CN204128400U - Micro-channel heat exchanger - Google Patents

Micro-channel heat exchanger Download PDF

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Publication number
CN204128400U
CN204128400U CN201420585564.1U CN201420585564U CN204128400U CN 204128400 U CN204128400 U CN 204128400U CN 201420585564 U CN201420585564 U CN 201420585564U CN 204128400 U CN204128400 U CN 204128400U
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CN
China
Prior art keywords
flat tube
tube
chamber
hole
cavity
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201420585564.1U
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Chinese (zh)
Inventor
张锦
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
XINCHANG COUNTY RUAO TOWN JINYUN MACHINERY PLANT
Original Assignee
XINCHANG COUNTY RUAO TOWN JINYUN MACHINERY PLANT
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Filing date
Publication date
Application filed by XINCHANG COUNTY RUAO TOWN JINYUN MACHINERY PLANT filed Critical XINCHANG COUNTY RUAO TOWN JINYUN MACHINERY PLANT
Priority to CN201420585564.1U priority Critical patent/CN204128400U/en
Application granted granted Critical
Publication of CN204128400U publication Critical patent/CN204128400U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses three kinds of micro-channel heat exchangers, all comprise input pipe joint, discharge conection, flat tube group and the two split type limit collectors being fixedly connected on flat tube group two ends, flat tube group is made up of side by side many flat tubes, limit collector comprises base plate and the inner cover plate of pipe fitting in composition, the outer tube member of hollow cavity is encircled into interior pipe fitting, flat tube group two ends are connected with inner cover plate, base plate is arranged elongated slot through hole, inner cover plate is arranged and oral area corresponding with the elongated slot through hole indent vallecular cavity towards elongated slot through hole, inner groovy cavity length is corresponding with a flat tube group width, inner cover plate arranges the through hole corresponding with flat tube quantity, flat tube inner chamber is communicated with indent vallecular cavity by through hole, outer tube member is arranged and oral area corresponding with the elongated slot through hole outer groove cavity towards elongated slot through hole, indent vallecular cavity, elongated slot through hole and outer groove cavity composition hollow cavity are as flow passage chamber.By split type limit collector, solution cannot check the defects such as flat tube stopping state, medium flow process be short.

Description

Micro-channel heat exchanger
Technical field
The utility model belongs to heat-exchange device, especially relevant with micro-channel heat exchanger.
Background technology
Heat exchanger is heat-exchange device indispensable in air-conditioning, radiator equitemperature conditioning equipment.Existing micro-channel heat exchanger is primarily of flat tube group and the circular edges collector composition being welded on flat tube group two ends, input pipe joint and out splice going splice are divided into both sides collector, flat tube group is made up of side by side many flat tubes, flat tube lumen segmentation becomes between multi-region to form trickle runner, just can consist of the flat tube quantity of flat tube group adjustment limit header length according to installation site size and actual needs adjustment.But such heat exchanger limit collector is integral type, cause runner to block when welding for flat tube or in use procedure cannot check, and the not easily bending of limit collector, heat exchanger is made to be difficult to adapt to difform installation site, from the limit collector installing input pipe joint by flat tube to installing the flow process that the limit collector of out splice going splice is exactly medium, flow process is relatively short.
Utility model content
The purpose of this utility model is intended to solve existing micro-channel heat exchanger and cannot checks and the defects such as flat tube stopping state, installation site bad adaptability, medium flow process be short provide the micro-channel heat exchanger conveniently checking that flat tube, manufacture difficulty are little, installation site adaptability is good, medium flow process is longer.
For this reason, the utility model is by the following technical solutions: a kind of micro-channel heat exchanger, comprise input pipe joint, discharge conection, flat tube group and the two limit collectors being fixedly connected on flat tube group two ends, flat tube group is made up of side by side many flat tubes, it is characterized in that, a flat tube group is connected between two described limit collectors, described limit collector adopts split type, at least comprise the interior pipe fitting that is connected to flat tube two ends and the outer tube member of hollow cavity can be encircled into interior pipe fitting, interior pipe fitting arranges the through hole corresponding with flat tube inner chamber, hollow cavity is as the flow passage chamber be communicated with described through hole, described input pipe joint is connected to wherein side outer tube member being communicated with flow passage chamber, and described discharge conection is connected to opposite side outer tube member and is communicated with flow passage chamber.
Another kind of micro-channel heat exchanger, comprise input pipe joint, discharge conection, flat tube group and the two limit collectors being fixedly connected on flat tube group two ends, flat tube group is made up of side by side many flat tubes, it is characterized in that, two flat tube groups are connected between two described limit collectors, described limit collector adopts split type, at least comprise the interior pipe fitting that is connected to flat tube two ends and the outer tube member of hollow cavity can be encircled into interior pipe fitting, interior pipe fitting arranges the through hole corresponding with flat tube inner chamber, separator is wherein set in hollow cavity described in side and hollow cavity is separated into two flow passage chambers, described input pipe joint and discharge conection are connected to this side outer tube member and are communicated with flow passage chamber, the flow passage chamber be communicated with discharge conection with input pipe joint is respectively as input duct chamber and delivery channel chamber, the length in input duct chamber and delivery channel chamber is corresponding with a flat tube group width, be connecting passage chamber as the hollow cavity of flow passage chamber described in opposite side, connecting passage cavity length is corresponding with two flat tube group width, two flat tube groups are communicated with, formed from input pipe joint inlet flow flow process from out splice going splice output after two flat tube groups, the flow direction of medium in two flat tube groups is contrary.
Also has a kind of micro-channel heat exchanger, comprise input pipe joint, discharge conection, flat tube group and the two limit collectors being fixedly connected on flat tube group two ends, flat tube group is made up of side by side many flat tubes, it is characterized in that, at least three flat tube groups are connected between two described limit collectors, described limit collector adopts split type, at least comprise the interior pipe fitting that is connected to flat tube two ends and the outer tube member of hollow cavity can be encircled into interior pipe fitting, interior pipe fitting arranges the through hole corresponding with flat tube inner chamber, in the described hollow cavity of both sides, separator is all set hollow cavity is separated into multiple flow passage chamber, described input pipe joint is connected to outer tube member with discharge conection and is communicated with flow passage chamber, the flow passage chamber be communicated with discharge conection with input pipe joint is input duct chamber and delivery channel chamber, the length in input duct chamber and delivery channel chamber is corresponding with a flat tube group width, all the other flow passage chambers are connecting passage chamber, connecting passage cavity length is corresponding with two flat tube group width, the connecting passage chamber of every side is communicated with adjacent two flat tube groups, the separator in the connecting passage chamber of both sides is interspersed, formed from the input pipe joint inlet flow flow process that out splice going splice exports after each flat tube group, the flow direction of medium in adjacent two flat tube groups is contrary.
As to technique scheme supplement and perfect, the utility model also comprises following technical characteristic.
Described interior pipe fitting comprises base plate and cover-plate type inner cover plate, base plate is arranged elongated slot through hole, inner cover plate is arranged and oral area corresponding with the described elongated slot through hole indent vallecular cavity towards elongated slot through hole, described flow passage chamber comprises described elongated slot through hole and indent vallecular cavity, inner groovy cavity length is corresponding with a flat tube group width, and the flat tube inner chamber of flat tube group is communicated with indent vallecular cavity by the through hole be arranged at bottom inner cover plate groove cavity.
Described outer tube member is cover-plate type, is provided with and oral area corresponding with the described base plate elongated slot through hole outer groove cavity towards elongated slot through hole, outer groove cavity and described elongated slot through hole, flow passage chamber described in indent vallecular cavity composition.
Described inner cover plate and outer tube member are Integral plate type, and all indent vallecular cavities are all arranged in one piece of inner cover plate, and all outer groove cavitys are all arranged on one piece of outer tube member.
Described inner cover plate and outer tube member are all fastenedly connected by screw and base plate, easy disassembly.
Be provided with fin between the flat tube of described composition flat tube group, increase heat exchange area, improve heat exchange efficiency.
The utility model can reach following beneficial effect: 1, split type by what pipe fitting and outer tube member in the collector of limit are surrounded, the connection situation of checking flat tube inner chamber can be easy to open, also facilitate and limit collector is made various shape, improve heat exchanger to the adaptability of use location, also reduce manufacture difficulty simultaneously; 2, interior pipe fitting all becomes cover-plate type with outer tube member, and is connected to base plate by screw fastening, and processing is simple, easy accessibility.3, separator is set by the hollow cavity that surrounds at inside and outside pipe fitting, is formed and flow through each flat tube group and the contrary long flow process of the flow direction in adjacent flat pipe group, extend medium flow process, improve heat exchange efficiency.
Accompanying drawing explanation
Fig. 1 is front view of the present utility model.
Fig. 2 is top view of the present utility model.
Fig. 3 is the A-A sectional view of Fig. 1.
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail.
As shown in Figures 1 to 3, the utility model comprises input pipe joint 1, discharge conection 5, flat tube group 6 and is fixedly connected on two limit collectors at flat tube group two ends, flat tube group 6 is made up of side by side many flat tubes, is provided with fin between the flat tube of composition flat tube group.Limit collector adopts split type, comprise base plate 2 and the cover-plate type inner cover plate 4 of pipe fitting in composition, the cover-plate type outer tube member 3 of hollow cavity is encircled into interior pipe fitting, inner cover plate 4 and outer tube member 3 all adopt monoblock type, inner cover plate 4 and outer tube member 3 are all fastenedly connected by screw and base plate, flat tube group two ends are connected with inner cover plate, base plate 2 is arranged elongated slot through hole, inner cover plate 4 is arranged and oral area corresponding with the described elongated slot through hole indent vallecular cavity towards elongated slot through hole, inner groovy cavity length is corresponding with a flat tube group width, inner cover plate is provided with the through hole corresponding with flat tube quantity, flat tube inner chamber is communicated with described indent vallecular cavity by described through hole, outer tube member 3 is provided with and oral area corresponding with the described base plate elongated slot through hole outer groove cavity towards elongated slot through hole, indent vallecular cavity, elongated slot through hole and outer groove cavity composition hollow cavity are as the flow passage chamber be communicated with described through hole.When flat tube group only has one, the inner cover plate 4 of every side all only arranges an indent vallecular cavity, the outer tube member 3 of every side also all only arranges an outer groove cavity, a flat tube group is connected between two described inner cover plate 4, described input pipe joint 1 is connected to wherein side outer tube member being communicated with flow passage chamber, described discharge conection 5 is connected to opposite side outer tube member and is communicated with flow passage chamber, inner groovy cavity length in described inner cover plate is corresponding with a flat tube group width, and the outer groove cavity on described outer tube member is also corresponding with a flat tube group width.
When flat tube group has two, the inner cover plate 4 of every side is all arranged two indent vallecular cavities, the outer tube member 3 of wherein side arranges two the outer groove cavitys equal with inner groovy cavity length, plate body between two outer groove cavitys and the plate body between two indent vallecular cavities become separator to combo, pass through channels separated, the outer groove cavity of this side and elongated slot through hole, indent vallecular cavity is made to form hollow cavity, respectively as the input duct chamber be communicated with input pipe joint and the delivery channel chamber be communicated with discharge conection; The outer tube member of opposite side is arranged an outer groove cavity, outside this side, groove cavity length corresponds to two indent vallecular cavities, the hollow cavity that the outer groove cavity in one, this side and described elongated slot through hole, two indent vallecular cavities form is connecting passage chamber, connecting passage cavity length is corresponding with two flat tube group width, two flat tube groups are communicated with, formed and input and from the flow process of out splice going splice output after flowing through two flat tube groups, the flow direction of medium in two flat tube groups is contrary from input pipe joint.
When flat tube group have three and above time, the inner cover plate 4 of every side all arranges the indent vallecular cavity equal with flat tube group quantity, the outer tube member 3 of every side arranges multiple outer groove cavity, input pipe joint 1 is all connected to outer tube member 3 with discharge conection 5 and is communicated with outer groove cavity, corresponding with a flat tube group width with the outer groove cavity length that input pipe joint is communicated with discharge conection, other outer groove cavity length are corresponding with two indent vallecular cavities, plate body between the outer groove cavity in two, every side and the plate body between two indent vallecular cavities become separator to combo, pass through channels separated, make outer groove cavity and elongated slot through hole, indent vallecular cavity composition is as the hollow cavity of flow passage chamber, be input duct chamber and delivery channel chamber with entering the flow passage chamber that pipe joint is communicated with discharge conection, all the other flow passage chambers are connecting passage chamber, the length in input duct chamber and delivery channel chamber is corresponding with a flat tube group, connecting passage cavity length is corresponding with two flat tube group width, the connecting passage chamber of every side is communicated with adjacent two flat tube groups, the separator in the connecting passage chamber of both sides is interspersed, formed from the input pipe joint inlet flow flow process that out splice going splice exports after each flat tube group, the flow direction of medium in adjacent two flat tube groups is contrary.According to the difference of flat tube group quantity, input pipe joint can be connected with the outer tube member of the same side with discharge conection, also can set up both sides separately.
In technique scheme, inner cover plate and outer tube member also can be split type, the corresponding inner cover plate of each indent vallecular cavity, the corresponding outer tube member of each outer groove cavity.Separator also can be arranged to special part, instead of the plate body of inner cover plate and outer tube member.

Claims (8)

1. micro-channel heat exchanger, comprise input pipe joint, discharge conection, flat tube group and be fixedly connected on two limit collectors at flat tube group two ends, flat tube group is made up of side by side many flat tubes, it is characterized in that: between two described limit collectors, connect a flat tube group, described limit collector adopts split type, at least comprise the interior pipe fitting that is connected to flat tube two ends and the outer tube member of hollow cavity can be encircled into interior pipe fitting, interior pipe fitting arranges the through hole corresponding with flat tube inner chamber, and hollow cavity is as the flow passage chamber be communicated with described through hole; Described input pipe joint is connected to wherein side outer tube member being communicated with flow passage chamber, and described discharge conection is connected to opposite side outer tube member and is communicated with flow passage chamber.
2. micro-channel heat exchanger, comprise input pipe joint, discharge conection, flat tube group and the two limit collectors being fixedly connected on flat tube group two ends, flat tube group is made up of side by side many flat tubes, it is characterized in that: between two described limit collectors, connect two flat tube groups, described limit collector adopts split type, at least comprise the interior pipe fitting that is connected to flat tube two ends and the outer tube member of hollow cavity can be encircled into interior pipe fitting, interior pipe fitting arranges the through hole corresponding with flat tube inner chamber, separator is wherein set in hollow cavity described in side and hollow cavity is separated into two flow passage chambers, described input pipe joint and discharge conection are connected to this side outer tube member and are communicated with flow passage chamber, the flow passage chamber be communicated with discharge conection with input pipe joint is respectively as input duct chamber and delivery channel chamber, the length in input duct chamber and delivery channel chamber is corresponding with a flat tube group width, be connecting passage chamber as the hollow cavity of flow passage chamber described in opposite side, connecting passage cavity length is corresponding with two flat tube group width, two flat tube groups are communicated with, formed from input pipe joint inlet flow flow process from out splice going splice output after two flat tube groups, the flow direction of medium in two flat tube groups is contrary.
3. micro-channel heat exchanger, comprise input pipe joint, discharge conection, flat tube group and the two limit collectors being fixedly connected on flat tube group two ends, flat tube group is made up of side by side many flat tubes, it is characterized in that: between two described limit collectors, connect at least three flat tube groups, described limit collector adopts split type, at least comprise the interior pipe fitting that is connected to flat tube two ends and the outer tube member of hollow cavity can be encircled into interior pipe fitting, interior pipe fitting arranges the through hole corresponding with flat tube inner chamber, in the described hollow cavity of both sides, separator is all set hollow cavity is separated into multiple flow passage chamber, described input pipe joint is connected to outer tube member with discharge conection and is communicated with flow passage chamber, the flow passage chamber be communicated with discharge conection with input pipe joint is input duct chamber and delivery channel chamber, the length in input duct chamber and delivery channel chamber is corresponding with a flat tube group width, all the other flow passage chambers are connecting passage chamber, connecting passage cavity length is corresponding with two flat tube group width, the connecting passage chamber of every side is communicated with adjacent two flat tube groups, the separator in the connecting passage chamber of both sides is interspersed, formed from the input pipe joint inlet flow flow process that out splice going splice exports after each flat tube group, the flow direction of medium in adjacent two flat tube groups is contrary.
4. the micro-channel heat exchanger according to claim 1,2 or 3, it is characterized in that: described interior pipe fitting comprises base plate and cover-plate type inner cover plate, base plate is arranged elongated slot through hole, inner cover plate is arranged and oral area corresponding with the described elongated slot through hole indent vallecular cavity towards elongated slot through hole, described flow passage chamber comprises described elongated slot through hole and indent vallecular cavity, inner groovy cavity length is corresponding with a flat tube group width, and the flat tube inner chamber of flat tube group is communicated with indent vallecular cavity by the through hole be arranged at bottom inner cover plate groove cavity.
5. micro-channel heat exchanger according to claim 4, it is characterized in that: described outer tube member is cover-plate type, be provided with and oral area corresponding with the described base plate elongated slot through hole outer groove cavity towards elongated slot through hole, outer groove cavity and described elongated slot through hole, flow passage chamber described in indent vallecular cavity composition.
6. micro-channel heat exchanger according to claim 5, is characterized in that: described inner cover plate and outer tube member are Integral plate type, and all indent vallecular cavities are all arranged in one piece of inner cover plate, and all outer groove cavitys are all arranged on one piece of outer tube member.
7. micro-channel heat exchanger according to claim 6, is characterized in that: described inner cover plate and outer tube member are all fastenedly connected by screw and base plate.
8. micro-channel heat exchanger according to claim 7, is characterized in that: be provided with fin between the flat tube of described composition flat tube group.
CN201420585564.1U 2014-10-11 2014-10-11 Micro-channel heat exchanger Expired - Fee Related CN204128400U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420585564.1U CN204128400U (en) 2014-10-11 2014-10-11 Micro-channel heat exchanger

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420585564.1U CN204128400U (en) 2014-10-11 2014-10-11 Micro-channel heat exchanger

Publications (1)

Publication Number Publication Date
CN204128400U true CN204128400U (en) 2015-01-28

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420585564.1U Expired - Fee Related CN204128400U (en) 2014-10-11 2014-10-11 Micro-channel heat exchanger

Country Status (1)

Country Link
CN (1) CN204128400U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106679460A (en) * 2016-11-18 2017-05-17 华北电力大学(保定) Micro-channel heat exchanger

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106679460A (en) * 2016-11-18 2017-05-17 华北电力大学(保定) Micro-channel heat exchanger
CN106679460B (en) * 2016-11-18 2018-07-17 华北电力大学(保定) A kind of micro-channel heat exchanger

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Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150128

Termination date: 20161011