DE7838809U1 - DEVICE FOR THE DISPOSAL OF AIR-POLLUTANT PARTICLES, IN PARTICULAR LEAD PARTICLES, FROM THE EXHAUST GASES OF AN INTERNAL COMBUSTION ENGINE - Google Patents

Description

Patent attorneys Dipl.-Ing. H. WEicJc] viA> fN _J .D] i ⁾ L.-3PHYS »* Dt (,. _I K. Fincke

Dipl.-Ing, E A, ¥ eic "kmann. 'Πιρ'ϊ, Γ-Οηεμ' / Β. Huber Dr. Ing.H. Liska

8000 MUNICH 86, THE ~ ^

PO Box 860820

MÖHLSTRASSE 22, CALL NUMBER 983921/22

COD / ch

FIAT SOCIETA 'PER AZIONI Corso Marconi Io, Turin, Italy

Device for the removal of air polluting particles, in particular lead particles from the exhaust gases of an internal combustion engine .

The invention relates to a device according to the preamble of the claim 1.

A device of this type is known, for example, from US Pat. No. 3,688,476.

Io

The object of the invention is to provide a device of this type in which the removal of air polluting Particles from the exhaust gases is improved.

This object is achieved by the features of claim 1. Advantageous further developments are the subject of the subclaims.

In a device according to the invention, a flow inlet is connected to a channel of reduced flow cross-section, and a first surface is provided on which the exhaust gases guided through this channel impinge at high speed. A first chamber contains a pack of material that conglomerates the air pollutant particles. The first surface has openings through which the exhaust gases flow into the first chamber and also a curvature through which
the exhaust gas flow is reversed. A second surface is also provided on which the exhaust gases impinge after the flow reversal. This second face has openings through it
which the gases flow into a second chamber, in which a material pack for the conglomeration of the air pollutants
Particle is provided. Furthermore, the second surface has a curvature such that there is a further reversal of the flow of the exhaust gases. In addition, a flow outlet is provided through which the exhaust gases are released.

The invention is described below with reference to an embodiment shown in the figures. It
demonstrate:

Fig. 1 is a longitudinal section of a device according to the inven tion,

Fig. 2 shows the cross-section II-II according to Fig. 1 and
FIG. 3 shows the cross section III-III according to FIG. 1.

In the figures, a device is shown which has a cylindrical outer body 1 which is provided with an inlet pipe 2 which extends into one end of the body 1
is introduced. The wall of the inlet pipe 2 is with
several holes 3 provided within the body 1, the

lead to a first annular channel 4.

Three coaxial annular channel parts 5, 6 and 7 are fixed inside the body 1. The channel parts 5 and 6 are directed towards each other with the open sides of the channel formed by them, while the channel part 7 is arranged between the channel parts 5 and 6 and faces that of the channel part 5 with its open side. Concentric rows of slots 8 and 9 are provided in the channel parts 5 and 6, respectively, as shown in Fig. 3 and 2 respectively.

The body 1 is formed by two semi-cylindrical shells which are welded to one another with side flanges la are.

A first cylindrical chamber 11 and a second cylindrical chamber Io are formed inside the body 1. The second chamber Io is assigned to the inlet end and the first chamber 11 is assigned to the outlet end of the body 1.

The second chamber Io is held in the body 1, for which purpose an end wall of this chamber Io by welding to the end of the inlet pipe 2 inside the body 1 is connected and this end closes. The other end of the chamber Io is closed by the second channel part 6. At its end opposite the inlet pipe 2, the body 1 is cylindrical with the first Chamber 11 is provided, which has a larger diameter than the second chamber Io. The wall of the chamber 11 is with a hole 2o which communicates with the outside of the body 1 in communication.

The second chamber Io has an end wall that passes through the first Channel part 5 is formed, its other end wall is sealing with the outside of an outlet pipe 14 connected, the open end of which is surrounded by the channel part 7

give is. The two chambers Io and 11 are each with Material packs 12 and 13 filled, which in the illustrated embodiment from particles of expanded metal or consist of wire gauze.

When the device is in operation, the inlet pipe 2 is connected to the exhaust pipe of an internal combustion engine.

Air polluting exhaust gases enter the body 1 of the device through the inlet pipe 2 and holes 3, so that they flow into the annular channel 4. Because the downstream end of the channel 4 has a reduced flow cross-section has, the exhaust gases are considerably accelerated before they hit the first annular duct part 5 bounce. The combined effect of the increased velocity of the exhaust gases and their impact on the Channel part 5 has the effect that the air-polluting particles pass through the slots 8 into the first chamber 11. There the inside of the first chamber 11 has a negative pressure, air flows from the outside into the chamber 11 through the hole 2o one and supports the circulation of the exhaust gases in the chamber 11 as well as the conglomeration of those polluting the air Particles in the pack 13.

The exhaust gases, freed from some of the air polluting particles, reverse their flow direction and collide with one another the second channel part 6. Here, too, there is a combined effect of the high flow velocity the partially already cleaned exhaust gases between the duct parts 6 and 7 and the impact of the exhaust gases on the Channel part 6 on. This causes the gases to diffuse into the second chamber Io, in which the material is packaged 12 is present. Here further lead particles or other air-polluting particles are separated from the exhaust gases.

• 1 II "

The two reversals of the flow of the exhaust gases cause a dispersion of lead particles and other air pollutants Particles due to their inertia through the slots 8 and 9 in the packs 12 and 13 of the chambers Io and 11 into it.

The exhaust gases experience a further flow reversal at the second channel part 6 before they pass through the outlet pipe released into the atmosphere. Io

Claims (3)

claims 1. Device for the removal of air pollutants Particles, in particular lead particles, from the exhaust gases of an internal combustion engine, characterized through a flow inlet (2), which is connected to a channel (4) the reduced flow area is connected by a first surface (5) to which the through the channel (4) impinging flowing exhaust gases, a first chamber (11) containing a material pack (13) for conglomeration of the air polluting particles, into which the exhaust gases flow through openings (8) in the first surface (5), a curvature of the first surface (5) causing the flow of the exhaust gases to be reversed,
by a second surface (6) on which the exhaust gases impinge after the flow reversal on the first surface (5) and which has openings (9) for guiding the exhaust gases into a second chamber (lo) which has a material pack (12) for conglomeration contains air polluting particles, through a further flow reversal of the exhaust gases causing curvature of the second surface (6) and through a flow outlet (14) for discharging the exhaust gases after the second flow reversal. 2, device according to claim 1, characterized in that g e k e η η, that a third surface (7) in the flow path of the exhaust gases between the first and the second surface (5, 6) is provided, which reduces the effective flow cross-section and thereby the flow velocity of the exhaust gases impinging on the second surface (6) is increased. 3. Device according to claim 1 or 2, characterized in that the first chamber (11) over at least one opening (2o) is connected to the outside space.