WO2012059235A1 - Device and method for producing a reforming unit filled with catalyst pellets - Google Patents

Abstract

The invention relates to a device (1) for producing a reforming unit (3) filled with catalyst pellets (2) for a fuel cell. The device (1) comprises a pellet dispenser (7) for discharging catalyst pellets (2) to a catalyst plate element (4) to be charged with pellets (2). The pellet dispenser (7) can be opened and closed at an outlet end (7b) and the outlet end (7b) thereof is arranged above a predetermined position for a catalyst plate element (4) to be charged and is movable relative to said predetermined position. The pellet dispenser (7) is designed so that pellets (2a, 2) queued therein for discharge can be stored with a predetermined alignment upstream of the outlet end (7b) to form a back pressure in the outlet direction when the outlet end (7b) is closed. The pellet dispenser (7) imposes a substantially downwardly pointing outlet direction for the pellets (2) to which back pressure is applied. The invention further relates to a corresponding method.

Description

 Apparatus and method for producing a reforming unit filled with catalvator pellets

The present invention relates to an apparatus for producing a catalyst unit filled with a catalyst reformer unit according to the preamble of claim 1. Furthermore, the present invention relates to a method for producing a filled with catalyst pellets reforming unit according to the preamble of claim. 6

The prior art discloses a generic apparatus and a method for producing reformer units filled with catalyst pellets from document WO 2008 / 141071A1. This discloses, for example, an apparatus and a method in which catalyst pellets are introduced by means of a template or shadow mask in a catalyst plate element. In particular, a device and a method are also known from the same document in which catalyst pellets are dispensed from a supply device by means of a multiplicity of juxtaposed supply channels corresponding to intended pellet insertion positions and individually urged into the catalyst plate element by cylinders assigned to the entry positions.

A problem with the known devices for introducing pellets into a catalyst plate element is that manufacturing tolerances of the catalyst plate elements which are frequently designed as slotted hole bridges and which result from different sheet thicknesses and production parameters, in particular for longer sheets, can hardly be compensated for during charging with pellets, so that pellet entry does not lead to satisfactory results in the production of reforming units. Furthermore, a feed system is very susceptible to failure by the use of a large number of small cylinders for pellet entry.

Proceeding from this, the present invention has the object, an apparatus and a method for producing a reforming unit for fuel cells which overcome the above drawbacks and which allow easy and reliable charging of catalyst plate elements with catalyst pellets.

This object is achieved with respect to the device according to the invention by the features of claim 1. With regard to the method, the object is solved by the features of claim 6.

According to the invention, an apparatus for producing a catalyst cell filled or charged reforming unit for a fuel cell is proposed, the apparatus having a pellet dispenser for dispensing catalyst pellets to a catalyst plate element to be charged with pellets, the pellet dispenser being openable and closable at an outlet end, and wherein the outlet end of which is disposed above a predetermined position for a catalyst plate member to be charged relative thereto, the pellet dispenser being formed to have pellets therein for delivery at a predetermined orientation upstream of the pelletizer

The outlet end can be stacked to form a back pressure in the outlet direction when the outlet end is closed, wherein the pellet dispenser has a

Outlet direction for the accumulation pressure charged pellets pretending, which points essentially downwards.

Also proposed is a method for producing a catalyst cell filled with a reforming unit for a fuel cell, wherein catalyst pellets in a first step in a pellet dispenser, which is disposed over a catalyst plate element, with predetermined orientation with the formation of dynamic pressure in the direction of an open and

in a second step from the pellet dispenser, a collated and pressurized catalyst pellet is discharged by gravity to the catalyst plate member, the discharge being in an outlet direction toward the catalyst plate member. By a device according to the invention and a method having the above features, the pellet entry into a catalyst plate element can be done easily and reliably.

Further features and advantages of the invention will become apparent from the following description of embodiments of the invention, with reference to the figure of the drawing, which shows essential to the invention, and from the claims. The individual features can be realized individually for themselves or for several in any combination in a variant of the invention.

Exemplary embodiments of the invention are explained below with reference to the accompanying drawings. Show it:

 1 shows by way of example and schematically a device for producing a catalyst cell filled with a reforming unit for a fuel cell according to a possible embodiment of the invention, which is suitable for carrying out the method according to the invention.

In the following description and the drawings, the same reference numerals correspond to elements of the same or comparable function.

1 shows a device 1 according to the invention for producing a catalyst unit 2 filled with a reforming unit 3 for a fuel cell. A reforming unit 3 which can be produced according to the invention by means of the device 1, which serves for internal reforming in fuel cells, consists of a plate-shaped element or substrate, ie a catalyst plate element 4 whose surface is structured and which is provided for charging or filling with catalyst pellets 2 wherein the structure provides receptacles in the form of, for example, cavities for the catalyst pellets 2 and / or spacer elements. The catalyst plate member 4 is formed, for example, in the form of a slit hole bridge plate, a wire mesh or an expanded metal. Furthermore, a reforming unit 3 produced according to the invention has catalyst pellets 2, which are arranged in the receptacles or cavities of the catalyst plate element 4 provided by the structure of the catalyst plate element 4, in particular permanently. The catalyst pellets 2 preferably have a cylindrical shape, but other cross-sections and shapes are possible, for example spherical shape, square or rectangular cross sections, etc.

The device 1 according to the invention preferably has a feed device 5, which is provided to convey pellets 2 from a pellet supply 6 to a pellet dispenser 7, which is provided as a dispensing and feeding device for pellet dispensing and for their entry into the catalyst plate element 4. The feed device 5 comprises for this purpose e.g. a pellet storage tank 8, which is provided for storing catalyst pellets 2 and in which the catalyst pellets 2 e.g. are received as bulk material. The pellet storage container 8 has at least one outlet 8a, via which pellets 2 can be delivered.

The feed device 5 further comprises, downstream (arrow direction Fig. 1) of the outlet 8a of the pellet storage container 8 in particular an alignment device 9, in which the pellets 2 are conveyed, and which is intended to align the pellets 2 with a certain orientation and aligned to To provide or submit, ie at an outlet 9a of the alignment device 9. The alignment device 9 is preferably formed by means of a Rütteltopfes or a Vibrationswendelförderers, at the outlet 9a, the pellets 2 with a predetermined orientation for further, downstream handling are available.

According to the invention, an entry of the aligned pellets 2 into the pellet dispenser 7 is provided by means of the feed device 5. The entry takes place, for example, by means of a tubular element 10 of the feed device 5, for example in the form of a drop tube, which is connected to the outlet 9a of the alignment device 9, and downstream with the pellet dispenser 7, ie with its inlet 7a. can be tied, eg articulated. The pellet dispenser 7 is preferably tube-shaped in a simple manner, for example as a feed tube or as a filling tube, although other dispenser designs are also conceivable.

The pellet dispenser 7 is provided for storing the aligned pellets 2 of predetermined orientation, the inner cross section thereof being e.g. especially adapted to the cross section of the male pellets 2. In this way, the pellets 2 can be easily magazined with an intended orientation. A magazine according to the invention further provided in particular such that the weight in the pellet dispenser 7 magazinierter pellets 2, in particular all, can act on a pellet 2a to be discharged. The pellets 2 are for this purpose e.g. stacked on top of each other, e.g. in a direction essentially following that of gravity.

The pellet dispenser 7 has, for feeding or controlled delivery of pellets 2 to a catalyst plate element 4, an outlet opening 7b that can be opened and closed, in particular in a controlled manner, by means of which magazineed pellets 2 are releasable, i.e. when opening the same. The outlet end 7b is arranged according to the invention above a predetermined position for a catalyst plate element 4 to be charged, movable relative thereto, such a position being e.g. is predetermined by a positioning device 11 for the catalyst plate element 4. The position for a catalyst plate element 4 to be charged with pellets 2 accommodated in the pellet dispenser 7 is consequently provided in the direction of gravity below the pellet dispenser outlet end 7b within the scope of the device 1 according to the invention.

According to the invention, the outlet end 7b of the pellet dispenser 7 can be opened and closed by means of a closure device 12, for example in the form of a hydraulically or pneumatically actuated cylinder or in any other suitable manner. In the context of the present invention, a closure or closure is also to be understood as a merely partial closure which inhibits the dispensing of a pellet 2. In particular, it is also provided The outlet end 7b can be closed by means of a clamping of a pellet 2, eg by clamping by means of the above-mentioned closure device 12. When the outlet end 7b is closed, pellets 2 which are present or are introduced into the pellet dispenser 7 on the inlet side can be magazineed upstream of the outlet end 7b formed by the storage of the pellets 2 a dynamic pressure, which acts on each immediately pending for dispensing pellet 2a, ie the weight of further magazinierter pellets 2 acts, as already discussed above, on the impending immediately for issue pellet 2a.

According to the invention, an outlet direction for the accumulation pressure-loaded pellets 2 in the direction of a catalyst plate element 4 to be charged at the predetermined position is advantageously predetermined, ie. an outlet direction which points substantially downwards, in particular downwards, preferably in the direction of the force of gravity, so as to ensure that the respectively to be dispensed pellet 2, which generally has extremely low weight, with the necessary force or insertion force into a catalyst plate element 4 or a cavity formed therein can be introduced, ie at the intended position with the intended positioning and alignment.

By forming a dynamic pressure according to the invention in the outlet direction, ie against a pellet 2a protruding at the outlet 7b in connection with the predetermined outlet direction in the direction of the catalyst plate element 4 to be charged, complex auxiliary means for reliably introducing the pellets 2 are dispensable according to the invention. According to the invention, application or discharge from the pellet dispenser 7 and introduction of the pellets 2 into the catalyst plate element 4 takes place exclusively exclusively by gravity with the outlet end 7b open and furthermore in particular exclusively by means of the pellet dispenser 7. The outlet end 7b of the pellet dispenser 7 or the pellet dispenser 7 In this case, it is in particular designed such that the pellets 2 can each be ejected or released one after the other in an isolated manner, eg by means of the above-mentioned adapted inner cross section. According to the invention, the pellet dispenser 7 cooperates with a fill level monitor 13 of the device 1, which is provided to determine the pellet level upstream of the outlet or outlet end 7b. Depending on the determined fill level, which corresponds to the generated dynamic pressure against the outlet closure or against a pellet 2a immediately there for dispensing, a control device 14 of the device 1 cooperating with the fill level monitoring and the pellet dispenser 7 can open the outlet end 7b with sufficient dynamic pressure Keep closed at a low dynamic pressure for a reliable pellet feed until further pellets 2 have been stored on top. The level monitoring device 13 is formed for example by means of a light barrier.

According to the invention, the device 1 or the feed device 5 upstream of the pellet inlet 7a of the pellet dispenser 7 and downstream of the outlet 8a of the pellet storage container 8 further comprises at least one transport section within which the preferably pre-oriented catalyst pellets 2 are conveyed via a chicane 15. Such a chicane 15 is e.g. formed by means of a comb structure, such that impurities and out of tolerance pellets 2 are discarded, in particular by gravity.

In addition, the device 1 according to the invention for producing a reforming unit 3 filled with catalyst pellets 2 has, in particular, a (plate) positioning device 16 by means of which a catalyst plate element 4 to be charged with pellets 2 can be positioned or aligned and which, in particular, the feed position of a catalyst plate element 4 defined below the pellet dispenser 7. The positioning device 16 comprises, for example, a transport device 16a for the catalyst plate element 4, preferably a support element 16b or a holding element for supporting or supporting the catalyst plate element 4 below the pellet dispenser and, for example, one or more stop elements 16c for aligning the catalyst plate element to be charged 4. The positioning device 16 is preferably formed inexpensively by means of a conveyor belt, by means of an XY table, robotized or otherwise.

The device 1 according to the invention also has a measuring device

17, by means of which the structure of the catalyst plate element 4 can be measured prior to charging with pellets 2, e.g. with respect to the cavities of a catalyst plate element 4 in rows, e.g. in terms of the angle or extension of a row. The measuring device 17 is here in turn connected to the controller 14, which determines a feed path depending on the measurement result. The outlet 7b of the pellet dispenser 7 is then relatively moved, while maintaining the outlet direction with a feed of the measured substructure or a series of pellets 2 to the predetermined loading position or the catalyst plate element 4 according to the particular feed path that manufacturing tolerances or general deviations in a feed can be compensated.

The pellet dispenser 7, at least its outlet end 7b, is for this purpose according to the invention by means of a (dispensing) positioning device 18 which cooperates with the controller 14 relative to the loading position movable or displaceable. By means of the controller 14 and the pellet dispenser 7 or its outlet end 7b which can be displaced as a function of control commands, any filling pattern of pellets 2 can be formed on the catalyst plate element 4 for producing a reforming unit 3 while maintaining the outlet direction, and tolerances can be easily compensated.

The positioning device 18 for displacing the pellet dispenser 7 or its outlet end 7b is formed, for example, by means of an XY portal. According to the invention, it is also conceivable to image the functionality of the (dispensing) positioning device 18 and the (plate) positioning device 16 for the purpose of relative movement of the outlet end 7b and a catalyst plate element 4 during feeding by a single positioning device. The device 1 according to the invention further comprises a control unit 19, which is designed to check the Pelletfüllgrades with respect to the catalyst plate element 4, wherein the control unit 19 is formed, for example, for pattern recognition, for example by means of a camera. As soon as the control unit 19 recognizes a deviation from a predefined charging pattern, it is possible by means of suitable control commands to re-charge a faulty filled catalyst plate element 4 by relative movement of pellet dispenser 7 or its outlet end 7b and catalyst plate element 4 and by opening and closing the pellet dispenser outlet 7b for the purpose the delivery of the required number of nachzuscheschickenden pellets 2 done.

Furthermore, the device 1 according to the invention may comprise a fixing device (not shown) which fixes the pellets 2 to a charged catalyst plate element 4, i.e. permanent. A fixation or sealing takes place either by gluing, e.g. by means of an adhesive-coated film (plastic or metal), by means of an adhesive application to which an uncoated film is glued, or e.g. by pouring the pellets 2 by means of quick-drying (fast-curing) adhesive or potting compound.

As already stated above, the device 1 for networking its components in particular has a control and / or regulating device 14, by means of which a charging process is carried out in each case.

In the method according to the invention for producing a catalyst cell 2 filled or charged reforming unit 3 for a fuel cell, which can be carried out by means of device 1 described above and to the explanation of which reference is made to the above statements, in a first step, the catalyst pellets 2 in the pellet dispenser 7, which is intended to be arranged over a catalyst plate element 4 to be charged, with predetermined orientation with formation of dynamic pressure in the direction of an openable and closable outlet end 7b of the pellet dispenser 7.

For this purpose, the pellets 2 are conveyed with a predetermined orientation via the pellet dispenser inlet 7a into the pellet dispenser 7 and received therein. The feed to the pellet dispenser inlet 7a takes place by means of the feed device 5. Defective pellets 2 and contaminants can be separated out along the feed path via the chicane 15.

Before starting a pellet feed, the outlet end 7b of the pellet dispenser 7 is closed, e.g. via the closure device 12, so that a dynamic pressure can build up against them. The achievement of the intended pellet level is preferably monitored by means of the pellet level monitor 13 prior to opening the outlet end 7b.

For charging a catalyst plate element 4 with pellets 2, before or during the first step, a catalyst plate element 4 is positioned at the feed position below the pellet dispenser outlet 7b, preferably by means of the (plate) positioning device 16 and aligned, e.g. by means of the at least one stop element 16c. After positioning and alignment, the catalyst plate element 4 is measured according to the invention, i.e. the partial structure provided for charging with pellets 2, e.g. a series of cavities, e.g. across the width of the catalyst plate element 4. Depending on the measurement result, the feed path is then determined along which pellets 2 are to be delivered to the catalyst plate element 4 in the course of a relative movement of catalyst plate element 4 and pellet dispenser outlet 7b.

After determining the feed path, the pellet dispenser outlet 7b is positioned at the beginning of the feed path, ie above the catalyst plate element 4, eg a first cavity. In a second step according to the invention, a magazineed and stagnant jerkbeaufschlagtes catalyst pellet 2a by gravity, in particular exclusively by gravity, to the - disposed below - the catalyst plate element 4, wherein the discharge in an outlet direction to the catalyst plate element 4 takes place. For this purpose, the outlet end 7b is opened, whereupon the magazine pellets 2a, 2 can be dispensed.

In this case, it is provided according to the invention that the outlet end 7b of the pellet dispenser 7 is opened continuously during a feed along the predetermined feed path at least for the duration of dispensing a plurality of pellets 2 one after the other. In this case, pellets 2 can be discharged continuously, e.g. over the entire feed path. Subsequent pellets 2 can force the pellet 2 a currently being dispensed into the intended cavity. At the time of dispensing, the pellet outlet end 7b may coat the structure or e.g. overrun at a short distance. Alternatively, the outlet end 7b may be closed between two cavities along the feed path, e.g. by clamping the pellet 2 a to be dispensed by means of the closure device 12.

At the end of the feed path, the outlet end 7b of the pellet dispenser 7 is reclosed according to the invention, in particular such that a pellet 2a is clamped therein, e.g. by means of the closing device 12. By means of a renewed relative movement, the pellet dispenser 7, at least its outlet end 7b, can now move towards another structural part to be filled, e.g. a further series of cavities are moved, wherein at least individual, preferably each further charging process described above type in turn precedes a measurement of the substructure to be charged and the determination of a feed path as described above. Thus, manufacturing tolerances can be easily compensated.

After a feed, the fill level of the pellets 2 in the catalyst plate element 4 can be checked by means of the control unit or control device 19 and, if appropriate, a recharge of the catalyst plate element 4 can take place. According to the invention, the first step before the second or alternate tively simultaneously with this, in particular in the case where pellets 2 are already stored for dispensing.

According to the invention, it is provided to feed a plurality of pellet dispensers 7 simultaneously and in particular side by side to a feed of a catalyst plate element 4, e.g. four pellet dispenser 7 at the same time, to which the device 1 has a plurality of pellet dispensers 7 as described above. The plurality of pellet dispensers 7 can be supplied with pellets 2 via a common feed device 5 or can interact with a plurality of feed devices 5. The pellet dispensers 7, at least their outlet ends 7b, can preferably be movable relative to one another to a predetermined charging position or a catalyst plate element 4, or exclusively together.

According to the invention, e.g. to define for each pellet dispenser outlet 7b its own feed path, the pellet dispenser outlet 7b e.g. Filling adjacent rows of cavities of the catalyst plate element 4. After filling, the plurality of pellet dispensers 7 or their outlet ends 7b can be moved together to form a further structural section or a relative movement can take place.

Claims

claims

1. Device (1) for producing a catalytic converter with pellets (2) filled reforming unit (3) for a fuel cell, wherein the device (1) a pellet dispenser (7) for dispensing catalyst pellets (2) to a with pellets (2) to be fed A catalyst plate member (4), said pellet dispenser (7) being openable and closable at an outlet end (7b) and having its outlet end (7b) disposed above a predetermined position for a catalyst plate member (4) to be charged relative thereto; Pellet dispenser (7) is formed such that therein pellets (2a, 2) for delivery with a predetermined orientation upstream of the outlet end (7b) with the formation of a dynamic pressure in the outlet direction upon closure of the outlet end (7b) are magazineable, characterized in that the Pellet dispenser (7) an outlet direction for the accumulation pressure applied pellets (2) dictates, which points substantially downwards.

2. Device (1) according to claim 1, characterized in that the pellet dispenser (7) is adapted to deliver the pellets (2) in succession isolated.

3. Device (1) according to any one of the preceding claims, characterized in that the device (1) is adapted to deliver the pellets (2) from the pellet dispenser (7) via its outlet end (7b) solely by gravity, in particular exclusively via the Enter pellet dispenser (7) in a catalyst plate element (4).

4. Device (1) according to one of the preceding claims, characterized in that the device (1) has a positioning device (16, 18), by means of which the pellet dispenser (7), at least its outlet end (7b), relative to the predetermined position is relocatable.

5. Device (1) according to one of the preceding claims, characterized in that the device (1) has a feed device (5) for introducing catalyst pellets (2) into the pellet dispenser (7), in particular with an alignment device (9) upstream of the Pellet dispensers (7).

6. Device (1) according to any one of the preceding claims, wherein upstream of the pellet dispenser (7) a baffle (15) for the separation of foreign bodies and / or defective pellets (2) is provided.

7. A method for producing a fuel cell with a catalyst pellets (2) filled reforming unit (3), wherein catalyst pellets (2) in a first step in a pellet dispenser (7), which is arranged above a catalyst plate element (4), with predetermined orientation below Formation of dynamic pressure in the direction of an openable and closable outlet end (7b) of the pellet dispenser (7), characterized in that in a second step from the pellet dispenser (7) a collated and pressure-loaded catalyst pellet (2) by gravity to the catalyst plate element ( 4), the discharge being in an outlet direction toward the catalyst plate member (4).

8. The method according to claim 7, characterized in that in the second step, a discharge of pellets (2) via the outlet end (7b) of the pellet dispenser (7) to the catalyst plate element (4) takes place along a predetermined feed path.

9. The method according to claim 8, characterized in that the outlet end (7b) of the pellet dispenser (7) during a feed along the predetermined feed path is at least as long uninterrupted open that along the feed path in particular a plurality of pellets (2) by means of the outlet end (7b ) are delivered to the catalyst plate element (4) in succession.

10. The method according to any one of claims 7 to 9, characterized in that before or in the second step, the catalyst plate element (4) is measured and determined based on the measurement result of the feed.

11. The method according to any one of claims 7 to 10, characterized in that the catalyst plate element (4) aligned prior to initial pellet delivery to the same and / or before a delivery of pellets (2) a pellet level in the pellet dispenser (7) is determined.