CN109373301A - A kind of heat-exchange unit of modularization steam generating equipment - Google Patents
A kind of heat-exchange unit of modularization steam generating equipment Download PDFInfo
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- CN109373301A CN109373301A CN201811458815.9A CN201811458815A CN109373301A CN 109373301 A CN109373301 A CN 109373301A CN 201811458815 A CN201811458815 A CN 201811458815A CN 109373301 A CN109373301 A CN 109373301A
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- heat
- heat exchange
- heat exchanger
- shell
- supporting clapboard
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B31/00—Modifications of boiler construction, or of tube systems, dependent on installation of combustion apparatus; Arrangements of dispositions of combustion apparatus
- F22B31/08—Installation of heat-exchange apparatus or of means in boilers for heating air supplied for combustion
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The present invention relates to a kind of heat-exchange units of modularization steam generating equipment.It includes shell and heat exchanger, supporting clapboard is equipped in shell, the inner cavity of shell is divided at least two combustion chambers arranged side by side by supporting clapboard, and heat exchanger is arranged on supporting clapboard along the length direction of shell, heat exchanger passes through each combustion chamber, and heat exchanger is located at the top of burner.The inner cavity of shell is divided into multiple combustion chambers by supporting clapboard of the invention, heat exchanger is horizontal through multiple combustion chambers, the burner of each combustion chamber can heat the heat exchanger simultaneously, to improve steam output speed of the invention and increase steam output quantity, compared to existing combustion and steam occurrence of equipment, multiple combustion chambers of the invention are that shell separates, and the spacing between two adjacent combustion chambers is small, and the components such as casing and U-tube that previous steam unit is omitted so that it is of the invention it is small in size, compact-sized, production cost is low.
Description
Technical field
The present invention relates to the technical field of gas steam engine, in particular to a kind of heat exchanger of modularization steam generating equipment
Group.
Background technique
Currently, existing combustion and steam occurrence of equipment is if China Patent No. CN201510403595.X was in August 4 in 2018
A kind of combustion and steam occurrence of equipment disclosed in day, it is made of more steam unit tandem compounds, and every steam unit has respectively
From heat-exchange system (including respective heat exchanger and combustion chamber), more steam units it is in series second heat exchange access, realize
Multicomputer work heat exchange, generates and exports high-temperature steam, the heat exchanger of existing combustion and steam occurrence of equipment has the following disadvantages
Place: the steam unit of (one) existing combustion and steam occurrence of equipment is all independent unit, there is respective machine unit shell, multiple
Steam unit is mounted in machine shell, is all to be connected between the heat exchanger of left and right adjacent two steam units using U-shaped bend pipe
Connect, left and right two adjacent steam unit bays are larger, therefore will cause whole combustion and steam occurrence of equipment volume compared with
Greatly, occupied area is larger, structure is not compact, high production cost.(2) in addition, the heat exchanger of every steam unit is all independent peace
Dress connects the heat exchanger of two adjacent steam units with U-shaped bend pipe again after installation, therefore the installation of its heat exchanger is inconvenient.
(3) existing heat exchanger is all using finned heat exchanger, and the material of heat exchanger tube and heat exchange fin is all copper, although copper
Good heat conductivity, but copper resistance to pressure is poor, non-refractory, is easy to burn out carbonization by high temperature, be easy by high-temperature flue gas and aqueous corrosion.
(4) moreover, the heat exchanger of existing adjacent two steam units is connected using U-shaped bend pipe, and on same steam unit
Heat exchanger upper and lower heat exchange straight tube between also have and connected using U-tube, therefore very big pressure drag can be generated inside it, caused
Heat exchange efficiency is low, and welding position thereon is also more, be easy to cause leakage, and U-tube is exposed outside combustion chamber, and length
It is long, very big thermal losses can be also generated, and then heat exchange efficiency is caused to reduce.
Therefore, existing combustion and steam occurrence of equipment needs are further improved.
Summary of the invention
The purpose of the present invention is to provide a kind of modularization steam generations small in size, compact-sized, heat exchange efficiency is high
The heat-exchange unit of equipment.
The object of the present invention is achieved like this:
A kind of heat-exchange unit of modularization steam generating equipment, including shell and heat exchanger, characterized in that be equipped in the shell
The inner cavity of shell is divided at least two combustion chambers arranged side by side, the burning by least one piece of supporting clapboard, the supporting clapboard
The top of room is equipped with smoke exhaust fan, and the bottom of the combustion chamber is equipped with burner, and the heat exchanger is set along the length direction of shell
It sets on supporting clapboard, the heat exchanger passes through each combustion chamber, and the heat exchanger is located at the top of burner, the heat exchanger
It is equipped with water inlet and steam (vapor) outlet.Heat exchanger of the invention passes through multiple combustion chambers, and the burner of combustion chamber can be segmented together
When heating heat exchanger to increase heating power of the invention finally improve out vapor (steam) velocity and steam output quantity.
The burner of each combustion chamber of the invention can work independently, and user can open single or more according to demand
The burner of a combustion chamber, to control heating power of the invention.In addition, manufacturer of the invention can also be according to the need of user
It asks, increases or decreases the quantity of supporting clapboard, to increase or decrease the quantity of combustion chamber, thus meet the use demand of user,
Such as manufacturer can increase the quantity of supporting clapboard, to be separated out more combustion chambers, to increase heating function of the invention
Rate, to meet the needs of user is to high vapor (steam) velocity out and big steam output quantity.
The present invention can also improve further below.
The heat exchanger is in elongated shape, and the heat exchanger is horizontally set on supporting clapboard.
The heat exchanger includes at least two layers of set of heat exchange tubes, and every layer of set of heat exchange tubes is arranged by more heat exchange straight pipe parallels
It constitutes, heat exchange straight tube is equipped with heat exchange fin, and two layers neighbouring of set of heat exchange tubes is sequentially communicated, and constitutes a heat exchange access, most
The set of heat exchange tubes on upper layer is equipped with the water inlet, and undermost set of heat exchange tubes is equipped with the steam (vapor) outlet.
More heat exchange straight tube head and the tail of every layer of set of heat exchange tubes are sequentially communicated.
The heat exchange straight tube head and the tail of two layers neighbouring of set of heat exchange tubes are sequentially communicated.
The pressure drag of the heat exchange straight tube is small, and the solder joint on straight tube is few, it is not easy to reveal, to extend this hair
Bright service life.
The heat exchanger stainless steel tube heat exchanger.The heat exchange straight tube is stainless steel tube, stainless steel tube energy high temperature resistant, resistance to
High pressure, it is not easy to reveal.The heat exchange fin is to be made of stainless steel, and the heat exchange fin is spiral fin.
The heat exchange straight tube of undermost set of heat exchange tubes is light pipe, and the heat exchange straight tube of the set of heat exchange tubes of other layers is equipped with described
Heat exchange fin, so that the heat exchange fin on undermost heat exchange straight tube is avoided to be burned, be carbonized, and the heat-exchange tube of other layers
The heat exchange fin of the heat exchange straight tube of group absorbs the heat of flame.
The end of the adjacent two piece heat exchange straight tube of the same layer heat-exchange tube group is connected by the first bend pipe.
Neighbouring two layers of set of heat exchange tubes head and the tail pass through the connection of the second bend pipe.
First bend pipe and the second bend pipe are U-tube.
The steam outlet is equipped with ring flange.
The top of the shell is equipped with main smoke discharging pipe, and the top of each combustion chamber passes through smoke exhaust fan and main smoke discharging pipe
Connection.The flue gas generated in each combustion chamber is unified to be drained by main smoke discharging pipe.
The left and right sides of the set of heat exchange tubes is equipped with support plate, and corresponding heat exchange straight tube is equipped with supported hole in the support plate,
The end of the heat exchange straight tube passes through supported hole, and the bend pipe is located at the outside of support plate.
The shell is to be surrounded by front side board, back side panel, left plate, right side plate and lamina tecti by orientation connection, described
Supporting clapboard between left plate and right side plate, the front side of the supporting clapboard, rear side, top, bottom respectively with front side board,
Back side panel, lamina tecti, burner are fixedly connected, the front side board, back side panel, left plate, right side plate and supporting clapboard difference
It is connected to the top perimeter of burner, to surround at least two combustion chamber.The structure of shell of the present invention is simple, compact, dress
With easy, production cost is low.
The supporting clapboard is equipped with multiple rows of first support through holes, and the width direction that often ranked first support through holes along shell is set
It sets, the heat exchange straight tube of every layer of set of heat exchange tubes both passes through first support through holes of every piece of supporting clapboard.
As the structure of supporting clapboard, the left plate, right side plate are equipped at least two rows of for the left plate, right side plate
Second support through holes, the width direction that often ranked second support through holes along shell are arranged, and the both ends of the heat exchange straight tube are each passed through
Second support through holes of left plate, right side plate.
The periphery of the front side board, back side panel and lamina tecti is equipped with the connection surrounding edge for connection, the top of the burner
Portion is surrounded by coaming plate, the front side board, back side panel, left plate, right side plate connection surrounding edge be connected on the coaming plate of burner.
Beneficial effects of the present invention are as follows:
(1) inner cavity of shell is divided into multiple combustion chambers by supporting clapboard of the invention, and heat exchanger is horizontal through multiple burnings
The burner of room, each combustion chamber can heat the heat exchanger simultaneously, thus increase heating power of the invention, it is final to improve this
The steam output speed and increase steam output quantity of invention, therefore, the present invention can satisfy production of the user to steam generating equipment
The demand of vapor (steam) velocity and big steam output quantity compares existing combustion and steam occurrence of equipment, and multiple combustion chambers of the invention are
Shell separates, and the spacing between two adjacent combustion chambers is small, and the casing of previous steam unit and U-shaped is omitted
The components such as pipe so that it is of the invention it is small in size, compact-sized, production cost is low.In addition, heat exchanger of the invention is whole
Installation inside the shell, therefore reduces thermal loss, improves heat exchange efficiency of the invention.
(2) moreover, the structure of shell of the invention is simple, compact, assembly is easy, production cost is low, heat exchanger installation side
Just.
(3) also, heat exchanger of the invention is in elongated shape, and heat exchanger passes through multiple combustion chambers, and heat exchanger is used as multiple combustions
The heat exchanger of room is burnt, therefore heat exchanger of the invention can be realized integral installation, disposably install the heat exchange of multiple combustion chambers
The purpose of device is installed very convenient, quick.
(4) in addition, heat exchanger tube of the invention is heat exchange straight tube, the pressure loss for the straight tube that exchanges heat is small, water flow pressure drag is small,
To improve the heat exchange efficiency of water, and the solder joint on straight tube is few, it is not easy to reveal, to extend of the invention make
Use the service life.
(4) more have plenty of, the present invention replaces previous heat exchange copper tube using stainless steel tube as heat exchanger tube, and the present invention utilizes
Stainless steel tube high temperature resistant, high voltage bearing advantage, thus solve existing heat exchange copper tube fin non-refractory, it is not high pressure resistant,
It is easy leakage, copper tube and fin is easy to be burnt the problem of being carbonized, and the present invention improves heat exchange efficiency, also avoids heat exchanger tube by high temperature
It burns out, extends service life of the invention.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the heat-exchange unit embodiment one of modularization steam generating equipment of the present invention.
Fig. 2 is the structural schematic diagram of another angle of the present invention.
Fig. 3 is the left view of Fig. 1.
Fig. 4 is decomposition texture schematic diagram of the invention.
Fig. 5 is the structural schematic diagram of heat exchanger of the invention (part-structure that is double-deck and omitting supporting clapboard).
Fig. 6 is the structural schematic diagram of another angle of Fig. 5.
Fig. 7 is the side view of the heat exchanger in the embodiment of the present invention two.
Specific embodiment
The invention will be further described with reference to the accompanying drawings and embodiments.
Embodiment one, as shown in Figures 1 to 6, a kind of heat-exchange unit of modularization steam generating equipment, including 1 He of shell
Heat exchanger 5, the interior length direction along shell 1 of the shell 1 are arranged at intervals with muti-piece supporting clapboard 512, the supporting clapboard 512
The inner cavity of shell 1 is divided into multiple combustion chambers 6,7,8 arranged side by side, the top of the combustion chamber 6,7,8 is equipped with smoke exhaust fan 17,
The bottom of the combustion chamber 6,7,8 is equipped with burner 18, and the heat exchanger is arranged along the length direction of shell in supporting clapboard 512
On, the heat exchanger passes through each combustion chamber, and the top of the heat exchanger 5 is equipped with water inlet 52, and the lower part of heat exchanger 5, which is equipped with, steams
Vapor outlet 53.The burner of each combustion chamber of the invention can work independently, and user can open single or more according to demand
The burner of a combustion chamber, to control heating power of the invention.In addition, manufacturer of the invention can also be according to the need of user
It asks, increases or decreases the quantity of supporting clapboard, to increase or decrease the quantity of combustion chamber, thus meet the use demand of user,
Such as manufacturer can increase the quantity of supporting clapboard, to be separated out more combustion chambers, to increase heating function of the invention
Rate, to meet the needs of user is to high vapor (steam) velocity out and big steam output quantity.
As the more specific technical solution of the present invention.
The heat exchanger 5 is in elongated shape, and the heat exchanger 5 is horizontally set on muti-piece supporting clapboard.
The top of the shell 1 is equipped with main smoke discharging pipe 16, and the top of each combustion chamber 6,7,8 passes through smoke exhaust fan, curved
First 19 are connected to main smoke discharging pipe 16.
The shell 1 is to be connected by front side board 11, back side panel 12, left plate 14, right side plate 15 and lamina tecti 13 by orientation
Connect and surround, the front side of the supporting clapboard 512, rear side, top, bottom respectively with front side board 11, back side panel 12, lamina tecti 13,
Burner is fixedly connected, and the muti-piece supporting clapboard is set to side by side between left plate 14 and right side plate 15, the front side board, rear side
Plate, left plate, right side plate and supporting clapboard are connected to the top perimeter of burner, to surround multiple combustion chambers 6,7,8.
The supporting clapboard 512 is equipped with multiple rows of first support through holes 513, often ranked first support through holes 513 along shell
Width direction setting, the heat exchange straight tube 51 of every layer of set of heat exchange tubes both pass through first support through holes of every piece of supporting clapboard 512
513。
The left plate 14, right side plate 15 are identical as the structure of supporting clapboard.
The left plate, right side plate, which are equipped at least two, ranked second support through holes 150, often ranked second 150 edge of support through holes
The width direction of shell is arranged, and the both ends of the heat exchange straight tube are each passed through the second support through holes 150 of left plate, right side plate.
The supporting clapboard, left plate 14, right side plate 15 are from top to bottom to be sequentially connected structure by muti-piece supporting vertical plate 514
At the top edge of the supporting vertical plate 514 is equipped with multiple upper support notches 515, the supporting vertical plate along the width direction of shell
514 lower edge is equipped with multiple lower support notches 516 along the width direction of shell, two pieces of neighbouring supporting vertical plates 514
Upper support notch 515 and lower 516 aligned in position of support notch and mutual direction, upper support notch 515 and lower support notch 516
Close up into multiple first support through holes 513 and multiple second support through holes 150.
The front side board 11, back side panel 12, lamina tecti 13 and supporting clapboard periphery be equipped with and enclosed for the connection of connection
Side 110, the top of the burner 18 are surrounded by coaming plate 180, the front side board 11, back side panel 12, left plate 14, right side plate
15 and the connection surrounding edge 110 of supporting clapboard be connected on the coaming plate 180 of burner 18.
The top and bottom of the forward and backward side plate 11,12 correspond to supporting clapboard equipped at least two resigning breach 120, institute
Supporting clapboard is stated to be located in resigning breach 120.
As the more specific technical solution of the present invention.
The heat exchanger 5 includes the set of heat exchange tubes 50 of at least two-layer laminate setting, and every layer of set of heat exchange tubes 50 is changed by more
Hot straight tube 51 is arranged side by side and head and the tail are sequentially communicated composition, and heat exchange straight tube is equipped with heat exchange fin, the length of every heat exchange straight tube 51
It spends identical, neighbouring two layers of set of heat exchange tubes 50 to be sequentially communicated, one heat exchange access of composition, it is right in the set of heat exchange tubes 50 of top layer
It answers the heat exchange access to be equipped with water inlet 52, the heat exchange access is corresponded in undermost set of heat exchange tubes 50 equipped with steam (vapor) outlet
53。
The heat exchange straight tube 51 of undermost set of heat exchange tubes 50 is light pipe 511, the heat exchange straight tube of the set of heat exchange tubes 50 of other layers
51 are equipped with the heat exchange fin 510.
The pressure drag of the heat exchange straight tube 51 is small, and the solder joint on straight tube is few, it is not easy to reveal.
The heat exchanger stainless steel tube heat exchanger.The heat exchange straight tube is stainless steel tube, stainless steel tube energy high temperature resistant, resistance to height
Pressure, it is not easy to reveal.The heat exchange fin is to be made of stainless steel, and the heat exchange fin is spiral fin.
The left and right sides of the set of heat exchange tubes 50 is equipped with support plate 56, and corresponding heat exchange straight tube 51 is equipped in the support plate 56
The end of supported hole, the heat exchange straight tube 51 passes through supported hole.
The end of the adjacent two piece heat exchange straight tube 51 of the same layer set of heat exchange tubes 50 passes through the first bend pipe 57 and connects.
Neighbouring two layers of set of heat exchange tubes, 50 head and the tail are connected by the second bend pipe 58.First bend pipe 57 and
Two bend pipes 58 are located at the outside of support plate 56.
First bend pipe 57 and the second bend pipe 58 are U-tube.
Ring flange 59 is equipped at the steam (vapor) outlet 53.
As the more optimized technical solution of the present invention.
The outer surface of the heat exchange straight tube 51 is equipped at least two sections of heat exchange wing segments 54, heat exchange wing along the length direction of shell
Segment 54 is equipped with the heat exchange fin, and two sections of adjacent heat exchange wing segments 54 are spaced setting, two sections of adjacent heat exchange wings
Heat exchange straight tube 51 between segment 54 is light pipe segment 55.Each section of heat exchange wing segment of the heat exchange straight tube 51 is located at corresponding
In combustion chamber 6,7,8, the heat exchange fin section is located at the top of burner.Each section of heat exchange of every layer of set of heat exchange tubes 50 of the invention
Fin section 54 is used as the heat exchanger in multiple combustion chambers 6,7,8, and light pipe segment 55 is located at outside combustion chamber 6,7,8, and light pipe segment 55 does not have to
It exchanges heat, the middle transition section being intended only as between each combustion chamber 6,7,8.Certainly, heat exchange straight tube 51 of the invention can also be with
It is the continuous finned tube of fin.
The left and right both ends of the light pipe segment 55 are equipped with the supporting clapboard 512, and light pipe segment 55 is located at two adjacent combustions
It burns between room, the light pipe segment 55 of the heat exchange straight tube 51 passes through the first support through holes 513.
The length of the heat exchange wing segment 54 is greater than the length of light pipe segment 55, and the length of the heat exchange wing segment 54 is light pipe
3-10 times of the length of section 55.Of the invention is reasonable in design, guarantees that heat exchange area is sufficiently large, while and reducing heat damage
It loses.
The working principle of the invention:
When the work of modularization steam generating equipment, the inlet pipeline (not shown) of modularization steam generating equipment is defeated by water
It sending to heat exchanger, water is entered in heat exchange access by water inlet, at the same time, the air inlet pipeline of modularization steam generating equipment
For (not shown) by fuel gas transmission to burner, modularization steam generating equipment controls the burner point of each combustion chamber
Fire, burner begin to warm up heat exchanger and its interior water, and water absorbs heat by heat exchanger, and the water in heat exchanger is heated change
At high-temperature steam, high-temperature steam is exported from steam (vapor) outlet.
Embodiment two, as shown in fig. 7, embodiment two is similar to the embodiment of embodiment one, unique difference is:
Every layer of set of heat exchange tubes 50 is that connection is arranged side by side by more heat exchange straight tubes 51 to constitute, neighbouring two layers of set of heat exchange tubes 50
51 head and the tail of heat exchange straight tube be sequentially communicated.
Claims (10)
1. a kind of heat-exchange unit of modularization steam generating equipment, including shell and heat exchanger, characterized in that set in the shell
There is at least one piece of supporting clapboard, the inner cavity of shell is divided at least two combustion chambers arranged side by side, the combustion by the supporting clapboard
The top for burning room is equipped with smoke exhaust fan, and the bottom of the combustion chamber is equipped with burner, length direction of the heat exchanger along shell
It is arranged on supporting clapboard, the heat exchanger passes through each combustion chamber, and the heat exchanger is located at the top of burner, the heat exchange
Device is equipped with water inlet and steam (vapor) outlet.
2. the heat-exchange unit of modularization steam generating equipment according to claim 1, characterized in that the heat exchanger is in elongated
Shape, the heat exchanger are horizontally set on supporting clapboard.
3. the heat-exchange unit of modularization steam generating equipment according to claim 2, characterized in that the heat exchanger includes extremely
Few two layers of set of heat exchange tubes, every layer of set of heat exchange tubes are made of more heat exchange straight pipe parallel settings, and heat exchange straight tube is equipped with heat exchange
Fin, two layers neighbouring of set of heat exchange tubes are sequentially communicated, and constitute a heat exchange access, and the set of heat exchange tubes of top layer is equipped with described
Water inlet, undermost set of heat exchange tubes are equipped with the steam (vapor) outlet.
4. the heat-exchange unit of modularization steam generating equipment according to claim 3, characterized in that set on the supporting clapboard
There are multiple rows of first support through holes, the width direction that often ranked first support through holes along shell is arranged, and every layer of set of heat exchange tubes is changed
Hot straight tube both passes through first support through holes of every piece of supporting clapboard.
5. the heat-exchange unit of modularization steam generating equipment according to claim 2, characterized in that the shell is by front side
Plate, back side panel, left plate, right side plate and lamina tecti connection surround, the supporting clapboard between left plate and right side plate,
Front side, rear side, top, the bottom of the supporting clapboard are fixedly connected with front side board, back side panel, lamina tecti, burner respectively, institute
The top perimeter that front side board, back side panel, left plate, right side plate and supporting clapboard are connected to burner is stated, to surround
State at least two combustion chambers.
6. the heat-exchange unit of modularization steam generating equipment according to claim 5, characterized in that the front side board, rear side
Plate, left plate, right side plate, lamina tecti and supporting clapboard periphery be equipped with connection surrounding edge, the top surrounding of the burner is set
Have a coaming plate, the front side board, back side panel, left plate, right side plate connection surrounding edge be connected on the coaming plate of burner.
7. the heat-exchange unit of modularization steam generating equipment according to claim 6, characterized in that the left plate, right side
Plate, which is equipped at least two, ranked second support through holes, and the width direction that often ranked second support through holes along shell is arranged, and the heat exchange is straight
The both ends of pipe are each passed through the second support through holes of left plate, right side plate.
8. the heat-exchange unit of modularization steam generating equipment according to claim 2, characterized in that the heat exchanger stainless steel
Heat exchange of heat pipe.
9. the heat-exchange unit of modularization steam generating equipment according to claim 8, characterized in that undermost set of heat exchange tubes
Heat exchange straight tube be light pipe, the heat exchange straight tube of the set of heat exchange tubes of other layers is equipped with the heat exchange fin.
10. the heat-exchange unit of modularization steam generating equipment according to claim 6, characterized in that the top of the shell
Equipped with main smoke discharging pipe, the top of each combustion chamber is connected to by smoke exhaust fan with main smoke discharging pipe.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201811458815.9A CN109373301A (en) | 2018-11-30 | 2018-11-30 | A kind of heat-exchange unit of modularization steam generating equipment |
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CN201811458815.9A CN109373301A (en) | 2018-11-30 | 2018-11-30 | A kind of heat-exchange unit of modularization steam generating equipment |
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CN109373301A true CN109373301A (en) | 2019-02-22 |
Family
ID=65376346
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CN201811458815.9A Pending CN109373301A (en) | 2018-11-30 | 2018-11-30 | A kind of heat-exchange unit of modularization steam generating equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110925729A (en) * | 2019-12-31 | 2020-03-27 | 浙江惠厨节能科技有限公司 | Gas steam engine heat exchanger combining fin plate structure and flat tube structure |
CN112762426A (en) * | 2021-04-10 | 2021-05-07 | 广东大源小能节能科技有限公司 | Gas steam generating equipment |
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CN106969340A (en) * | 2017-05-18 | 2017-07-21 | 江苏德克沃热力设备有限公司 | Integrated steam source module unit |
CN206817428U (en) * | 2016-10-31 | 2017-12-29 | 广东大源小能节能科技有限公司 | Steam generation module unit with blast switch |
CN207976024U (en) * | 2018-02-07 | 2018-10-16 | 江苏德克沃热力设备有限公司 | A kind of module steam machine heat exchanger |
CN209524488U (en) * | 2018-11-30 | 2019-10-22 | 江苏德克沃热力设备有限公司 | A kind of heat-exchange unit of modularization steam generating equipment |
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2018
- 2018-11-30 CN CN201811458815.9A patent/CN109373301A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN206817428U (en) * | 2016-10-31 | 2017-12-29 | 广东大源小能节能科技有限公司 | Steam generation module unit with blast switch |
CN106969340A (en) * | 2017-05-18 | 2017-07-21 | 江苏德克沃热力设备有限公司 | Integrated steam source module unit |
CN207976024U (en) * | 2018-02-07 | 2018-10-16 | 江苏德克沃热力设备有限公司 | A kind of module steam machine heat exchanger |
CN209524488U (en) * | 2018-11-30 | 2019-10-22 | 江苏德克沃热力设备有限公司 | A kind of heat-exchange unit of modularization steam generating equipment |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110925729A (en) * | 2019-12-31 | 2020-03-27 | 浙江惠厨节能科技有限公司 | Gas steam engine heat exchanger combining fin plate structure and flat tube structure |
CN112762426A (en) * | 2021-04-10 | 2021-05-07 | 广东大源小能节能科技有限公司 | Gas steam generating equipment |
CN112762426B (en) * | 2021-04-10 | 2021-10-08 | 广东大源小能节能科技有限公司 | Gas steam generating equipment |
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