CN205783692U - Heat exchanger structure and air conditioner with same - Google Patents
Heat exchanger structure and air conditioner with same Download PDFInfo
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- CN205783692U CN205783692U CN201620491762.0U CN201620491762U CN205783692U CN 205783692 U CN205783692 U CN 205783692U CN 201620491762 U CN201620491762 U CN 201620491762U CN 205783692 U CN205783692 U CN 205783692U
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- 239000000463 material Substances 0.000 claims abstract description 43
- 238000005452 bending Methods 0.000 claims abstract description 40
- 230000003139 buffering effect Effects 0.000 abstract 2
- 230000000007 visual effect Effects 0.000 description 7
- 238000006073 displacement reaction Methods 0.000 description 3
- 238000004378 air conditioning Methods 0.000 description 2
- 230000008676 import Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 240000007594 Oryza sativa Species 0.000 description 1
- 235000007164 Oryza sativa Nutrition 0.000 description 1
- 230000002411 adverse Effects 0.000 description 1
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- 239000012141 concentrate Substances 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000005284 excitation Effects 0.000 description 1
- 230000008014 freezing Effects 0.000 description 1
- 238000007710 freezing Methods 0.000 description 1
- 231100000652 hormesis Toxicity 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 238000002372 labelling Methods 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 239000003507 refrigerant Substances 0.000 description 1
- 238000005057 refrigeration Methods 0.000 description 1
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- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The utility model provides a heat exchanger structure and have its air conditioner, wherein, the heat exchanger structure includes: the heat exchanger body is provided with a first material port; the pipeline portion sets up on the heat exchanger body, and pipeline portion is linked together with first material mouth, and pipeline portion includes buffering portion, and buffering portion includes the first portion of bending that forms after buckling by the pipeline portion of part to reduce the stress of pipeline portion and the junction of heat exchanger body. By arranging the buffer part on the pipeline part, the vibration of other parts connected with the pipeline part can be effectively reduced, and the stress at the joint of the pipeline part and the heat exchanger body is effectively reduced. The reliability of the connection of the pipe portion and the heat exchanger body is increased.
Description
Technical field
This utility model relates to air-conditioner device technical field, in particular to a kind of heat exchanger structure and the air-conditioning with it
Device.
Background technology
In prior art, the common failure mode of split-type air conditioner refrigeration pipe has two kinds, is that air-conditioner is in transportation respectively
Pipeline breakage problem in pipeline fracture and air conditioning system running.And the reason causing the pipeline in running to rupture has very
Multiple.Package design substantially can be divided into unreasonable from the point of view of from design and the structure of air-conditioner hose designs unreasonable two kinds.
In transportation pipeline fracture mainly caused by the reason of two aspects: one be the base angle of compressor be unfixed,
In transportation, compressor can be beated within the specific limits and swing, and causes means of transport accelerating and compressor in braking procedure
There is certain inertia force, cause pipe arrangement to be subject to bigger instantaneous load.And the wall thickness majority of U-tube is all 0.25mm in condenser
, it is place the weakest in whole pipe-line system, and the pipeline of compressor is directly connected with the inlet pipe of condenser, causing should
Power concentrates on the inlet pipe root i.e. pipeline of condenser and the junction of condenser.Two is that means of transport needs to bear in the process of moving
From the impact on road surface, wherein it mostly is the arbitrary excitation of below 20Hz.If pipe arrangement falls at 20HZ in front 1,2 rank natural frequencies
Hereinafter, will resonate in transportation.The pipeline of complete machine is in due to the exciting by road surface in transportation and is subject to
Compel the kinestate shaken.The amplitude of forced vibration is:
In formula: A is the amplitude of pipeline, unit is rice.F is the power suffered by object, and unit is N.M is the quality of object,
Unit is Kg.ω0For the natural frequency of object, unit is Hz.ω is hormetic frequency, and unit is Hz.ε is for decay often
Number.
From the equations above it follows that in the case of stress is identical, when the natural frequency ω of pipeline0Driving frequency with road surface
When i.e. forced frequency ω is consistent or is closer to, the amplitude of pipeline is maximum, and the deformation energy of its pipe arrangement is the most maximum, the most direct
The deformation causing pipeline region of interest strengthens, and its adaptability to changes also can increase.Now pipeline subjected to stress is the most maximum, the easiest
The connecting line within air-conditioner is caused to lose efficacy.
Utility model content
Main purpose of the present utility model is provide a kind of heat exchanger structure and have its air-conditioner, to solve in prior art
The problem that air-conditioner hose lost efficacy.
To achieve these goals, according to an aspect of the present utility model, it is provided that a kind of heat exchanger structure, including: heat exchange
Device body, has the first material mouth;Pipe section, is arranged on heat exchanger body, and pipe section is connected with the first material mouth, pipe
Road portion includes that buffer part, buffer part include first bending part that formed after bending of the pipe section by part, with reduce pipe section and
The stress of the junction of heat exchanger body.
Further, buffer part also includes second bending part that formed after bending of the pipe section by part, the of the first bending part
One end is connected with the first material mouth, and the second end of the first bending part and the first end of the second bending part are connected.
Further, the first bending part includes: the first straight length, and the first end and the first material mouth of the first straight length are connected;
First circular arc pipeline section, the first end of the first circular arc pipeline section and the second end of the first straight length are connected;Second straight length, second is straight
First end of pipeline section and the second end of the first circular arc pipeline section are connected.
Further, buffer part includes that the first connecting section, the first connecting section include: the 3rd straight length, the 3rd straight length
First end and the first material mouth are connected, and the axis of the 3rd straight length and the axis of the first straight length have the first angle;Second circle
Arc pipeline section, the first of the second circular arc pipeline section curved curved with the second of the 3rd straight length is connected, and the second of the second circular arc pipeline section is curved with the
First end of one straight length is connected.
Further, the second bending part includes: three-arc pipeline section, the first end of three-arc pipeline section and the of the second straight length
Two ends are connected;6th straight length, the first end of the 6th straight length and the second end of three-arc pipeline section are connected, the first straight tube
The axis of section axis, the axis of the 6th straight length with the second straight length respectively is parallel to each other.
Further, the 3rd straight length, the second circular arc pipeline section and the first straight length are positioned at same first plane α, and first
Straight length, the first circular arc pipeline section and the second straight length are positioned at same second plane β, the second straight length, three-arc pipe
Section and the 6th straight length be positioned at same 3rd plane γ, the first plane α and the second plane β intersect, the 3rd plane γ and
Second plane β intersects.
Further, the second bending part includes: three-arc pipeline section, the first end of three-arc pipeline section and the of the second straight length
Two ends are connected;6th straight length, the first end of the 6th straight length and the second end of three-arc pipeline section are connected, the first straight tube
The axis of section axis, the axis of the 6th straight length with the second straight length respectively is parallel to each other.
Further, the 6th straight length is arranged near heat exchanger body.
Further, heat exchanger structure also includes that the second connecting section, the second connecting section include: the 4th straight length, the 4th is straight
First end and the first material mouth of pipeline section are connected;5th straight length, the first end of the 5th straight length and the second of the 4th straight length
End is connected, and the 5th straight length and the 4th straight length have the second angle, the second end of the 5th straight length and the of the first straight length
One end is connected, and the 5th straight length and the first straight length have the 3rd angle.
Further, the second angle and/or the 3rd angle are obtuse angle.
Further, the 4th straight length, the 5th straight length and the first straight length are positioned at same fourth plane τ, the first straight tube
Section, the first circular arc pipeline section and the second straight length are positioned at same second plane β, the second straight length, three-arc pipeline section with
And the 6th straight length be positioned at same 3rd plane γ, the 3rd plane γ and the second plane β intersect, fourth plane τ and the first folding
The plane at turn of bilge place has the 4th angle.
Further, formed by dihedral angle formed by the 3rd plane γ and the second plane β and fourth plane τ and the second plane β two
Angle, face and be obtuse angle.
Further, heat exchanger body also has the second material mouth, the second material mouth and the first material mouth and is positioned at heat exchanger body
Homonymy, heat exchanger structure includes two the second connecting section and a feed zone, and second in two the second connecting section is even
First end and the first material mouth of the 4th straight length in adapter portion are connected, the second end of the 6th straight length and the first end of feed zone
It is connected, the first end of the 4th straight length of another the second connecting section in two the second connecting section and the second material mouth phase
Connection, the second end of the 6th straight length is connected with the first end of feed zone.
Further, heat exchanger structure also includes: U-tube road, is arranged on heat exchanger body;First fixed part, first is solid
The first end determining portion is sheathed on the first straight length, and the second end of the first fixed part is sheathed on U-tube road.
Further, heat exchanger structure also includes: U-tube road, is arranged on heat exchanger body;Second fixed part, second is solid
The one end determining portion is welded on the first straight length, and the second end of the second fixed part is welded on U-tube road, or the second fixed part
One end be welded on the first straight length, the second end of the second fixed part is welded on U-tube road.
According to another aspect of the present utility model, it is provided that a kind of air-conditioner, including heat exchanger structure, heat exchanger structure is above-mentioned
Heat exchanger structure.
Application the technical solution of the utility model, heat exchanger structure includes heat exchanger body and pipe section.Heat exchanger body has
One material mouth.Pipe section is arranged on heat exchanger body, and pipe section is connected with the first material mouth, and pipe section includes buffer part,
Buffer part includes the first bending part that the pipe section by part is formed after bending, to reduce the connection of pipe section and heat exchanger body
The stress at place.By arranging buffer part in pipe section, it is possible to be effectively reduced from the miscellaneous part being connected with pipe section
Vibration, thus efficiently reduce the stress of pipe section and the junction of heat exchanger body.Add pipe section and heat exchanger body
The reliability of junction.
Accompanying drawing explanation
The Figure of description of the part constituting the application is used for providing being further appreciated by of the present utility model, of the present utility model
Schematic description and description is used for explaining this utility model, is not intended that improper restriction of the present utility model.In the accompanying drawings:
Fig. 1 shows the structural representation at the first visual angle of the embodiment one according to heat exchanger of the present utility model;
Fig. 2 shows the structural representation at the second visual angle of heat exchanger in Fig. 1;
Fig. 3 shows the structural representation at the 3rd visual angle of heat exchanger in Fig. 1;
Fig. 4 shows the structural representation at the first visual angle of the embodiment two according to heat exchanger of the present utility model;
Fig. 5 shows the structural representation at the second visual angle of heat exchanger in Fig. 4;
Fig. 6 shows the structural representation at the 3rd visual angle of heat exchanger in Fig. 4;
Fig. 7 shows the structural representation at the 4th visual angle of heat exchanger in Fig. 4;
Fig. 8 shows structure for amplifying schematic diagram at the A in Fig. 7;And
Fig. 9 shows the top view of Fig. 8.
Wherein, above-mentioned accompanying drawing includes the following drawings labelling:
10, heat exchanger body;11, the first material mouth;12, the second material mouth;20, pipe section;21, the 3rd straight length;22、
Second circular arc pipeline section;23, the first straight length;24, the first circular arc pipeline section;25, the second straight length;26, three-arc pipeline section;
27, the 6th straight length;30, U-tube road;40, the first fixed part;50, the second fixed part;71, the 4th straight length;72、
5th straight length;80, feed zone.
Detailed description of the invention
It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined.
Describe this utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.
As it is shown in figure 1, according to an aspect of the present utility model, it is provided that a kind of heat exchanger structure.Of the present utility model one
In individual specific embodiment, this heat exchanger structure includes heat exchanger body 10 and pipe section 20, and heat exchanger body 10 has the first thing
Material mouth 11.Pipe section 20 is arranged on heat exchanger body 10, and pipe section 20 is connected with the first material mouth 11, pipe section 20
Including buffer part, buffer part includes the first bending part that the pipe section 20 by part is formed after bending, to reduce pipe section 20
Stress with the junction of heat exchanger body 10.
In the present embodiment, by arranging buffer part in pipe section 20, it is possible to be effectively reduced and be connected from pipe section 20
The vibration of the miscellaneous part connect, thus efficiently reduce the stress of pipe section 20 and the junction of heat exchanger body 10.Increase
The reliability of pipe section 20 and the junction of heat exchanger body 10.The displacement effectively reducing heat exchanger inlet pipe is so set,
The flexibility improving heat exchanger inlet pipe of relatively limits, strengthens pipeline reliability in transportation.
As in figure 2 it is shown, buffer part includes the second bending part that the pipe section 20 by part is formed after bending, the first bending part
First end and the first material mouth 11 are connected, and the second end of the first bending part and the first end of the second bending part are connected.By pipe
Road self be bent to form buffer part to reduce the stress of pipeline and heat exchanger junction, effectively increase pipeline and heat exchanger
Between connective stability.
Further, the first bending part includes the first straight length the 23, first circular arc pipeline section 24 and the second straight length 25.First is straight
First end and the first material mouth 11 of pipeline section 23 are connected.First end of the first circular arc pipeline section 24 and the second of the first straight length 23
End is connected.First end of the second straight length 25 and the second end of the first circular arc pipeline section 24 are connected.As in figure 2 it is shown, first
Bending part takes the shape of the letter U structure, so arrange the flexibility effectively increasing heat exchanger such as condenser inlet pipe, can relatively limits
Improve the deformation allowance of pipeline.The soft of condenser inlet pipe can be increased by suitably increasing U-tube road two-arm length of straigh line
Property.
Referring now to Fig. 1 and Fig. 2, buffer part includes the first connecting section.First connecting section includes the 3rd straight length 21 and
Two circular arc pipeline sections 22.First end and the first material mouth 11 of the 3rd straight length 21 are connected, the axis of the 3rd straight length 21 and
The axis of one straight length 23 has the first angle.The first of second circular arc pipeline section 22 curved curved with the second of the 3rd straight length 21 is connected
Logical, second curved and the first straight length 23 the first end of the second circular arc pipeline section 22 is connected.Wherein, the 3rd straight length 21 is arranged
Extending in the top of heat exchanger and towards horizontal direction, the first straight length 23 passes through the second circular arc pipeline section 22 towards the 3rd straight length
The lower section of 21 extends.Changed the overbending direction of pipeline by the second circular arc pipeline section 22, thus form the buffer structure of U-shaped structure,
Can effectively increase the flexibility of buffer part.
Further, the second bending part includes three-arc pipeline section 26 and the 6th straight length 27.The first of three-arc pipeline section 26
End is connected with the second end of the second straight length 25.First end of the 6th straight length 27 and the second end phase of three-arc pipeline section 26
Connection, the axis of the first straight length 23 axis, the axis of the 6th straight length 27 with the second straight length 25 respectively is parallel to each other.
Multiple bending part is set and can increase the flexibility of buffer part further, thus reduce pipe section 20 and heat exchanger to greatest extent
Between the stress of junction.For reducing the stress between connecting line and heat exchanger, by the 6th straight length 27 near heat exchanger originally
Body 10 is arranged.
As in figure 2 it is shown, the 3rd straight length the 21, second circular arc pipeline section 22 and the first straight length 23 are positioned at same first plane α
In.First straight length the 23, first circular arc pipeline section 24 and the second straight length 25 are positioned at same second plane β.Second is straight
Pipeline section 25, three-arc pipeline section 26 and the 6th straight length 27 are positioned at same 3rd plane γ, the first plane α and second
Plane β intersects, and the 3rd plane γ and the second plane β intersect.
As it is shown on figure 3, according to another embodiment of the present utility model, heat exchanger structure also includes the second connecting section.Second
Connecting section includes the 4th straight length 71 and the 5th straight length 72.First end and the first material mouth 11 of the 4th straight length 71 are connected
Logical.First end of the 5th straight length 72 and the second end of the 4th straight length 71 are connected, the 5th straight length 72 and the 4th straight length
71 have the second angle, and the second end of the 5th straight length 72 and the first end of the first straight length 23 are connected, the 5th straight length 72
With the first straight length 23, there is the 3rd angle.Preferably, the second angle and the 3rd angle are obtuse angle.It is of course also possible to by second
One in angle and the 3rd angle is arranged to obtuse angle, is equally reached the stress reducing pipe section 20 with heat exchanger junction.
As shown in Figure 4 and Figure 8, the 4th straight length the 71, the 5th straight length 72 and the first straight length 23 are positioned at the same 4th
In plane τ.First straight length the 23, first circular arc pipeline section 24 and the second straight length 25 are positioned at same second plane β.
Second straight length 25, three-arc pipeline section 26 and the 6th straight length 27 are positioned at same 3rd plane γ, the 3rd plane γ with
Second plane β intersects, and the plane at fourth plane τ and the first bending part place has the 4th angle.As it is shown in figure 5, the second folding
Turn of bilge also takes the shape of the letter U structure, increases heat exchanger i.e. condenser and arranges U-shaped vibration-proof structure in perpendicular and horizontal plane so that
It is as it is shown in figure 9, ensure at least two curved positions in a top view that condenser has sufficient degree of freedom at horizontal plane, it is possible to real
The reliability of existing air-conditioner transport, it is to avoid pipeline fracture causes secondary refrigerant leakage.The quality of product can be improved, reduce series after sale
Maintenance cost.
As shown in Figure 8, formed by dihedral angle formed by the 3rd plane γ and the second plane β and fourth plane τ and the second plane β
Dihedral angle and be obtuse angle.So arrange and enable to have the pipeline of this buffer part and can bear to greatest extent to the external world
Vibration force, thus ensure that pipeline and heat exchanger are at the safety and reliability run or in transportation.
As shown in Fig. 4 to Fig. 9, heat exchanger body 10 also has the second material mouth 12.Second material mouth 12 and the first material mouth
11 homonymies being positioned at heat exchanger body 10.Heat exchanger structure includes two the second connecting section and a feed zone 80, two second
First end and the first material mouth 11 of the 4th straight length 71 of second connecting section in connecting section are connected, the 6th straight tube
Section second end of 27 is connected with the first end of feed zone 80, another the second connecting section in two the second connecting section
First end and the second material mouth 12 of the 4th straight length 71 are connected, the of the second end of the 6th straight length 27 and feed zone 80
One end is connected.So arranging can further increase the pipeline of buffer part and bear the vibration force to the external world, thus ensure that
Pipeline and heat exchanger are at the safety and reliability run or in transportation.
Heat exchanger structure also includes U-tube road 30.U-tube road 30 is arranged on heat exchanger body 10.First fixed part 40,
First end of the first fixed part 40 is sheathed on the first straight length 23, and the second end of the first fixed part 40 is sheathed on U-tube road
On 30.It is of course also possible to one end of the second fixed part 50 is welded on the first straight length 23, the second of the second fixed part 50
End is welded on U-tube road 30.Or one end of the second fixed part 50 is welded on the first straight length 23, the second fixed part
Second end of 50 is welded on U-tube road 30.The heat exchanger i.e. inlet pipe of condenser increases pipe fixed block (the first fixed part
40) or reinforced pipe (the second fixed part 50), the inlet pipe of condenser is bundled with other pipelines, it is possible to efficiently reduce
The displacement of condenser inlet pipe, improves pipeline reliability.
In transportation, the vibration of compressor is relatively big, and direction is more random, for reducing vibration, and vertical at condenser inlet pipe
One U-shaped vibration-proof structure is respectively set in plane and horizontal plane, to increase the flexibility of pipeline, consumes owing to vibration of compressor transmits
Kinetic energy to pipeline.The condenser inlet pipe of only one of which import is designed to such as the cast of " paperclip " form in Fig. 1 to Fig. 3.
Have in the condenser inlet pipe design of two i.e. material inlets of import and use such as U-shaped curved to as shown in 9 of Fig. 3.Such as Fig. 1 to Fig. 9
Shown in, the wrap direction of last straight tube pipe is arranged to reduce torque arm length at heat exchanger side plate as far as possible, thus further
Ground increases the stability of buffer part, as it is shown in figure 9, the plane at one of them the second kink place and the plane at feed zone place
Angle be 135 °, the angle between two the second kinks is 63 °.
As shown in Figure 8 and Figure 9, the feed zone 80 in pipe section 20 is connected with cross valve parts, vibrates bigger.If this section
The length of straigh line of two the 6th straight lengths cross conference and cause pipe arrangement flexibility to increase and resonance amplitude is too big, to pipe arrangement vibration control
Unfavorable.The pipeline section of the first bending part and the second bending part belongs to the line segments that vibration is less comparatively speaking, in horizontally and vertically plane
The interior flexibility that can increase condenser inlet pipe by suitably increasing the length of straigh line of U-tube road two-arm.So arranging can be relatively
The raising buffer part deformation allowance of limits, is effectively improved heat exchanger reliability in transportation.
Because there is residual stress near elbow region in condenser inlet pipe straightway, simultaneously as close position of freezing, the mechanics of materials
Performance is affected, so being easy to fatigue fracture.For weakening the impact of above-mentioned factor, condenser inlet pipe radius of curvature R to the greatest extent may be used
Can be larger, to reduce this position residual stress.Ensure certain straightway, to reduce the adverse effect brought that freezes simultaneously.Separately
Outer condenser to be ensured and the rigidity of the pipeline of pipe arrangement junction, contain the fretting wear that excessive amplitude causes.Condenser
The length of the 3rd straight length 21 controls 30~40mm as far as possible.4th straight length the 71, the 5th straight length 72 and the first straight tube
Angle between Duan is more than or equal to 90 °.
Heat exchanger structure in above-described embodiment may be used for air-conditioner technical field, according to another aspect of the present utility model, carries
Supply a kind of air-conditioner.This air-conditioner includes heat exchanger structure, and heat exchanger structure is the heat exchanger structure in above-described embodiment.Should
Heat exchanger structure includes heat exchanger body 10 and pipe section 20, and heat exchanger body 10 has the first material mouth 11.Pipe section 20
Being arranged on heat exchanger body 10, pipe section 20 is connected with the first material mouth 11, and pipe section 20 includes buffer part, buffer part
Including the first bending part formed after bending by the pipe section 20 of part, to reduce the company of pipe section 20 and heat exchanger body 10
Connect the stress at place.
By arranging buffer part in pipe section 20, it is possible to be effectively reduced from the miscellaneous part being connected with pipe section 20
Vibration, thus efficiently reduce the stress of pipe section 20 and the junction of heat exchanger body 10.Add pipe section 20 and change
The reliability of the junction of hot device body 10.So arranging the displacement effectively reducing heat exchanger inlet pipe, the raising of relatively limits is changed
The flexibility of hot device inlet pipe, strengthens pipeline reliability in transportation.
The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for this area
For technical staff, this utility model can have various modifications and variations.All within spirit of the present utility model and principle, institute
Any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.
Claims (16)
1. a heat exchanger structure, it is characterised in that including:
Heat exchanger body (10), has the first material mouth (11);
Pipe section (20), is arranged on described heat exchanger body (10), described pipe section (20) and described first material
Mouth (11) is connected, and described pipe section (20) includes that buffer part, described buffer part include by the described pipe section of part
(20) the first bending part formed after bending, to reduce described pipe section (20) and described heat exchanger body (10)
The stress of junction.
Heat exchanger structure the most according to claim 1, it is characterised in that described buffer part also includes by the described pipeline of part
The second bending part that portion (20) is formed after bending, the first end of described first bending part and described first material mouth (11)
Being connected, the second end of described first bending part is connected with the first end of described second bending part.
Heat exchanger structure the most according to claim 2, it is characterised in that described first bending part includes:
First straight length (23), the first end of described first straight length (23) is connected with described first material mouth (11);
First circular arc pipeline section (24), the first end of described first circular arc pipeline section (24) and described first straight length (23)
Second end is connected;
Second straight length (25), the of the first end of described second straight length (25) and described first circular arc pipeline section (24)
Two ends are connected.
Heat exchanger structure the most according to claim 3, it is characterised in that described buffer part includes the first connecting section, described
First connecting section includes:
3rd straight length (21), the first end of described 3rd straight length (21) is connected with described first material mouth (11),
The axis of described 3rd straight length (21) and the axis of described first straight length (23) have the first angle;
Second circular arc pipeline section (22), the first of described second circular arc pipeline section (22) is curved and described 3rd straight length (21)
Second curved is connected, second curved and the first end phase of described first straight length (23) of described second circular arc pipeline section (22)
Connection.
Heat exchanger structure the most according to claim 4, it is characterised in that described second bending part includes:
Three-arc pipeline section (26), the first end of described three-arc pipeline section (26) and described second straight length (25)
Second end is connected;
6th straight length (27), the of the first end of described 6th straight length (27) and described three-arc pipeline section (26)
Two ends are connected, the axis of described first straight length (23) respectively with the axis of described second straight length (25), described
The axis of the 6th straight length (27) is parallel to each other.
Heat exchanger structure the most according to claim 5, it is characterised in that described 3rd straight length (21), described second circular arc
Pipeline section (22) and described first straight length (23) are positioned at same first plane α, described first straight length (23),
Described first circular arc pipeline section (24) and described second straight length (25) are positioned at same second plane β, and described
Two straight lengths (25), described three-arc pipeline section (26) and described 6th straight length (27) are positioned at same 3rd flat
In the γ of face, described first plane α intersects with described second plane β, described 3rd plane γ and described second plane β phase
Hand over.
Heat exchanger structure the most according to claim 3, it is characterised in that described second bending part includes:
Three-arc pipeline section (26), the first end of described three-arc pipeline section (26) and described second straight length (25)
Second end is connected;
6th straight length (27), the of the first end of described 6th straight length (27) and described three-arc pipeline section (26)
Two ends are connected, the axis of described first straight length (23) respectively with the axis of described second straight length (25), described
The axis of the 6th straight length (27) is parallel to each other.
Heat exchanger structure the most according to claim 7, it is characterised in that described 6th straight length (27) is near described heat exchange
Device body (10) is arranged.
Heat exchanger structure the most according to claim 7, it is characterised in that described heat exchanger structure also includes the second connecting section,
Described second connecting section includes:
4th straight length (71), the first end of described 4th straight length (71) is connected with described first material mouth (11);
5th straight length (72), the first end of described 5th straight length (72) and the second of described 4th straight length (71)
End is connected, and described 5th straight length (72) and described 4th straight length (71) have the second angle, described 5th straight
Second end of pipeline section (72) is connected with the first end of described first straight length (23), described 5th straight length (72)
With described first straight length (23), there is the 3rd angle.
Heat exchanger structure the most according to claim 9, it is characterised in that described second angle and/or described 3rd angle are blunt
Angle.
11. heat exchanger structures according to claim 9, it is characterised in that described 4th straight length (71), described 5th straight tube
Section (72) and described first straight length (23) are positioned at same fourth plane τ, described first straight length (23),
Described first circular arc pipeline section (24) and described second straight length (25) are positioned at same second plane β, and described
Two straight lengths (25), described three-arc pipeline section (26) and described 6th straight length (27) are positioned at same 3rd flat
In the γ of face, described 3rd plane γ intersects with described second plane β, described fourth plane τ and described first bending part place
Plane there is the 4th angle.
12. heat exchanger structures according to claim 11, it is characterised in that described 3rd plane γ and described second plane β institute
Dihedral angle formed by the dihedral angle become and described fourth plane τ and described second plane β and be obtuse angle.
13. heat exchanger structures according to claim 11, it is characterised in that described heat exchanger body (10) also has the second thing
Material mouth (12), described second material mouth (12) and described first material mouth (11) are positioned at described heat exchanger body (10)
Homonymy, described heat exchanger structure includes two the second connecting section and a feed zone (80), and two described second connect
First end of described 4th straight length (71) of described second connecting section in pipe portion and described first material mouth (11)
Being connected, described second end of the 6th straight length (27) is connected with the first end of described feed zone (80), two institutes
State first end of described 4th straight length (71) of another described second connecting section in the second connecting section with described
Second material mouth (12) is connected, the second end of described 6th straight length (27) and the first of described feed zone (80)
End is connected.
14. according to the heat exchanger structure according to any one of claim 3 to 13, it is characterised in that described heat exchanger structure also includes:
U-tube road (30), is arranged on described heat exchanger body (10);
First fixed part (40), the first end of described first fixed part (40) is sheathed on described first straight length (23),
Second end of described first fixed part (40) is sheathed on described U-tube road (30).
15. according to the heat exchanger structure according to any one of claim 3 to 13, it is characterised in that described heat exchanger structure also includes:
U-tube road (30), is arranged on described heat exchanger body (10);
Second fixed part (50), one end of described second fixed part (50) is welded on described first straight length (23),
Second end of described second fixed part (50) is welded on described U-tube road (30),
Or one end of described second fixed part (50) is welded on described first straight length (23), described second fixes
Second end in portion (50) is welded on described U-tube road (30).
16. 1 kinds of air-conditioners, including heat exchanger structure, it is characterised in that described heat exchanger structure is arbitrary in claim 1 to 15
Heat exchanger structure described in Xiang.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105865010A (en) * | 2016-05-25 | 2016-08-17 | 珠海格力电器股份有限公司 | Heat exchanger structure and air conditioner with same |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105865010A (en) * | 2016-05-25 | 2016-08-17 | 珠海格力电器股份有限公司 | Heat exchanger structure and air conditioner with same |
CN105865010B (en) * | 2016-05-25 | 2018-11-09 | 珠海格力电器股份有限公司 | Heat exchanger structure and air conditioner with same |
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