Title of Invention	A FILTER MUFFLER
Abstract	(57) Abstract: The present invention relates to a filter muffler with a housing (2) which is designed as monopoly and in which a plurality of damping elements (3) consisting of damping plates (9) absorption elements (10) are arranged, the housing form of the filter muffler having a central axis (13) wherein a damping element consists of only one damping plate (9) which surrounds only one absorption element (10), and wherein the damping elements (3) are arranged radial grooves (8) of the housing walls (5 6) of a filter muffler housing (2) in a way that air inlet ducts (24) are formed between adjacent damping elements (3) and at the same time, the damping surfaces (11, 12) of the damping elements (3) are oriented parallel to the central axis (13) of the housing

Title of Invention

A FILTER MUFFLER

Abstract

(57) Abstract: The present invention relates to a filter muffler with a housing (2) which is designed as monopoly and in which a plurality of damping elements (3) consisting of damping plates (9) absorption elements (10) are arranged, the housing form of the filter muffler having a central axis (13) wherein a damping element consists of only one damping plate (9) which surrounds only one absorption element (10), and wherein the damping elements (3) are arranged radial grooves (8) of the housing walls (5 6) of a filter muffler housing (2) in a way that air inlet ducts (24) are formed between adjacent damping elements (3) and at the same time, the damping surfaces (11, 12) of the damping elements (3) are oriented parallel to the central axis (13) of the housing

Full Text	with a housing The invention relates to a filter muffler such as is described in the preamble of the first claim. A filter muffler of this type is known, for example, .from EP 0,574,605 Al. Discussion of Background Filter mufflers of this type are used, for example, on the intake side of a compressor which compresses combustion air and which feeds it to an internal combustion engine. A compressor of this type is driven by the exhaust-gas turbine of an exhaust-gas turbocharger. In this case, sound waves of undesirably high amplitude occur predominantly in the compressor impeller and are released into the environment through the air intake duct. These sound waves are therefore usually damped by means of a muffler. For this purpose, ambient air flows through a filter, arranged on the circumference of a muffler, into the muffler interior equipped with dumping elements, subsequently flows past the damping elements, and is deflected by guide elements to the compressor impeller, from . which sound waves emanate in the opposite direction to the airflow. Muffling takes place on the damping elements by dissipation, in that the sound energy is converted directly into heat by means of porous or fibrous absorption materials, of which the damping elements are essentially composed. The abovementioned EP 0,574,605 Al describes a filter muffler which consists of a cast monobloc and in the radiated ribs of witch, having grooves, the damping elements are arranged. A filter frame, consisting of a removable perforated plate part, surrounds the muffler in such a way that the damping elements are secured against falling out radially. The perforated plate part is arranged annularly around the muffler by means of connecting elements. A disk-shaped damping element consists of four damping segments which, when assembled, form an annular surface. An absorption element is held by two punched perforated plates and thus forms a damping segment which is introduced radially into the grooves of the abovementioned ribs of^ the cast monobloc. The edges of the damping segments punched from perforated plate have an adverse effect on the design of this filter muffler. These edges of the damping segments having the form of ring segments are not treated further after being punched out and therefore have isolated plate webs on account of the plate perforation. These plate webs may break off as a result of mechanical vibrations, to which the filter muffler as a whole is exposed, and the broken-off pieces may subsequently pass, together with intake air, into the compressor and into the combustion space of an internal combustion engine and damage the latter. At the locations where plate webs are broken out, the damping material then swells and consequently impairs the flow properties of the air inlet ducts. The deflection by guide elements on the damping elements have a further unfavorable effect on the flow properties of the air, since compression losses of undesirable magnitude occur as a result of said guide elements. SUMMARY OF THE INVENTION The object on which the invention is based is to develop further a filter muffler of the initially mentioned type, to the effect that the abovementioned disadvantages are reduced or avoided. At the same time, the damping properties of the muffler are to be improved, and the outlay in terms of manufacture and of assembly is to be reduced. This object is achieved, according to the invention, by means of the features of the first claim. The advantages of the invention are to be seen inter alias in that now only damping elements which are of identical type are used and, at the same time, now only consist of two parts, namely a damping plate and an absorption element. The reduction in the number of different components is advantageous particularly with regard to the logistic outlay. ^ The closed edges of the damping plates are likewise advantageous, said edges extending along the perforated plate webs and therefore having no isolated plate webs. The coarse filter which surrounds the filter muffler is divided segmentally, and the segments are arranged on the damping plates, so that the coarse filter as an individual component is dispensed with. Advantageous, furthermore, is the arrangement of a cast-in tube as a washing device for the compressor impeller in the housing wall of the connection side of the filter muffler. This tube is connected to a supply conduit which does not have to be guided round the muffler, as in conventional mufflers, because the connection of said supply conduit to the washing device is arranged on the closing-off side of the filter muffler. It is advantageous, furthermore, that the air is guided between adjacent damping plates in muffler ducts of constant cross section, and therefore, during intake, the air experiences a constant velocity, with the result that only minor compression losses occur. It is particularly expedient if, on account of the good damping properties, an open-cell foam with high elasticity is used as an absorption material in the damping elements. In comparison » with wool felt as an absorption material, an appreciable reduction in weight of the filter muffler as a whole is achieved at the same time with this type of foam. Accordingly, the present invention provides a filter muffler with a housing which is designed as a monobloc and in which a plurality of damping elements consisting of damping plates and absorption elements are arranged, the housing form of the filter muffler having a central axis, wherein a damping element consists of only one damping plate which surrounds only one absorption element, and wherein the damping elements are arranged in radial grooves of the housing walls of a filter muffler housing in a way that air inlet ducts are formed between adjacent damping elements and, at the same time, the damping surfaces of the damping elements are oriented parallel to the central axis of the housing. A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered^ in connection with the accompanying drawings wherein the invention is explained below by means of diagrammatic representations of an exemplary embodiment. With reference to the accompany draw.]Lags, in which Figure 1 snows a part segmental section through a filter muffler; Figure 2 shows a view of the filter muffler housing from the connection side; -figure 3 shows a part longitudinal section through the filter muffler; Figure 4 shows a view of a damping plate; Figure 5 shows a view of an arrangement of absorption elements; Figure 6 shows a part cross section through the filter muffler along the line VI-VI according to Figure 3. Only the elements essential for understanding the invention are shown. What is not shown is, for example, the arrangement of the filter muffler on the compressor side of a turbocharger and the connection of a washing device for a compressor impeller. DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, in Figure 1 there is a circular-cylindrical filter muffler which is composed essentially of a housing 2, of a number of damping elements 3, here thirty three, and of a filter 4. Figure 2 shows the housing 2 which is cast as a monobloc from aluminum and of which the housing wall 5 on the connection side 20 of the filter muffler is connected by means of connecting webs 7 to the housing wall 6 on-i1;he closing-off side 21. Cast in on the insides of the housing walls 5, 6 are grooves 8 in the form of an arc of a circle which narrow towards the inner radius of the filter muffler. The cross sectional area of the connecting web 7 is equal in form and curvature to a groove 8, and the distribution of the thirty three grooves 8 and of the three connecting webs 7 takes place uniformly over the circumference of the housing in a 10** division. Arranged between adjacent grooves 8 and between grooves 8 and an adjacent connecting web 7 are webs 14 which have a constant width from the outer circumference of the housing 2 to the inner radius in. Arranged on the connection side 20 is a connection flange 22, by means of which the filter muffler is mounted on the compressor side of an exhaust-gas turbocharger not shown here. As shown in Fig. 3, a tube 18 with a thread 19 is cast in in the radial direction into the housing wall 5 on the connection side 20, said tube being angled towards the connection side 20 at the end pointing to the central axis 13 of the housing 2. This tube serves as a washing device for the compressor impeller, not shown here, and is connected directly, on the thread 19, to a conduit, likewise not shown, on the connection side 20 of the filter muffler. The damping elements 3 are secured against falling out by tightening straps 16 which are closed on the circumference of the housing 2 by means of quick-action fastenings 17. The filter muffler is surrounded on its circumference by an annular filter 4 made of polyurethane foam (PU foam), which filters out particles in ambient intake air. In the unassembled state, the circular circumference of the annular filter 4 is smaller than the outer circumference of the filter muffler, so that the filter 4, which is produced electrometrically from PU foam, is fixed to the circumference of the muffler by spring force. Figures 4 and 5 show the two components of , a damping element 3, namely a damping plate 9 and an absorption element 10. During manufacture, the damping plate 9 is punched in the form of a rectangle from perforated plate with square holes along the perforation webs and therefore has no isolated webs. The rectangular perforated plate is subsequently bent in such a way as to form a concave surface 12 which has a convex surface II adjoining it. The convex surface II has adjoining it a plane surface 15 which is bent as a coarse filter segment 15. The concave surface 12 and the convex surface II extend approximately parallel and form an interspace 23, into which the absorption element 10, Figure 5, is inserted. An absorption element 10 is thicker than the interspace 23, so that, when the absorption element 10 is inserted into the interspace 23, the surfaces II, 12 are to be bent apart elastically. After the insertion of the absorption elements 10 into the interspace 23, these are clamped, on account of their thickness, between the surfaces 11, 12. The material used for an absorption element 10 is an open-cell foam which, whilst having identical decamping properties, has only approximately 6% of the specific gravity of conventional absorption materials, such as wool felt. The absorption elements 10 shown in Figure 5 are cut out rectangular from foam boards and are shown here merely bent, as in their installed state. Figure 6 shows, by means of a cross sectional segment of a filter muffler, the arrangement of the damping elements 3, consisting of the damping plate 9 and of the absorption element 10, in the circular-cylindrical housing 2 having the central axis 13. The damping elements 3 are pushed radially into the grooves 8 and are arranged in such a way that their damping surfaces 11, 12 extend parallel to the central axis 13 of the housing 2. The width of the webs 14 and therefore also the cross sectional area of the air inlet ducts 24 between adjacent damping elements 3 are constant from the outer circumference of the filter muffler towards the central axis 13, thereby guaranteeing a constant velocity of ambient intake air. As a result of this arrangement, compression losses, such as occur in conventional muffler systems, are reduced. On the outer circumference of the housing 2, the coarse filter segments 15 of the installed damping plates 9 are assembled to form a coarse filter ring, so that a coarse filter as an individual component is dispensed with. An arrangement in the form of an arc of a circle of the damping elements 3 in the housing 2 lengthens the air inlet ducts 24 and therefore the path of the sound waves in comparison with air inlet ducts extending purely radially, such as occur in conventional filter mufflers having the same outer circumference. This lengthening of the damping path alone, along with the same dimensions as conventional filter mufflers, improves the muffling. Altogether, the reduction in components and the use of masculine foam as an absorption material not only achieve a decrease in the total weight of the filter muffler by approximately 20%, but at the same time reduce the logistic outlay. Of course, the invention is not restricted to the exemplary embodiment shown and described. Thus, for example. the use of damping and filter materials other than those described above is likewise conceivable within the meaning of the invention. Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that, within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein. 2 Housing 3 Damping element 4 Filter 5 Housing wall on the connection side 6 Housing wall on the closing-off side 7 Connecting webs for 5, 6 8 Grooves for 3 9 Damping plate 10 Absorption element 11 Convex damping surface 12 Concave damping surface 13 Central axis 14 Web between two grooves 15 Coarse filter segment 16 Tightening strap 17 Quick-action fastening 18 Tube 19 Internal thread in 18 20 Connection side 21 Closing-off side 22 Connection flange 23 Interspace 24 Air inlet duct WE CLAIM: 1. A filter muffler with a housing (2) which is designed as a monobloc and in which a purity of damping elements (3) consisting of damping plates (9) and absorption elements (10) are arranged, the housing form of the filter muffler having a central axis (13), wherein a damping element (3) consists of only one damping plate (9) which surrounds only one absorption element (10), and wherein the damping elements (3) are arranged in radial grooves (8) of the housing walls (5, 6) of a filter muffler housing (2) in a way that air inlet ducts (24) are formed between adjacent damping elements (3) and, at the same time, the damping surfaces (11, 12) of the damping elements (3) are oriented parallel to the central axis (13) of the housing. 2. The filter muffler as claimed in claim 1, wherein the damping elements (3) and the grooves (8) in the housing (2) are in the form of an arc of a circle. 3. The filter muffler as claimed in claim 1, wherein the air inlet ducts (24) formed between adjacent damping elements (3) having a constant cross section. 4. The filter muffler as claimed in claim 1, wherein the absorption element (10) consists of a foam. 5. The filter muffler as claimed in claim 1, wherein an annular filter (4) consisting of PU foam is arranged on the circumference of the filter muffler. 6. The filter muffler as claimed in claim 1, wherein the housing (2) has a circular-cylindrical form. filter muffler with a housing substantially as herein described with reference • the accompanying drawings

Full Text

with a housing The invention relates to a filter muffler
such as is described in the preamble of the first
claim.
A filter muffler of this type is known, for
example, .from EP 0,574,605 Al.
Discussion of Background
Filter mufflers of this type are used, for example, on the intake side of a compressor which compresses combustion air and which feeds it to an internal combustion engine. A compressor of this type is driven by the exhaust-gas turbine of an exhaust-gas turbocharger.
In this case, sound waves of undesirably high amplitude occur predominantly in the compressor impeller and are released into the environment through the air intake duct. These sound waves are therefore usually damped by means of a muffler.
For this purpose, ambient air flows through a filter, arranged on the circumference of a muffler, into the muffler interior equipped with dumping elements, subsequently flows past the damping elements, and is deflected by guide elements to the compressor impeller, from . which sound waves emanate in the opposite direction to the airflow. Muffling takes place on the damping elements by dissipation, in that the sound energy is converted directly into heat by means of porous or fibrous absorption materials, of which the damping elements are essentially composed. The abovementioned EP 0,574,605 Al describes a filter muffler which consists of a cast monobloc and in the radiated ribs of witch, having grooves, the damping

elements are arranged. A filter frame, consisting of a removable perforated plate part, surrounds the muffler in such a way that the damping elements are secured against falling out radially. The perforated plate part is arranged annularly around the muffler by means of connecting elements.
A disk-shaped damping element consists of four damping
segments which, when assembled, form an annular surface. An
absorption element is held by two punched perforated plates
and thus forms a damping segment which is introduced
radially into the grooves of the abovementioned ribs of^ the
cast monobloc. The edges of the damping segments punched from perforated plate have an adverse effect on the design of this filter muffler. These edges of the damping segments having the form of ring segments are not treated further after being punched out and therefore have isolated plate webs on account of the plate perforation. These plate webs may break off as a result of mechanical vibrations, to which the filter muffler as a whole is exposed, and the broken-off pieces may subsequently pass, together with intake air, into the compressor and into the combustion space of an internal combustion engine and damage the latter. At the locations where plate webs are broken out, the damping material then swells and consequently impairs the flow properties of the air inlet ducts.
The deflection by guide elements on the damping elements have a further unfavorable effect on the flow properties of the air, since compression losses of undesirable magnitude occur as a result of said guide elements.
SUMMARY OF THE INVENTION
The object on which the invention is based is to
develop further a filter muffler of the initially mentioned
type, to the effect that the abovementioned disadvantages
are reduced or avoided. At the same time, the damping

properties of the muffler are to be improved, and the outlay in terms of manufacture and of assembly is to be reduced.
This object is achieved, according to the invention, by means of the features of the first claim.
The advantages of the invention are to be seen inter alias in that now only damping elements which are of identical type are used and, at the same time, now only consist of two parts, namely a damping plate and an absorption element.
The reduction in the number of different components is
advantageous particularly with regard to the logistic
outlay. ^
The closed edges of the damping plates are likewise advantageous, said edges extending along the perforated plate webs and therefore having no isolated plate webs.
The coarse filter which surrounds the filter muffler is divided segmentally, and the segments are arranged on the damping plates, so that the coarse filter as an individual component is dispensed with.
Advantageous, furthermore, is the arrangement of a cast-in tube as a washing device for the compressor impeller in the housing wall of the connection side of the filter muffler.
This tube is connected to a supply conduit which does not have to be guided round the muffler, as in conventional mufflers, because the connection of said supply conduit to the washing device is arranged on the closing-off side of the filter muffler.
It is advantageous, furthermore, that the air is guided between adjacent damping plates in muffler ducts of constant cross section, and therefore, during intake, the air experiences a constant velocity, with the result that only minor compression losses occur.
It is particularly expedient if, on account of the good damping properties, an open-cell foam with high

elasticity is used as an absorption material in the damping elements. In comparison
»
with wool felt as an absorption material, an appreciable reduction in weight of the filter muffler as a whole is achieved at the same time with this type of foam.
Accordingly, the present invention provides a filter muffler with a housing which is designed as a monobloc and in which a plurality of damping elements consisting of damping plates and absorption elements are arranged, the housing form of the filter muffler having a central axis, wherein a damping element consists of only one damping plate which surrounds only one absorption element, and wherein the damping elements are arranged in radial grooves of the housing walls of a filter muffler housing in a way that air inlet ducts are formed between adjacent damping elements and, at the same time, the damping surfaces of the damping elements are oriented parallel to the central axis of the housing.

A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered^ in connection with the accompanying drawings wherein the invention is explained below by means of diagrammatic representations of an exemplary embodiment.
With reference to the accompany draw.]Lags, in which Figure 1 snows a part segmental section through a filter muffler;
Figure 2 shows a view of the filter muffler housing from the connection side;
-figure 3 shows a part longitudinal section through the filter muffler;
Figure 4 shows a view of a damping plate;
Figure 5 shows a view of an arrangement of absorption elements;
Figure 6 shows a part cross section through the filter muffler along the line VI-VI according to Figure 3.
Only the elements essential for understanding the invention are shown. What is not shown is, for example, the arrangement of the filter muffler on the compressor side of a turbocharger and the connection of a washing device for a compressor impeller.

DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, in Figure 1 there is a circular-cylindrical filter muffler which is composed essentially of a housing 2, of a number of damping elements 3, here thirty three, and of a filter 4.
Figure 2 shows the housing 2 which is cast as a monobloc from aluminum and of which the housing wall 5 on the connection side 20 of the filter muffler is connected by means of connecting webs 7 to the housing wall 6 on-i1;he closing-off side 21. Cast in on the insides of the housing walls 5, 6 are grooves 8 in the form of an arc of a circle which narrow towards the inner radius of the filter muffler. The cross sectional area of the connecting web 7 is equal in form and curvature to a groove 8, and the distribution of the thirty three grooves 8 and of the three connecting webs 7 takes place uniformly over the circumference of the housing in a 10** division.
Arranged between adjacent grooves 8 and between grooves 8 and an adjacent connecting web 7 are webs 14 which have a constant width from the outer circumference of the housing 2 to the inner radius in.
Arranged on the connection side 20 is a connection flange 22, by means of which the filter muffler is mounted on the compressor side of an exhaust-gas turbocharger not shown here.
As shown in Fig. 3, a tube 18 with a thread 19 is cast in in the radial direction into the housing wall 5 on the connection side 20, said tube being angled towards the connection side 20 at the end pointing to the central axis 13 of the housing 2. This tube serves as a washing device for the compressor impeller, not shown here, and is connected directly, on the thread 19, to a conduit, likewise not shown, on the connection side 20 of the filter muffler.

The damping elements 3 are secured against falling out by tightening straps 16 which are closed on the circumference of the housing 2 by means of quick-action fastenings 17. The filter muffler is surrounded on its circumference by an annular filter 4 made of polyurethane foam (PU foam), which filters out particles in ambient intake air. In the unassembled state, the circular circumference of the annular filter 4 is smaller than the outer circumference of the filter muffler, so that the filter 4, which is produced electrometrically from PU foam, is fixed to the circumference of the muffler by spring force.
Figures 4 and 5 show the two components of , a damping element 3, namely a damping plate 9 and an absorption element 10.
During manufacture, the damping plate 9 is punched in the form of a rectangle from perforated plate with square holes along the perforation webs and therefore has no isolated webs. The rectangular perforated plate is subsequently bent in such a way as to form a concave surface 12 which has a convex surface II adjoining it. The convex surface II has adjoining it a plane surface 15 which is bent as a coarse filter segment 15. The concave surface 12 and the convex surface II extend approximately parallel and form an interspace 23, into which the absorption element 10, Figure 5, is inserted. An absorption element 10 is thicker than the interspace 23, so that, when the absorption element 10 is inserted into the interspace 23, the surfaces II, 12 are to be bent apart elastically. After the insertion of the absorption elements 10 into the interspace 23, these are clamped, on account of their thickness, between the surfaces 11, 12.
The material used for an absorption element 10 is an open-cell foam which, whilst having identical decamping properties, has only approximately 6% of the specific gravity of conventional absorption materials, such as wool felt. The absorption elements 10 shown in Figure 5 are cut out

rectangular from foam boards and are shown here merely bent, as in their installed state.
Figure 6 shows, by means of a cross sectional segment of a filter muffler, the arrangement of the damping elements 3, consisting of the damping plate 9 and of the absorption element 10, in the circular-cylindrical housing 2 having the central axis 13. The damping elements 3 are pushed radially into the grooves 8 and are arranged in such a way that their damping surfaces 11, 12 extend parallel to the central axis 13 of the housing 2.
The width of the webs 14 and therefore also the cross sectional area of the air inlet ducts 24 between adjacent damping elements 3 are constant from the outer circumference of the filter muffler towards the central axis 13, thereby guaranteeing a constant velocity of ambient intake air. As a result of this arrangement, compression losses, such as occur in conventional muffler systems, are reduced. On the outer circumference of the housing 2, the coarse filter segments 15 of the installed damping plates 9 are assembled to form a coarse filter ring, so that a coarse filter as an individual component is dispensed with. An arrangement in the form of an arc of a circle of the damping elements 3 in the housing 2 lengthens the air inlet ducts 24 and therefore the path of the sound waves in comparison with air inlet ducts extending purely radially, such as occur in conventional filter mufflers having the same outer circumference. This lengthening of the damping path alone, along with the same dimensions as conventional filter mufflers, improves the muffling.
Altogether, the reduction in components and the use of masculine foam as an absorption material not only achieve a decrease in the total weight of the filter muffler by approximately 20%, but at the same time reduce the logistic outlay.
Of course, the invention is not restricted to the exemplary embodiment shown and described. Thus, for example.

the use of damping and filter materials other than those described above is likewise conceivable within the meaning of the invention.
Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that, within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.

2 Housing
3 Damping element
4 Filter
5 Housing wall on the connection side
6 Housing wall on the closing-off side
7 Connecting webs for 5, 6
8 Grooves for 3
9 Damping plate
10 Absorption element
11 Convex damping surface
12 Concave damping surface
13 Central axis
14 Web between two grooves
15 Coarse filter segment
16 Tightening strap
17 Quick-action fastening
18 Tube
19 Internal thread in 18
20 Connection side
21 Closing-off side
22 Connection flange
23 Interspace
24 Air inlet duct

WE CLAIM:
1. A filter muffler with a housing (2) which is designed as a monobloc and in which a purity of damping elements (3) consisting of damping plates (9) and absorption elements (10) are arranged, the housing form of the filter muffler having a central axis (13), wherein a damping element (3) consists of only one damping plate (9) which surrounds only one absorption element (10), and wherein the damping elements (3) are arranged in radial grooves (8) of the housing walls (5, 6) of a filter muffler housing (2) in a way that air inlet ducts (24) are formed between adjacent damping elements (3) and, at the same time, the damping surfaces (11, 12) of the damping elements (3) are oriented parallel to the central axis (13) of the housing.
2. The filter muffler as claimed in claim 1, wherein the damping elements (3) and the grooves (8) in the housing (2) are in the form of an arc of a circle.
3. The filter muffler as claimed in claim 1, wherein the air inlet ducts (24) formed between adjacent damping elements (3) having a constant cross section.
4. The filter muffler as claimed in claim 1, wherein the absorption element (10) consists of a foam.
5. The filter muffler as claimed in claim 1, wherein an annular filter (4) consisting of PU foam is arranged on the circumference of the filter muffler.
6. The filter muffler as claimed in claim 1, wherein the housing (2) has a circular-cylindrical form.

filter muffler with a housing substantially as herein described with reference • the accompanying drawings

Documents:

0302-mas-1996 others.pdf

0302-mas-1996 abstract.pdf

0302-mas-1996 assignment.pdf

0302-mas-1996 claims.pdf

0302-mas-1996 correspondence others.pdf

0302-mas-1996 correspondence po.pdf

0302-mas-1996 description (complete).pdf

0302-mas-1996 drawings.pdf

0302-mas-1996 form-10.pdf

0302-mas-1996 form-13.pdf

0302-mas-1996 form-2.pdf

0302-mas-1996 form-26.pdf

0302-mas-1996 form-4.pdf

0302-mas-1996 form-6.pdf

0302-mas-1996 petition.pdf

302-MAS-1996 CORRESPONDENCE OTHERS 22-11-2012.pdf

302-MAS-1996 CORRESPONDENCE OTHERS 23-03-2012.pdf

302-MAS-1996 CORRESPONDENCE OTHERS 22-09-2010.pdf

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Patent Number

193595

Indian Patent Application Number

302/MAS/1996

PG Journal Number

30/2009

Publication Date

24-Jul-2009

Grant Date

Date of Filing

27-Feb-1996

Name of Patentee

ABB MANAGEMENT AG

Applicant Address

BADEN

Inventors:

#	Inventor's Name	Inventor's Address
1	JOSEF BATTIG	BUCHHALDENWEG 260, CH-5704 EGLISWIL
2	RETO MEIER	BADSTR.19A, CH-5312 DOTTINGEN

PCT International Classification Number

F02M

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA