CN110057090A - A kind of hybrid heat exchange device for air and heat change method - Google Patents
A kind of hybrid heat exchange device for air and heat change method Download PDFInfo
- Publication number
- CN110057090A CN110057090A CN201910227052.5A CN201910227052A CN110057090A CN 110057090 A CN110057090 A CN 110057090A CN 201910227052 A CN201910227052 A CN 201910227052A CN 110057090 A CN110057090 A CN 110057090A
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- Prior art keywords
- air
- hole
- diffuser plate
- flow
- shell
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F12/00—Use of energy recovery systems in air conditioning, ventilation or screening
- F24F12/001—Use of energy recovery systems in air conditioning, ventilation or screening with heat-exchange between supplied and exhausted air
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/30—Arrangement or mounting of heat-exchangers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B39/00—Evaporators; Condensers
- F25B39/02—Evaporators
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B39/00—Evaporators; Condensers
- F25B39/04—Condensers
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Duct Arrangements (AREA)
Abstract
The present invention relates to field of central air-conditioning, in particular to a kind of hybrid heat exchange device for air and heat change method.A kind of hybrid heat exchange device for air, comprising: diversion pipe one, pod, diversion pipe two, diversion pipe three, baffle.The through-hole one is arranged between one central axes of through-hole two and diffuser plate, and the through-hole three is arranged between two central axes of through-hole four and diffuser plate.The configuration of the present invention is simple, it occupies small in size, it is easy to use and safeguards, during air draft and air inlet carry out heat exchange, so that air inlet is divided into multi beam air-flow and these air-flows is made to be in the state being constantly mutually mixed, increases heat exchange area, improve heat exchanger effectiveness, and the air draft Jing Guo heat exchange plays heat insulation effect to air inlet, the energy of the air draft made full use of.
Description
Technical field
The present invention relates to heat exchange equipment technology, in particular to a kind of hybrid heat exchange device for air and heat exchange
Method.
Background technique
Heat exchange is precisely due to heat transfer process between two objects or same object each section caused by the temperature difference.
Heat exchange is generally completed by three kinds of heat transfer, thermal convection and heat radiation modes.
The outdoor fresh air of (heat) introducing is pre-chilled using the energy in indoor exhaust wind, can reach reduces fresh air system energy consumption
Purpose.By heat exchanger application in central air conditioner system, indoor air quality not only can be improved, and can be effectively
New wind load is reduced, the installed capacity of cold and hot source device is reduced, air-conditioning system operational efficiency is improved, saves systematic running cost use
Deng.
Therefore, how to make adequately to carry out heat exchange between air inlet and air draft, be current to make full use of the energy of air draft
Problem to be solved.
Summary of the invention
Therefore, the present invention exactly makes in view of problem above, and the purpose of the present invention is to provide a kind of hybrid skies
Gas heat-exchange device and heat change method improve the utilization rate of air draft energy.The present invention is achieved through the following technical solutions
State purpose.
The present invention provides a kind of hybrid heat exchange device for air, comprising: diversion pipe one, pod, diversion pipe two, water conservancy diversion
Pipe three, baffle;
The diversion pipe one includes: blast pipe, diffuser plate one, through-hole one, through-hole two, diffuser plate two, through-hole three, through-hole
Four;
The blast pipe be that upper end is open and lower end closed it is columnar structured;
The diffuser plate one is round concavees lens structure;
The diffuser plate one is equipped with multiple through-holes one around its central axes in above-below direction;
The through-hole one is the cylindrical structure of distortion, and the central point of end face is close to the central axes of diffuser plate one, institute thereon
The central point of one lower end surface of through-hole is stated relative to central axes of the end face central point far from diffuser plate one thereon;
The diffuser plate one is equipped with multiple through-holes two around its central axes in above-below direction;
The through-hole two be distortion cylindrical structure, thereon the central axes of the central point Yu diffuser plate one of end face away from
From with the central point of two lower end surface of through-hole and being equidistant for the central axes of diffuser plate one;
The through-hole one is arranged between one central axes of through-hole two and diffuser plate;
The diffuser plate two is round concavees lens structure;
The diffuser plate two is equipped with multiple through-holes three around its central axes in above-below direction;
The through-hole three is the cylindrical structure of distortion, and the central point of end face is close to the central axes of diffuser plate two, institute thereon
The central point of three lower end surface of through-hole is stated relative to central axes of the end face central point far from diffuser plate three thereon;
The diffuser plate two is equipped with multiple through-holes four around its central axes in above-below direction;
The through-hole four be distortion cylindrical structure, thereon the central axes of the central point Yu diffuser plate two of end face away from
From with the central point of four lower end surface of through-hole and being equidistant for the central axes of diffuser plate two;
The through-hole three is arranged between two central axes of through-hole four and diffuser plate;
It is equipped with multiple through-holes three in above-below direction around its central axes;
The through-hole three is the cylindrical structure of distortion, and the central point of end face is close to the central axes of diffuser plate two, institute thereon
The central point of three lower end surface of through-hole is stated relative to central axes of the end face central point far from diffuser plate two thereon;
The diffuser plate two is equipped with multiple through-holes four around its central axes in above-below direction;
The through-hole four be distortion cylindrical structure, thereon the central axes of the central point Yu diffuser plate two of end face away from
From with the central point of four lower end surface of through-hole and being equidistant for the central axes of diffuser plate two;
The through-hole three is arranged between two central axes of through-hole four and diffuser plate;
Part of the diffuser plate one other than through-hole one, through-hole two is the structural body of inner hollow;
Part of the diffuser plate two other than through-hole three, through-hole four is the structural body of inner hollow;
The lower end of the blast pipe passes through region of the diffuser plate together with one inner hollow of diffuser plate and interlinks;
The lower end of the blast pipe passes through diffuser plate two and interlinks with the region of two inner hollow of diffuser plate;
The diffuser plate one is located at the top of diffuser plate three;
The pod includes: shell, groove;
The shell be that lower end is open and upper end closed it is columnar structured;
The lower end surface of the shell is equipped with a cylinder groove;
The lower end of the blast pipe passes through the upper end of shell and interlinks with the inside of shell;
The inside of shell is arranged in the diffuser plate one, and the outside wall surface of diffuser plate one makes diffusing across the inner wall of shell
The region of one inner hollow of plate interlinks with groove;
The inside of shell is arranged in the diffuser plate two, and the outside wall surface of diffuser plate two makes diffusing across the inner wall of shell
The region of two inner hollow of plate interlinks with groove;
The baffle is cylindrical structure, thereon end face and shell lower end surface in a groove between region be connected;
The diversion pipe two is columnar structured, is horizontally disposed, and its left end is along the tangent line side of inner walls face
It interlinks to the inside for extending to shell and with the inside of shell;
The top of diffuser plate one is arranged in the diversion pipe two;
The diversion pipe three is columnar structured, is horizontally disposed, and its left end is along the tangent line side of inner walls face
It interlinks to the inside for extending to shell and with the inside of shell;
The diversion pipe three is arranged between diffuser plate two and baffle.
In one embodiment, inner wall, upper wall surface and the lower wall surface of the diffuser plate one are respectively provided with protrusion or groove.
In one embodiment, inner wall, upper wall surface and the lower wall surface of the diffuser plate two are respectively provided with protrusion or groove.
The present invention also provides a kind of hybrid hot methods of air, using a kind of hybrid heat exchange device for air, including
Following steps:
1. the first working condition: inlet air temperature is lower than temperature of outgoing air.
Air inlet is directed into the air-flow that enclosure interior forms rotation by diversion pipe three, and the air-flow of rotation passes through diffuser plate two
When, a part of air-flow forms the air-flow reversed towards one central axes direction of diversion pipe along through-hole three, and near diversion pipe one
Converge and mixed, and spread to the inner wall of shell, another part air-flow is formed along the inner wall of through-hole four and shell to be revolved
The air-flow turned is mixed by the air-flow of through-hole three with the air-flow of through-hole four at the same time.
After the air-flow of through-hole three is mixed with the air-flow of through-hole four, after diffuser plate one, a part of air-flow edge
Through-hole one form the air-flow that reverses towards one central axes direction of diversion pipe, and converge near diversion pipe one and mixed, and
It is spread to the inner wall of shell, another part air-flow forms the air-flow of rotation along the inner wall of through-hole two and shell, same with this
When mixed by the air-flow of through-hole one with the air-flow of through-hole two.
It is exported after the air-flow of through-hole one is mixed with the air-flow of through-hole two by diversion pipe two.
Air draft is directed into diversion pipe one, and a portion air-flow is directed into diffuser plate two, to flowing through diffuser plate two
Air-flow is heated for the first time, is then exported by groove, is directed into another part air-flow in diversion pipe one and is directed into diffuser plate one
It in the region of inner hollow, heats, i.e., is carried out again to by the air-flow of diffuser plate two to by the air-flow of diffuser plate one
Heating.
In the process, air draft derived from groove plays the role of heat preservation to the air-flow of enclosure interior.
2. second of working condition: inlet air temperature is higher than temperature of outgoing air.
Air inlet is directed into the air-flow that enclosure interior forms rotation by diversion pipe three, and the air-flow of rotation passes through diffuser plate two
When, a part of air-flow forms the air-flow reversed towards one central axes direction of diversion pipe along through-hole three, and near diversion pipe one
Converge and mixed, and spread to the inner wall of shell, another part air-flow is formed along the inner wall of through-hole four and shell to be revolved
The air-flow turned is mixed by the air-flow of through-hole three with the air-flow of through-hole four at the same time.
After the air-flow of through-hole three is mixed with the air-flow of through-hole four, after diffuser plate one, a part of air-flow edge
Through-hole one form the air-flow that reverses towards one central axes direction of diversion pipe, and converge near diversion pipe one and mixed, and
It is spread to the inner wall of shell, another part air-flow forms the air-flow of rotation along the inner wall of through-hole two and shell, same with this
When mixed by the air-flow of through-hole one with the air-flow of through-hole two.
It is exported after the air-flow of through-hole one is mixed with the air-flow of through-hole two by diversion pipe two.
Air draft is directed into diversion pipe one, and a portion air-flow is directed into diffuser plate two, to flowing through diffuser plate two
Air-flow is cooled down for the first time, is then exported by groove, is directed into another part air-flow in diversion pipe one and is directed into diffuser plate one
It in the region of inner hollow, cools down, i.e., is carried out again to by the air-flow of diffuser plate two to by the air-flow of diffuser plate one
It is cooling.
In the process, air draft derived from groove plays the role of heat preservation to the air-flow of enclosure interior.
Beneficial effects of the present invention are as follows:
1. structure is simple, small in size, easy to use and maintenance is occupied.
2. making air inlet be divided into multi beam air-flow during air draft and air inlet carry out heat exchange and being in these air-flows not
The disconnected state being mutually mixed, increases heat exchange area, improves heat exchanger effectiveness, and the air draft Jing Guo heat exchange is to entering the wind
To heat insulation effect, the energy of the air draft made full use of.
Detailed description of the invention
Fig. 1 is overall structure view of the invention.
Fig. 2 is detonation configuration view of the invention.
Fig. 3 is part-structure view one of the invention.
Fig. 4 is part-structure view two of the invention.
Fig. 5 is part-structure view three of the invention.
Specific embodiment
The preferred embodiment of the present invention will be described in detail by reference to attached drawing, in this way showing for field that the present invention belongs to
There are these embodiments easy to accomplish for the people in technical staff with ordinary skill.However the present invention can also be a variety of different
Form is realized, therefore the present invention is not limited to embodiments described hereinafters.In addition, in order to more clearly describe the present invention, with this
The component that invention does not connect will be omitted from attached drawing.
As shown in Fig. 1 Fig. 2, a kind of hybrid heat exchange device for air, comprising: diversion pipe 1, pod 2, diversion pipe two
3, diversion pipe 34, baffle 5;
As shown in Figures 3 and 4, the diversion pipe 1 includes: blast pipe 11, diffuser plate 1, through-hole 1, through-hole two
14, diffuser plate 2 15, through-hole 3 16, through-hole 4 17;
The blast pipe 11 be that upper end is open and lower end closed it is columnar structured;
The diffuser plate 1 is round concavees lens structure;
The diffuser plate 1 is equipped with multiple through-holes 1 around its central axes in above-below direction;
The through-hole 1 is the cylindrical structure of distortion, thereon axis of the central point of end face close to diffuser plate 1
Line, the central point of one 13 lower end surface of through-hole is relative to central axes of the end face central point far from diffuser plate 1 thereon;
The diffuser plate 1 is equipped with multiple through-holes 2 14 around its central axes in above-below direction;
The through-hole 2 14 is the cylindrical structure of distortion, thereon the central axes of the central point Yu diffuser plate 1 of end face
Distance, with the central point of 2 14 lower end surface of through-hole and being equidistant for the central axes of diffuser plate 1;
The through-hole 1 is arranged between one 12 central axes of through-hole 2 14 and diffuser plate;
The diffuser plate 2 15 is round concavees lens structure;
The diffuser plate 2 15 is equipped with multiple through-holes 3 16 around its central axes in above-below direction;
The through-hole 3 16 is the cylindrical structure of distortion, thereon axis of the central point of end face close to diffuser plate 2 15
Line, the central point of 3 16 lower end surface of through-hole is relative to central axes of the end face central point far from diffuser plate 3 16 thereon;
The diffuser plate 2 15 is equipped with multiple through-holes 4 17 around its central axes in above-below direction;
The through-hole 4 17 is the cylindrical structure of distortion, thereon the central axes of the central point Yu diffuser plate 2 15 of end face
Distance, with the central point of 4 17 lower end surface of through-hole and being equidistant for the central axes of diffuser plate 2 15;
The through-hole 3 16 is arranged between 2 15 central axes of through-hole 4 17 and diffuser plate;
It is equipped with multiple through-holes 3 16 in above-below direction around its central axes;
The through-hole 3 16 is the cylindrical structure of distortion, thereon axis of the central point of end face close to diffuser plate 2 15
Line, the central point of 3 16 lower end surface of through-hole is relative to central axes of the end face central point far from diffuser plate 2 15 thereon;
The diffuser plate 2 15 is equipped with multiple through-holes 4 17 around its central axes in above-below direction;
The through-hole 4 17 is the cylindrical structure of distortion, thereon the central axes of the central point Yu diffuser plate 2 15 of end face
Distance, with the central point of 4 17 lower end surface of through-hole and being equidistant for the central axes of diffuser plate 2 15;
The through-hole 3 16 is arranged between 2 15 central axes of through-hole 4 17 and diffuser plate;
Part of the diffuser plate 1 other than through-hole 1, through-hole 2 14 is the structural body of inner hollow;
Part of the diffuser plate 2 15 other than through-hole 3 16, through-hole 4 17 is the structural body of inner hollow;
The lower end of the blast pipe 11 passes through diffuser plate 1 and interlinks with the region of one 12 inner hollow of diffuser plate;
The lower end of the blast pipe 11 passes through diffuser plate 2 15 and interlinks with the region of 2 15 inner hollow of diffuser plate;
The diffuser plate 1 is located at the top of diffuser plate 3 15;
As shown in figure 5, the pod 2 includes: shell 21, groove 22;
The shell 21 be that lower end is open and upper end closed it is columnar structured;
The lower end surface of the shell 21 is equipped with a cylinder groove 22;
The lower end of the blast pipe 11 passes through the upper end of shell 21 and interlinks with the inside of shell 21;
The inside of shell 21 is arranged in the diffuser plate 1, and the outside wall surface of diffuser plate 1 passes through the inner wall of shell 21
Face makes the region of one 12 inner hollow of diffuser plate interlink with groove 22;
The inside of shell 21 is arranged in the diffuser plate 2 15, and the outside wall surface of diffuser plate 2 15 passes through the inner wall of shell 21
Face makes the region of 2 15 inner hollow of diffuser plate interlink with groove 22;
The baffle 5 is cylindrical structure, and the region of end face and 21 lower end surface of shell among groove 22 is connected thereon;
The diversion pipe 23 is columnar structured, is horizontally disposed, and its left end is along the tangent line of 21 inner wall of shell
Direction extends to the inside of shell 21 and interlinks with the inside of shell 21;
The top of diffuser plate 1 is arranged in the diversion pipe 23;
The diversion pipe 34 is columnar structured, is horizontally disposed, and its left end is along the tangent line of 21 inner wall of shell
Direction extends to the inside of shell 21 and interlinks with the inside of shell 21;
The diversion pipe 34 is arranged between diffuser plate 2 15 and baffle 5.
Preferably, as an embodiment, inner wall, upper wall surface and the lower wall surface of the diffuser plate 1 are respectively provided with
Protrusion or groove, this setting generate turbulent flow when increasing heat exchange area and passing through air-flow, improve heat exchange effect.
Preferably, as an embodiment, inner wall, upper wall surface and the lower wall surface of the diffuser plate 2 15 are respectively provided with
Protrusion or groove, this setting generate turbulent flow when increasing heat exchange area and passing through air-flow, improve heat exchange effect.
The present invention also provides a kind of hybrid hot methods of air, using a kind of hybrid air heat exchange picture 1-4
Device, comprising the following steps:
1. the first working condition: inlet air temperature is lower than temperature of outgoing air.
Air inlet is directed into the air-flow that rotation is formed inside shell 21 by diversion pipe 34, and the air-flow of rotation passes through diffuser plate
When 2 15, a part of air-flow forms the air-flow reversed towards one 1 central axes direction of diversion pipe along through-hole 3 16, and in diversion pipe
One 1 nearby converge and are mixed, and spread to the inner wall of shell 21, and another part air-flow is along through-hole 4 17 and shell 21
Inner wall forms the air-flow of rotation, is mixed at the same time by the air-flow of through-hole 3 16 with the air-flow of through-hole 4 17.
After the air-flow of through-hole 3 16 is mixed with the air-flow of through-hole 4 17, after diffuser plate 1, a part
Air-flow forms the air-flow that reverses towards one 1 central axes direction of diversion pipe along through-hole 1, and converge near diversion pipe 1 into
Row mixing, and spread to the inner wall of shell 21, another part air-flow is formed along the inner wall of through-hole 2 14 and shell 21 to be revolved
The air-flow turned is mixed by the air-flow of through-hole 1 with the air-flow of through-hole 2 14 at the same time.
It is exported after the air-flow of through-hole 1 is mixed with the air-flow of through-hole 2 14 by diversion pipe 23.
Air draft is directed into diversion pipe 1, and a portion air-flow is directed into diffuser plate 2 15, to flowing through diffuser plate two
15 air-flow is heated for the first time, is then exported by groove 22, be directed into another part air-flow in diversion pipe 1 be directed into it is scattered
It in the region of one 12 inner hollow of flowing plate, is heated to by the air-flow of diffuser plate 1, i.e., to by diffuser plate 2 15
Air-flow is heated again.
In the process, air draft derived from groove 22 plays the role of heat preservation to the air-flow inside shell 21.
2. second of working condition: inlet air temperature is higher than temperature of outgoing air.
Air inlet is directed into the air-flow that rotation is formed inside shell 21 by diversion pipe 34, and the air-flow of rotation passes through diffuser plate
When 2 15, a part of air-flow forms the air-flow reversed towards one 1 central axes direction of diversion pipe along through-hole 3 16, and in diversion pipe
One 1 nearby converge and are mixed, and spread to the inner wall of shell 21, and another part air-flow is along through-hole 4 17 and shell 21
Inner wall forms the air-flow of rotation, is mixed at the same time by the air-flow of through-hole 3 16 with the air-flow of through-hole 4 17.
After the air-flow of through-hole 3 16 is mixed with the air-flow of through-hole 4 17, after diffuser plate 1, a part
Air-flow forms the air-flow that reverses towards one 1 central axes direction of diversion pipe along through-hole 1, and converge near diversion pipe 1 into
Row mixing, and spread to the inner wall of shell 21, another part air-flow is formed along the inner wall of through-hole 2 14 and shell 21 to be revolved
The air-flow turned is mixed by the air-flow of through-hole 1 with the air-flow of through-hole 2 14 at the same time.
It is exported after the air-flow of through-hole 1 is mixed with the air-flow of through-hole 2 14 by diversion pipe 23.
Air draft is directed into diversion pipe 1, and a portion air-flow is directed into diffuser plate 2 15, to flowing through diffuser plate two
15 air-flow is cooled down for the first time, is then exported by groove 22, be directed into another part air-flow in diversion pipe 1 be directed into it is scattered
It in the region of one 12 inner hollow of flowing plate, is cooled down to by the air-flow of diffuser plate 1, i.e., to by diffuser plate 2 15
Air-flow is cooled down again.
In the process, air draft derived from groove 22 plays the role of heat preservation to the air-flow inside shell 21.
Claims (4)
1. a kind of hybrid heat exchange device for air, comprising: diversion pipe one (1), pod (2), diversion pipe two (3), diversion pipe
Three (4), baffle (5);
It is characterized by: the diversion pipe one (1) includes: blast pipe (11), diffuser plate one (12), through-hole one (13), through-hole two
(14), diffuser plate two (15), through-hole three (16), through-hole four (17);
The blast pipe (11) be that upper end is open and lower end closed it is columnar structured;
The diffuser plate one (12) is round concavees lens structure;
The diffuser plate one (12) is equipped with multiple through-holes one (13) around its central axes in above-below direction;
The through-hole one (13) is the cylindrical structure of distortion, thereon axis of the central point of end face close to diffuser plate one (12)
Line, the central point of through-hole one (13) lower end surface is relative to central axes of the end face central point far from diffuser plate one (12) thereon;
The diffuser plate one (12) is equipped with multiple through-holes two (14) around its central axes in above-below direction;
The through-hole two (14) is the cylindrical structure of distortion, thereon the central axes of the central point Yu diffuser plate one (12) of end face
Distance, with the central point of through-hole two (14) lower end surface and being equidistant for the central axes of diffuser plate one (12);
The through-hole one (13) is arranged between through-hole two (14) and diffuser plate one (12) central axes;
The diffuser plate two (15) is round concavees lens structure;
The diffuser plate two (15) is equipped with multiple through-holes three (16) around its central axes in above-below direction;
The through-hole three (16) is the cylindrical structure of distortion, thereon axis of the central point of end face close to diffuser plate two (15)
Line, the central point of through-hole three (16) lower end surface is relative to central axes of the end face central point far from diffuser plate three (16) thereon;
The diffuser plate two (15) is equipped with multiple through-holes four (17) around its central axes in above-below direction;
The through-hole four (17) is the cylindrical structure of distortion, thereon the central axes of the central point Yu diffuser plate two (15) of end face
Distance, with the central point of through-hole four (17) lower end surface and being equidistant for the central axes of diffuser plate two (15);
The through-hole three (16) is arranged between through-hole four (17) and diffuser plate two (15) central axes;
It is equipped with multiple through-holes three (16) in above-below direction around its central axes;
The through-hole three (16) is the cylindrical structure of distortion, thereon axis of the central point of end face close to diffuser plate two (15)
Line, the central point of through-hole three (16) lower end surface is relative to central axes of the end face central point far from diffuser plate two (15) thereon;
The diffuser plate two (15) is equipped with multiple through-holes four (17) around its central axes in above-below direction;
The through-hole four (17) is the cylindrical structure of distortion, thereon the central axes of the central point Yu diffuser plate two (15) of end face
Distance, with the central point of through-hole four (17) lower end surface and being equidistant for the central axes of diffuser plate two (15);
The through-hole three (16) is arranged between through-hole four (17) and diffuser plate two (15) central axes;
Part of the diffuser plate one (12) other than through-hole one (13), through-hole two (14) is the structural body of inner hollow;
Part of the diffuser plate two (15) other than through-hole three (16), through-hole four (17) is the structural body of inner hollow;
The lower end of the blast pipe (11) passes through diffuser plate one (12) and interlinks with the region of diffuser plate one (12) inner hollow;
The lower end of the blast pipe (11) passes through diffuser plate two (15) and interlinks with the region of diffuser plate two (15) inner hollow;
The diffuser plate one (12) is located at the top of diffuser plate three (15);
The pod (2) includes: shell (21), groove (22);
The shell (21) be that lower end is open and upper end closed it is columnar structured;
The lower end surface of the shell (21) is equipped with a cylinder groove (22);
The lower end of the blast pipe (11) passes through the upper end of shell (21) and interlinks with the inside of shell (21);
Diffuser plate one (12) setting is in the inside of shell (21), and the outside wall surface of diffuser plate one (12) passes through shell (21)
Inner wall makes the region of diffuser plate one (12) inner hollow interlink with groove (22);
Diffuser plate two (15) setting is in the inside of shell (21), and the outside wall surface of diffuser plate two (15) passes through shell (21)
Inner wall makes the region of diffuser plate two (15) inner hollow interlink with groove (22);
The baffle (5) is that cylindrical structure, thereon end face and shell (21) lower end surface are connected in the intermediate region of groove (22)
It connects;
The diversion pipe two (3) is columnar structured, is horizontally disposed, and its left end is along the tangent line of shell (21) inner wall
Direction extends to the inside of shell (21) and interlinks with the inside of shell (21);
The diversion pipe two (3) is arranged in the top of diffuser plate one (12);
The diversion pipe three (4) is columnar structured, is horizontally disposed, and its left end is along the tangent line of shell (21) inner wall
Direction extends to the inside of shell (21) and interlinks with the inside of shell (21);
The diversion pipe three (4) is arranged between diffuser plate two (15) and baffle (5).
2. a kind of hybrid heat exchange device for air according to claim 1, it is characterised in that: the diffuser plate one (12)
Inner wall, upper wall surface and lower wall surface be respectively provided with protrusion or groove.
3. a kind of hybrid heat exchange device for air according to claim 1, it is characterised in that: the diffuser plate two (15)
Inner wall, upper wall surface and lower wall surface be respectively provided with protrusion or groove.
4. a kind of hot method of hybrid air, using a kind of hybrid heat exchange device for air as described in claim 1-3, packet
Include following steps:
1. the first working condition: inlet air temperature is lower than temperature of outgoing air.
Air inlet is directed into the air-flow that rotation is formed inside shell (21) by diversion pipe three (4), and the air-flow of rotation passes through diffuser plate
When two (15), the air-flow that a part of air-flow is reversed along through-hole three (16) formation towards diversion pipe one (1) central axes direction, and
Diversion pipe one (1), which nearby converges, to be mixed, and is spread to the inner wall of shell (21), and another part air-flow is along through-hole four
(17) and the inner wall of shell (21) forms the air-flow rotated, at the same time by the air-flow of through-hole three (16) and through-hole four (17)
Air-flow mixed.
After the air-flow of through-hole three (16) is mixed with the air-flow of through-hole four (17), after diffuser plate one (12), one
Air-flow is divided to form the air-flow reversed towards diversion pipe one (1) central axes direction along through-hole one (13), and attached in diversion pipe one (1)
Closely converge and mixed, and spread to the inner wall of shell (21), another part air-flow is along through-hole two (14) and shell (21)
Inner wall form the air-flow of rotation, mixed at the same time by the air-flow of air-flow and through-hole two (14) of through-hole one (13)
It closes.
It is exported after the air-flow of through-hole one (13) is mixed with the air-flow of through-hole two (14) by diversion pipe two (3).
Air draft is directed into diversion pipe one (1), and a portion air-flow is directed into diffuser plate two (15), to flowing through diffuser plate two
(15) air-flow is heated for the first time, is then exported by groove (22), is directed into the interior another part air-flow of diversion pipe one (1) and leads
Enter to the region of diffuser plate one (12) inner hollow, heated to by the air-flow of diffuser plate one (12), i.e., to by dissipating
The air-flow of flowing plate two (15) is heated again.
In the process, the air-flow internal to shell (21) of air draft derived from groove (22) plays the role of heat preservation.
2. second of working condition: inlet air temperature is higher than temperature of outgoing air.
Air inlet is directed into the air-flow that rotation is formed inside shell (21) by diversion pipe three (4), and the air-flow of rotation passes through diffuser plate
When two (15), the air-flow that a part of air-flow is reversed along through-hole three (16) formation towards diversion pipe one (1) central axes direction, and
Diversion pipe one (1), which nearby converges, to be mixed, and is spread to the inner wall of shell (21), and another part air-flow is along through-hole four
(17) and the inner wall of shell (21) forms the air-flow rotated, at the same time by the air-flow of through-hole three (16) and through-hole four (17)
Air-flow mixed.
After the air-flow of through-hole three (16) is mixed with the air-flow of through-hole four (17), after diffuser plate one (12), one
Air-flow is divided to form the air-flow reversed towards diversion pipe one (1) central axes direction along through-hole one (13), and attached in diversion pipe one (1)
Closely converge and mixed, and spread to the inner wall of shell (21), another part air-flow is along through-hole two (14) and shell (21)
Inner wall form the air-flow of rotation, mixed at the same time by the air-flow of air-flow and through-hole two (14) of through-hole one (13)
It closes.
It is exported after the air-flow of through-hole one (13) is mixed with the air-flow of through-hole two (14) by diversion pipe two (3).
Air draft is directed into diversion pipe one (1), and a portion air-flow is directed into diffuser plate two (15), to flowing through diffuser plate two
(15) air-flow is cooled down for the first time, is then exported by groove (22), is directed into the interior another part air-flow of diversion pipe one (1) and leads
Enter to the region of diffuser plate one (12) inner hollow, cooled down to by the air-flow of diffuser plate one (12), i.e., to by dissipating
The air-flow of flowing plate two (15) is cooled down again.
In the process, the air-flow internal to shell (21) of air draft derived from groove (22) plays the role of heat preservation.
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CN201910227052.5A CN110057090A (en) | 2019-03-26 | 2019-03-26 | A kind of hybrid heat exchange device for air and heat change method |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101922868A (en) * | 2010-09-03 | 2010-12-22 | 南通海鹰机电集团有限公司 | High temperature heat exchanger |
GB2507266A (en) * | 2012-10-23 | 2014-04-30 | Ventive Ltd | Ventilation system |
CN104296103A (en) * | 2013-07-18 | 2015-01-21 | 海洋王(东莞)照明科技有限公司 | Lamp cooling structure |
CN105464949A (en) * | 2015-12-28 | 2016-04-06 | 华南理工大学 | Device suitable for natural convection heat dissipation of surface of shell of refrigerator compressor |
DE202017103042U1 (en) * | 2017-05-19 | 2017-06-12 | Da Guan Technology Corp. | Ventilation device of the line type |
CN206958620U (en) * | 2017-05-03 | 2018-02-02 | 江苏英杰电子器件有限公司 | A kind of Multifunctional LED radiator |
-
2019
- 2019-03-26 CN CN201910227052.5A patent/CN110057090A/en not_active Withdrawn
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101922868A (en) * | 2010-09-03 | 2010-12-22 | 南通海鹰机电集团有限公司 | High temperature heat exchanger |
GB2507266A (en) * | 2012-10-23 | 2014-04-30 | Ventive Ltd | Ventilation system |
CN104296103A (en) * | 2013-07-18 | 2015-01-21 | 海洋王(东莞)照明科技有限公司 | Lamp cooling structure |
CN105464949A (en) * | 2015-12-28 | 2016-04-06 | 华南理工大学 | Device suitable for natural convection heat dissipation of surface of shell of refrigerator compressor |
CN206958620U (en) * | 2017-05-03 | 2018-02-02 | 江苏英杰电子器件有限公司 | A kind of Multifunctional LED radiator |
DE202017103042U1 (en) * | 2017-05-19 | 2017-06-12 | Da Guan Technology Corp. | Ventilation device of the line type |
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Address after: 232068 5th Floor, No. 2 Building, Jianghuaiyun Building, Taikang Street, Huainan High-tech Zone, Anhui Province Applicant after: Huainan Guandong Information Technology Co.,Ltd. Address before: 232068 5th Floor, No. 2 Building, Jianghuaiyun Building, Taikang Street, Huainan High-tech Zone, Anhui Province Applicant before: HUAINAN INTELLECTUAL PROPERTY INNOVATION TECHNOLOGY RESEARCH Co.,Ltd. |
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Application publication date: 20190726 |