奥地利专利AT517853A4 Cleaning device for a heat exchanger

专利PDF首页>>奥地利专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
Cleaning device (1, 16, 24, 37) for a heat exchanger (13) through which a contaminated medium flows, with a tube (5), which tube (5) has a medium inlet (6), a medium outlet (8) and a central region (7) between medium inlet (6) and medium outlet (8). The cleaning device (1, 16, 24, 37) has for cleaning a jacket inner surface (9) of the tube (5) on a cleaning element which at least partially against the shell inner surface (9) of the tube (5). Furthermore, the cleaning device (1, 16, 24, 37) on a guide and a holding member which carries the cleaning element. The holding element is movable by an adjusting means (10, 17) in a periodic lifting movement in the tube (5) along its longitudinal axis. The guide device is connected to the holding element and is formed in the installation position befindlicher cleaning device (1, 16, 24, 37) only in the central region (7) and in the region of the medium outlet (8) of the tube (5).
公开号:AT517853A4
申请号:T8012/2016
申请日:2015-12-10
公开日:2017-05-15
发明作者:Ing Dr Techn August Raggam Dipl
申请人:Ing Dr Techn August Raggam Dipl；
IPC主号:

专利说明:

Cleaning device for a heat exchanger
Cleaning device for a through-flow with contaminated media heat exchanger with at least one tube, which at least one tube has a medium inlet, a medium outlet and a central region between medium inlet and medium outlet, comprising at least one cleaning element for cleaning a shell inner surface of the at least one tube, said at least a cleaning element at least partially abuts against the shell inner surface of the at least one tube, at least one holding element which carries the at least one cleaning element, wherein the at least one holding element is movable by an adjusting means in a periodic lifting movement in the at least one tube along its longitudinal axis, and at least one Guide device which is connected to the at least one holding element.
There are generally known cleaning devices for cleaning heat exchangers with pipes, which prevent caking or depositing entrained in the medium impurities on the surfaces of the heat exchanger and thus reducing the efficiency of the heat exchanger. FIG. 1 shows such a cleaning device 101 known from the prior art, which has a guide device and a holding element in the form of a spirally twisted plate 103 and a cleaning element in the form of a cleaning spiral 102. The spirally twisted sheet 103 generates turbulence in a medium flowing through a tube 104 of the heat exchanger, thereby improving the heat transfer from the medium to a shell inner surface 108 of the tube 104. The tube 104 has a medium inlet 110, a medium outlet 112 and a central region 111 between the medium inlet 110 and the medium outlet 112. A jacket outer surface 109 of the tube 104 is flowed around by a heat exchange medium, which absorbs the heat and feeds it to another process. The cleaning coil 102 is connected to the guide 103 at its upper and lower ends. By a periodic lifting movement of the guide 103 by an adjusting means 106 formed on the guide 103 cleaning coil 102 is moved along the inner shell surface 108 of the tube 104 of the heat exchanger, thereby any deposits or caking formed on the inner shell surface 108 are removed. The cleaning coil 102 is at least partially against the shell inner surface 108. The arrows 105 and 107 indicate the direction of flow of the contaminated medium through the pipe 104 during operation of the known heat exchanger.
Such a cleaning device 101 shown in Figure 1 is used for example in furnaces, wherein the flowing through the tube 104 of the heat exchanger medium is exhaust gas contaminated by combustion residues (HC compounds, CO, soot, NOx, etc.) and impurities such as minerals is. The heat exchanger is advantageously arranged in the vicinity of the furnace and part of the trigger system.
A disadvantage of this type of cleaning devices 101 proves that it can come to a closure of the tube 104 of the heat exchanger by deposition of impurities on the guide and the holding element. This is particularly critical in the area around the axis of rotation of the guide 103, since this area is not directly applied to the shell inner surface 108 of the tube 104 and is cooled due to insufficient heat exchange medium, and critical in the medium inlet 110, since particularly high temperatures occur here. Due to the high temperatures, it increasingly comes to caking impurities that do not dissolve at all or only insufficiently during operation of the cleaning device, whereby the tube 104 can completely close. This not only leads to a reduction in the efficiency of the heat exchanger but can also lead to a total failure of the heat exchanger.
The invention has the object of providing a cleaning device for a heat exchanger with at least one tube in such a way that the highest possible heat exchange efficiency is achieved and clogging of the tube is prevented.
According to the invention, this task is achieved in that the at least one guide device is formed in the installation position befindlicher cleaning device only in the central region and in the region of the medium outlet of the at least one tube.
This has the advantage that the medium, before it has reached the guide, has cooled down so far that a caking of impurities or impurities no longer occurs or aufitritt only to a negligible extent. Due to the guide formed in the central region and in the region of the medium outlet of the tube, a high turbulence of the medium and thus a high efficiency of the heat exchanger are still achieved. By trained in all areas of the pipe cleaning element, the shell inner surface of the tube is cleaned by means of the periodic lifting movement generated by the actuating means, whereby a high heat transfer is ensured by the medium flowing through the tube to the inner shell surface of the tube and which is ensured due to a high heat exchange efficiency , The adjusting means is advantageously formed by a pneumatic cylinder, a hydraulic cylinder or a crank mechanism.
Advantageously, the guide is formed in the installation position and during operation of the heat exchanger in the areas of the pipe on the cleaning device in which the temperature of the medium flowing through the pipe is substantially equal to or below 500 ° C.
Further advantageous embodiments of the cleaning device according to the invention are explained in more detail below with reference to FIGS.
Figure 1 shows a known from the prior art variant of a cleaning device in installation position in a side view.
Figure 2 shows a first embodiment variant of a cleaning device according to the invention in installation position in a side view.
Figure 3 shows a further embodiment of a cleaning device according to the invention in the installed position in a perspective view.
Figure 4 shows a further embodiment of a cleaning device according to the invention in the installed position in a perspective view.
Figure 5 shows a further embodiment of a cleaning device according to the invention in the installed position in a perspective view.
6a and 6b each show a perspective view of various possible embodiments of the cleaning elements of the cleaning device according to FIG. 5. FIGS. 7a and 7b each show a sectional view of the embodiment of the cleaning device according to FIG.
Figure 2 shows a first embodiment of a cleaning device 1 according to the invention in installation position in a tube 5 of a heat exchanger 13 for contaminated exhaust gases with a holding means and a guide formed by only a spirally twisted sheet metal 2. The sheet 2 carries a cleaning element formed as a cleaning coil 3, wherein the Cleaning coil 3 with the sheet 2 by a loop 4 is firmly connected. The tube 5 is subdivided into three regions, into a medium inlet 6, a medium outlet 8 and a central region 7 between the medium inlet 6 and the medium outlet 8. The exhaust gas flows during operation of the heat exchanger 13 through the medium inlet 6 into the tube 5, flows through the pipe 5 and leaves it through the medium outlet 8. The direction in which the exhaust gas flows through the tube 5 is indicated by the arrows 14 and 15. The sheet 2 is in the installation position befindlicher cleaning device 1 in the central region 7 and in the area of
Mediumsaustritts 8 is formed. Through the sheet 2, the advantage is obtained that the residence time of the exhaust gas is increased in the tube 5 and that turbulence in the exhaust gas are generated, which increase the heat transfer from the exhaust gas to a shell inner surface 9 of the tube 5. In the region of the medium inlet 6, the exhaust gas flows through the tube 5 substantially without further diversion, wherein the exhaust gas is cooled in the region of the medium inlet 6 to the extent that the temperature of the exhaust gas has already dropped below 500 ° C. when entering the middle region 7, whereby caking of impurities on the sheet 2 is prevented.
An actuating means 10 connected to the sheet metal 2 via an intermediate element 10a displaces the sheet 2 and the cleaning spiral 3 into a periodic lifting movement 11, whereby any deposits on the casing inner surface 9 of the tube 5 are loosened or removed from the tube 5. Due to the lifting movement 11, any deposits on the cleaning spiral 3 are also loosened, since the cleaning spiral 3 changes in shape due to the lifting movement 11 and due to the partial contact with the shell inner surface 9. In a pulling movement, the cleaning coil 3 is stretched and in a pressure movement, the cleaning coil 3 is compressed. Advantageously, the movable part of the cleaning device 1 is guided during the periodic lifting movement 11 over an outer surface or outer edge of the cleaning coil 3 in the tube 5, which can be dispensed with further bearing elements for supporting the sheet 2. The cleaning spiral 3 preferably has sharp-edged corners and is formed by a material which is as stiff as possible. Such a material may be, for example, stainless steel. A stroke 12 of the lifting movement 11 is preferably at least as large as a distance between two adjacent passages of the cleaning spiral 3. This has the advantage that each area of the shell inner surface 9 is cleaned by the cleaning coil 3.
The inventive design of the cleaning device 1 has the advantage that a caking of combustion residues or contaminants, which is critical especially in temperature ranges above 500 ° C, to the cleaning device 1 is avoided so far that clogging of the tube 5 of the heat exchanger 13 is not can occur more.
In a further embodiment, the cleaning device 1 has a bearing unit, which is designed to guide and support the sheet 2 or the intermediate element 10a.
FIG. 3 shows a further embodiment variant of a cleaning device 16 according to the invention for a heat exchanger with at least one tube 5 in the installed position in a perspective view, the holding means being formed by a round bar 18 in contrast to the cleaning device 1 depicted in FIG. The round rod 18 carries spaced and parallel to each other cleaning elements in the form of circular ring writing 19 and baffles in the form of disc-shaped baffles 20. Preferably, the round rod 18 is arranged coaxially to the tube 5. The annular discs 19 are supported by the round rod 18 by means of Stemelementen 21, which are either part of the annular discs 19 or fixed to these. The disc-shaped baffle plates 20 have an outer diameter which is smaller than the diameter of a shell inner surface 9 of the tube 5 and force turbulence in an exhaust gas flowing through the tube 5, whereby this is repeatedly led to the shell inner surface 9 of the tube 5. According to the invention, no baffle plates 20 are formed in the region of the gas inlet 6 of the tube 5 in order to prevent the tube 5 from becoming clogged up by the caking of impurities.
An adjusting means 17 which is connected to the round rod 18, the round rod 18 in a lifting movement 22, wherein a stroke 23 of the lifting movement 22 corresponds to at least a distance between two adjacent circular disks 19. The moving parts of the cleaning device 16 are guided during the lifting movement 22 through the annular disks 19 in the tube 5, which rest depending on the manufacturing tolerances of the tube 5 at least partially on the inner shell surface 9 of the tube 5.
In a further embodiment variant for less contaminated exhaust gas, at least one disk-shaped baffle plate 20 is provided in the region of the gas inlet 6 for conducting and swirling the exhaust gas. This can, in contrast to the disc-shaped baffles 20 attached in the central region 7 and in the region of the gas outlet 8 of the tube 5 have a smaller diameter. As a result, the advantage is obtained that 6 turbulences are generated in the region of the gas inlet, whereby a higher heat transfer from the exhaust gas to the shell inner surface 9 of the tube 5 can be achieved.
FIG. 4 shows a further embodiment variant of a cleaning device 24 according to the invention for a heat exchanger with at least one pipe 5 in the installed position in a perspective view, the annular disks 19 being formed by spring elements 25 in distinction to the cleaning device 16 shown in FIG. The spring elements 25 are in each case supported by a stem element 21a attached to the round rod 18, wherein the stem elements 21a are advantageously designed so that the spring elements 25 are supported in a floating manner. As a result, the spring elements 25 can perform small relative movements to the stem elements 21a, whereby the advantage is obtained that the spring elements 25 fit better against the casing inner surface 9 of the tube 5. As a result, the spring members 25 are better cooled and the degree of cleaning is improved. Furthermore, the advantage is obtained that 25 loosened deposits are removed and removed by the resilient movements of the spring elements 25 during the lifting movement 22 on the spring elements.
In a further embodiment variant, the cleaning device 1 is formed in the region of the medium outlet 8 and in the middle region 7 by a round rod 18, which is spaced parallel to each other disc-shaped baffle plates 20 and annular disks 19 carries. In the region of the medium inlet 6, the cleaning device 1 is formed by a cleaning spiral, which is attached to a circular disk 19, a disc-shaped baffle plate 20 or a round rod 18. The annular discs 19 may be formed as spring elements 25. This has the advantage that manufacturing costs compared to the embodiment shown in Figure 3 and Figure 4 can be reduced.
FIG. 5 shows a further embodiment variant of a cleaning device 37 according to the invention for a heat exchanger with at least one tube 5 in the installed position in a perspective view. The tube 5 is divided into a medium inlet 6, a medium outlet, not shown, and a central region 7 between the medium inlet 6 and the medium outlet.
The cleaning device 37 has a plurality of segments 33, each having three flat bars 27. The flat bars 27 of a segment 33 are arranged at equal distances from each other along a shell inner surface 9 of the tube 5 and are supported by cleaning elements in the form of annular discs 29 with recesses 30 formed on their outer periphery. The annular discs 29 are arranged parallel to each other and are advantageously connected to the rings 34 with the flat bars 27.
The individual segments 33 are connected to each other via rings 34. As a result, the advantage is obtained that adapted to the temperatures of an exhaust gas flowing through the pipe 5, different materials can be used in the segments 33 and thus material costs can be reduced. Thus, in the hotter regions in the tube 5, ie in the region of the medium inlet 6, more temperature-resistant materials are advantageously used than in the colder regions, for example in the middle region 7.
Advantageously, the flat bars 27 bear on the shell inner surface 9 of the tube 5 in order to cool them by a heat exchange medium flowing around a jacket outer surface 28 of the tube 5. By cooling a caking of impurities on the flat bars 27 can be avoided.
Furthermore, the cleaning device 37 has disc-shaped baffle plates 32, which are provided with cutouts 38 and are carried parallel to the annular discs 29 by the flat bars 27. By formed in the disc-shaped baffles 32 cutouts 38 has the advantage that by the displacement of the disc-shaped baffles 32 to each other, the cutouts 38 force the exhaust as long as possible through the tube 5 and that the cutouts 38 in the exhaust vortex, causing the medium is repeatedly brought into contact with the shell inner surface 9 of the tube 5.
Any number of segments 33 can be strung together, but it is also possible to provide only one segment 33. The segment 33, which is located closest to the medium outlet, is connected to an adjusting means, not shown, by means of which the segment 33 or the segments 33 are displaceable in a periodic strokes 36. A stroke 35 of the lifting movements 36 advantageously corresponds at least to a distance between two adjacent annular discs 29.
In a further embodiment variant, the circular ring disks 29 are designed as spring element 31 and are supported in a floating manner by the flat bars 27. As a result, the advantage is obtained that the spring element 31 abut with a larger area on the shell inner surface 9 of the tube 5, whereby the cleaning of the shell inner surface 9 is improved and the spring element 31 are better cooled. Due to the better cooling, less impurities bake against the spring element 31.
FIG. 6 a shows in a detailed perspective view the annular disk 29 with recesses 30 according to FIG. 5 formed on its circumference.
FIG. 6b shows in a detailed perspective view a spring element 31 with recesses 30 formed on its circumference.
FIGS. 7a and 7b each show different sectional views of the embodiment variant of the cleaning device 37 according to FIG. 5, wherein the offset of the disk-shaped baffle plates 32 relative to each other can be seen.
The above-explained embodiments of the cleaning device according to the invention are intended for use in heat exchangers for gaseous media, in particular exhaust gases. The cleaning device can also be used for cleaning pipes of heat exchangers, which are traversed by contaminated liquid media of any viscosity.

权利要求:
Claims (15)
[1]
1. cleaning device (1, 16, 24, 37) for a throughflow in operation with contaminated media heat exchanger (13) with at least one tube (5), which at least one tube (5) has a medium inlet (6), a medium outlet (8) and a middle region (7) between the medium inlet (6) and the medium outlet (8), comprising at least one cleaning element for cleaning a shell inner surface (9) of the at least one tube (5), wherein the at least one cleaning element at least partially against the shell inner surface (9 ) of the at least one tube (5), at least one holding element, which carries the at least one cleaning element, wherein the at least one holding element by an adjusting means (10, 17) in a periodic lifting movement (11, 22, 36) in the at least one tube (5) is movable along its longitudinal axis, and at least one guide device which is connected to the at least one holding element, characterized in that the at least one Leiteinrichtu ng with in-installed position cleaning device (1, 16, 24, 37) only in the central region (7) and in the region of the medium outlet (8) of the at least one tube (5) is formed.
[2]
2. Cleaning device (1, 16, 24, 37) according to claim 1, characterized in that in the installation position befindlicher cleaning device (1, 16, 24, 37) and in operation of the heat exchanger (13), the guide is flowed around only by the medium has a temperature below 500 ° C.
[3]
3. cleaning device (1, 16, 24, 37) according to claim 1 or 2, characterized in that the jacket inner surface (9) of the at least one tube (5) which carries at least one cleaning element during the lifting movement (11, 22, 36).
[4]
4. Cleaning device (16, 24, 37) according to one of claims 1 to 3, characterized in that in the presence of a plurality of cleaning elements, the at least one holding element, the cleaning elements spaced from one another and in particular carries at a distance from each other, which is essentially a hub ( 23, 35) corresponds to the lifting movement (22, 36).
[5]
5. cleaning device (16, 24, 37) according to claim 4, characterized in that in the presence of a plurality of guide means, the at least one holding element, the guide means spaced from one another.
[6]
6. Cleaning device (16, 24, 37) according to claim 5, characterized in that the cleaning elements are formed by annular discs (19) and in particular by annular discs (29) with recesses (30) on its periphery.
[7]
7. cleaning device (16, 24, 37) according to claim 6, characterized in that the guide means are formed by disc-shaped baffle plates (20) and in particular by disc-shaped baffle plates (32) with cutouts (38).
[8]
8. Cleaning device (37) according to claim 7, characterized in that the at least one holding element is formed by at least two bars (27), which bars (27) at least partially against the shell inner surface (9) of the at least one tube (5) and the annular discs (29) and the disc-shaped baffle plates (32) hold substantially parallel to each other.
[9]
9. cleaning device (37) according to claim 8, characterized in that the at least two rods (27) are formed in several parts and adapted to the different temperatures in at least one tube (5) are formed by different materials.
[10]
10. cleaning device (16, 24) according to claim 7, characterized in that the cleaning device Stemelemente (21,21a) and that the at least one holding element is formed by a round rod (18) coaxial with the at least one tube (5) is arranged, wherein the round rod (18) the annular discs (19) by means of the Stemelemente (21, 21a) substantially parallel to each other and substantially parallel to the disc-shaped baffle plates (20).
[11]
11. Cleaning device according Anspmch 7, characterized in that the cleaning device Stemelemente (21,21a), that the at least one holding element by a round rod (18) is formed coaxially with the at least one tube (5) in the central region (7th ) and in the region of the medium outlet (8) is arranged, wherein the round rod (18) the annular discs (19) by means of the Stemelemente (21, 21 a) substantially parallel to each other and substantially parallel to the disc-shaped baffle plates (20) carries, and that the cleaning device has a cleaning coil (3) which is arranged in the region of the medium inlet (6) and is coupled to a circular disk (19), to a disk-shaped baffle plate (20) or to the round rod (18).
[12]
12. Cleaning device (24, 37) according to any one of claims 6 to 11, characterized in that the annular discs (19, 29) by spring elements (25, 31) are formed.
[13]
13. Cleaning device (1) according to one of claims 1 to 3, characterized in that the at least one cleaning element is formed by a cleaning coil (3).
[14]
14. Cleaning device (1) according to one of claims 1 to 3, characterized in that the at least one holding means and the at least one guide by only one element, in particular a spirally twisted sheet (2) are formed.
[15]
15. firing with a heat exchanger (13) with at least one tube (5), characterized in that the heat exchanger (13) of the furnace at least one cleaning device (1, 16, 24, 37) according to one of claims 1 to 14.

类似技术:

公开号 | 公开日 | 专利标题

EP1903207A1|2008-03-26|Heat exchanger, in particular exhaust gas heat exchanger

EP2400139A2|2011-12-28|Heat exchanger

DE202008014349U1|2009-04-09|Self-cleaning heat exchanger

EP3032172B1|2019-05-01|Thermal afterburning installation

AT517853B1|2017-05-15|Cleaning device for a heat exchanger

EP2044379B1|2011-12-21|Regenerative air preheater with brush seal

DE2734922A1|1979-02-08|METHOD AND DEVICE FOR COOLING EXHAUST MANIFOLD

DE2103508A1|1972-02-24|Heat exchanger

DE3100021C2|1984-10-31|Fuel cooler for an internal combustion engine

EP1419356B1|2009-04-22|Device for introducing hot gas into a heating surface pipe of a waste heat boiler

EP2369148A2|2011-09-28|Cooling device

EP1724544A1|2006-11-22|Method of heat exchanging and heat exchanger

DE102012007721A1|2013-10-24|Lever-controlled process gas cooler flaps

DE158789C|

DE102014011147A1|2016-01-28|Exhaust gas cooler with different radiator fin density

DE1009647B|1957-06-06|Tube heat exchanger

DE4310538A1|1994-10-06|Heat exchanger having predominantly straight tubes

DE2730674C3|1980-07-24|

DE102006053812B4|2008-08-14|Pipe support with integrated cleaning device

EP2063207B1|2014-02-19|Combustion plat with heat exchanger

EP2535546A1|2012-12-19|Combined heat and power device

DE102012206704B4|2018-07-12|Cleaning of channels through which at least one process fluid flows

DE102004024794A1|2005-12-08|heat exchanger device

DE10301145A1|2004-07-22|heat exchangers

DE573468C|1933-04-01|Device for the recovery of exhaust gases from boilers, ovens, stoves

同族专利:

公开号 | 公开日

WO2016145470A3|2016-11-03|

EP3800034A1|2021-04-07|

SG10201908099XA|2019-10-30|

EP3271138A2|2018-01-24|

CN107635743A|2018-01-26|

SG11201708592QA|2017-11-29|

AT516393B1|2016-05-15|

AT516393A4|2016-05-15|

WO2016145470A2|2016-09-22|

US20180079145A1|2018-03-22|

AT517853B1|2017-05-15|

AU2016232970B2|2020-07-09|

CN107635743B|2020-04-03|

AU2016232970A1|2017-11-09|

EP3271138B1|2020-12-09|

US20210114314A1|2021-04-22|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE805526C|1949-10-13|1951-05-21|Adolf Brendlin|Combined pipe cleaner for removing hard deposits from pipes|

DE19544185A1|1995-11-28|1997-06-05|Renzmann Und Gruenewald Gmbh|Industrial heat exchanger with tube bundle inserts|

DE102010047614A1|2010-10-07|2012-04-12|Erwin Koppe Keramische Heizgeräte GmbH|Small fire plant, particularly chimney oven, chimney insert, furnace insert, water hot spring, water heater for warm water or heating system, has housing and heating space, which is connected with flue gas outlet|

US5252157A|1989-05-01|1993-10-12|Central Plastics Company|Electrothermal fusion of large diameter pipes by electric heating wire wrapping and sleeve connector|

JPH0372197U|1989-11-20|1991-07-22|

JPH0375394U|1989-11-28|1991-07-29|

CA2056373C|1990-03-30|1998-09-29|Yuichiro Goto|Electro-fusion fitting|

WO1993014342A1|1992-01-06|1993-07-22|Kubota Corporation|Plastic pipe and method of manufacturing same|

US5433484A|1993-11-15|1995-07-18|Enfield Industrial Corporation|Double containment pipe and fitting joint|

WO1998037353A1|1997-02-18|1998-08-27|Uponor Aldyl Company|Method and fitting for joining plastics components|

SE511673C2|1998-03-11|1999-11-08|Kungsoers Plast Ab|Welding sleeve for connecting plastic double pipe lines|

US7614661B1|1999-09-14|2009-11-10|Petro Technik Limited|Welding socket|

JP2001208274A|1999-11-19|2001-08-03|Buraunii:Kk|Pipe joining method and device, and pipe|

EP2021163A2|2006-05-05|2009-02-11|Bindring SA|Method and device for connecting tubes made out of thermoplastic material|CN112123821A|2020-09-07|2020-12-25|武汉理工大学|Core mold aligning and clamping device for fiber pultrusion winding tubular product|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50219/2015A|AT516393B1|2015-03-18|2015-03-18|Induction coupling sleeve|

ATA8012/2016A|AT517853B1|2015-03-18|2015-12-10|Cleaning device for a heat exchanger|ATA8012/2016A| AT517853B1|2015-03-18|2015-12-10|Cleaning device for a heat exchanger|

[返回顶部]