CN209263366U - A kind of heat exchanger - Google Patents
A kind of heat exchanger Download PDFInfo
- Publication number
- CN209263366U CN209263366U CN201821492839.1U CN201821492839U CN209263366U CN 209263366 U CN209263366 U CN 209263366U CN 201821492839 U CN201821492839 U CN 201821492839U CN 209263366 U CN209263366 U CN 209263366U
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- heat exchanger
- fin
- exchanger tube
- dististyle
- water
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Abstract
The utility model discloses a kind of heat exchangers, it includes fin component and several heat exchanger tubes, the fin component includes the heat exchanger fin of several interval closed assemblies, the heat exchanger channels to circulate for flue gas are defined as between two adjacent heat exchanger fins, the heat exchanger tube passes through each heat exchanger fin to be inserted in the fin component, and each heat exchanger tube is sequentially communicated to form water stream channel;The heat exchanger tube is kidney-shaped flat tube, and the length direction of the cross section of the heat exchanger tube is parallel with the inflow direction of the flue gas.The utility model has the following beneficial effects: by setting flat tube for heat exchanger tube, and the length direction of the cross section of heat exchanger tube is parallel to the inflow direction of flue gas, it is capable of increasing effective heat exchange area, suitably can shorten and simplify water circuit system while guaranteeing the thermal efficiency, saves heat exchanger cost.
Description
Technical field
The utility model relates to technical field of heat exchange equipment, more particularly to a kind of heat exchanger for gas heater.
Background technique
In the prior art, the heat exchanger majority that general gas water heater industry uses is the production of oxygen-free copper material, combustion chamber
The surface of body has been covered with coil pipe, and length of pipe is long, and heating is slow, and water resistance is big in pipe, and water flow is small under identical hydraulic condition, influences to use
Family bath comfort type, and copper material is largely used, cause heat exchanger overall cost high;And current stainless heat exchanger, because of it
The problems such as heat exchanger tube cast, heat exchanger fin design, cause heat exchanger heat transfer effect undesirable, heat exchange efficiency is not high.
Utility model content
The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of heat exchanger, are guaranteeing the same of the thermal efficiency
When can suitably shorten water route length, simplify water circuit system, to promote bath comfort.
To achieve the goals above, the utility model provides a kind of heat exchanger comprising fin component and several heat exchanger tubes,
The fin component includes the heat exchanger fin of several interval closed assemblies, is defined as circulating for flue gas between two adjacent heat exchanger fins
Heat exchanger channels, the heat exchanger tube passes through each heat exchanger fin to be inserted in the fin component, and each heat exchanger tube successively connects
It passes to form water stream channel;The heat exchanger tube is kidney-shaped flat tube, and the length direction of the cross section of the heat exchanger tube and the cigarette
The inflow direction of gas is parallel.
Preferably, the cross section of the heat exchanger tube is by the first curved section, the first arc section, the second curved section,
Two arc sections are successively tangent from beginning to end to be formed by connecting, and first curved section and second curved section are symmetrical arranged, and described first
The radius of arc section and second arc section is equal and arranged symmetrically.
Preferably, several corresponding pores one by one with each heat exchanger tube are offered on the heat exchanger fin.
Preferably, each heat exchanger tube interval setting of the heat exchanger is in a row;On the heat exchanger fin, phase
The interval of adjacent two pores is disposed with the first flange and indent along the flow direction of the flue gas, and described first turns over
The protrusion direction of the extending direction on side and the indent is arranged towards the same side of the heat exchanger fin.
Preferably, first flange is circle, and the indent is from one end close to first flange to another
Its width of one end gradually increases.
Preferably, on the heat exchanger fin, it is provided with the second flange on the outside of the pore at both ends,
And second flange is arranged close to the outlet end of the heat exchanger channels.
Preferably, the pore edge of the heat exchanger fin is provided with third flange.
Preferably, the 4th flange is provided with along the opposite two sides of the heat exchanger fin.
Preferably, spoiler is inserted in the heat exchanger tube.
Preferably, the fin component is respectively arranged with first end along the both ends in the closed assembly direction of the heat exchanger fin
Piece and the second dististyle, first dististyle are sheathed on the first end of each heat exchanger tube, and second dististyle is sheathed on each institute
State the second end of heat exchanger tube.
Preferably, the heat exchanger further includes the first sealing plate and the second sealing plate;It is offered on first sealing plate
Several first grooves, first sealing plate are connect with first dististyle, so that each first groove and first dististyle
Between be defined as several first accommodating cavities, the first end of two adjacent heat exchanger tubes, which is inserted in same described first, to be held
Set it is intracavitary, to be connected to the first end of two adjacent heat exchanger tubes;Several second grooves are offered on second sealing plate,
Second sealing plate is connect with second dististyle, so as to be defined as between each second groove and second dististyle several
Second accommodating cavity, the second end of two adjacent heat exchanger tubes are inserted in same second accommodating cavity, with connection
The second end of two adjacent heat exchanger tubes.
Preferably, in the heat exchanger, wherein it is logical that the first end of a heat exchanger tube constitutes the water flow
The water inlet in road, the first end of a heat exchanger tube constitute the water outlet of the water stream channel;It is opened on first sealing plate
Equipped with water inlet groove, intake antrum, the water inlet of the water stream channel are defined as between the water inlet groove and first dististyle
It is connected to the intake antrum, and is also inserted with the water supply connector being connected to the intake antrum on first sealing plate;Described first
Water outlet groove is offered on sealing plate, and water chamber is defined as between the water outlet groove and first dististyle, the water stream channel
Water outlet is connected to the water chamber, and is also inserted with the water outlet connector being connected to the water chamber on first sealing plate.
Preferably, between first dististyle and the heat exchanger fin adjacent thereto, second dististyle and with
Between its adjacent heat exchanger fin, positioned at the outlet end of the flue gas, equal sealed set has smoke barrier.
The utility model provides a kind of heat exchanger, and several heat exchanger fin intervals closed assembly is inserted at fin component, several heat exchanger tubes
In fin component, heat exchanger tube is kidney-shaped flat tube, i.e., the cross-sectional shape of heat exchanger tube is set as flat, with typical round cross
The heat exchanger tube in section is compared, and the heat exchange area with the flue gas in heat exchanger channels is considerably increased under conditions of same water flow,
It can be improved heat transfer intensity and the thermal efficiency, water route length can be shortened under the premise of guaranteeing thermal effect, to reduce water resistance, increase water
Flow improves the bath comfort of user.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of heat exchanger in the utility model embodiment;
Fig. 2 is the main view of Fig. 1;
Fig. 3 is a kind of configuration schematic diagram of heat exchanger in the utility model embodiment;
Fig. 4 is the structural schematic diagram of heat exchanger fin in the utility model embodiment;
Fig. 5 is the cross-sectional view of heat exchanger tube in the utility model embodiment;
Fig. 6 is the cross-sectional view of heat exchanger tube in the prior art.
In figure, 10, heat exchanger fin;11, pore;12, the first flange;13, indent;14, the second flange;15, third flange;
16, the 4th flange;20, heat exchanger tube;21, the first curved section;22, the first arc section;23, the second curved section;24, the second circular arc
Section;30, spoiler;40, the first dististyle;50, the second dististyle;60, the first sealing plate;61, the first groove;62, water inlet groove;63,
It is discharged groove;70, the second sealing plate;71, the second groove;80, water inlet;90, water outlet;100, water supply connector;200, water outlet connects
Head;300, smoke barrier.
Specific embodiment
With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below
Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.
In the description of the present invention, it should be understood that term " on ", "lower", "left", "right", "top", "bottom" etc.
The orientation or positional relationship of instruction is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model
It is described with simplifying, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation structure
It makes and operates, therefore should not be understood as limiting the present invention.It should be understood that using term in the utility model
" first ", " second " etc. describe various information, but these information should not necessarily be limited by these terms, these terms are only used to will be same
The information of type is distinguished from each other out.For example, " first " information can also be claimed in the case where not departing from the scope of the utility model
Similar for " second " information, " second " information can also be referred to as " first " information.
Refering to shown in attached drawing 1- Fig. 5, a kind of heat exchanger of the preferred embodiment in the utility model comprising if fin component and
Dry heat exchanger tube 20, the fin component includes the heat exchanger fin 10 of several interval closed assemblies, between the heat exchanger fin 10 of adjacent two
Be defined as flue gas circulate heat exchanger channels, the heat exchanger tube 20 pass through each heat exchanger fin 10 to be inserted in the fin component,
And each heat exchanger tube 20 is sequentially communicated to form water stream channel;The heat exchanger tube 20 is kidney-shaped flat tube, the i.e. cross of heat exchanger tube 20
Cross sectional shape is flat in kidney-shaped, and the length direction of the cross section of the heat exchanger tube 20 is parallel to the inflow side of the flue gas
To refering to attached drawing 5 it is found that flue gas flows along the vertical direction from bottom to up, the length direction of the cross section of heat exchanger tube 20 is also along perpendicular
Histogram is to setting.
Based on the above-mentioned technical proposal, the specific heat transfer process of heat exchanger are as follows: high-temperature fuel gas is from fin component bottom to upstream
Enter the heat exchanger channels between each two neighboring heat exchanger fin 10, and be discharged from the smoke outlet at top, and at the same time, cold water from
The water inlet 80 of water stream channel flows into, and flows out followed by after each heat exchanger tube 20 from the water outlet of water stream channel;It flows through and changes in water
It when in heat pipe 20, exchanges heat with the high-temperature flue gas of tube wall periphery, to realize that water heats, the flue gas after cooling is arranged from top
Out.
In view of this, being kidney-shaped flat tube by heat exchanger tube 20 in this present embodiment, i.e., the cross section of heat exchanger tube 20 is in flat
Shape, referring particularly to Fig. 5, Fig. 6 it is found that on the inflow direction of flue gas, the heat exchanger tube 20 in the present embodiment is relative to typical round
Heat exchanger tube is in flat setting, wherein heat exchange bottom of the tube can be by flue gas shunting to arranged on left and right sides face using designed arc-shaped appearance, flue gas
Effective heat exchange height along two sides is the overall length angle value of the cross section of heat exchanger tube 20, and round heat exchanger tube only can be with lower half
The arranged on left and right sides wall divided exchanges heat, and effective heat exchange height of the flue gas along two sides is circular radius, under same circumference,
The heat exchange area of the heat exchanger tube 20 of flat is bigger, so as to improve the thermal efficiency.
Illustratively, again as shown in fig.5, the cross section of the heat exchanger tube 20 is by the first curved section 21, the first arc section
22, the second curved section 23, the second arc section 24 are successively tangent from beginning to end is formed by connecting, first arc section 21 and third circle
The radius of segmental arc 23 is equal and arranged symmetrically, and first arc section 22 and the radius of second arc section 24 are equal and symmetrical
Setting, is connected by each curved section with each arc section, can guarantee that flue gas is flowed along the outer wall of heat exchanger tube 20.
Scheme more preferably, in the present embodiment, first curved section 21 and the second curved section 23 are that radius is equal
Arc section, and the radius of the first curved section 21 and the second curved section 23 be greater than the first arc section 22 radius, pass through each circular arc
Section is spliced into the cross section of heat exchanger tube 20.
As an alternative solution, the cross section of heat exchanger tube 20 may be arranged as ellipse, kidney ellipsoid or other shapes.
A kind of heat exchanger is provided in the present embodiment, several and each heat exchanger tube 20 is offered on the heat exchanger fin 10 one by one
Corresponding pore 11, the pore 11 that heat exchanger tube 20 sequentially passes through on each heat exchanger fin 10 are plugged in fin component.
Again as shown in fig.4, in the present embodiment, each interval of heat exchanger tube 20 setting is in a row;In the heat exchanger fin 10
On, the interval of the two neighboring pore 11 is disposed with the first flange 12 and indent along the flow direction of the flue gas
13, the extending direction of first flange 12 and the protrusion direction of the indent 13 are set towards the same side of the heat exchanger fin 10
It sets.By the first flange 12 of setting and indent 13, the interval between two neighboring pore 11 is separated into two flue gases in left and right and is led to
Road, the width of this exhaust gases passes is preferably 2 ㎜ -10 ㎜, and flue gas can be become disorderly from laminar flow by the first flange 12 and indent 13
Stream, increases the residence time of flue gas, and flue gas is enable preferably to carry out heat with the arranged on left and right sides wall of heat exchanger tube 20 in this exhaust gases passes
Exchange.
Further, for the purposes of increasing flue gas in the residence time of exhaust gases passes, first flange 12 is circle, institute
Stating indent 13, to the other end, its width is gradually increased from one end close to first flange 12;Illustratively, indent 13 is ladder
Shape.
Specifically, in the present embodiment, left flue gas is formed between the pore 11 of left end and the left side of heat exchanger fin 10
Channel is formed with right exhaust gases passes between the pore 11 of right end and the right edge of heat exchanger fin 10, in order to make left exhaust gases passes
It preferably exchanges heat with the cold water in heat exchanger tube 20 with the flue gas in right exhaust gases passes, on the heat exchanger fin 10, is located at two
The outside of the pore 11 at end is provided with the second flange 14, and second flange 14 going out close to the heat exchanger channels
The setting of mouth end, it is specific multiple refering to known to Fig. 4;Second flange 14 can increase residence time of the flue gas in this channel, guidance is left,
Flue gas in right exhaust gases passes preferably carries out heat exchange with the cold water in heat exchanger tube 20, reduces arranged on left and right sides high-temperature flue gas
Exhaust gas temperature, the surface temperature for reducing entire heat exchanger.
Meanwhile 11 edge of pore of the heat exchanger fin 10 being provided with third flange 15, it is changed by the increase of third flange 15
The matching area of backing and heat exchanger tube 20 makes the heat of heat exchanger fin 10 itself preferably pass to the cold water in heat exchanger tube 20, together
When be also convenient for heat exchanger tube 20 across heat exchanger fin 10, be more advantageous to the assembly and production of heat exchanger.
In the present embodiment, fin component is assembled for convenience, and the two sides opposite along the heat exchanger fin 10 are provided with the
Four flange 16, two neighboring heat exchanger fin 10 are weldingly connected by the 4th flange 16, and two sides seal in fin component, upper,
Lower both ends are respectively outlet side and the inlet end of flue gas.
Again as shown in fig.3, being inserted with spoiler 30 in the heat exchanger tube 20, the spoiler 30 can in the present embodiment
It is evenly heated with advantageously promoting the water in heat exchanger tube 20, improves the thermal efficiency;It also can reduce the water at 20 center of heat exchanger tube simultaneously
Flow velocity degree improves 20 inner wall water velocity of heat exchanger tube, destroys water flow in the boundary layer of 20 inner wall of heat exchanger tube, reduces gasification noise,
And the generation of scale can be prevented.
In the present embodiment, for the ease of each component assembling and the both ends of the surface of gas circuit can be sealed, the fin component is along institute
The both ends for stating the closed assembly direction of heat exchanger fin 10 are respectively arranged with the first dististyle 40 and the second dististyle 50,40 sets of first dististyle
Set on the first end of each heat exchanger tube 20, second dististyle 50 is sheathed on the second end of each heat exchanger tube 20, with
Attached drawing 3 is reference, and the first dististyle 40 is set to the right end of fin component, and the second dististyle 50 is set to the left end of fin component.
Specifically, in order to be sequentially communicated each heat exchanger tube to be composed in series water stream channel, in the present embodiment, the heat exchange
Device further includes the first sealing plate 60 and the second sealing plate 70;Offer several first grooves 61 on first sealing plate 60, described first
Sealing plate 60 is connect with first dististyle 40, and illustratively, in the present embodiment, first dististyle 40 is in hollow box-packed, and the
One sealing plate 60 is set in first dististyle 40, so as to limit between each first groove 61 and first dististyle 40
At several first accommodating cavities, the first end of the heat exchanger tube 20 of adjacent two is inserted in same first accommodating cavity
It is interior, to be connected to the first end of the heat exchanger tube 20 of adjacent two;It is offered on second sealing plate 70 several mutually indepedent
The second groove 71, second sealing plate 70 connect with second dististyle 50, illustratively, in the present embodiment, described second
Dististyle 50 is in hollow box-packed, and the second sealing plate 70 is set in second dististyle 50, so that each second groove 71 and institute
It states and is defined as several second accommodating cavities between the second dististyle 50, the second end of the heat exchanger tube 20 of adjacent two is inserted in together
In one second accommodating cavity, to be connected to the second end of the heat exchanger tube 20 of adjacent two.In the present embodiment, by setting
The first sealing plate 60 and the second sealing plate 70 are set, and forms the first accommodating cavity after the first sealing plate 60 is connect with the first dististyle 40, second
Sealing plate 70 forms the second accommodating cavity after connecting with the second dististyle 50, to be separately connected the first end of two adjacent heat exchanger tubes 20
And the second end of two adjacent heat exchanger tubes 20, and then each heat exchanger tube 20 can be sequentially communicated to form water stream channel.Show
Example property, it can also be all connected in the first end of two adjacent heat exchanger tubes 20 and the second end of two adjacent heat exchanger tubes 20
There is the pipe fitting of U-shaped, to replace the first sealing plate 60 and the second sealing plate 70, is sequentially communicated each heat exchanger tube 20.
Refering to fig. 1 shown in-Fig. 3, wherein the first end of a heat exchanger tube 20 constitutes the water inlet of the water stream channel
Mouth 80, the first end of a heat exchanger tube 20 constitutes the water outlet 90 of the water stream channel, and diagram, water inlet 80 is opened in
The first end of the heat exchanger tube 20 of outermost end, water outlet 90 are provided with the first end of innermost heat exchanger tube 20, water inlet 80
It is opened in the same end of fin component with water outlet 90, cold water access and hot water is facilitated to pick out.
Specifically, it is offered on first sealing plate 60 into water groove 62, connects the first sealing plate 60 and the first dististyle 40
Afterwards, intake antrum, the water inlet 80 of the water stream channel and institute are defined as between the water inlet groove 62 and first dististyle 60
Intake antrum connection is stated, and is also inserted with the water supply connector 100 being connected to the intake antrum on first sealing plate 60;Described
Water outlet groove 63 is offered on one sealing plate 60, after connecting the second sealing plate 70 and the second dististyle 50, the water outlet groove 63 with it is described
Water chamber is defined as between first dististyle 40, the water outlet 90 of the water stream channel is connected to the water chamber, and described first
The water outlet connector 200 being connected to the water chamber is also inserted on sealing plate 60.
Illustratively, in the present embodiment, water supply connector 100 and water outlet connector 200 are separately mounted to first by riveting
Sealing plate 60 corresponds to water inlet groove and is discharged on the position of groove.
It is multiple refering to fig. 1 and shown in Fig. 3, in the present embodiment, between the first dististyle 40 and the heat exchanger fin 10 of the rightmost side, second end
Reserved certain space between piece 50 and the heat exchanger fin of the leftmost side 10, the upside (outlet end for being located at flue gas) in the space are equal
It is sealed and installed with smoke barrier 300, prevents high-temperature flue gas from revealing by this space, influences heat exchange efficiency.
Illustratively, it in the present embodiment, after each component is completed, is assembled by integral braze-welded completion.
It should be noted that heat exchanger structure in the present embodiment is suitable for stainless heat exchanger, i.e., the described fin component,
The components such as heat exchanger tube 20 are all made of stainless steel material and are made, not only low in cost, and can be realized the efficient thermal efficiency.Equally
Ground, the heat exchanger structure of the present embodiment can also be applied to copper heat exchanger.
To sum up, the utility model embodiment provides a kind of heat exchanger, by setting kidney-shaped flat tube for heat exchanger tube 20, i.e., will
The cross section of heat exchanger tube is set as flat, can increase the heat exchange area with high-temperature flue gas, is guaranteeing the same of the high thermal efficiency
When suitably can shorten and simplify water circuit system.
The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art
For art personnel, without deviating from the technical principle of the utility model, several improvement and replacement can also be made, these change
It also should be regarded as the protection scope of the utility model into replacement.
Claims (11)
1. a kind of heat exchanger, which is characterized in that including fin component and several heat exchanger tubes (20), the fin component includes several
It is spaced the heat exchanger fin (10) of closed assembly, the heat exchanger channels to circulate for flue gas are defined as between the heat exchanger fin (10) of adjacent two,
The heat exchanger tube (20) passes through each heat exchanger fin (10) to be inserted in the fin component, and each heat exchanger tube (20) successively connects
It passes to form water stream channel;
The heat exchanger tube (20) is kidney-shaped flat tube, and the stream of the length direction of the cross section of the heat exchanger tube (20) and the flue gas
It is parallel to enter direction.
2. heat exchanger as described in claim 1, which is characterized in that the cross section of the heat exchanger tube (20) is by the first curved section
(21), successively head and the tail are tangent is formed by connecting for the first arc section (22), the second curved section (23), the second arc section (24), and described the
One curved section (21) and second curved section (23) are symmetrical arranged, first arc section (22) and second arc section
(24) radius is equal and arranged symmetrically.
3. heat exchanger as described in claim 1, which is characterized in that offer and several described changed with each on the heat exchanger fin (10)
Heat pipe (20) corresponding pore (11) one by one.
4. heat exchanger as claimed in claim 3, which is characterized in that each heat exchanger tube (20) interval setting is in a row;
On the heat exchanger fin (10), the interval of the two neighboring pore (11) is successively set along the flow direction of the flue gas
It is equipped with the first flange (12) and indent (13), the extending direction of first flange (12) and the protrusion direction of the indent (13)
It is arranged towards the same side of the heat exchanger fin (10);
On the heat exchanger fin (10), it is provided with the second flange (14) on the outside of the pore (11) at both ends, and institute
The second flange (14) is stated to be arranged close to the outlet end of the heat exchanger channels.
5. heat exchanger as claimed in claim 4, which is characterized in that first flange (12) is circle, the indent (13)
From one end close to first flange (12), to the other end, its width is gradually increased.
6. heat exchanger as claimed in claim 3, which is characterized in that pore (11) edge along the heat exchanger fin (10) is provided with
Third flange (15);
The two sides opposite along the heat exchanger fin (10) are provided with the 4th flange (16).
7. such as heat exchanger of any of claims 1-6, which is characterized in that be inserted with flow-disturbing in the heat exchanger tube (20)
Piece (30).
8. such as heat exchanger of any of claims 1-6, which is characterized in that the fin component is along the heat exchanger fin
(10) both ends in closed assembly direction are respectively arranged with the first dististyle (40) and the second dististyle (50), and first dististyle (40) is arranged
In the first end of each heat exchanger tube (20), second dististyle (50) is sheathed on the second end of each heat exchanger tube (20)
Portion.
9. heat exchanger as claimed in claim 8, which is characterized in that further include the first sealing plate (60) and the second sealing plate (70);
Several first grooves (61), first sealing plate (60) and first dististyle are offered on first sealing plate (60)
(40) it connects, so as to be defined as several first accommodating cavities, phase between each first groove (61) and first dististyle (40)
The first end of two adjacent heat exchanger tubes (20) is inserted in same first accommodating cavity, to be connected to adjacent two
The first end of the heat exchanger tube (20);
Several second grooves (71), second sealing plate (70) and second dististyle are offered on second sealing plate (70)
(50) it connects, so as to be defined as several second accommodating cavities, phase between each second groove (71) and second dististyle (50)
The second end of two adjacent heat exchanger tubes (20) is inserted in same second accommodating cavity, to be connected to adjacent two
The second end of the heat exchanger tube (20).
10. heat exchanger as claimed in claim 9, which is characterized in that wherein, the first end structure of a heat exchanger tube (20)
At the water inlet (80) of the water stream channel, the first end of a heat exchanger tube (20) constitutes the water outlet of the water stream channel
Mouth (90);
Offered on first sealing plate (60) into water groove (62), the water inlet groove (62) and first dististyle (40) it
Between be defined as intake antrum, the water inlet (80) of the water stream channel is connected to the intake antrum, and on first sealing plate (60)
Also it is inserted with the water supply connector (100) being connected to the intake antrum;
Offer water outlet groove (63) on first sealing plate (60), the water outlet groove (63) and first dististyle (40) it
Between be defined as water chamber, the water outlet (90) of the water stream channel is connected to the water chamber, and on first sealing plate (60)
Also it is inserted with the water outlet connector (200) being connected to the water chamber.
11. heat exchanger as claimed in claim 8, which is characterized in that first dististyle (40) and adjacent thereto described change
Between backing (10), between second dististyle (50) and the heat exchanger fin (10) adjacent thereto, positioned at going out for the flue gas
The equal sealed set in mouth end has smoke barrier (300).
Priority Applications (1)
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CN201821492839.1U CN209263366U (en) | 2018-09-12 | 2018-09-12 | A kind of heat exchanger |
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CN201821492839.1U CN209263366U (en) | 2018-09-12 | 2018-09-12 | A kind of heat exchanger |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109114812A (en) * | 2018-09-12 | 2019-01-01 | 广东万和新电气股份有限公司 | A kind of heat exchanger |
CN115430572A (en) * | 2022-07-26 | 2022-12-06 | 深圳市曼恩斯特科技股份有限公司 | Feeding system and coating production line |
-
2018
- 2018-09-12 CN CN201821492839.1U patent/CN209263366U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109114812A (en) * | 2018-09-12 | 2019-01-01 | 广东万和新电气股份有限公司 | A kind of heat exchanger |
CN115430572A (en) * | 2022-07-26 | 2022-12-06 | 深圳市曼恩斯特科技股份有限公司 | Feeding system and coating production line |
CN115430572B (en) * | 2022-07-26 | 2024-02-13 | 深圳市曼恩斯特科技股份有限公司 | Feeding system and coating production line |
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