CN207865632U - Total-heat exchanger - Google Patents
Total-heat exchanger Download PDFInfo
- Publication number
- CN207865632U CN207865632U CN201820075486.9U CN201820075486U CN207865632U CN 207865632 U CN207865632 U CN 207865632U CN 201820075486 U CN201820075486 U CN 201820075486U CN 207865632 U CN207865632 U CN 207865632U
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- China
- Prior art keywords
- core
- slideway
- heat
- heat exchange
- sub
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- 238000005192 partition Methods 0.000 claims abstract description 30
- 238000009434 installation Methods 0.000 claims abstract description 15
- 125000006850 spacer group Chemical group 0.000 claims abstract description 14
- 230000000694 effects Effects 0.000 claims abstract description 11
- 230000015572 biosynthetic process Effects 0.000 claims description 2
- 238000000034 method Methods 0.000 abstract description 6
- 230000009977 dual effect Effects 0.000 abstract description 2
- 238000010586 diagram Methods 0.000 description 7
- 238000005457 optimization Methods 0.000 description 6
- 238000004140 cleaning Methods 0.000 description 2
- 238000007789 sealing Methods 0.000 description 2
- 229910000838 Al alloy Inorganic materials 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000001125 extrusion Methods 0.000 description 1
- 230000008676 import Effects 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
Abstract
The utility model is related to a kind of total-heat exchangers.It includes the heat exchanging core by slideway installation inside housings, and enclosure interior passes through the vertically disposed first Z-type partition board of opposing bottom surface, the second Z-type partition board, the first square spacer plate and the second square spacer plate subregion;First Z-type partition board and the second Z-type partition board are towards the first slideway, the second slideway for being respectively provided with assembly heat exchanging core on the side of heat exchange zone;Heat exchanging core is formed by stacking by least two sections of sub- cores of heat exchange to be stated the first slideway and is made of external slideway and inner slideway;The first Z-type partition board include diaphragm body and can opposed separators subject activity movable plate body, external slideway is mounted on movable plate body;On the bottom surface, the lower section of external slideway is equipped with the capping of core dismounting window and opposite core dismounting windows active installation.The utility model overcomes the inconvenient problem of the dismounting present in core transverse direction assembly method in the prior art, has both heat exchanger effectiveness height and dual characteristics convenient for disassembly and assembly.
Description
Technical field
The utility model is related to a kind of air cleaning facility, more particularly to a kind of total-heat exchanger.
Background technology
Total-heat exchanger is a kind of air cleaning facility, and indoor foul atmosphere can be discharged for it, and will be outdoor new
Fresh air is input to interior, realizes the displacement to room air, and air in room is allowed all to keep fresh clean all the time.And
And total-heat exchanger is during the work time, can air to be discharged in shell and air to be entered be passed through heat in shell
It exchanges core and carries out heat exchange, insulation effect is played in the winter in hot summer or cold.
Total-heat exchanger is usually gone out by shell, the air draft import, wind exhausting outlet, fresh inlet and the fresh air that are arranged on shell
Mouthful, and exhaust fan unit, exhaust-air filter, Fresh air handling units, new wind filter and the heat exchanging core etc. of setting inside housings
Component is constituted.Enclosure interior forms fresh air channel and air exhaust passage by one group of air-duct clapboard.In the prior art, heat exchanging core
The enclosure interior of total-heat exchanger is usually mounted on by slideway, by its length direction (i.e. the stacking direction of heat exchange chip)
Direction, which can be divided into, is transversely mounted and vertically installs two kinds of mounting means.The length direction for the heat exchanging core being transversely mounted and bottom surface
Parallel, core length is not restricted by body height, and both ends of the surface can be extended to housing side in closely shape, Neng Gouxiang
The core length that bigger is obtained to vertical mounting means, so as to higher heat exchanger effectiveness, but for installation of ceiling
Total-heat exchanger, the heat exchanging core that is transversely mounted needs to dismount from housing side, and process is very inconvenient, and to be broken toward contact
The furred ceiling on bad periphery.
Utility model content
The purpose of the utility model is to provide a kind of total-heat exchangers.The total-heat exchanger of the utility model overcomes
The inconvenient problem of dismounting in the prior art present in core transverse direction assembly method has both heat exchanger effectiveness height and convenient for disassembly and assembly
Dual characteristics.
The technical solution of the utility model:Total-heat exchanger includes the heat exchanging core of installation inside housings, heat exchange
The length direction of core is parallel with bottom surface, it is characterised in that:The enclosure interior passes through vertically disposed first Z-type of opposing bottom surface
Partition board, the second Z-type partition board, the first square spacer plate and the second square spacer plate subregion;Wherein, the first Z-type partition board and the second Z-type partition board
Between be heat exchange zone, the side of heat exchange zone is that the exhaust fan unit area separated by the first square spacer plate and fresh air flow through area,
The other side is that the Fresh air handling units area separated by the second square spacer plate and air draft flow through area;By Fresh air handling units area, heat exchange zone and
Fresh air flows through the fresh air channel of area's formation and flows through the air exhaust passage that area is formed by exhaust fan unit area, heat exchange zone and air draft and submits
Wrong shape;The first Z-type partition board and the second Z-type partition board are towards being respectively provided with assembly heat exchanger core on the side of heat exchange zone
The first slideway, the second slideway of body;The heat exchanging core is formed by stacking by least two sections of sub- cores of heat exchange;Described first slides
Road is made of external slideway and inner slideway, and the length of external slideway is not less than the length of any hot recon core;First Z-type every
Plate includes the movable plate body of diaphragm body and activity installation, and external slideway is mounted on movable plate body;On the bottom surface, external slideway
Lower section is equipped with the capping of core dismounting window and opposite core dismounting windows active installation.
Compared with prior art, the length direction of the heat exchanging core of the total-heat exchanger of the utility model and bottom surface are flat
Row, is not limited by body height, can obtain higher heat exchanger effectiveness;The utility model is dismounted by being arranged in housing bottom
Mouthful, heat exchanging core is designed to the structure made of the sub- core stacking of multigroup heat exchange, and external slideway is mounted on movable plate body, real
Show the purpose for dismounting core from bottom surface, overcomes the dismounting inconvenience present in core transverse direction assembly method in the prior art
Problem, and when dismounting heat exchanging core, the furred ceiling on total-heat exchanger periphery need not be destroyed, be conducive to control engineering cost.
As the optimization to aforementioned total-heat exchanger, described activity plate body one end is coupled by hinge with diaphragm body, separately
One end is coupled by lockset with diaphragm body;Not only cost is relatively low for the construction, but also easily operated.Further, the lockset is
Pin lock.
As the optimization to aforementioned total-heat exchanger, first slideway and the second slideway are V-type slideway.Test table
Bright, V-type slideway has better guiding role with respect to "-" type slideway, can avoid the occurrence of dress coring body in the process because firmly square
To not to leading to resistance abruptly increase the phenomenon that.
As the optimization to aforementioned total-heat exchanger, two end faces of the heat exchanging core, two with shell respectively
Side is in closely shape.At this point, the thickness of heat exchanging core reaches greatest limit, to have highest heat exchanger effectiveness.
As the optimization to aforementioned total-heat exchanger, the heat exchanging core is made of three groups of sub- cores of heat exchange, according to
Installation site is followed successively by the sub- core of the first heat exchange, the sub- core of the second heat exchange and the sub- core of third heat exchange, institute from inside and outside
The lenth ratio for stating the sub- core of the first heat exchange, the sub- core of the second heat exchange and the sub- core of third heat exchange is 1:1~1.5:1~
2.Experimental study shows at this point, the dismounting of heat exchanging core is relatively simple, easy.As three groups of further preferred, described heat
Recon core equal length;It is shared at this point, component is realized, is conducive to control cost.
As the optimization to aforementioned total-heat exchanger, to ensure that higher heat exchanger effectiveness, the heat exchanging core are six
It is prismatic.
As the optimization to aforementioned total-heat exchanger, one end of the capping is coupled by hinge with bottom surface, and the other end is logical
It is sealed to cross snap-lock member.Capping dismounts window and other openings for sealing the core on bottom surface, not only plays sealing function, but also
With aesthetic effect.
Description of the drawings
Fig. 1 be the total-heat exchanger of the utility model housing interior structure schematic diagram (dismantle bottom surface and two sides, and
Not comprising heat exchanging core);
Fig. 2 is the structural schematic diagram of the first Z-type partition board and the first slideway of the utility model;
Fig. 3 is the second Z-type diaphragm structure schematic diagram of the utility model;
Fig. 4 is the structural schematic diagram (not including capping) of the total-heat exchanger of the utility model;
Fig. 5 is the outline structural diagram of the total-heat exchanger of the utility model;
Fig. 6 is the structural schematic diagram of the heat exchanging core of the utility model;
Fig. 7 is the first Z-type diaphragm structure schematic diagram of the utility model.
Label in attached drawing be:1- shells, the bottom surfaces 101-, 1011- cores dismount window;2- the first Z-type partition boards, 201- every
Plate body, 202- activity plate bodys, 203- locksets;3- the second Z-type partition boards, the first square spacer plates of 4-, the second square spacer plates of 5-, 6-
One slideway, 601- external slideway, slideway in 602-, the second slideways of 7-, 8- heat exchanging cores, the sub- core of the first heat exchanges of 801-,
The sub- core of the second heat exchanges of 802-, the sub- core of 803- third heat exchanges, 9- cappings, 10- snap-lock members.
Specific implementation mode
(embodiment) is further described the utility model with reference to the accompanying drawings and detailed description, but does not make
For the foundation limited the utility model.
Referring to Fig. 1 to Fig. 7, the total-heat exchanger of the utility model includes that the heat being mounted on by slideway inside shell 1 is handed over
Core 8 is changed, the length direction (i.e. the stacking direction of heat exchange chip) of heat exchanging core 8 is parallel with bottom surface 101, the shell 1
Inside passes through 101 vertically disposed first Z-type partition board 2 of opposing bottom surface, the second Z-type partition board 3, the first square spacer plate 4 and second party
5 subregion of shape partition board;Wherein, it is heat exchange zone between the first Z-type partition board 2 and the second Z-type partition board 3, the side of heat exchange zone is logical
Cross exhaust fan unit area that the first square spacer plate 4 separates and fresh air flow through area, the other side of heat exchange zone be by second it is rectangular every
The Fresh air handling units area and air draft that plate 5 separates flow through area;The fresh air that area is formed is flowed through by Fresh air handling units area, heat exchange zone and fresh air to lead to
Road and to flow through the air exhaust passage that area is formed by exhaust fan unit area, heat exchange zone and air draft cross-shaped;The first Z-type partition board 2
With the second Z-type partition board 3 towards the first slideway 6, second for being respectively provided with assembly heat exchanging core 8 on the side of heat exchange zone
(aluminium alloy extrusions may be used in slideway to slideway 7, and can be close to installation of slide track on proximate matter inserts for inserting the filter of filter
Slot);The heat exchanging core 8 is formed by stacking by least two sections of sub- cores of heat exchange;First slideway 6 is by 601 He of external slideway
In slideway 602 constitute (external slideway 601 and the last sub- core of the heat exchange is packed into/taken out at first coordinate), the length of external slideway 601
Not less than the length of any hot recon core;The first Z-type partition board 2 includes diaphragm body 201 and can opposed separators main body
201 movable movable plate bodys 202, external slideway 601 are mounted on movable plate body 202;On the bottom surface 101, under external slideway 601
Side is equipped with the capping 9 of core dismounting window 1011 and opposite 1011 activity installation of core dismounting window.
Embodiment 1.On the basis of above-mentioned specific implementation mode, 202 one end of the activity plate body passes through hinge and partition board
Main body 201 couples, and the other end is coupled by lockset 203 with diaphragm body 201.203 preferred pin lock of the lockset.Described first
Slideway 6 and the second slideway 7 are V-type slideway.Two end faces of the heat exchanging core 8 respectively with two sides of shell 1
In closely shape.The heat exchanging core 8 is made of the sub- core of heat exchange of three groups of equal lengths.The heat exchanging core 8 is six
It is prismatic.One end of capping 9 is coupled by hinge with bottom surface 101, and the other end is sealed by snap-lock member 10.
Embodiment 2.As different from Example 1:Heat exchanging core 8 is made of three groups of sub- cores of heat exchange, according to installation
Position is followed successively by the sub- core 801 of the first heat exchange, the sub- core 802 of the second heat exchange and the sub- core of third heat exchange from inside and outside
803, the sub- core 801 of first heat exchange, the sub- core 802 of the second heat exchange and the sub- core of third heat exchange 803 length ratio
Value is 1:1.5:2.
Embodiment 3.As different from Example 1:Heat exchanging core 8 is made of three groups of sub- cores of heat exchange, according to installation
Position is followed successively by the sub- core 801 of the first heat exchange, the sub- core 802 of the second heat exchange and the sub- core of third heat exchange from inside and outside
803, the sub- core 801 of first heat exchange, the sub- core 802 of the second heat exchange and the sub- core of third heat exchange 803 length ratio
Value is 1:1:2.
Embodiment 4.As different from Example 1:Heat exchanging core 8 is made of three groups of sub- cores of heat exchange, according to installation
Position is followed successively by the sub- core 801 of the first heat exchange, the sub- core 802 of the second heat exchange and the sub- core of third heat exchange from inside and outside
803, the sub- core 801 of first heat exchange, the sub- core 802 of the second heat exchange and the sub- core of third heat exchange 803 length ratio
Value is 1:1.5:1.
Practice have shown that the sub- core length of heat exchange positioned at outside is a bit, the sub- core of heat exchange for being located at the inside is shorter, has
Conducive to taking out or be packed into.
Fresh air inside the total-heat exchanger of the utility model flows through area and air draft flows through area and can accommodate multigroup filter,
This is also the advantage place of the total-heat exchanger of the utility model.
In use, heat exchanging core 8 can be taken out by the following method:
(1) lockset 3 is first opened, the sub- core of heat exchange positioned at outermost end is then pulled down down, it is dismounted into window from core
Mouth 1011 pulls out;
(2) the sub- core of the heat exchange of the inside is moved to top position that core dismounts window 1011 along slideway, then from core
Window 1011 is dismounted to take out.
The general of the above-mentioned utility model to involved in the application is described and should not be managed the description of its specific embodiment
It solves to be the limitation constituted to the utility model technical solution.Those skilled in the art, can be with according to disclosure herein
Under the premise of without prejudice to involved utility model inscape, to the disclosure in above-mentioned general description or/and embodiment
Technical characteristic is increased, reduced or is combined, and the other technical solutions belonged within the application protection domain are formed.
Claims (9)
1. total-heat exchanger, including it is mounted on the internal heat exchanging core (8) of shell (1), the length direction of heat exchanging core (8)
It is parallel with bottom surface (101), it is characterised in that:
The shell (1) it is internal by the vertically disposed first Z-type partition board (2) of opposing bottom surface (101), the second Z-type partition board (3),
First square spacer plate (4) and the second square spacer plate (5) subregion;Wherein, between the first Z-type partition board (2) and the second Z-type partition board (3)
Side for heat exchange zone, heat exchange zone is that the exhaust fan unit area separated by the first square spacer plate (4) and fresh air flow through area, separately
Side is that the Fresh air handling units area separated by the second square spacer plate (5) and air draft flow through area;By Fresh air handling units area, heat exchange zone and
Fresh air flows through the fresh air channel of area's formation and flows through the air exhaust passage that area is formed by exhaust fan unit area, heat exchange zone and air draft and submits
Wrong shape;
The first Z-type partition board (2) and the second Z-type partition board (3) are towards being respectively provided with assembly heat on the side of heat exchange zone
Exchange the first slideway (6), the second slideway (7) of core (8);
The heat exchanging core (8) is formed by stacking by least two sections of sub- cores of heat exchange;First slideway (6) is by external slideway
(601) it is constituted with inner slideway (602), the length of external slideway (601) is not less than the length of any hot recon core;Described first
Z-type partition board (2) includes the movable plate body (202) of diaphragm body (201) and activity installation, and external slideway (601) is mounted on movable plate
On body (202);On the bottom surface (101), the lower section of external slideway (601) is equipped with core dismounting window (1011) and opposite core
Dismount the capping (9) of window (1011) activity installation.
2. total-heat exchanger according to claim 1, it is characterised in that:Described activity plate body (202) one end passes through hinge
Couple with diaphragm body (201), the other end is coupled by lockset (203) with diaphragm body (201).
3. total-heat exchanger according to claim 2, it is characterised in that:The lockset (203) is pin lock.
4. total-heat exchanger according to claim 1, it is characterised in that:First slideway (6) and the second slideway (7) are equal
For V-type slideway.
5. according to the total-heat exchanger described in Claims 1-4 any claim, it is characterised in that:The heat exchanger core
Two end faces of body (8) are respectively with two sides of shell (1) in closely shape.
6. total-heat exchanger according to claim 5, it is characterised in that:The heat exchanging core (8) is by three groups of heat exchanges
Sub- core composition, the sub- core of the first heat exchange (81), the sub- core of the second heat exchange are followed successively by according to installation site from inside and outside
(82) and the sub- core of third heat exchange (83), the sub- core of the first heat exchange (81), the sub- core of the second heat exchange (82) and
The lenth ratio of the sub- core of three heat exchanges (83) is 1:1~1.5:1~2.
7. total-heat exchanger according to claim 6, it is characterised in that:The sub- core length phase of three groups of heat exchanges
Deng.
8. according to the total-heat exchanger described in Claims 1-4 any claim, it is characterised in that:The heat exchanging core
(8) it is hexagon.
9. according to the total-heat exchanger described in Claims 1-4 any claim, it is characterised in that:The one of the capping (9)
End is coupled by hinge with bottom surface (101), and the other end is sealed by snap-lock member (10).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820075486.9U CN207865632U (en) | 2018-01-17 | 2018-01-17 | Total-heat exchanger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820075486.9U CN207865632U (en) | 2018-01-17 | 2018-01-17 | Total-heat exchanger |
Publications (1)
Publication Number | Publication Date |
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CN207865632U true CN207865632U (en) | 2018-09-14 |
Family
ID=63461989
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820075486.9U Expired - Fee Related CN207865632U (en) | 2018-01-17 | 2018-01-17 | Total-heat exchanger |
Country Status (1)
Country | Link |
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CN (1) | CN207865632U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108180591A (en) * | 2018-01-17 | 2018-06-19 | 浙江宝智环境设备科技有限公司 | Total-heat exchanger |
-
2018
- 2018-01-17 CN CN201820075486.9U patent/CN207865632U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108180591A (en) * | 2018-01-17 | 2018-06-19 | 浙江宝智环境设备科技有限公司 | Total-heat exchanger |
CN108180591B (en) * | 2018-01-17 | 2023-10-20 | 台州德备环境设备科技有限公司 | Total heat exchanger |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
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: 20180914 |