NL1009168C2 - Method and device for manufacturing a silencer. - Google Patents

Description

Method and device for manufacturing a silencer

The invention relates to the field of manufacturing mufflers as used in motor vehicles. Such mufflers, which are incorporated in the exhaust pipe, comprise a housing in which a sound-absorbing filling is incorporated.

The sound-absorbing filling can consist of a fiber material which has a suitable acoustic absorption capacity. It is known from EP-B-91413 to provide a continuous fiber material which can be blown into the housing of the damper by means of an air flow. The continuous fiber material includes a strand of parallel fibers that must be separated from each other upon insertion. The separate fibers are very long, and must be blown into the housing by the airflow to form a dense packing consisting of compressed, long fibers.

This known method has several drawbacks. First of all, it is not easy to guarantee an even filling of the house. The long fibers can accumulate without completely filling the house. Furthermore, it proves difficult to introduce an accurately measured amount. Due to these circumstances, the desired damping effect cannot always be realized.

Since only materials that can be made into long fibers can be used in this method, various desirable materials are not eligible. An example of a material that cannot therefore be used in this known method is basalt wool.

The object of the invention is to provide a method for filling the housing of a silencer with acoustic damping material which does not have these disadvantages. That object is achieved by a method of arranging a filling of fibrous material in a container, such as the housing of a silencer, comprising the steps of: - providing a fiber material from relatively short fiber pieces, and - introducing the fiber material in the house.

Wool fibers can for instance be used as fiber material. Fiber types such as basalt wool are also suitable for use in the method according to the invention.

1 00 9168 1 2

The relatively short fibers can preferably be obtained by opening fiber material from bulk. The advantage is that the bulk fiber material can be added directly to the production process without the need for preparatory work.

In order to optimize the acoustic absorbency, the method may also include the step of providing different types of fiber material, as well as then introducing that fiber material to provide a filling from a mixture of the different types of fiber material.

Thanks to the short fibers used in the method according to the invention, a homogeneous degree of distribution of the different types of fiber material can be obtained in a simple manner. If the fiber material is introduced by pneumatic transport, as known per se from EP-B-91413, the gas flow thereby mixes the fiber material, such that the formation of locally deviating concentrations in the housing is avoided.

In order to be able to guarantee the desired homogeneous distribution in the housing for a longer period of time, a fixation agent, such as a resin, can be added to the fiber material for fixing the fiber pieces in the filling.

To ensure the desired filling, and thus the desired damping effect, the method may also comprise the step of dosing an amount of fiber material and introducing the metered amount of fiber material into the container.

The dosing of the fiber material in the desired amounts can be carried out in various ways. According to a first possibility, an amount of fiber material can be weighed, for example by means of a balance.

According to a second possibility, in case the fiber material is introduced by pneumatic transport, an amount of fiber material 30 can be obtained by determining pressure differences.

According to a third possibility, an amount of fiber material can be obtained by optical detection in the gas flow required for the pneumatic transport.

: 1 0091 68 Ί 3

As already mentioned, the fiber material can be pneumatically introduced into the container. Additionally, or alternatively, the method of the invention may include the step of mechanically introducing the fiber material from an intermediate container into the container such as the housing of a silencer.

The mechanical transport takes place by means of a pusher, such as a piston which can be moved back and forth in a tubular intermediate container.

The method according to the invention can also comprise the step of extracting dust that is released during the treatment of the fiber material.

As already mentioned, the process does not use continuous, very long fibers, but fiber pieces. The length of those fiber pieces is preferably between 1 mm and 1 m.

In certain applications, such as for example silencers, it is important to be able to control the density of the fiber material. According to the invention, the method for this purpose comprises controlling the density of the fiber material in the container by influencing the amount of weight of fiber material introduced.

The invention also comprises an apparatus for carrying out the method according to any one of the preceding claims, comprising means for opening a fiber material from bulk, dosing means for dosing the opened fiber material, as well as transport means for transporting the dosed fiber material in the holder.

The invention will be explained in more detail below with reference to the schematic device shown in the figure.

The device comprises a feed 1 for feeding bulk material, for example in the form of bales 8. At station 2, these bales are processed such that the fiber material is opened. At station 3 the fiber material thus opened is then weighed or otherwise dosed.

By means of the fan 19, a gas flow 4 is generated through the pipe 9, which is connected to the chamber 10 in which the fiber material is opened. Under the influence of the gas flow, the fiber material ends up in the intermediate holder 6, which is directed slightly obliquely downwards. At the bottom end 11 of the intermediate container 6 is placed a housing 12 of a damper, which is held by the means 9 (9) not shown on the edge 11 of the intermediate container 6.

4

At its other end, the damper 12 is supported against a plate 13, in which there is a hole to which the conduit 14 is connected, thereby guaranteeing the gas flow 5. This gas flow can be amplified by means of fan 21.

In the intermediate container, a piston 15 is movable to and fro by means of the mechanism 5 which is not further detailed. The amount of fiber material blown into the intermediate container 6 via line 9 is pressed by the piston 15, such that 10 has a certain density in the housing 12 of the damper can be obtained. The intermediate holder 6 is shown in an exploded view, as is the damper (in part).

Suction is generated in the housing 12, the intermediate container 6 and the pipe section 9 by the fan 21 via line 14, in order to introduce the fiber material into the housing 12.

A pipe 16 is also connected to the housing 10, in which a suction is also generated by a fan 20 for discharging dust that is released when the bulk fiber material is opened.

The dust can be filtered out at the location of the filter 17.

20 i * c- r: ·} ή i i '

Claims (27)

A method for arranging a filling of fibrous material in a container, such as the housing of a silencer, comprising the steps of: 5. providing a fiber material from relatively short fiber pieces, - inserting the fiber material into the container. The method of claim 1, wherein the relatively short fiber pieces are obtained by opening fiber material from bulk. 10 A method according to claim 2, wherein the fiber material is opened from a bulk package, such as bales, mats, a silo or a container. 4. A method according to claims 1 2 or 3, comprising providing 15 different types of fiber material, as well as introducing said fiber material to provide a filling from a mixture of the different types of fiber material. 5. A method according to any one of the preceding claims, comprising adding a fixative, such as a resin, to the fiber material for fixing the fiber pieces in the filling. A method according to claim 5, comprising introducing the fixative simultaneously with introducing the fiber material. 25 A method according to claim 3 or 4, comprising adding a two-component resin. 8. Method according to claim 5, comprising the step of dosing an amount of fiber material, and introducing the dosed amount of fiber material into the container. 10091681 A method according to claim 8, wherein an amount of fiber material is weighed, for instance by means of a balance. 10. A method according to any one of the preceding claims, comprising the step of introducing the fiber material by pneumatic transport. A method according to claim 10, wherein an amount of fiber material is obtained by determining pressure differences in the gas flow required for the pneumatic transport. 10 A method according to claim 10, wherein an amount of fiber material is obtained by optical detection in the gas flow required for the pneumatic transport. A method according to claim 10, 11 or 12, wherein the pneumatic transport is generated by applying a pressure difference. A method according to any preceding claim comprising the step of mechanically introducing the fiber material from an intermediate container 20 into the container such as the housing of a silencer. A method according to claim 14, wherein the mechanical transport is effected by means of a pusher, such as a piston which can be moved back and forth in a tubular intermediate container. 25 A method according to claim 14, wherein the mechanical transport is effected by means of an annular pusher for inserting the fiber material into an annular holder, as determined between two concentric tubes. 30 Method as claimed in claim 14, 15 or 16, comprising of introducing the fiber material into the intermediate container and then into the container by means of pneumatic transport, in combination with the mechanical insertion. 1 0 0 91 6 81 A method according to any one of the preceding claims, comprising aspirating dust released during the treatment of the fiber material. A method according to any one of the preceding claims, wherein the fiber length 5 of the fiber material is between 1 mm and 1 m. A method according to any one of the preceding claims, comprising controlling the density of the fiber material in the container by influencing the amount of weight of fiber material introduced. 10 Device for carrying out the method according to any one of the preceding claims, comprising means (2) for opening a fiber material from bulk, dosing means (3) for dosing the opened fiber material, and transport means (4-6, 9, 19-21) for transporting the metered fiber material into the container (12). Device as claimed in claim 21, wherein an intermediate holder (6) is provided, which intermediate holder has a connection (11) for connecting a holder (12), in which intermediate holder (6) a dosed quantity of fiber material 20 can be received, and from which that amount is transferable in the container (12). 23. Device as claimed in claim 22, wherein the holder (12) is accommodated between the intermediate holder (6) and a supporting surface (13), on which supporting surface (13) a conduit opens to provide an air flow which feeds the fiber material from the intermediate holder. (6) into the holder (12) and which takes care of the dust removal. An apparatus according to claim 22 or 23, wherein in the intermediate holder (6) a piston (15) is movable back and forth for mechanically transporting the fiber material from the intermediate holder (6) into the holder (12). 30 Device according to any one of the preceding claims, wherein the means (2) for opening the bulk fiber material are located in a chamber (10), which chamber (10) is connected to a fan (20) for discharging dust . r> f '.1! => -. I ': ·, <J 1 A housing of a silencer manufactured according to the method according to any one of claims 1-19, which housing is filled with a fiber material of fibers with a length between 1 mm and 1 m. The housing of claim 26, wherein the fiber material comprises a blend of different fiber types. 3. o ’^ -