CN208887080U - Heat exchanger assembly and air conditioner - Google Patents
Heat exchanger assembly and air conditioner Download PDFInfo
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- CN208887080U CN208887080U CN201821331225.5U CN201821331225U CN208887080U CN 208887080 U CN208887080 U CN 208887080U CN 201821331225 U CN201821331225 U CN 201821331225U CN 208887080 U CN208887080 U CN 208887080U
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Abstract
This application provides a kind of heat exchanger assembly and air conditioners.The heat exchanger assembly includes First Heat Exchanger, the second heat exchanger and third heat exchanger.Second heat exchanger is angularly arranged with First Heat Exchanger, and the first end of the second heat exchanger is connected or mutually close with the first end of First Heat Exchanger, and the second end of the second heat exchanger and the second end of First Heat Exchanger are mutually separate.Third heat exchanger is arranged between First Heat Exchanger and the second heat exchanger.Using the technical solution of the utility model, by the way that three heat exchangers are arranged, the second heat exchanger is allowed angularly to be arranged with First Heat Exchanger, and third heat exchanger is arranged between First Heat Exchanger and the second heat exchanger, it in this way can be interior in a limited space, on the basis of guaranteeing heat exchanger airflow, increases the surface area of heat exchanger, guarantee the heat exchange property of heat exchanger assembly.
Description
Technical field
The utility model relates to technical field of refrigeration equipment, in particular to a kind of heat exchanger assembly and air conditioner.
Background technique
Currently, air-conditioning in work and life using more and more, much need the space for carrying out room temperature adjusting all to need
Use air conditioner.Since space is limited, the overall dimensions of air-conditioning products required for market become small.
But as doing for air-conditioning products overall dimensions is small, heat exchanger will appear the phenomenon of wind speed unevenness when in use, into
And the heat exchange efficiency of heat exchanger is influenced, finally influence user experience.
Utility model content
The utility model embodiment provides a kind of heat exchanger assembly and air conditioner, is existed with solving air conditioner in the prior art
Do the technical issues of wind speed is unevenly distributed on existing heat-exchange performance after small size.
The application embodiment provides a kind of heat exchanger assembly, comprising: First Heat Exchanger;Second heat exchanger, with first
Heat exchanger is angularly arranged, and the first end of the second heat exchanger is connected or mutually close with the first end of First Heat Exchanger, and
The second end of two heat exchangers and the second end of First Heat Exchanger are mutually separate;Third heat exchanger is arranged in First Heat Exchanger and second
Between heat exchanger, the first end of third heat exchanger is connected on the A point of First Heat Exchanger, and the second end of third heat exchanger is connected to
On the B point of second heat exchanger, A point is located between the first end and second end of First Heat Exchanger, and B point is located at the of the second heat exchanger
Between one end and second end.
In one embodiment, the structure of First Heat Exchanger and the second heat exchanger is identical.
In one embodiment, the distance of first end of A point to First Heat Exchanger is y, the of A point to First Heat Exchanger
The distance at two ends is x, 1:7 < x:y < 1:5.
In one embodiment, x:y=1:6.
In one embodiment, the distance of first end of B point to the second heat exchanger is b, the of B point to the second heat exchanger
The distance at two ends is a, 1:7 < a:b < 1:5.
In one embodiment, a:b=1:6.
In one embodiment, third heat exchanger by single set of heat exchange tubes at.
In one embodiment, the caliber of single heat exchanger tube is 5~7.94mm.
In one embodiment, First Heat Exchanger and/or the second heat exchanger by multiple rows of set of heat exchange tubes at.
In one embodiment, First Heat Exchanger and/or the second heat exchanger by 4 row's set of heat exchange tubes at.
In one embodiment, the caliber of 4 row's heat exchanger tubes is 7~9.52mm.
In one embodiment, the second end and First Heat Exchanger of the place plane of third heat exchanger and the second heat exchanger
Second end between opening be oppositely arranged.
Present invention also provides a kind of air conditioner, including heat exchanger assembly, heat exchanger assembly is above-mentioned heat exchanger assembly.
In the above-described embodiments, by the way that three heat exchangers are arranged, make the second heat exchanger and the First Heat Exchanger angled
Ground setting, and third heat exchanger is arranged between the First Heat Exchanger and second heat exchanger, it in this way can be limited
Space in, on the basis of guaranteeing heat exchanger airflow, increase the surface area of heat exchanger, guarantee changing for heat exchanger assembly
Hot property.
Detailed description of the invention
The attached drawing constituted part of this application is used to provide a further understanding of the present invention, the utility model
Illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.In attached drawing
In:
Fig. 1 is the schematic view of the front view of the embodiment of heat exchanger assembly according to the present utility model;
Fig. 2 is the side structure schematic view of the heat exchanger assembly of Fig. 1;
Fig. 3 is the surface wind speed distribution map of existing heat exchanger assembly;
Fig. 4 is a kind of surface wind speed distribution map of embodiment of heat exchanger assembly according to the present utility model;
Fig. 5 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model;
Fig. 6 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model;
Fig. 7 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model;
Fig. 8 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model;
Fig. 9 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model;
Figure 10 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model;
Figure 11 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model;
Figure 12 is the surface wind speed distribution map of another embodiment of heat exchanger assembly according to the present utility model.
Specific embodiment
For the purpose of this utility model, technical solution and advantage is more clearly understood, below with reference to embodiment and attached
Figure, is described in further details the utility model.Here, the exemplary embodiment and its explanation of the utility model are for solving
The utility model is released, but is not intended to limit the scope of the present invention.
Figures 1 and 2 show that the heat exchanger assembly of the utility model, which includes First Heat Exchanger 10,
Two heat exchangers 20 and third heat exchanger 30.Second heat exchanger 20 is angularly arranged with First Heat Exchanger 10, and the second heat exchange
The first end of device 20 is connected with the first end of First Heat Exchanger 10 or mutually close, the second end of the second heat exchanger 20 and the first heat exchange
The second end of device 10 is mutually separate.Third heat exchanger 30 is arranged between First Heat Exchanger 10 and the second heat exchanger 20, third heat exchange
The first end of device 30 is connected on the A point of First Heat Exchanger 10, and the second end of third heat exchanger 30 is connected to the second heat exchanger 20
B point on.A point is located between the first end and second end of First Heat Exchanger 10, B point be located at the second heat exchanger 20 first end and
Between second end.
The second heat exchanger 20 and first is allowed to exchange heat by the way that three heat exchangers are arranged using the technical solution of the utility model
Device 10 is angularly arranged, and third heat exchanger 30 is arranged between First Heat Exchanger 10 and the second heat exchanger 20, in this way may be used
Within in a limited space, on the basis of guaranteeing heat exchanger airflow, increases the surface area of heat exchanger, guarantee heat exchanger
The heat exchange property of component.
It should be noted that in the technical solution of the utility model, A point and B point are point structure, cable architecture or face knot
Structure.
As shown in figure 3, the heat exchanger assembly without third heat exchanger is arranged on drip tray, by test, this kind heat exchange
Almost without wind speed, wind speed all concentrates on sharp corner (i.e. on the surface (i.e. the bottom of heat exchanger assembly) of the open side of device assembly
The top of heat exchanger assembly).Based on the problem, as shown in figure 4, in the technical scheme of this embodiment, third heat exchanger 30 is allowed
The A point of first end connection be located between the first end and second end of First Heat Exchanger 10, the second end of third heat exchanger 30 company
The B point connect is located between the first end and second end of the second heat exchanger 20.In this manner it is possible to which third heat exchanger 30 is allowed to pass through change
The mode of duct resistance adjusts the surface wind speed of heat exchanger, and allowing at the second end of First Heat Exchanger 10 and the second heat exchanger 20 can also
To be distributed higher wind speed, so that wind speed profile is relatively uniform, solve the problems, such as that the surface wind speed of heat exchanger is unevenly distributed ground,
Increase heat exchange amount.So, so that it may the whole efficiency of heat exchanger assembly is promoted, so that the reliability of heat exchanger assembly obtains
Guarantee.
As other optional embodiments, the first end of the second heat exchanger 20 and the first end of First Heat Exchanger 10
It can be mutually close.Based on the embodiment, if the table of above-mentioned open side can be had by being not provided with third heat exchanger 30 also
Almost without wind speed, wind speed all concentrates on sharp corner (i.e. the top of heat exchanger assembly) in face (i.e. the bottom of heat exchanger assembly)
Problem.Using the setting form of above-mentioned third heat exchanger 30, the technical problem also can solve.
As a preferred embodiment, the second end of the place plane of third heat exchanger 30 and the second heat exchanger 20 with
Opening between the second end of First Heat Exchanger 10 is oppositely arranged.In this way, third heat exchanger 30 and the opening can be allowed to be blown into
Air-flow is opposite, the air-flow for allowing third heat exchanger 30 to be preferably uniformly blown into from opening, so that wind speed profile is more uniform.
In the technical solution of the utility model, by test, form third heat exchanger 30 heat exchanger tube number of rows for
The whole wind speed profile of heat exchanger assembly has strong influence, when the number of rows of the heat exchanger tube of composition third heat exchanger 30 is excessive
When, air-flow can be hindered to flow to first end from the second end of First Heat Exchanger 10 and the second heat exchanger 20.As shown in figure 4, when composition
When the number of rows of the heat exchanger tube of third heat exchanger 30 is two rows of, it is substantially trapped in wind speed third heat exchanger 30 to the first
Between heat exchanger 10 and the second end of the second heat exchanger 20, and third heat exchanger 30 arrives First Heat Exchanger 10 and the second heat exchanger 20
First end between the wind speed that is distributed it is very few, influence whether the whole efficiency of heat exchanger assembly.
Therefore, in the technical solution of the utility model, as a preferred embodiment, third heat exchanger 30 is by list
Arrange set of heat exchange tubes at.As shown in figure 5, using single set of heat exchange tubes at third heat exchanger 30, can less influence air-flow
First end is flowed to from the second end of First Heat Exchanger 10 and the second heat exchanger 20, so that wind speed is in First Heat Exchanger 10 and
It is distributed more uniform on two heat exchangers 20, guarantees the whole efficiency of heat exchanger assembly.In this way, both may be used by third heat exchanger 30
To increase heat exchange amount, it is also possible that the overall surface wind speed profile of heat exchanger assembly it is more uniform, kill two birds with one stone.It is optional
, in the technical scheme of this embodiment, the caliber of single heat exchanger tube is 7mm.
As shown in Fig. 2, in the technical scheme of this embodiment, as a preferred embodiment, First Heat Exchanger 10
It is identical with the structure of the second heat exchanger 20, in order to manufacture and install.
During actual use, First Heat Exchanger 10 and the second heat exchanger 20 are the unit for being primarily involved in heat exchange.Cause
This, as a preferred embodiment, First Heat Exchanger 10 and the second heat exchanger 20 are by multiple rows of set of heat exchange tubes in this way may be used
To improve the exchange capability of heat of First Heat Exchanger 10 and the second heat exchanger 20.Optionally, First Heat Exchanger 10 and the second heat exchanger 20
By 4 row's set of heat exchange tubes at.By experimental test, 4 row's set of heat exchange tubes at First Heat Exchanger 10 and the second heat exchanger 20 with it is single
Row's set of heat exchange tubes at First Heat Exchanger 10 combine, can achieve optimal heat exchange property, fully by wind speed point
Cloth is uniform, guarantees the whole efficiency of heat exchanger assembly.Optionally, the caliber of 4 row's heat exchanger tubes is 9.52mm.
As other optional embodiments, only by First Heat Exchanger 10 or the second heat exchanger 20 by multiple rows of set of heat exchange tubes
At being also feasible.
As shown in Fig. 2, as a preferred embodiment, A point to First Heat Exchanger 10 first end distance be y, A
The distance that point arrives the second end of First Heat Exchanger 10 is x, 1:7 < x:y < 1:5.Optionally, B point to the second heat exchanger 20 first
The distance at end is b, and the distance of the second end of B point to the second heat exchanger 20 is a, 1:7 < a:b < 1:5.As shown in figure 5, by practical
Test position of the third heat exchanger 30 relative to First Heat Exchanger 10 and the second heat exchanger 20 is arranged using aforementioned proportion, can
So that wind speed heat exchanger assembly distribution on the whole it is more uniform, guarantee the whole efficiency of heat exchanger assembly.Preferably,
X:y=1:6.More preferably, a:b=1:6.Using the ratio, distribution of the wind speed on heat exchanger assembly can be allowed the most equal
It is even, so that the whole efficiency highest of heat exchanger assembly.
Optionally, the length of third heat exchanger 30 is z, the size of z also by First Heat Exchanger 10 and the second heat exchanger 20 it
Between angle determine.
In the technical solution of the utility model, the measurement of heat exchange amount also has been carried out to the heat exchanger assembly of three kinds of structures,
Correlation data is as follows:
It follows that in the case where centre does not increase heat exchanger, wind speed is whole using heat exchanger assembly as shown in Figure 3
Be gathered in sharp corner, using heat exchanger assembly as shown in Figure 4, the intermediate wind speed for increasing sharp corner after 2 row's heat exchangers rapidly
Decline will lead to entire heat exchanger heat exchange amount decline, be unfavorable for improving heat exchange efficiency.Using heat exchanger assembly as shown in Figure 5,
Wind speed profile is ideal when centre increases by 1 row's heat exchanger, is promoted from heat exchange amount from the point of view of the result of simulation, can be with
So that evaporation and heat-exchange amount reaches maximum.
The technical solution of the utility model additionally provides other optional real in addition to above-mentioned optimal embodiment
Apply mode.
It is known that caliber is bigger according to conventional air-conditioning knowledge, heat exchange amount is bigger, i.e., when other conditions are identical.4 rows
The heat exchange of the heat exchange amount of 9.52mm caliber heat exchanger tube >=4 row's 7.94mm caliber heat exchanger tubes heat exchange amount >=4 row's 7mm caliber heat exchanger tubes
Measure the heat exchange amount of >=4 row's 5mm caliber heat exchanger tubes.Therefore it need not when the heat exchange amount of 4 row's 7.94mm caliber heat exchanger tubes is unsatisfactory for requiring
The heat exchange of 4 row's 9.52mm caliber heat exchanger tubes can be directly upgraded to by increasing row's heat exchanger (considering from process complexity) in centre
Device, when the exchanger capacity of 4 row's 9.52mm caliber heat exchanger tubes is unsatisfactory for requiring because number of rows cannot be further added by, therefore can only be in
Between position increase heat exchanger and improve whole heat exchange amount.
As shown in fig. 6, as an alternative embodiment, First Heat Exchanger and the second heat exchange are managed using 4 row 9.52mm
The heat exchanger tube of diameter, third heat exchanger use the heat exchanger tube of 1 row's 5mm caliber.
As shown in fig. 7, as an alternative embodiment, First Heat Exchanger and the second heat exchange are managed using 4 row 9.52mm
The heat exchanger tube of diameter, third heat exchanger use the heat exchanger tube of 1 row's 7.94mm caliber.
As shown in figure 8, as an alternative embodiment, First Heat Exchanger and the second heat exchange are managed using 4 row 7.94mm
The heat exchanger tube of diameter, third heat exchanger use the heat exchanger tube of 1 row's 7.94mm caliber.
As shown in figure 9, as an alternative embodiment, First Heat Exchanger and the second heat exchange are managed using 4 row 7.94mm
The heat exchanger tube of diameter, third heat exchanger use the heat exchanger tube of 1 row's 7mm caliber.
As shown in Figure 10, as an alternative embodiment, First Heat Exchanger and the second heat exchange are managed using 4 row 7.94mm
The heat exchanger tube of diameter, third heat exchanger use the heat exchanger tube of 1 row's 5mm caliber.
As shown in figure 11, as an alternative embodiment, First Heat Exchanger and the second heat exchange use 4 row's 7mm calibers
Heat exchanger tube, third heat exchanger use 1 row's 7mm caliber heat exchanger tube.
As shown in figure 12, as an alternative embodiment, First Heat Exchanger and the second heat exchange use 4 row's 7mm calibers
Heat exchanger tube, third heat exchanger use 1 row's 5mm caliber heat exchanger tube.
The utility model additionally provides a kind of air conditioner, which includes above-mentioned heat exchanger assembly.Using above-mentioned
Heat exchanger assembly, can be interior in a limited space, promotes the heat exchange property of heat exchanger assembly, and then promote the usability of air conditioner
Energy.
The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this
For the technical staff in field, the utility model embodiment can have various modifications and variations.All spirit in the utility model
Within principle, any modification, equivalent replacement, improvement and so on be should be included within the scope of protection of this utility model.
Claims (13)
1. a kind of heat exchanger assembly characterized by comprising
First Heat Exchanger (10);
Second heat exchanger (20) is angularly arranged with the First Heat Exchanger (10), and second heat exchanger (20)
First end is connected with the first end of the First Heat Exchanger (10) or mutually close, the second end of second heat exchanger (20) and institute
The second end for stating First Heat Exchanger (10) is mutually separate;
Third heat exchanger (30) is arranged between the First Heat Exchanger (10) and second heat exchanger (20), the third
The first end of heat exchanger (30) is connected on the A point of the First Heat Exchanger (10), the second end of the third heat exchanger (30)
It is connected on the B point of second heat exchanger (20), the A point is located at the first end and second end of the First Heat Exchanger (10)
Between, the B point is located between the first end and second end of second heat exchanger (20).
2. heat exchanger assembly according to claim 1, which is characterized in that the First Heat Exchanger (10) and described second is changed
The structure of hot device (20) is identical.
3. heat exchanger assembly according to claim 1 or 2, which is characterized in that the A point to the First Heat Exchanger (10)
The distance of first end be y, the distance of second end of the A point to the First Heat Exchanger (10) is x, 1:7 < x:y < 1:5.
4. heat exchanger assembly according to claim 3, which is characterized in that x:y=1:6.
5. heat exchanger assembly according to claim 1 or 2, which is characterized in that the B point to second heat exchanger (20)
The distance of first end be b, the distance of the second end of the B point to second heat exchanger (20) is a, 1:7 < a:b < 1:5.
6. heat exchanger assembly according to claim 5, which is characterized in that a:b=1:6.
7. heat exchanger assembly according to claim 1, which is characterized in that the third heat exchanger (30) is by single heat exchanger tube
Composition.
8. heat exchanger assembly according to claim 7, which is characterized in that the caliber of the single heat exchanger tube be 5~
7.94mm。
9. heat exchanger assembly according to claim 1, which is characterized in that the First Heat Exchanger (10) and/or described
Two heat exchangers (20) by multiple rows of set of heat exchange tubes at.
10. heat exchanger assembly according to claim 9, which is characterized in that the First Heat Exchanger (10) and/or described
Two heat exchangers (20) by 4 row's set of heat exchange tubes at.
11. heat exchanger assembly according to claim 10, which is characterized in that the caliber of the 4 row heat exchanger tube be 7~
9.52mm。
12. heat exchanger assembly according to claim 1, which is characterized in that the place plane of the third heat exchanger (30)
Opening between the second end of second heat exchanger (20) and the second end of the First Heat Exchanger (10) is oppositely arranged.
13. a kind of air conditioner, including heat exchanger assembly, which is characterized in that the heat exchanger assembly is to appoint in claim 1 to 12
Heat exchanger assembly described in one.
Priority Applications (1)
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CN201821331225.5U CN208887080U (en) | 2018-08-17 | 2018-08-17 | Heat exchanger assembly and air conditioner |
Applications Claiming Priority (1)
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CN201821331225.5U CN208887080U (en) | 2018-08-17 | 2018-08-17 | Heat exchanger assembly and air conditioner |
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CN208887080U true CN208887080U (en) | 2019-05-21 |
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ID=66509118
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109341054A (en) * | 2018-08-17 | 2019-02-15 | 珠海格力电器股份有限公司 | Heat exchanger assembly and air conditioner |
-
2018
- 2018-08-17 CN CN201821331225.5U patent/CN208887080U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109341054A (en) * | 2018-08-17 | 2019-02-15 | 珠海格力电器股份有限公司 | Heat exchanger assembly and air conditioner |
CN109341054B (en) * | 2018-08-17 | 2024-04-09 | 珠海格力电器股份有限公司 | Heat exchanger assembly and air conditioner |
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