CN206339121U - A kind of immersion liquid cooled module heat exchanger - Google Patents
A kind of immersion liquid cooled module heat exchanger Download PDFInfo
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- CN206339121U CN206339121U CN201621483718.1U CN201621483718U CN206339121U CN 206339121 U CN206339121 U CN 206339121U CN 201621483718 U CN201621483718 U CN 201621483718U CN 206339121 U CN206339121 U CN 206339121U
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- heat exchanger
- heat exchange
- conduit
- heat
- immersion liquid
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Abstract
The utility model discloses a kind of immersion liquid cooled module heat exchanger, support frame including housing, some heat exchange modules being placed in housing and for supporting heat exchange module, the heat exchange module is from top to bottom at a distance of stacked, each heat exchange module is fastened and connected by two pieces of heat exchanger plates provided with some conduits and constituted, and the conduit of the conduit of one of heat exchanger plates and another piece of heat exchanger plates corresponds and forms runner.The utility model is related to field of heat exchange equipment, and the heat exchange copper coin of the with groove by the way that two pieces of moulds are suppressed is spot-welded together, replaces heat exchanger tube with groove, various heat exchange copper coin has identical structure, it can mutually be replaced, save heat exchange tubing, greatly improve processing efficiency;It is completely immersed in a liquid simultaneously, not only heat exchange efficiency is improved, and effectively avoids uneven and Action of Gravity Field heat exchanging the influence of heat exchange;Make simple, low cost is installed and safeguards all very convenient, has a extensive future.
Description
Technical field
The utility model is related to field of heat exchange equipment, more particularly, to a kind of immersion liquid cooled module heat exchanger.
Background technology
Shell-and-tube heat exchanger is also known as tubular heat exchanger, is to close the wall restrained in the housing as between heat-transfer area
Wall type heat exchanger.This heat exchanger structure is simpler, and operation is reliable, can use various structural materials(Mainly metal material)System
Make, can be used under high temperature, high pressure, be type most widely used at present.
Shell-and-tube heat exchanger is by housing, heating surface bank, tube sheet, deflection plate(Baffle plate)With the part such as bobbin carriage composition.In housing
Portion is fixed on tube sheet equipped with tube bank, tube bank two ends, and the cold and hot two kinds of fluids exchanged heat, one kind is referred to as managed in Bottomhole pressure
Cheng Liuti;Another flowing, referred to as shell-side fluid outside pipe.Shell-and-tube heat exchanger is different due to the temperature of outer fluid in pipe, because
And the housing of heat exchanger is also different from the temperature restrained, very big heat will be produced if both temperature differences are very big, in heat exchanger should
Power, causes tube bending, fracture, or pulled from tube sheet.Therefore, when tube bank and case temperature difference are more than 50 DEG C, it need to take
Adequate compensation measure, to eliminate or reduce thermal stress.According to the indemnifying measure used, shell-and-tube heat exchanger can be divided into following several
Plant main Types:
1st, the tube sheet and housing at fixed tube-sheet exchanger tube bank two ends are joined together, simple in construction, but are only applicable to cold
Hot fluid temperature difference less, and heat exchange operation of shell side when being not required to mechanical cleaning.When temperature difference is slightly larger and shell side pressure less
Gao Shi, can install flexible compensating ring, to reduce thermal stress on housing.
2nd, pipeline of floating-head heat exchanger Shu Yiduan tube sheet can free floating, completely eliminate thermal stress;And whole tube bank can
Extracted out from housing, be easy to mechanical cleaning and maintenance.The application of movable tube sheets heat exchanger is wider, but structure is more complicated, cost compared with
It is high.
3rd, U-shaped every heat exchanger tube of pipe heat exchanger all curves U-shaped, and two ends are separately fixed at twoth area above and below same tube sheet, borrowed
Help the dividing plate in bobbin carriage and be divided into two Room of import and export.Such a heat exchanger completely eliminates thermal stress, and structure is simpler than floating head type, but
Tube side not easy cleaning.
4th, vortex hotting mask heat exchanger vortex hotting mask heat exchanger uses newest vortex hotting mask heat transfer technology, by changing fluid
Motion state increases heat-transfer effect, when medium is by vortex pipe surface, tube surface is strongly washed away, so as to improve heat exchange effect
Rate.Reach as high as 10000W/m2 DEG C.Simultaneously the configuration achieves corrosion-resistant, high temperature resistant, high pressure resistant, good antiscale property function, but into
This height.
Although tubular heat exchanger several indemnifying measures more than improve it in housing and tube bank temperature to a certain extent
There is tube bending, fracture or the defect that phenomenon is pulled from tube sheet in difference when larger, but always using normal in terms of the manufacturing
The technique and preparation method of rule, processing efficiency are low, and heat is not also broken through, it is impossible to break away from heat exchange inequality and gravity heat exchanging
Influence, soil cleaning problem can not be also resolved always, therefore, it is necessary to be improved to prior art.
Utility model content
The utility model is to overcome at least one deficiency described in above-mentioned prior art there is provided a kind of heat exchange efficiency height, tie
The immersion liquid cooled module heat exchanger that structure is simple, processes facility, low manufacture cost, be easily installed maintenance.
In order to solve above-mentioned technical problem, the utility model uses following technical proposals:
A kind of immersion liquid cooled module heat exchanger, including housing, some heat exchange modules for being placed in housing and for supporting
The support frame of heat exchange module, the heat exchange module is from top to bottom at a distance of being stacked, and each heat exchange module is provided with some conduits by two pieces
Heat exchanger plates be fastened and connected composition, the conduit of the conduit of one of heat exchanger plates and another piece of heat exchanger plates corresponds and forms stream
Road.
The utility model is mutually fastened and connected to form heat exchange module by having two pieces the heat exchanger plates of conduit, one of
The conduit of the conduit of heat exchanger plates and another piece of heat exchanger plates corresponds and forms the runner equivalent to heat exchanger tube, to replace heat exchange
Flat part is bonded to each other in addition to conduit on pipe, the use of saving heat exchanger tube, heat exchanger plates, naturally occurs the radiating fin of runner
Piece, and because conduit directly can be obtained flat board by compressing method, conduit and flat part be connected as one it is whole
Body, compared to for installing fin additional outside heat exchanger tube, substantially reduces the thermal resistance of both contact positions, improves heat transfer efficiency;Equivalent to
The runner of heat exchanger tube is alternate with the heat exchanger plates flat part equivalent to radiating fin to link into an integrated entity, it is ensured that same heat exchange module
Upper each position heat exchange is uniform, it is to avoid be more not in the heat exchanger tube that common tubular heat exchanger occurs because warpage occurs in the temperature difference
The problem of pulling, improves the heat exchanger life-span.At the same time, the setting of conduit make it that heat exchanger plates or heat exchange module surface form bumps
The face of fluctuating, when multiple heat exchange modules are stacked, repeatedly forms turbulent flow or vortex, reduces thermal resistance, raising is changed when heat transferring medium is flowed through
The thermal efficiency, and cause heat exchanger tube and scattered because this flow behavior exchange heat pipe and radiated rib of heat transferring medium form to hit
The surface of hot fin is less scaling.Heat exchange module is completely immersed in a liquid, not only heat exchange efficiency is improved, and is effectively kept away
Uneven and Action of Gravity Field heat exchanging the influence of heat exchange is exempted from.In addition, by the formation of heat exchange element modularization, i.e. heat exchange module, having
Beneficial to standardization is realized, when carrying out heat exchanger clean and maintenance, can be substituted with other heat exchange modules needs the heat exchange of clean and maintenance
Module, will not delay the operation of production line, and some of which heat exchange module also allows for being changed when breaking down, and accelerate maintenance speed
Degree.
In order to improve heat transfer rate, the conduit is arranged side by side and is apart arranged on heat exchanger plates, in the heat exchange perpendicular to conduit
Edges of boards edge forms multiple flow channel entry points, and tube side fluid can realize the purpose of shunting heat exchange, so as to improve the flow velocity of tube side fluid.
To improve heat exchange efficiency, the conduit is corrugated in the plane in heat exchanger plates institute, and increase tube side fluid is each
Flow in runner, increases heat exchange area, so as to improve heat exchange efficiency, and tube side fluid can be to conduit when flowing through corrugated conduit
Impact is formed, contact of the increase tube side fluid with conduit strengthens heat transfer effect, table in conduit is prevented while improving heat exchange efficiency
Face fouling.
The heat exchanger plates that two pieces of correspondences are fastened at least are tightly connected in the both sides of the edge parallel with conduit by sealing strip,
Avoid tube side fluid from being overflowed from the heat exchanger plates both sides of the edge parallel with conduit and cause leakage.
Further to improve the sealing of heat exchange module, the surrounding for the heat exchanger plates that two pieces of correspondences are fastened passes through sealing strip
It is tightly connected.
For convenience of the maintenance and maintenance of heat exchanger, upwards, the immersion liquid cooled module heat exchanger is also for the shell nozzle
Top cover including covering in shell nozzle.
Air bleeding valve is provided with above the top cover, the gas occurred during liquid SAPMAC method occurs is excluded.
The utility model has the advantages that compared with prior art:This patent passes through the band of suppressing two pieces of moulds
The heat exchange copper coin of groove is spot-welded together, and heat exchanger tube is replaced with groove, and various heat exchange copper coin has identical structure, can be mutual
Mutually it is replaced, saves heat exchange tubing, greatly improve processing efficiency;It is completely immersed in a liquid, is not only changed simultaneously
The thermal efficiency is improved, and effectively avoids uneven and Action of Gravity Field heat exchanging the influence of heat exchange;Make simple, low cost, peace
Dress safeguards all very convenient, has a extensive future.
Brief description of the drawings
Fig. 1 is the top view of immersion liquid cooled module heat exchanger;
Fig. 2 is the side view of immersion liquid cooled module heat exchanger;
Fig. 3 is the structural representation of heat exchange module;
Description of reference numerals:Housing 100, heat exchange module 200, heat exchanger plates 210, conduit 211, support frame 300, top cover 400,
Air bleeding valve 410.
Embodiment
Accompanying drawing being given for example only property explanation, it is impossible to be interpreted as the limitation to this patent;It is attached in order to more preferably illustrate the present embodiment
Scheme some parts to have omission, zoom in or out, do not represent the size of actual product;To those skilled in the art,
Some known features and its explanation may be omitted and will be understood by accompanying drawing;Described in accompanying drawing position relationship be used for be only used for
Exemplary illustration, it is impossible to be interpreted as the limitation to this patent.The utility model is done further in detail with reference to specific embodiment
Describe in detail bright.
As shown in Figure 1 and 2, a kind of immersion liquid cooled module heat exchanger, including housing 100, be placed in it is some in housing 100
Heat exchange module 200 and the support frame 300 for supporting heat exchange module 200, the heat exchange module 200 are from top to bottom stacked apart,
Each heat exchange module 200 is fastened and connected by two pieces of heat exchanger plates 210 provided with some conduits 211 and constituted, one of heat exchanger plates 210
The conduits 211 of conduit 211 and another piece of heat exchanger plates 210 correspond and form runner.
The present embodiment is mutually fastened and connected to form heat exchange module 200 by having two pieces the heat exchanger plates 210 of conduit 211,
The conduit 211 of the conduit 211 of one of heat exchanger plates 210 and another piece of heat exchanger plates 210 is corresponded and formed equivalent to heat exchange
The runner of pipe, to replace heat exchanger tube, saves on the use of heat exchanger tube, heat exchanger plates 210 that flat part is mutually pasted in addition to conduit 211
Close, naturally occur the radiating fin of runner, and because conduit 211 directly can be obtained flat board by compressing method
Arrive, conduit 211 and flat part are connected as an entirety, compared to for installing fin additional outside heat exchanger tube, substantially reduce both and connect
The thermal resistance of synapsis, improves heat transfer efficiency;Runner equivalent to heat exchanger tube and the flat part phase of heat exchanger plates 210 equivalent to radiating fin
Between link into an integrated entity, it is ensured that the heat exchange of each position is uniform on same heat exchange module 200, it is to avoid because warpage occurs in the temperature difference, more
Be not in the problem of heat exchanger tube that occurs of common tubular heat exchanger is pulled, improve the heat exchanger life-span.At the same time, conduit
211 setting causes heat exchanger plates 210 or the surface of heat exchange module 200 forms ups and downs face, and multiple heat exchange modules 200 are stacked
When, turbulent flow or vortex are repeatedly formed when heat transferring medium is flowed through, thermal resistance is reduced, heat exchange efficiency is improved, and due to heat transferring medium
This flow behavior exchange heat pipe and radiated rib formation, which are hit, make it that the surface of heat exchanger tube and radiated rib is less scaling.It will change
Thermal modules 200 are completely immersed in a liquid, and not only heat exchange efficiency is improved, and effectively avoid heat exchange inequality and Action of Gravity Field
The influence of heat exchanging.In addition, by the formation of heat exchange element modularization, i.e. heat exchange module 200, being advantageously implemented standardization, carry out
During heat exchanger clean and maintenance, can be substituted with other heat exchange modules 200 needs the heat exchange module 200 of clean and maintenance, will not delay
The operation of production line, some of which heat exchange module 200 also allows for being changed when breaking down, and accelerates maintenance speed.
In order to improve heat transfer rate, the conduit 211 is arranged side by side and is apart arranged on heat exchanger plates 210, perpendicular to conduit
211 edge of heat exchanger plates 210 forms multiple flow channel entry points, and tube side fluid can realize the purpose of shunting heat exchange, so as to improve pipe
Cheng Liuti flow velocity.
As shown in figure 3, to improve heat exchange efficiency, the conduit 211 is corrugated in the plane in the institute of heat exchanger plates 210, increases
Plus tube side fluid flow in each runner, increase heat exchange area, so that heat exchange efficiency is improved, and also tube side fluid flows through ripple
The formation of conduit 211 can be impacted during shape conduit 211, increase tube side fluid contact with conduit 211, strengthen heat transfer effect, improve
The inner surface fouling of conduit 211 is prevented while heat exchange efficiency.
The heat exchanger plates 210 that two pieces of correspondences are fastened are at least close by sealing strip in the both sides of the edge parallel with conduit 211
Envelope connection, it is to avoid tube side fluid is overflowed from the both sides of the edge of heat exchanger plates 210 parallel with conduit 211 causes leakage.
Further to improve the sealing of heat exchange module 200, the surrounding for the heat exchanger plates 210 that two pieces of correspondences are fastened passes through
Sealing strip is tightly connected.
For convenience of the maintenance and maintenance of heat exchanger, the opening upwards of housing 100, the immersion liquid cooled module heat exchanger
Also include the top cover 400 for covering in the opening of housing 100.
The top of top cover 400 is provided with air bleeding valve 410, excludes the gas occurred during liquid SAPMAC method occurs.
Obviously, above-described embodiment of the present utility model is only intended to clearly illustrate the utility model example, and
It is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, in described above
On the basis of can also make other changes in different forms.There is no need and unable to give all embodiments
It is exhaustive.All any modification, equivalent and improvement made within spirit of the present utility model and principle etc., should be included in
Within the utility model scope of the claims.
Claims (7)
1. a kind of immersion liquid cooled module heat exchanger, including housing, it is characterised in that also some changed including be arranged in housing
Thermal modules and the support frame for supporting heat exchange module, the heat exchange module from top to bottom at a distance of stacked, each heat exchange module by
Two pieces of heat exchanger plates provided with some conduits are fastened and connected the conduit of compositions, the conduit of one of heat exchanger plates and another piece of heat exchanger plates
Correspond and form runner.
2. immersion liquid cooled module heat exchanger according to claim 1, it is characterised in that the conduit is side by side and at a distance of cloth
It is placed on heat exchanger plates.
3. immersion liquid cooled module heat exchanger according to claim 1, it is characterised in that the conduit is where heat exchanger plates
It is corrugated in plane.
4. immersion liquid cooled module heat exchanger according to claim 1, it is characterised in that two pieces of the described of correspondence fastening are changed
Hot plate is at least tightly connected in the both sides of the edge parallel with conduit by sealing strip.
5. immersion liquid cooled module heat exchanger according to claim 4, it is characterised in that two pieces of the described of correspondence fastening are changed
The surrounding of hot plate is tightly connected by sealing strip.
6. immersion liquid cooled module heat exchanger according to claim 1, it is characterised in that the shell nozzle is upward, institute
State the top cover that immersion liquid cooled module heat exchanger also includes covering in shell nozzle.
7. immersion liquid cooled module heat exchanger according to claim 6, it is characterised in that provided with exhaust above the top cover
Valve.
Priority Applications (1)
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CN201621483718.1U CN206339121U (en) | 2016-12-30 | 2016-12-30 | A kind of immersion liquid cooled module heat exchanger |
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CN201621483718.1U CN206339121U (en) | 2016-12-30 | 2016-12-30 | A kind of immersion liquid cooled module heat exchanger |
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CN206339121U true CN206339121U (en) | 2017-07-18 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106524782A (en) * | 2016-12-30 | 2017-03-22 | 广东申菱环境系统股份有限公司 | Immersive liquid-cooled module heat exchanger and manufacturing method thereof |
-
2016
- 2016-12-30 CN CN201621483718.1U patent/CN206339121U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106524782A (en) * | 2016-12-30 | 2017-03-22 | 广东申菱环境系统股份有限公司 | Immersive liquid-cooled module heat exchanger and manufacturing method thereof |
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