Oven with a combustion chamber forming a combustion chamber

专利摘要:
Oven having a combustion chamber (6) forming a combustion chamber (2) and with a about a pivot axis (24) pivotable grate (3), which grate (3) in an operating position a grate opening (4) of the combustion chamber (2) covers, wherein a Burning surface (5) formed by the grate (3) delimits the combustion chamber (6) on one side, wherein the grate (3) is at least one, preferably elongated, projecting into the combustion chamber (6) in the operating position from the grate (3) , Clearance element (26) is connected.
公开号:AT514565A4
申请号:T50581/2013
申请日:2013-09-13
公开日:2015-02-15
发明作者:
申请人:Huemer Gmbh F；
IPC主号:

专利说明:

The invention relates to an oven having a combustion chamber forming combustion chamber and a grate pivotable about a pivot axis, which grate in an operating position covers a rust opening of the combustion chamber, wherein a combustion surface formed by the grate confines the combustion space on one side.
In particular, the invention relates to a pellet stove for burning pellets, preferably wood pellets, wherein the combustion chamber is formed by a burn pot.
The operating position is that position of the grate which typically occupies during a combustion process, and the firing surface designates an area within the combustion chamber formed by the grate elements, e.g., rust bars or grate, in the operating position, above which the combustible is held. Accordingly, the burning area is generally equal to or smaller than the surface of a grate. The burning surface may or may not be in the operating position in a plane with the rust opening; For example, a combustible area offset inwardly of the combustion chamber as compared to the rust opening would be conceivable and possible. Accordingly, the grate opening is also covered by the grate when the entire grate is disposed in the rust opening, i. irrespective of the shape or arrangement of the grate or the burning surface, the grate always covers the rust opening when it is capable of holding the burning material in the burning chamber or substantially preventing the burning out of the burning material through the rust opening in the operating position. For example, in a pelletizing oven in the operating position, the grate prevents pellets from escaping from the combustion chamber and at the same time allows air to be introduced into the burning space through the grate.
Such a furnace is already known from AT 505 382 B1, which shows a furnace for the combustion of wood pellets, wherein the bottom of the combustion chamber is formed by a pivotable about a horizontally arranged pivot axis turntable grid.
Generally, ovens with pivoting grates or grate parts are also known from CN 201110570 Y and JP 52101256 U, in each of which two pivot axes are provided for two separate grate parts.
The known pivotable grates are thus suitable as ash or pellet residues, which in operation, i. However, panning the grate in the combustion chamber may leave residual combustion residues, in particular so-called "bridges", during the actual combustion, not fallen through the grate. from ash and slag, ash cake or other solidified or adhering to a wall of the combustion chamber residues do not remove. This combustion residue or waste can subsequently lead to malfunctions or at least reduce the efficiency of the furnace.
In the oven shown in US Pat. No. 2,184,292 A, protrusions or teeth for breaking up an ash cake are provided on a grate. However, these teeth are arranged on individually rotatable rods, which must be rotated for breaking. Tilting of the grate itself is not provided here, so that larger combustion residues can not be discarded from the grate. In addition, the mechanism is relatively expensive to manufacture and operate and is prone to error.
Compared to the known grates, it is an object of the invention to propose a grate with which combustion residues remaining in the combustion chamber can be removed when the grate is swiveled in a simple yet nonetheless safe manner.
This object is achieved in a furnace of the type mentioned above in that at least one, preferably elongated, evacuation element is mounted in the operating position from the grate, starting in the combustion chamber, from the grate. Accordingly, the evacuation element is pivoted together with the grate upon pivoting of the grid, so that no additional moving parts, in particular no additional drive or the like, are required for the removal of solidified combustion residues. In particular, as the grate pivots from the operative position to an open position, the clearing element destroys the so-called "bridges". (which is why it is also referred to as "bridge breaker") and cleans the combustion chamber whereby the debris released from the combustion chamber by the evacuation element can be removed through the pivoted open grate. For effective evacuation of large parts of the combustion chamber, it is advantageous if the pivot axis extends substantially laterally of the grate opening and the evacuation element is substantially connected to the grate at an edge of the framing surface adjacent the pivot axis. By virtue of the fact that the pivot axis extends laterally next to the grate opening, substantially all of the grate opening can be released during pivoting, so that even large residues can be removed from the firing chamber. In addition, by the scavenging member moving from a side when the grate is pivoted through the combustion chamber, the residues left above the grate in the combustion chamber are carried out of the combustion chamber and then dropped from the grate.
Advantageously, the shape and dimension of the evacuation element is selected so that the evacuation element sweeps over a portion of the rust opening upon pivoting of the grate about the pivot axis. Thus, in particular, an ash cake formed in the plant directly above the grate can be thoroughly removed. The shape and dimension is adjacent to the blaze, i. in particular to the dimensions of the combustion chamber, adapt. In addition to the basically elongated shape, e.g. in the manner of a pole or beam, which, above all, minimizes the space occupied by the evacuation element in the combustion chamber, it is favorable if the evacuation element is substantially long enough to pass over almost the entire grate opening at the transition from the operative position to the open position of the grate. Accordingly, the evacuation element protrudes into the combustion chamber approximately as far that, during pivoting of the grate, it extends approximately as far as a side wall of the combustion chamber opposite the pivot axis. Optimum effect of the evacuation element can be achieved if the shape of the combustion chamber is tuned to the movement of the evacuation element, for example with a partially cylindrical sidewall, so that the evacuation element can reach and cover substantially the entire combustion chamber.
If the evacuation element is located substantially parallel to a sidewall of the combustion chamber in the operating position of the grate, any connections of combustion residues with the respective sidewall in the sections obscured by the evacuating element can be avoided. In addition, in this arrangement, the combustion chamber is advantageously hardly restricted by the evacuation member, and the evacuation member is hardly a limitation on the usable combustible.
For thorough cleaning of the combustion chamber and for removing also smaller bridges formed only in parts of the combustion chamber, it is expedient if a plurality of evacuation elements, arranged side by side and in parallel in the manner of a comb, are connected to the grid.
It has also been found to be advantageous if the rust in the operative position has substantially parallel stacks of grates defining the firing surface of the grate, at least a portion of the grate bars being movable relative to the firing surface, especially tiltable from the firing surface. Thus, by moving the grate bars, any combustion residues solidified in the grate or between the grate and the evacuator may be loosened, loosened and dropped. The designation as grate bar is intended to indicate a substantially longitudinal shape of the grate elements and does not limit the cross section of the grate elements. In particular, in addition to round triangular and square bars or cross bars with a more complicated profile, such as a T or H-profile, conceivable in cross-section.
A simple construction of the grate can be achieved if the movable grate bars are connected via a tilting axis to the grate or the remaining grate bars, which tilting axis is arranged parallel to the pivot axis and offset from the evacuation element, wherein the movable grate bars are preferably mounted slidably on the tilting axis. An offset arrangement with respect to the evacuating element ensures that the movable grate bars can remove any debris left on the evacuating element. A slidable mounting allows relative displacement of the grate bars, in addition to the tilting movement, so that any connections that block a tilting movement can be broken by the displacement.
In the context of the movable grate bars, it is particularly advantageous if they are connected to a driving lever which is adapted to co-operate with a holding element fixedly arranged relative to the combustion chamber for moving the movable grate bars when the grate is pivoted, the holding element being arranged to open the gripping lever when it is opened To hold back rust. In this way, as the grate is pivoted from the operative position in the open position, the movable grate bars are automatically moved with respect to the remaining grate bars and the eviscerating member, i.e. tilted and optionally displaced, without requiring a separate drive. In particular, this relative movement can take place jerkily when the grate falls below the weight of the combustion residues on the grate, for example when a lock holding the grate in the operative position is released, and in the case of the grate, i. After the grate has already been pivoted far away, the driving lever abruptly hits the retaining element.
The cleaning of the combustion chamber and the grate during pivoting of the rust is particularly effective when the grate forms a bottom of the combustion chamber, the combustion surface being substantially horizontal in the operating position. In this arrangement, any residues preferably accumulate directly on the
Rust or above the focal surface and are thus optimally accessible to the clearing element.
In order to fully automate the operation of the furnace, including the described cleaning or cleaning, which is not possible in known furnaces, in which the combustion chamber could only be cleaned by a manual intervention, it is favorable if at least one movement of the grate about the pivot axis by means of a drive, preferably an electric motor, is controllable. The drive is especially useful for closing the grate after evacuation, i. however, as the grate is returned from the open position to the operative position, it may also assist the evacuation and, for example, perform repeated sweeping operations of the grid for thorough cleaning.
The invention will now be further elucidated by means of particularly preferred embodiments, to which it should not be limited, and with reference to the drawings. The drawings show in detail:
Fig. 1 is a diagrammatic, schematic view of a pellet stove with a pivotable grate in an operative position;
FIG. 2 shows the pellet stove according to FIG. 1 in a front view; FIG.
Fig. 3 shows the pellet stove according to Fig. 1 in a sectional view along the line III-III in Fig. 2;
Fig. 4 is a perspective view of the pellet stove according to FIG. 1 in an open position of the grate;
Figure 5 shows the pellet stove according to Figure 4 in a lateral perspective.
Fig. 6 shows a detail section of the grate according to circle VI inFig. 5 on the contrary, larger scale;
FIG. 7 shows the pellet stove according to FIG. 4 in a sectional view along the line III-III in FIG. 2; FIG. and
8 shows a detailed section of the grate according to circle VIII in FIG. 7 on the contrary, larger scale;
In Fig. 1, a pellet stove 1 with a combustion chamber 2 in the form of a burn pot is shown. Below the combustion chamber 2 is a
1, which covers the underside of the combustion chamber 2 or a rust opening 4 (see Figures 4 and 7) of the combustion chamber 2 in the operating position shown in Figure 1. When the grate opening 4 is covered by the grate 3, the grate 3 or 3 is limited a burning surface 5 (see Fig. 3) of the grate 3 together with the combustion chamber 2 has a combustion space 6, so that a burning material (not shown) received in the combustion space 6 is held by the rust 3 in the combustion chamber 2. In the embodiment shown, the grate opening 4 corresponds approximately to the base of the combustion chamber 6, the grate 3, in the operating position, forming a substantially horizontal bottom of the combustion chamber 6.
The combustion chamber 2 has a substantially rectangular base with rounded corners. On the underside and upper side of the combustion chamber 2, an annular collar 7, 8 is provided in each case, wherein a jacket 9 of the combustion chamber 2 is formed by two mating pieces 10 engaging one another on the shorter sides. The shell pieces 10 are accordingly held at the bottom and top of the surrounding annular collars 7, 8 together and are connected to the annular collars 7, 8 for forming the combustion chamber 2, for example, welded. The jacket 9 of the combustion chamber 2 has in an upper region, a piece below the upper annular collar 8, air holes 11, through which a draft in the combustion chamber 6 is made possible.
The grate 3 is located on the underside of the combustion chamber 2 and closes off with the jacket 9. The grate 3 has a plurality of rust elements in the form of substantially parallel juxtaposed grate bars 12. In the operating position, the tops of the grate bars 12 define a substantially continuous area which is interrupted only by the distances between the bars 12; in particular, the root bars 12 lie in one plane. The focal surface is that part of the substantially continuous surface, which is arranged in the operating position within the combustion chamber 2 and thus limits the combustion chamber. The grate bars 12 are connected at least by a tilting axis 13 which is arranged orthogonal to the roasting bars 12, wherein a part of the grate bars 14 (see Fig. 4) is tiltably and slidably mounted on the tilting axis 12. The remaining, fixed grate bars 15 are connected to a crossbar 16 on which the movable grate bars 14 rest in the operating position.
The movable grate bars 14 are also penetrated by a connecting rod 17, which may also have a rectangular cross-section and, accordingly, may also be non-rotatably connected to the movable grate bars 14. The engaging rod 17 protrudes laterally beyond the grate 3, wherein with the two protruding ends of the driving rod 17 each a driving lever 18 is rotatably connected. The driving lever 18 are perpendicular or at a variable angle to the grate 3 and in the operating position laterally adjacent to the combustion chamber 2 over the grate 3 addition. For ease of assembly, the driving lever 18 is fitted on the driving rod 17 and secured with a fixing screw 18 '(see Fig. 4).
Parallel to the grate bars 12 is on both sides of the grate 3, i. in addition to the outermost grate bars 12, in each case one grate support 19 is connected to the tilting axis 13 and the transverse bar 16. The post supports 18 hold the grate bars 12 at a distance from one below the grate bars 12, i. The grid plate 20 is arranged parallel to the focal surface 5 and projects beyond the grid 3 on all four sides, so that it can also be used as a sealing plate to an ash box (not shown) down.
Above the grate plate 20, two holding elements 21, each associated with one of the driving levers 18, are arranged on the side of the grate 3 or the combustion chamber 2. The holding members 21 are connected, for example, to an outer wall (not shown) of the furnace so as to be immovably fixed with respect to the combustion chamber 2 and cooperate with the driving levers 18 upon pivoting of the grate 3 (see Fig. 4).
The further structure of the grate 3 can be seen in particular in FIGS. 2 and 3, which also show the operating position of the arrangement shown in FIG. The grate plate 20 is connected to its side facing away from the combustion chamber 2 via two fixed or spring-loaded connecting elements 22 with a support structure23. The support structure 23 is pivotally mounted on a pivot axis 24 and has guides 25, 26 adapted to operate the grate 3 by means of a roller (not shown) running between the guides 25, 26, the roller preferably being provided with a drive, e.g. an electric motor, is connected.
In addition, in FIG. 3, an evacuation element 27 protruding vertically from the grate 3 into the combustion chamber 6 and into the combustion chamber 2 is shown. The evacuation element 27 is arranged substantially in the form of a beam and, in the operating position, parallel to the side wall 10 'of the combustion chamber 2 formed by a shell piece 10, substantially abutting against the side wall 10'. Accordingly, the evacuation element 27 is arranged at the edge of the combustion surface 5 bounded by the combustion chamber 2. The evacuation element 27 extends over slightly more than half the height of the combustion chamber 6.
From the operating position shown in FIGS. 1 to 3, the post 3 can be pivoted about the pivot axis 24 into the open position shown in FIGS. 4 to 8. For example, the grate 3 may be actuated by operation of the handle 25 or by a drive connected to the pivot axis 24, e.g. in the form of an electric motor (not shown) pivoted, i. both opened and closed.
When opening the grate 3, i. in the transition from the operating position to the open position, the grate 3 is pivoted downwards by the combustion chamber 2, the evacuation elements 27 following the movement of the grate 3. Accordingly, the evacuation elements 27 are moved away from the side wall 10 'of the combustion chamber 2, in the operative position substantially and pivoted through the combustion chamber 6, so that any remaining in the combustion chamber 6 combustion residues that are not already following the grate 3 by gravity, can be taken along , In particular, bridges forming in the interior of the combustion chamber 2 between the walls of the combustion chamber 2 can be destroyed and the fragments thus transported away.
Immediately before the open position, i. When the pivoting angle of the grate 3 almost corresponds to the open position, the engaging levers 18 respectively contact the associated holding member 21. Since the holding members 21 do not follow the pivotal movement, the engaging levers 18 are restrained in a support portion 28 at an end of the driving levers 18 opposite the engaging rod 17 from the holding members 21. Since the driving levers 18 are connected via the driving rod 17 with the movable grate bars 14, which hitherto rest on the crossbar 16, follow the movable grate bars 14 according to their displaceable and tiltable mounting on the tilting axis 13 of the movement of the driving lever 18. The displacement of the movable grate bars 14 through the Dimensions of the elongated hole 29 (see Fig. 8) in the movable grate bars 14, which surrounds the tilting axis 13 limited. Correspondingly, the tilting movement is limited by the dimensions of a recess 30 in the movable grate bars 14, in which the transverse axis 16 of the grid 3 is accommodated. The open position corresponds to a maximum pivoting of the grate 3, which is limited by the position of the holding elements 21 and the storage of the movable grate bars 14.
Referring particularly to Figs. 5 and 6, by tilting the movable grate bars 14 under the action of the holding members 21, the movable grate bars 14 are tilted with respect to the fixed grate bars 15, lifting the movable grate bars 14 away from the crossbar 16 and thus breaking up the burning surface 5 becomes. Any combustion residues held or clamped between the movable grate bars 14 and the solid grate bars 15, an ash cake adhering to the fixed or movable grate bars 15, 14 or other remnants of the kiln (hereinafter referred to as wastes), can thus be released from the grate 3 and moved over the swivel grate 3 and / or The pivoted grate plate 20 are transported away. In particular, even between the evacuation elements 27 held or adhering therefrom Abfallgefgelöstedgelöst, since the movable grate bars 14 push from below between the evacuation elements 27 and the side of the evacuation 27 emerge. In order to avoid a lateral displacement of the movable grate bars 14 along the tilting or transverse axis 13, 16 or to achieve a distance between the movable grate bars 14 and the respective adjacent fixed or movable grate bars 12, are between the bars 12 along the transverse axis 16 and / or along the tilt axis 13 substantially round spacers 31,31'abordnet. The diameter of the spacers 31 on the transverse axis 16 is preferably greater than the diameter of the recess 30 in order to prevent skipping of the spacers 31.
In Figs. 7 and 8, the relative movement of the movable bars 14 is shown in detail. In particular, it should be understood that the movable grate bars 14 are displaced in the open position with respect to the tilting axis 13 along the elongated hole 29 in the direction of the pivot axis 24. Since the longitudinal hole 29 has a rising away from the pivot axis 24 to the top of the bars 12, the movable grate bars 14 are moved in the region of the tilting axis 13 from the focal surface 5 down. At the same time resting in the operating position on the transverse axis 16 end of the movable grate bars 14 is lifted from the transverse axis 16 in the direction of the retaining elements 21, wherein the transverse axis 16 in the recess 30 moves downward. Thus, the movable roots 14 are displaced upwardly from the focal surface 5 in the region of the transverse axis 16.
When closing the grate 3, i. In the transition from the open position to the operative position, the upwardly tilted grate bars 14, when covering the grate opening 4 of the firing chamber 2, can be pushed back to rest on the transverse axis 16 and into a plane with the fixed grate bars 15 so that all grate bars 12 again form a common firing surface. During the closing operation, the driving levers 18 are each pushed by a further holding element (not shown) and thus the movable grate bars 14, by the driving rod 17, along the slot 29 back to the starting position.
According to the above explanations of the figures, in the preferred embodiment of a furnace according to the invention shown here, a total of four cleaning functions can be operated with only a single drive: firstly, the grid 3 is pivoted in a manner known per se; secondly, the movable grate bars 14 are displaced, and one side of the movable grate bars 14 are drawn down from the burning surface 5 (to the grate plate 20) through the passage of the long hole 29. thirdly, the movable grate bars 14 are tilted about the tilting axis 13 and one side of the movable grate bars 14 are out of the cutting surface 5 pushed upwards (in the direction of the combustion chamber 6); and fourth, the evacuation elements 27 are passed through the blazing area 6.
Of course, other embodiments and modifications of the evacuation elements 27 in the context of the present invention are analogously possible for the person skilled in the art. In particular, there may be provided cutting or tine-like or even planar evacuation elements which perform less the function of bridge breakers and more the function of blades and are adapted to scoop up the combustion chamber 6 of wastes. Likewise, the evacuation elements could be tuned to the combustion chamber such that they are recessed in the operating position in a side wall of the combustion chamber, so that a restriction of the combustion chamber is completely avoided. Furthermore, it would also be within the scope of the invention to arrange the evacuation elements or a part of the evacuation elements movable grate bars.

权利要求:
Claims (10)
[1]
Claims 1. Furnace with a combustion chamber (2) forming a combustion chamber (6) and with a grate (3) pivotable about a pivot axis (24), which grate (3) covers a grate opening (4) of the combustion chamber (2) in an operating position in which a firing surface (5) formed by the grate (3) delimits the combustion chamber (6) on one side, characterized in that at least one grate (3) is introduced into the combustion chamber (6) in the operating position from the grate (3) ) protruding, preferably elongated, evacuation element (27) is connected.
[2]
2. Oven according to claim 1, characterized in that the pivot axis (24) extends substantially laterally adjacent to the grate opening (4) and the evacuation element (27) substantially at an edge of the firing surface (5) adjacent to the pivot axis (24) with the grate (5). 3) is connected.
[3]
3. Oven according to claim 1 or 2, characterized in that the shape and dimension of the evacuation element (27) is selected so that the evacuation element (27) upon pivoting of the grate (3) about the pivot axis (24) part of the grate opening (27). 4) sweeps.
[4]
Furnace according to any one of Claims 1 to 3, characterized in that, in the operative position of the grate (3), the evacuation element (27) is arranged substantially parallel to a side wall (10 ') of the combustion chamber (2).
[5]
Furnace according to one of claims 1 to 4, characterized in that connected to the grate (3) are several evacuation elements (27) arranged side by side and in parallel in the manner of a comb.
[6]
Furnace according to one of claims 1 to 5, characterized in that the grate (3) in the operative position comprises substantially parallel grate bars (12) defining the grating surface (5) of the grate (3), at least a portion of the grate bars (12) movable relative to the focal surface (5), i nchoQnnHpTP; = niq Listen · Rronnf 1 ohmd l R V -i ^ rio + -
[7]
An oven according to claim 6, characterized in that the movable grate bars (14) are connected to the grate (3) via a tilt axis (13), which tilt axis (13) is parallel to the pivot axis (24) and offset from the evacuating element (27) is, wherein the movable grate bars (14) are preferably mounted displaceably on the tilting axis (13).
[8]
A furnace according to claim 6 or 7, characterized in that the movable grate bars (14) are connected to a driving lever (18) which is arranged to move, when the grate (3) is pivoted, with a holding element (21) fixedly arranged with respect to the combustion chamber (2) ) to move together to move the movable bars (14), wherein the holding element (21) is adapted to hold the driving lever (18) back against the grate (3) when unfolded.
[9]
Furnace according to one of claims 1 to 8, characterized in that the grate (3) forms a bottom of the combustion chamber (2), the firing surface (5) being substantially horizontal in the operating position.
[10]
Furnace according to one of claims 1 to 9, characterized in that at least one movement of the grate (3) about the pivot axis (24) is controllable by means of a drive, preferably an electric motor.

类似技术:

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同族专利:

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公开号 | 公开日

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AT514565B1|2015-02-15|

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EP2848863A3|2015-04-01|

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EP2848863A2|2015-03-18|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US323929A|1885-08-11|Shaking-grate |

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US1545950A|1923-02-01|1925-07-14|Travis F Epes|Grate cleaner|

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US2184292A|1938-12-23|1939-12-26|James K Dukas|Furnace grate|

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JPS52101256U|1976-01-30|1977-08-01|

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AT6972U1|2003-06-13|2004-06-25|Hartl Energy Technology Keg|SMALL COMBUSTION PLANT OR OVEN FOR GIANT FUELS, IN PARTICULAR WOOD PELLETS, WITH AUTOMATIC COMBUSTION CHAMBER DISCHARGING|

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AT505382B1|2007-03-27|2009-04-15|Ortner Josef|OVEN BZW. BURNER FOR THE FIRING OF FIXED FUEL FUELS|

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CN201110570Y|2007-09-14|2008-09-03|徐锡铜|Coal stove convenient for discharging slag|DE102014014000A1|2014-09-25|2016-03-31|Josef Schwan GmbH|Steam Smoke Generator|

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CN106289730B|2015-05-11|2018-07-27|上海梅山钢铁股份有限公司|The assembly simulation experimental rig of pallet fire grate bar|

法律状态:
2020-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20190913 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA50581/2013A|AT514565B1|2013-09-13|2013-09-13|Oven with a combustion chamber forming a combustion chamber|ATA50581/2013A| AT514565B1|2013-09-13|2013-09-13|Oven with a combustion chamber forming a combustion chamber|

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EP14184473.8A| EP2848863A3|2013-09-13|2014-09-11|Pivotable furnace grate with cleaning device|