaluation standard, and efficiency requires higher.APF is annual seasonal energy efficiency ratio (seer), comprehensive annual (cooling and warming) seasonal energy efficiency ratio (seer).

Therefore, take SEER refrigeration seasonal energy efficiency ratio (seer) during as opinion rating, the design of air-conditioning producer is generally take refrigeration efficiency the best as the decision design principle, heat country because without the requirement of efficiency rank examination, generally only be to satisfy standard to get final product, in case during take APF as evaluation criterion, the design of air-conditioning producer must be take the balanced comprehensive the best of the efficiency of freezing, heat as principle.

Flow scheme design take SEER refrigeration seasonal energy efficiency ratio (seer) as the condenser of opinion rating is generally the N road to be entered the N road and goes out, and is aggregated at last 1 the tunnel and goes out, and as shown in Figure 1, this design of condenser scheme is generally refrigeration efficiency for best, and low-temperature heating ability and APF Energy Efficiency Ratio are general.

Summary of the invention

The utility model provides a kind of condenser for outdoor unit of air conditioner and the air-conditioner outdoor unit of this condenser has been installed, and can solve existing air-conditioner outdoor unit and satisfy when freezing the seasonal energy efficiency ratio (seer) opinion rating its low-temperature heating ability and the not high problem of annual seasonal energy efficiency ratio (seer).

For solving the problems of the technologies described above, the utility model provides a kind of condenser for outdoor unit of air conditioner on the one hand, comprise the three row's condenser parts that formed by aluminium foil fin and some U-shaped inner screw thread copper pipes, the air inlet pipe assembly, elbow, three-way component, escape pipe assembly and general export pipe, described three row's condenser assemblies are followed successively by the row who is positioned at the condenser leeward side, middle row and be positioned at effluxing of condenser windward side, wherein said air inlet pipe assembly is positioned at the condenser leeward side, described escape pipe assembly is positioned at the condenser windward side, described condenser comprises some flow process branch roads, each flow process is propped up two adjacent branch's routes of route order, some U-shaped inner screw thread copper pipes, elbow, three-way component, branch's outlet connects to form, the number of described branch route is even number, the number of described branch outlet is 1/2 of branch's route, and described flow process branch road is arranged from top to down, and the below of flow process branch road is the super cooled sect of condenser.

Further, the flow arrangement of each flow process branch road is as follows:

The bottom-up some U-shaped inner screw thread copper pipes that will be positioned at condenser row of odd branches route in each described flow process branch road couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form inverted U-shaped flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by the U-shaped three-way component, be connected to and efflux, to be positioned at some U-shaped inner screw thread copper pipes that condenser effluxes and from up to down couple together, be aggregated at last branch's outlet.

Perhaps, the bottom-up some U-shaped inner screw thread copper pipes that will be positioned at condenser row of odd branches route in each described flow process branch road couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form inverted U-shaped flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by claw branch junction, be connected to and efflux, to be positioned at bottom-up the coupling together of some U-shaped inner screw thread copper pipes that condenser effluxes, be aggregated at last branch's outlet.

Perhaps, some U-shaped inner screw thread copper pipes that odd branches route in each described flow process branch road from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form reverse N shape flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by the U-shaped three-way component, be connected to and efflux, to be positioned at some U-shaped inner screw thread copper pipes that condenser effluxes and from up to down couple together, be aggregated at last branch's outlet.

Perhaps, some U-shaped inner screw thread copper pipes that odd branches route in each described flow process branch road from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form reverse N shape flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by claw branch junction, be connected to and efflux, to be positioned at bottom-up the coupling together of some U-shaped inner screw thread copper pipes that condenser effluxes, be aggregated at last branch's outlet.

The flow arrangement of above-mentioned flow process branch road, can find out, the odd branches route enters interior row, being connected rear flow process section with centre row can be that inverted U-shaped, reverse N shape is arranged, the even branches route enters interior row, is connected afterwards with centre row that the flow process section is necessary for U-shaped, then gathers through claw branch junction or U-shaped three-way component, thereby form the flow process of above-mentioned 4 kinds of forms.

Again further, described branch outlet and pressure-drop type knockout are connected to form gathering tube, arrange, efflux again some U-shaped inner screw thread copper pipes, elbow and the general export pipe of bottom with the centre and connect, and form super cooled sect.

Wherein, interior row generally can may take out N root U-shaped inner screw thread copper pipe according to flow arrangement because heat exchange efficiency is the poorest, and described N is 1-5.

The U-shaped inner screw thread copper pipe number of arranging in the middle of described and effluxing equates, according to flow arrangement, sequentially adjacent odd and even number branch route is after centre row is aggregated into one the tunnel by U-shaped three-way component or claw branch junction, row's U-shaped inner screw thread copper pipe is connected to and effluxes the U-shaped inner screw thread copper pipe in the middle of being connected to first.

Further, described flow process branch road comprises three the tunnel, and correspondingly, branch's route comprises six the tunnel, and branch's outlet comprises that accordingly three tunnel, three tunnel branch's outlets are aggregated into knockout, then arrive gathering tube.

Certainly, the flow process branch road can also be four the tunnel, the five tunnel, the six tunnel etc., sets as requested.By that analogy, it is even number that the flow process branch road forms N(N) branch road advances, and the N/2 branch road goes out, and from up to down arranges.

On the other hand, the utility model also provides a kind of air-conditioner outdoor unit, and above-mentioned condenser for outdoor unit of air conditioner is installed.

The technical solution of the utility model is on original condenser basis, by changing the condenser circulating water pass design so that the refrigeration of condenser, heat efficiency the best.

Condenser for outdoor unit of air conditioner of the present utility model uses the R410A environmental protection refrigerant, its SEER may not be preferred plan, but heating capacity comprises low-temperature heating ability and annual seasonal energy efficiency ratio (seer) and obviously improves, owing to weight in the APF computing formula of low-temperature heating is maximum, therefore can obviously improve the APF value in addition.

Compared with prior art, advantage of the present utility model and good effect are:

Through experimental test, adopt the more former scheme of condenser of the present utility model to compare, refrigeration efficiency quite or slightly low, but specified heating capacity, low-temperature heating ability and Energy Efficiency Ratio all improve a lot, heating capacity improves 5 ~ 10%.Calculating the more former scheme of APF value compares by the undesirable in addition larger surplus that is improved to.

Description of drawings

Fig. 1 is existing condenser circulating water pass figure;

Fig. 2-the 5th, the flow chart that the flow process branch road of 4 kinds of forms of the utility model condenser for outdoor unit of air conditioner forms;

Fig. 6-9 is 4 kinds of flow process branch road flow charts;

Figure 10 is interior row's condenser schematic diagram of taking out part U-shaped inner screw thread copper pipe;

Figure 11 is U-shaped three-way component shaft side figure;

Figure 12 is the claw branch junction shaft side figure;

Wherein:

1, interior row; 1-1, interior evacuated tube; 2, middle row; 3, efflux; 4, air inlet pipe assembly; 4-1, first branch's route; 4-2, second branch's route; 4-3, the 3rd branch's route; 4-4, the 4th branch's route; 4-5, quintafurcation route; 4-6, the 6th branch's route; 5, escape pipe assembly; 5-1, first branch's outlet; 5-2, second branch's outlet; 5-3, the 3rd branch's outlet; 5-4, knockout; 5-5, gathering tube; 6, elbow; 7, U-shaped three-way component; 8, general export pipe; 9, super cooled sect; 10, claw branch junction;

Arrow is the flow of refrigerant direction.

The specific embodiment

Below in conjunction with the drawings and specific embodiments the utility model is described in further detail.

Embodiment 1

With reference to figure 2, a kind of condenser for outdoor unit of air conditioner, comprise by aluminium foil fin and 40 three row's condenser parts that U-shaped inner screw thread copper pipe forms, air inlet pipe assembly 4, elbow 6, the U-shaped three-way component, escape pipe assembly 5 and general export pipe 8, three row's condenser assemblies are followed successively by the row 1 who is positioned at the condenser leeward side, middle row 2 and be positioned at the condenser windward side efflux 3, wherein be positioned at the air inlet pipe assembly 4 of condenser leeward side, comprise 6 tunnel branch's routes, be respectively the first route 4-1 of branch, the second route 4-2 of branch, the 3rd route 4-3 of branch, the 4th route 4-4 of branch, quintafurcation route 4-5, the 6th route 4-6 of branch, correspondingly, be positioned at the escape pipe assembly 5 of condenser windward side, comprise 3 tunnel branch's outlets, be respectively the first outlet 5-1 of branch, the second outlet 5-2 of branch, the 3rd outlet 5-3 of branch, thus consist of three tunnel flow process branch roads;

First pass props up the first adjacent route 4-1 of branch of route, the second route 4-2 of branch, 12 U-shaped inner screw thread copper pipes, elbow 6, U-shaped three-way component 7, the first outlet 5-1 of branch connect to form.

The second flow process branch road is connected to form by the 3rd adjacent route 4-3 of branch, the 4th route 4-4 of branch, 12 U-shaped inner screw thread copper pipes, elbow 6, U-shaped three-way component 7, the second outlet 5-2 of branch.

The 3rd flow process is propped up the adjacent quintafurcation route 4-5 of route, the 6th route 4-6 of branch, 12 U-shaped inner screw thread copper pipes, elbow 6, U-shaped three-way component 7, the 3rd outlet 5-3 of branch connect to form.

The first to three flow process branch road is arranged from top to down, and the below of flow process branch road is the super cooled sect 9 of condenser.

As shown in Figure 6, the flow arrangement of first pass branch road is as follows:

The bottom-up two U-shaped inner screw thread copper pipes that will be positioned at condenser row 1 of the first route 4-1 of branch couple together, row 2 in the middle of elbow 6 is connected to, two U-shaped inner screw thread copper pipes of centre row 2 are from up to down coupled together, thereby form inverted U-shaped flow process, two U-shaped inner screw thread copper pipes that the second route 4-2 of branch from up to down will be positioned at condenser row 1 couple together, row 2 in the middle of elbow 6 is connected to, two bottom-up coupling together of U-shaped inner screw thread copper pipe with centre row 2, thereby form the U-shaped flow process, first, the second route 4-1 of branch, 4-2 is aggregated into one the tunnel centre row by U-shaped three-way component 7, a U-shaped inner screw thread copper pipe of row 2 in the middle of being connected to first, be connected to and efflux 3, to be positioned at condenser and efflux 3 U-shaped inner screw thread copper pipes of 3 and from up to down couple together, be aggregated at last the first outlet 5-1 of branch.

The flow arrangement of the second flow process branch road is as follows:

The bottom-up two U-shaped inner screw thread copper pipes that will be positioned at condenser row 1 of the 3rd route 4-3 of branch couple together, row 2 in the middle of elbow 6 is connected to, two U-shaped inner screw thread copper pipes of centre row 2 are from up to down coupled together, thereby form inverted U-shaped flow process, two U-shaped inner screw thread copper pipes that the 4th route 4-4 of branch from up to down will be positioned at condenser row 1 couple together, row 2 in the middle of elbow 6 is connected to, two bottom-up coupling together of U-shaped inner screw thread copper pipe with centre row 2, thereby form the U-shaped flow process, the 3rd, the 4th route 4-3 of branch, 4-4 is aggregated into one the tunnel centre row by U-shaped three-way component 7, be connected to and efflux 3, to be positioned at condenser and efflux 4 U-shaped inner screw thread copper pipes of 3 and from up to down couple together, be aggregated at last the second outlet 5-2 of branch.

Same, the flow arrangement of the 3rd flow process branch road is identical with the second flow process branch road, repeats no more.

The first outlet 5-1 of branch, second escape pipe 5-2, the 3rd escape pipe 5-3 and pressure-drop type knockout 5-4 are connected to form gathering tube 5-5, connect with centre row 2, the 3 U-shaped inner screw thread copper pipes, elbow and the general export pipe 8 that efflux 3 bottoms again, form super cooled sect 9, finish the refrigerant flow path of whole condenser.

As shown in figure 11, the structural representation of U-shaped three-way component 7.

Embodiment 2

As shown in Figure 3, different from embodiment one is the layout of three flow process branch roads,

As shown in Figure 7, the flow arrangement of first pass branch road is as follows:

The bottom-up two U-shaped inner screw thread copper pipes that will be positioned at condenser row 1 of the first route 4-1 of branch couple together, row 2 in the middle of elbow 6 is connected to, three U-shaped inner screw thread copper pipes of centre row 2 are from up to down coupled together, thereby form inverted U-shaped flow process, two U-shaped inner screw thread copper pipes that the second route 4-2 of branch from up to down will be positioned at condenser row 1 couple together, row 2 in the middle of elbow 6 is connected to, two bottom-up coupling together of U-shaped inner screw thread copper pipe with centre row 2, thereby form the U-shaped flow process, first, the second route 4-1 of branch, 4-2 is aggregated into one the tunnel centre row by claw branch junction 10, be connected to and efflux 3, to be positioned at condenser and efflux 3 bottom-up coupling together of U-shaped inner screw thread copper pipe of 3, be aggregated at last the first outlet 5-1 of branch.

The flow arrangement of the second flow process branch road is as follows:

The bottom-up two U-shaped inner screw thread copper pipes that will be positioned at condenser row 1 of the 3rd route 4-3 of branch couple together, row 2 in the middle of elbow 6 is connected to, two U-shaped inner screw thread copper pipes of centre row 2 are from up to down coupled together, thereby form inverted U-shaped flow process, two U-shaped inner screw thread copper pipes that the 4th route 4-4 of branch from up to down will be positioned at condenser row 1 couple together, row 2 in the middle of elbow 6 is connected to, two bottom-up coupling together of U-shaped inner screw thread copper pipe with centre row 2, thereby form the U-shaped flow process, the 3rd, the 4th route 4-3 of branch, 4-4 is aggregated into one the tunnel centre row by claw branch junction 10, be connected to and efflux 3, to be positioned at condenser and efflux 4 bottom-up coupling together of U-shaped inner screw thread copper pipe of 3, be aggregated at last the second outlet 5-2 of branch.

Same, the flow arrangement of the 3rd flow process branch road is identical with the second flow process branch road, repeats no more.

As shown in figure 12, the structural representation of claw branch junction.

Embodiment 3

As shown in Figure 4, unique difference with embodiment 1, the 3rd route 4-3 of branch in the second flow process branch road and the 4th route 4-4 of branch are aggregated into one the tunnel centre row by claw branch junction 10, be aggregated into and efflux 3, process effluxes 4 bottom-up coupling together of U-shaped inner screw thread copper pipe of 3, is aggregated at last the second outlet 5-2 of branch.

The flow process of first and third flow process branch road is with first and third flow process branch road among the embodiment 1.

Embodiment 4

As shown in Figure 5, with embodiment 1 difference be, two U-shaped inner screw thread copper pipes that the first route 4-1 of branch in the first pass branch road from up to down will be positioned at condenser row 1 couple together, row 2 in the middle of elbow is connected to, three U-shaped inner screw thread copper pipes of centre row 2 are from up to down coupled together, thereby form reverse N shape flow process (as shown in Figure 9), the second route 4-2 of branch enters interior row, be connected rear flow process section with centre row and still be U-shaped, first, second liang of route 4-1 of branch, 4-2 is aggregated into one the tunnel centre row by claw branch junction 10, be connected to and efflux 3, to be positioned at condenser and efflux 3 bottom-up coupling together of U-shaped inner screw thread copper pipe of 3, be aggregated at last the first outlet 5-1 of branch.

Two U-shaped inner screw thread copper pipes that the 3rd route 4-3 of branch of the second flow process branch road from up to down will be positioned at condenser row 1 couple together, row 2 in the middle of elbow 6 is connected to, two U-shaped inner screw thread copper pipes of centre row 2 are from up to down coupled together, thereby form the N flow process, two U-shaped inner screw thread copper pipes that the 4th route 4-4 of branch from up to down will be positioned at condenser row 1 couple together, row 2 in the middle of elbow 6 is connected to, two bottom-up coupling together of U-shaped inner screw thread copper pipe with centre row 2, thereby form the U-shaped flow process, the 3rd, the 4th route 4-3 of branch, 4-4 is aggregated into one the tunnel centre row by claw branch junction 10, be connected to and efflux 3, to be positioned at condenser and efflux 4 bottom-up coupling together of U-shaped inner screw thread copper pipe of 3, be aggregated at last the second outlet 5-2 of branch.The 3rd flow process branch road is with the 3rd flow process branch road of embodiment 2.

Also have a kind of Process flow as shown in Figure 8, the layout of flow process branch road is reverse N shape flow process and U-shaped flow process, is gathered by U-shaped three-way component 7 at last.

The flow arrangement of flow process branch road is as follows: the odd branches route enters interior row, being connected rear flow process section with centre row can be that inverted U-shaped, reverse N shape is arranged, the even branches route enters interior row, be connected rear flow process section with centre row and be necessary for U-shaped, then gather through claw branch junction or U-shaped three-way component, thus the four kind multi-form flow processs of formation shown in Fig. 6-9.

By that analogy, it is even number that the flow process branch road forms N(N) branch road advances, and the N/2 branch road goes out, and from up to down arranges.Do not limit three tunnel above-mentioned flow process branch roads.

As shown in figure 10, interior row 1 takes out two U-shaped inner screw thread copper pipes because heat exchange efficiency is the poorest according to flow arrangement.And middle row 2 equates with the U-shaped inner screw thread copper pipe number that effluxes 3.Certainly, if the flow process branch road is more talked about, interior row 1 can also take out 3,4 or 5 U-shaped inner screw thread copper pipes.If the flow process branch road is less than three the tunnel, interior row can take out 1 U-shaped inner screw thread copper pipe, is determined on a case-by-case basis.

A kind of air-conditioner outdoor unit adopts the described condenser for outdoor unit of air conditioner of above-described embodiment, and condenser adopts the described idiographic flow structure of above-described embodiment.

The above, it only is preferred embodiment of the present utility model, be not to be the restriction of the utility model being made other form, any those skilled in the art may utilize the technology contents of above-mentioned announcement to be changed or be modified as the equivalent embodiment of equivalent variations.But every technical solutions of the utility model content that do not break away to any simple modification, equivalent variations and remodeling that above embodiment does, still belongs to the protection domain of technical solutions of the utility model according to technical spirit of the present utility model.

Claims (1)

1. condenser for outdoor unit of air conditioner, comprise the three row's condenser parts that formed by aluminium foil fin and some U-shaped inner screw thread copper pipes, the air inlet pipe assembly, elbow, three-way component, escape pipe assembly and general export pipe, described three row's condenser assemblies are followed successively by the row who is positioned at the condenser leeward side, middle row and be positioned at effluxing of condenser windward side, wherein said air inlet pipe assembly is positioned at the condenser leeward side, described escape pipe assembly is positioned at the condenser windward side, it is characterized in that: described condenser comprises some flow process branch roads, each flow process is propped up two adjacent branch's routes of route order, some U-shaped inner screw thread copper pipes, elbow, three-way component, branch's outlet connects to form, the number of described branch route is even number, the number of described branch outlet is 1/2 of branch's route, described flow process branch road is arranged from top to down, and the below of flow process branch road is the super cooled sect of condenser.

2, described condenser for outdoor unit of air conditioner according to claim 1, it is characterized in that: the bottom-up some U-shaped inner screw thread copper pipes that will be positioned at condenser row of the odd branches route in each described flow process branch road couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form inverted U-shaped flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by the U-shaped three-way component, be connected to and efflux, to be positioned at some U-shaped inner screw thread copper pipes that condenser effluxes and from up to down couple together, be aggregated at last branch's outlet.

3, described condenser for outdoor unit of air conditioner according to claim 1, it is characterized in that: the bottom-up some U-shaped inner screw thread copper pipes that will be positioned at condenser row of the odd branches route in each described flow process branch road couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form inverted U-shaped flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by claw branch junction, be connected to and efflux, to be positioned at bottom-up the coupling together of some U-shaped inner screw thread copper pipes that condenser effluxes, be aggregated at last branch's outlet.

4, described condenser for outdoor unit of air conditioner according to claim 1, it is characterized in that: some U-shaped inner screw thread copper pipes that the odd branches route in each described flow process branch road from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form reverse N shape flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by the U-shaped three-way component, be connected to and efflux, to be positioned at some U-shaped inner screw thread copper pipes that condenser effluxes and from up to down couple together, be aggregated at last branch's outlet.

5, described condenser for outdoor unit of air conditioner according to claim 1, it is characterized in that: some U-shaped inner screw thread copper pipes that the odd branches route in each described flow process branch road from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, some U-shaped inner screw thread copper pipes are arranged in the centre from up to down to be coupled together, thereby form reverse N shape flow process, some U-shaped inner screw thread copper pipes that the even branches route from up to down will be positioned at condenser row couple together, row in the middle of elbow is connected to, bottom-up the coupling together of some U-shaped inner screw thread copper pipes arranged in the centre, thereby form the U-shaped flow process, the odd and even number branch route that order is adjacent is aggregated into one the tunnel centre row by claw branch junction, be connected to and efflux, to be positioned at bottom-up the coupling together of some U-shaped inner screw thread copper pipes that condenser effluxes, be aggregated at last branch's outlet.

6, according to claim 1 the described condenser for outdoor unit of air conditioner of any one claim-5, it is characterized in that: described branch outlet and pressure-drop type knockout are connected to form gathering tube, some U-shaped inner screw thread copper pipes, elbow and the general export pipe of arranging, efflux the bottom with the centre are again connected, and form super cooled sect.

7, according to claim 1 the described condenser for outdoor unit of air conditioner of any one claim-5 is characterized in that: described interior row takes out N root U-shaped inner screw thread copper pipe, and described N is 1-5.

8, according to claim 2 the described condenser for outdoor unit of air conditioner of any one claim-5, it is characterized in that: the U-shaped inner screw thread copper pipe number of arranging in the middle of described and effluxing equates, sequentially adjacent odd and even number branch route is after centre row is aggregated into one the tunnel by U-shaped three-way component or claw branch junction, row's U-shaped inner screw thread copper pipe is connected to and effluxes the U-shaped inner screw thread copper pipe in the middle of being connected to first.

9, according to claim 1 the described condenser for outdoor unit of air conditioner of any one claim-5 is characterized in that: described flow process branch road comprises three the tunnel.

10, a kind of air-conditioner outdoor unit is characterized in that being equipped with the described condenser for outdoor unit of air conditioner of above-mentioned arbitrary claim.

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