DE2362056A1 - AIR SUPPLY DEVICE FOR THE EXHAUST SYSTEM OF A COMBUSTION ENGINE - Google Patents

Description

"Patent Attorneys Dipl.-T * ^t g f. Wt'crMA ^ N,

DiPL.-In.GH W ⁷ EICKMANN, DiPL.-PhYS. DR. K. I ⁷ INCKE

: Dipl-Ing. F. AAVeickmann, Dipl.-Chem. B. Huber

SAHA, s MUNICH 86, DEN

POST BOX S6O82O MÜH1.STRASSE 22, RUFNUMMER ', "8 39 21/22

OUTBOARO MARINE CORPORATIOIi, 100 Seahorse Drive, Waukegan,

Illinois, 7th St ₀ A ₀

Air supply device for the exhaust system of a . Internal combustion engine «*

The invention relates to an air supply device for introduction of air in the exhaust system of an internal combustion engine, which has an air outlet through which, controlled by a periodic opening of the air outlet, exhaust gas pulses in succession stream. It finds particular application to reduce the Air pollution from an internal combustion engine by causing the combustion of unburned hydrocarbons and carbon monoxide causes or supports in the exhaust gases of the engine in the exhaust system.

The invention aims at an arrangement for pumping in or feeding to create air into an exhaust system «According to the invention should the air be introduced into a muffler or into another part of the exhaust gas discharge system, depending on from the pulsating flow of exhaust gases through the muffler Post-burn unburned hydrocarbons and carbon monoxide.

Zur.Lösung this object, the invention provides an exhaust pipe in a device of the type mentioned, which Having means to introduce air controlled by the pulsating flow of the exhaust gases through the exhaust pipe into this or to pump in »This air supply device comprises the

Placement of an air inlet in the exhaust pipe or the Muffler, as well as a "valve that pooitiven during periods Pressure in the exhaust pipe prevents the inflow of air through the air inlet and is negative during the periods Pressure into your exhaust pipe, air will flow in through the air inlet lets, and finally, means for periodic pressure fluctuations in the exhaust pipe between the positive pressure and the negative pressure to cause while exhaust gas flows through the exhaust gas removal system, so "at negative pressure in the Let air flow into the exhaust pipe. In one embodiment of the invention, the valve consists of one Reed valve, which is mounted inside the exhaust pipe at such a position that it allows the air intake during the overpressure period closes and during the depression periods Allows air to enter through the air inlet. The means for generating pressure fluctuations include arrangements for periodic Opening the exhaust port of the engine to allow a pressure wave to escape through it, as well as such Design of the exhaust pipe so that a "dilution wave, i.e. a negative pressure pulse, is generated which is caused by the A positive pressure wave emerges after opening the exhaust port of the engine. This negative Pressure pulse is used to induce the entry of air into the exhaust pipe, and the entering air becomes that used, unburned hydrocarbons and carbon monoxide burn in the exhaust gases.

In a special embodiment, which is intended for the reduction of air pollution, the through the air inlet incoming air is led to a V / ärmespeicherungszone, which is arranged in a muffler and by isolation from at least part of the muffler, preferably next the inlet, is created and which can have a heat sink, which can be in the form of a metal mesh and is preferably located in the insulated area,

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In another expedient embodiment, the inflowing Air passed into the vicinity of a catalytic converter that in an isolated part of the muffler, preferably next to the inlet.

Further details and advantages of the invention result from the following description of exemplary embodiments based on the attached drawings. Show in it:

PigO a schematic view of an internal combustion engine with an exhaust system incorporating features of the invention; .

2 shows a schematic view of an internal combustion engine with an exhaust assembly incorporating various features of the invention;

Pig.3 is a sectional view along the line 3-3 of Figure 2;

Pig. 4 a schematic view of another internal combustion engine rai.t a muffler arrangement according to the invention.

Iil Pig.1 is an embodiment of an internal combustion engine 111 shown schematically, the one cylinder 112 with. has an exhaust port 113 and, during operation, a pulsating exhaust gas flow from this exhaust port. The invention is applicable to all internal combustion engines that generate a pulsating exhaust gas flow. In the present example the internal combustion engine is a "two-stroke engine with one piston 115, which opens the exhaust port 113 when it moves and closes. An exhaust system is attached to the exhaust port 113 117 connected, the one with the exhaust port 113 in connection upright exhaust pipe 119 has an outlet 123 to the atmosphere.

When the engine 111 is operating, the exhaust port opens' 123 periodically and causes a periodic flow of positive exhaust gas pressure pulses or pressure waves through the exhaust pipe 119 and outlet 123 to the atmosphere.

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According to the invention, a device is provided to under " the control by the pulsating exhaust gas flow in the exhaust system 117 to pump or feed air into the exhaust pipe 119. For this purpose, the exhaust pipe 119 is provided with an air inlet 127 which is in communication with the atmosphere, and with a control member for the inflow in the form of a valve, which the air inlet 127 in the exhaust pipe 119 as a function of the pulsating pressure as a result of the exhaust gas flow through the exhaust system 117 from the exhaust port 113 and opens closes.

The control organ for the flow works in such a way that it during the periods of negative pressure in the exhaust pipe 119, i.e. when the pressure in the exhaust pipe 119 is below atmospheric pressure is, allows air to flow into the exhaust pipe 119, and while the periods of overpressure in the exhaust pipe 119 »d.i. if the The pressure in the exhaust pipe 119 is above atmospheric pressure, prevents air from escaping through air inlet 127.

Various arrangements are available as a control organ for this purpose possible; in the illustrated construction, the control member is a reed valve 131 of the conventional type which is arranged in the interior of the exhaust pipe 119 in such a way that it opens the air inlet 127 "in the event of excess pressure in the exhaust pipe 119 closes and when there is negative pressure in the exhaust pipe 119 opens to cause air to flow into the exhaust pipe 119.

The air supply device for introducing air into the Exhaust pipe 119 also has means for periodically generating a negative pressure in exhaust pipe 119 shown embodiment, these means consist of the arrangement by which the piston 115 periodically the exhaust port 113 opens and closes so as to release a pressure wave through the exhaust port 113 and from the outlet 123, which responds to the emergence of a positive pressure pulse

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as a result of the opening of the 'exhaust slit' 113 a negative pressure pulse, i.e. a dilution wave, which travels back through the exhaust pipe 119 and moves the reed valve 131 away from the vent inlet 127, so that air flows into the exhaust pipe '119 _{or the like}

In operation, controlled by the pulsating exhaust gas flow, there is alternating overpressure and underpressure states in the exhaust pipe 119 ₉ , which are used to introduce air through the air inlet 127 into the exhaust pipe 119, thereby preventing the combustion of the unburned hydrocarbons and the To enable or support carbon monoxide in the exhaust gas and to reduce undesirable air pollution from the exhaust gases.

In. Pig.2 and 3 of the drawings is another example of one Internal combustion engine 11 shown, which is particularly intended .ist, the. Control air pollution from exhaust gases, by afterburning the still unburned combustible components in the exhaust gas »The engine 11 has an exhaust port 13 and delivers during operation by moving a Piston 15 a periodic or pulsating exhaust gas flow from the exhaust port 13 ago. At the exhaust schiita 13 is a Connected to the muffler 17, which has a chamber 19 inside hatj which has an inlet connection 21 with the exhaust port 13 and communicates with the atmosphere through an exhaust pipe 23 ο, ",

When the engine 11 is in operation, the exhaust port 13 opens periodically and causes a periodic flow of positive pressure pulses of the exhaust gas or pressure waves through the chambers 19 the muffler and through the exhaust pipe 23. to the atmosphere.

According to the invention, an air supply device is provided which controls the air through the pulsating exhaust gas flow through the muffler 17 into the chamber 19 of the muffler

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initiates »to burn the unburned exhaust gases and the To reduce air pollution. Here is the muffler provided with an air inlet 27 which is connected to the chamber 19 of the Muffler and is in communication with the atmosphere. Means are also provided for. To. Air through the air inlet to be introduced into the chamber 19 under the control by the pulsating pressure, which as a result of the exhaust gas flow. of yours Exhaust slot 13 through chamber 19 comes into existence.

In detail, the air supply device has a control element for the flow, which allows air to flow in through air inlet 27 into chamber 19 during periods of negative pressure in chamber 19 »d.i. when the pressure in the chamber 19 is below atmospheric pressure, allows and one Outflow of air through air inlet 27 during the overpressure periods in chamber 19, i.e. if the pressure in the chamber 19 is above atmospheric pressure, prevented.

Various arrangements are possible for this purpose. In the As shown in the construction shown, the control element for the flow consists of a conventional reed valve 31 »inside of the muffler 17 is attached at such a point that it opens the air inlet 27 when there is overpressure in the chamber 19 closes.

The air supply device to the chamber further comprises 19 also means for periodically generating negative pressure in the chamber 19 of the muffler. In the construction shown these means consist of an arrangement by which the piston 15 opens and closes the exhaust port 13 periodically, as well as from the exhaust pipe 23 "that on the pressure path of a positive Pressure pulse resulting from the opening of the exhaust port 13 occurs, a negative pressure pulse or a dilution wave is generated which passes through the chamber 19 of the Muffler wanders back and the reed valve 31 from the air inlet 27 v / eg can pivot, so that air into the chamber

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entry.

If in the muffler 17, sufficient heat is available, the post-combustion, the unburned gases are 17.bewirkt solely by the introduction of combustion air through the air inlet 27 in the muffler.

In one embodiment of the invention, the muffler 17 is iot with a. High temperature zone, a heat storage zone or heat concentration zone 51 provided by a lining 53 made of an insulating material, such as ceramic ο .dgl. ,, at least on one. Part of the wall of the exhaust pot, preferably near the inlet 21, is attached. Additionally to this heat storage zone 51 is the muffler expediently also equipped with a heat sink 55, which is preferably arranged in the lining 53 and made of a Met3, ll braid or another suitable material can exist. In the example, the metal mesh is made of stainless steel. .

In the construction of Figures 2 and 3, the muffler 17 is such arranged that the incoming air through the air inlet 27 is introduced into the heat storage zone. It can Means can also be provided to transfer the air into the Conduct near the heat storage zone. A channel can be used for this 61 be mounted in the muffler, which is the air inlet 2.7 connects with the heat storage zone 5.1 and in which the Tongue valve 31 is housed.

Alternatively, the muffler 17, as shown in Figure 4, preferably in the vicinity of the "inlet connection 21 to the muffler, be provided with a catalyst 71, the combustion of unburned hydrocarbons and carbon monoxide supported in the exhaust. If desired, the wall of the exhaust can pot it 17 in the vicinity of the inlet port 21 and around the catalytic converter 71 with an insulating lining

73 be provided. It is advisable to use the JUift inlet 27 ' to be arranged in such a place that the incoming air flows to the area of the catalytic converter 71, or to provide means around the inflowing air in the vicinity of the catalytic converter 71 to guide, such as the above-described channel 61 (see Figure 2), from the air inlet 27 to the V / ärmespeicherungszone 51 leads.

If outside the muffler 17 a zone of positive air pressure is present, for example when the motor 11 is air-cooled and a jacket is used to prevent the air flow To pass through the engine, the air inlet 27 may be provided with an inlet duct (not shown) which is an open one Has end exposed to pressure in the outer overpressure zone; in this way the introduction of air into the Muffler 17 due to the pulsating exhaust gas flow through supports the muffler 17.

Of course, within the scope of the invention, thinning waves can also be used are generated with the help of a suitable arrangement or pipeline or exhaust construction that allows an expansion of the exhaust gases. For example, a funnel or a compared to the inlet widened inlet to a chamber can be used.

The examples described have a muffler with a single chamber} but the invention is not to a specific one Muffler design or a specific exhaust system limited.

In the operation of the embodiments according to FIGS. 2 to 4, the the pulsating exhaust gas flow caused alternating overpressure and underpressure conditions in the chamber 19 of the muffler used to introduce air through the air inlet 27 into the chamber 19, preferably in the vicinity of a

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Y / a storage zone 51 or at the level of a catalytic converter, to burn the unburned hydrocarbons in to support the exhaust gases and thereby the undesired air pollution to be reduced by exhaust gases «,

Compared to the examples described are in the context of Invention changes possible »

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Claims (10)

Expectations Air supply device for feeding air into da.s. The exhaust system of an internal combustion engine, which has an exhaust port, by the successive exhaust gas pulses as a result the periodic opening of the exhaust port flow, and an exhaust pipe enclosed by a wall which communicates with the exhaust port and with the atmosphere stands and through which the exhaust gases are released into the atmosphere, characterized in that in the wall the exhaust pipe (119, 17) an air inlet (127, 27) attached that is connected to the atmosphere «and on. which the exhaust gases flow past that downstream of the Air inlet an arrangement (123, 23) is provided in order to generate a returning negative pressure wave in the exhaust pipe, and d.ass in the air inlet a device part (131, 31) is mounted, which is from the returning negative pressure wave is movable relative to the air inlet in such a way that it prevents the inflow of air through the air inlet into the exhaust pipe allowed. 2. Luftzufülirungseinrichtung according to claim 1, characterized in that the device part is a tongue valve (131, 31) which is arranged at such a point that it closes the air inlet, and when the pressure is in the atmospheric pressure, the inflow of Prevents air from passing through the air inlet and allows air to flow into the exhaust pipe under the control of a negative pressure in the exhaust pipe. 3. Air supply device according to claim 1, characterized in that that the arrangement for generating a returning negative pressure wave in the exhaust pipe with the atmosphere in Has connecting outlet (123, 23). 26/0342 BAD 4. Arrangement to mitigate the, air pollution for one Internal combustion engine, which has an oinen exhaust port through the successive as a result of the periodic opening of the exhaust port Exhaust gas pulses streams, characterized by a muffler (17) which contains a chamber (19) whose Inlet. (21) in connection with the exhaust port (13) of the engine communicates with the atmosphere through one standing outlet (23), by means located downstream of the inlet of the muffler sum generating a returning vacuum wave in the muffler under the control by the pulsating exhaust gas flow in the muffler, and by one between the inlet of the muffler and means (27,31) located at the outlet which, under the control of the negative pressure wave, feed air into the chamber (19) initiates. ' 5. Arrangement according to claim 4 _9, characterized in that the chamber (19) contains heat storage means (51). . 6. Arrangement according to claim 5, characterized in that the Heat storage means a liner (53) made of a Have insulation material along at least a portion of the wall of the muffler near the inlet. 7. Arrangement according to claim 5 or 6, characterized in that a metal mesh for the heat storage means (55) belongs to the one near the inlet (21) of the muffler . is arranged. 8 «, arrangement according to one of claims 5 to 7, characterized by an air duct (61) which brings the air entering through the air inlet (27) into the vicinity of the heat storage means directs. 9. Arrangement according to one of claims 4 to 8, characterized in that 409826/0342 - 1. indicates that a catalyst (71) 'in the chamber (19) is arranged that the combustion of unburned hydrocarbons and carbon monoxide s under st Utizt. 10. Arrangement according to claim 9, characterized by an air duct (61), the through the air inlet (27) flowing in Directs air close to the catalyst. 409826/0342