DE10236160A1 - Selective media delivery device, especially for sampling the exhaust gas of a combustion engine has a rotating cylindrical body with connection channels for selective connection of two inlets with multiple outlets - Google Patents

Abstract

Device for selective supply of media comprises a distributor body (10) with at least one inlet for supply of a second medium (20), at least one outlet (14) leading away a first measurement medium (30) and at least a further outlet (17) for discharge of the second medium. A moveable delivery body (50) has a first channel (51) for selective connection of the first medium with one of the outlets and a second channel (52) for selective connection of the second medium with one or all of the remaining outlets. Optimally the delivery body is a rotating cylindrical slider and the second connection channel has an annular shape. The first medium has a high particle concentration, being derived from the exhaust gas of a combustion engine and the second medium has a low particle concentration as it is taken from the surrounding air.

Description

The present invention relates a device for the selective supply of media and in particular a device for the selective supply of gaseous media.

For the measurement of particulate gases, in particular in emission measurements in exhaust gases of internal combustion engines, there is the problem that in an exhaust pipe at the sampling site only space for a single particle probe with partial flow sampling is present. Should now different particle measurement methods compared with each other become, so it is inevitable to supply a sampling system from only one particle probe.

A first conventional sampling system for serial measurement or for comparison of different particle measurement methods must be rebuilt between different measurements. Such a Conversion is with the internal combustion engine running (eg diesel engine) not possible. shocks during the conversion can Particles from the duct walls release, which can lead to incorrect measurement.

Another sampling system based on the use of a switching system, as in the Exhaust gas measurement with multiple solenoid valves is used. adversely affects here that such an arrangement has long cable lengths, which represent a particle storage condition. Same line lengths are difficult to realize in such an embodiment. In addition, the lead great cable lengths too undesirable long gas runtimes.

It is therefore the task of the present Invention to provide a device for supplying media, which media on different outlets within a short switching time with constant path lengths allocates.

According to the invention this object is achieved by the solved in claim 1 device for the supply of media.

The underlying of the present invention Idea is to provide a movable feeder device, which short switching paths and the same line lengths from one inlet to the other outlets includes.

In the present invention solves the problem described in particular by the fact that a lead body with an inlet for feeding of the first medium to be measured and several initially with the inlet not connected outlets for discharging the media is provided. For forwarding the first to be measured Medium leaves selectively connect between the inlet and an outlet produce. All not affected by the first medium to be measured outlets are connected to each other and are exposed to a second medium.

In the dependent claims are advantageous Further developments of the invention.

According to a preferred embodiment the movable supply device is a cylindrically shaped Rotary valve, wherein the located in the rotary valve second Channel is a ring channel.

According to another preferred Continuing education is a hollow body with one to the manifold body open Side for providing a sealed cavity above the Distributor body and with an outlet for feeding the first medium provided in the cavity.

According to another preferred Continuing education is the hollow body cup-shaped educated.

According to another preferred Further development is the rotary valve via a clamping device, preferably a coil spring, clamped against the distributor body.

According to another preferred Further development is the rotating rotary valve via a centrally mounted drive shaft, preferably with an over a control device controlled servomotor, in a predetermined Rotatable positions.

According to another preferred Continuing education are individual outlets of the distributor body by means of a shut-off closed.

According to another preferred Further development is the device or preferably the distributor body with a heating device and / or a temperature sensor provided.

According to another preferred Further development, the device can be connected to a dilution device.

According to another preferred Training is a protective hood against influences of the ambient air over the Device provided.

According to another preferred Continuing through the device gaseous media selectively to the at the outlets connected measuring devices for particle measurement in exhaust gases fed.

According to another preferred Further development is the device pressure-tight up to 500 mbar overpressure in relation to to the ambient pressure.

According to another preferred Further development is the first medium to be measured, the cavity axially over the Inlet feedable, and all other inlets or outlets radially from the distributor body and preferably over an axial connection in the distributor body in the direction of the bore in the rotary valve base.

According to a further preferred development, the media-carrying components of the device consist of non-corrosive and ether mix resistant materials.

According to another preferred embodiment is each a measuring device over the Rotary valve and an outlet with the first medium for measurement connected, and all others over the outlets connected measuring devices are flushable with the second medium.

Embodiments of the invention are shown in the drawings and in the following description explained in more detail.

Show it:

1A A plan view of a distributor body according to an embodiment of the present invention;

1B a cross-sectional side view for explaining some details of an embodiment of the present invention;

2A a plan view of a distributor body according to an embodiment of the present invention;

2 B the bottom view of a feeder device according to an embodiment of the present invention;

2C a cross-sectional side view according to an embodiment of the present invention;

3A the top view of a distributor body according to an embodiment of the present invention;

3B the bottom view of a compared to 2 B rotated lead-in device for explaining the operation of an embodiment of the present invention;

3C a side cross section of an embodiment of the present invention;

4A the top view of a distributor body with a shut-off device according to an embodiment of the present invention;

4B the bottom view of a compared to 3B rotated lead-in device for explaining the operation of an embodiment of the present invention; and

4C a side cross section of an embodiment of the present invention.

In 1A is a substantially cylindrical manifold body 10 shown. The distributor body 10 has 6 axial holes 11 on, whose centers, in particular equidistant, over a radius around a continuous central bore 12 are arranged in the axial direction. The axial bores 11 make a channel or a connection to the inlets and outlets 13 . 14 . 15 . 16 . 17 . 18 ready, which extend in the radial direction, and are not continuous. The distributor body 10 consists of a non-corrosive and thermally resistant material. Via an electrically operated heating device (not shown), the distributor body and thus in particular the entire device for distributing media can be tempered, for example to prevent condensation within the device when operating with gaseous media. A temperature sensor (not shown) for monitoring the temperature of the distributor body is likewise conceivable.

In 1B is a distributor body 10 in section along the outlets 15 . 18 represented, which axial bores 11 equidistant to the continuous central bore 12 having. An outlet channel 15 and an inlet channel 18 close to the axial bores 11 in the radial direction. About the distributor body 10 is a hollow body 21 in the form of a media-sealed cylindrical cup, which has a cavity 23 above the distributor body and the holes provided therein 11 . 12 forms. The hollow body 21 is open to the bottom and has an inlet at its top 22 which is centrally located and forms an axial channel. With suitable sealing means (not shown) is the hollow body 21 preferably up to 500 mbar pressure difference between the cavity 23 and outside pressure-tight. The choice of material of the hollow body 21 corresponds in essential characteristics of with reference to 1A explained.

In 2A is a distributor body 10 after 1A represented by his holes 11 respectively inlets / outlets 13, 14, 15, 16, 17, 18 for example with gaseous media 20 . 30 is charged. The flow directions (represented by arrow) of the gaseous media 20 . 30 are dependent on the position of with regard to 2 B shown in bottom view supply line 50 , The supply line 50 is a rotary valve 50 which has a first channel 51 in the form of a bore and a second channel 52 in the form of a milled groove-shaped annular channel 52 having. Is the rotary valve 50 now with its illustrated underside on the with respect to 2A shown top of the distributor body, so is a via the inlet 18 supplied gas 20 , which in particular has a low particle concentration, over the bore 11 the ring channel 52 supplied in the rotary valve and can in the present position of the rotary valve 50 over the outlet 17 , the outlet 16 , the outlet 15 and the outlet 14 For example, each be supplied to a separate measuring device.

One out of the hole opening 55 At the bottom side of the rotary valve escaping medium, in particular a gas of high particle density, is in the present position of the rotary valve 50 the outlet 13 or to a connected measuring device (not shown). According to this arrangement, therefore, only one measuring device (not shown) becomes a medium 30 , such as an exhaust gas for measuring various exhaust gas properties, such as the particle density, fed to those at the remaining outlets 14 . 15 . 16 . 17 on closed measuring instruments with another medium, such as the ambient air, which has a low particle density, are acted upon and thus can perform an "ambient measurement".

In 2C is essentially the arrangement after 1B but with inserted rotary valve 50 and a section along the outlets 13 . 16 shown. About the inlet 22 in the hollow body 21 becomes the first channel 51 in the rotary valve 50 over the cavity 23 an exhaust 40 fed. In the present position of the rotary valve has the opening 55 on the bottom of the rotary valve on the hole 11 the outlet 13 , whereby the exhaust gas flow 30 at the outlet 13 connected measuring device is supplied. About the ring channel 52 in the rotary valve 50 becomes the almost particle-free ambient air 20 among other things about the outlet 16 fed to a connected measuring device.

In the 3A . 3B and 3C is essentially the arrangement according to the 2A . 2 B and 2C shown, but the position of the rotary valve 50 which with respect to 3B is shown, changed and therefore one of 2 deviating gas distribution results.

The referring to 3B clarified position of the rotary valve 50 results in that the inlet 18 supplied ambient air 20 over the ring channel 52 the outlet 13 , the outlet 15 , the outlet 16 and the outlet 17 or in each case connected to measuring instruments (not shown) is supplied. That over the inlet 22 in the hollow body 21 the cavity 23 or the first channel 51 in the rotary valve supplied exhaust 40 is in the present position of the rotary valve 50 the outlet 14 over the hole 55 in the rotary valve bottom, which is the outlet opening of the channel 51 represents. One to the outlet 14 connected measuring device (not shown) is thus with the exhaust gas flow 30 whose composition is measured.

Regarding 3C is essentially the 2C corresponding arrangement shown, which, however, a section along the outlets 14 . 17 clarified. In 3C is in the central hole 12 of the distributor body 10 a drive shaft 53 for driving the rotary valve 50 used, which for example by a stepper motor (not shown) and a stepper motor driving means (not shown) a precise positioning of the rotary valve 50 or the bore 55 in the bottom of the rotary valve over the axial holes 11 in the distributor body 10 allows.

In the 4A . 4B and 4C is essentially an arrangement according to the 3A . B . C shown, but with a shut-off position of the rotary valve 50 according to 4B in conjunction with a shut-off device 54 and resulting modified gas streams are provided. About the shut-off device 54 , in particular a closure cap 54 , is the outlet 18 locked. The rotary valve 50 has such a position that the bore 55 at the bottom of the rotary valve just above the hole 11 , which in connection with the outlet 18 Standing lying. This will be over the inlet 22 in the hollow body 21 the first channel 51 in the rotary valve 50 supplied exhaust stream 40 blocked and thus fed to any measuring device. One over the inlet 17 supplied fresh air or ambient air flow 20 is via the ring channel 52 in the rotary valve 50 on the outlets 13 . 14 . 15 and 16 distributed, which are connected for example to measuring devices for the determination of exhaust gas parameters. 4C illustrates a section along the connecting line of the outlets 15 and 18 ,

By the inventive device for Distributing media it is possible to serially switch an exhaust sample to individual particle gauges, wherein preferably only one measuring device, a measurement of the exhaust gas sample and all other measuring devices when switched on Room air can measure and thus carry out an "ambient measurement" Exhaust gas sample can with short switching times during the course of a Exhaust gas causing internal combustion engine without conversion to different particle Size Analyzers be done. About that In addition, are short exhaust pipes by the device according to the invention possible. Furthermore, in the distribution device, constant gas paths independent of the switching position or rotational position of the rotary valve reached.

With the aid of the device according to the invention for Distributing media requires only one sampling probe, where For example, 4 measuring devices with Shut-off option and 5 measuring devices can be connected without shut-off option are. By the switching module of the servomotor, the device remotely controllable. A hood over the entire device for protection e.g. against temperature drop through the ambient air is provided as well as the connection or the combination of the compact distribution device with a rotating disc, which are in particular freely movable on stands realizable.

In connection with the rotary diluter, the device for distributing media, which can be connected by a desired short sampling line to the Rotationsverdünner, an advantageous embodiment for obtaining reproducible measurement results of particles in exhaust gases, in particular for correlation measurements of different particle measuring devices and for the functional evaluation of particulate filters in exhaust systems on. Preferably, the control of the latching switchable servomotor via precision potentiometer, whereby switching positions of the device can be adjusted individually, adjusted and fixed. By an execution of all electrical components in 24-volt technology is the security of a test bench, where the device according to the invention can be used, guaranteed.

Although the present invention described above with reference to preferred embodiments it is not limited to that, but in many ways and modifiable.

Although the present embodiment relates to a rotary feeder device, also a translational movement of a supply line device for selectively connecting different inlets and outlets is conceivable. In particular, other arrangements of the feed bores 11 to the inlets and outlets 13 to 18 , For example, in several concentric circles and other embodiments of the rotary valve conceivable. The rotary valve is a tensioning device, in particular a coil spring against the distributor body 10 pressed, being between the rotary valve 50 and the distributor body, a viscous sealant, such as silicone grease, is conceivable. Also, the number of inputs and outlets and each connectable to each other via the rotary valve inputs and outputs is freely selectable. By a replacement of the rotary valve, which is designed differently, can make a quick and easy adjustment of the distribution function of the device for distributing media, in principle, liquid media with the device according to the invention are distributed.

Claims (16)

Device for the selective supply of media, comprising: a distributor body ( 10 ) with at least one inlet ( 18 ) for supplying a second medium ( 20 ), in particular with low particle concentration, at least one outlet ( 13 . 14 . 15 . 16 . 17 ) for discharging a first medium to be measured ( 30 . 40 ), in particular with high particle concentration, and at least one further outlet ( 13 . 14 . 15 . 16 . 17 ) for discharging the second medium ( 20 ); a movable supply device ( 50 ) with a first channel ( 51 ) for selectively connecting the first medium ( 40 ) with at least one outlet ( 13 . 14 . 15 . 16 . 17 ) and with a second channel ( 52 ) for selectively connecting the second medium ( 20 ) with at least one further outlet ( 13 . 14 . 15 . 16 . 17 ). Apparatus according to claim 1, characterized in that the movable supply line device ( 50 ) a cylindrical trained rotary valve ( 50 ) and the second channel ( 52 ) is an annular channel. Device according to claim 1 or 2, characterized in that a hollow body ( 21 ) with a to the distributor body ( 10 ) open side to provide a sealed cavity ( 19 ) above the distributor body ( 10 ) and with an inlet ( 22 ) for supplying the first medium ( 40 ) in the cavity ( 23 ) is provided. Device according to claim 3, characterized in that the hollow body ( 21 ) is cup-shaped. Device according to claims 2 to 4, characterized in that the rotary valve ( 50 ) via a tensioning device, preferably a spiral spring, against the distributor body ( 10 ) is tensionable. Device according to at least one of the preceding claims, characterized in that the rotary rotary valve ( 50 ) via a centrally mounted drive shaft ( 53 ), preferably with a controlled by a control device servomotor, is rotatable in predetermined positions. Device according to at least one of the preceding claims, characterized in that individual outlets ( 13 . 14 . 15 . 16 . 17 ) by means of a shut-off device ( 54 ) are closable. Device according to at least one of the preceding claims, characterized in that the device or preferably the distributor body ( 10 ) is provided with a heater and / or a temperature sensor. Device according to at least one of the preceding claims, characterized characterized in that the device is mounted on a stand opposite to a Measuring arrangement height-variable is fastened. Device according to at least one of the preceding claims, characterized in that the device is connected to a dilution device connectable is. Device according to at least one of the preceding claims, characterized characterized in that a protective hood against influences of Ambient air over the device is provided. Device according to at least one of the preceding claims, characterized in that gaseous media ( 20 . 30 ) selectively on measuring devices at the outlets ( 13 . 14 . 15 . 16 . 17 ) are fed to the particle measurement in exhaust gases. Device according to at least one of the preceding claims, characterized characterized in that the device pressure-tight up to 500 mbar overpressure in relation to to the ambient pressure. Device according to at least one of aspiring claims, characterized in that the first medium ( 30 ) the cavity ( 23 ) axially across the inlet ( 22 ), and that all further inlets ( 18 ) or outlets ( 13 . 14 . 15 . 16 . 17 ) radially from the distributor body ( 10 ) and preferably axial connections ( 11 ) in the distributor body ( 10 ) in the direction of the bore ( 55 ) in the rotary valve underside. Device according to at least one of the preceding claims, characterized in that components ( 10 . 21 . 50 . 53 ) of the device consist essentially of non-corrosive and thermally resistant materials. Device according to at least one of the preceding claims, characterized in that only one measuring device via the first channel ( 51 ) in the rotary valve ( 50 ) and an outlet ( 13 . 14 . 15 . 16 . 17 ) with the first medium ( 40 ) is connected to determine the particles contained therein, and all other via the outlets ( 13 . 14 . 15 . 16 . 17 ) connected to the second medium ( 20 ) are flushable.