DE202008015019U1 - Fluid treatment plant with counterflow operated bulk beds - Google Patents

Abstract

Fluid treatment plant, consisting of one or more juxtaposed, parallel operated bulk material beds (3), in which / which the fluid to be treated flows through a bulk material bed substantially from bottom to top and the bulk material passes through the bulk material bed in countercurrent to the fluid substantially from top to bottom in that at the lower end of the bulk material bed (3) quantities of bulk material are withdrawn by bulk material removal pipes (13) distributed in a line-like or raster-like manner and bulk material quantities are fed to the bulk material at the upper end of the bulk material bed,
characterized,
a bulk material discharge device (15) has at least one trough-shaped storage element (100) having storage surfaces (110),
which is arranged below in a row juxtaposed mouth openings of Schüttgutabzugsrohre (13) such that the damming accumulates the emerging from the bulk material discharge pipes (13) bulk material,
comprising between the provided in the distance of the pipe mouth openings storage areas (110) openings (120) for the passage of accumulated bulk material from the storage element (100), and
the at least one, the channel shape adapted movable bulk material slide (230), and ...

Description

FIELD OF THE INVENTION

The The invention relates to a fluid treatment plant in countercurrent operated bulk beds according to the The preamble of claim 1. Accordingly, there is a fluid treatment plant one or more juxtaposed, parallel operated bulk material beds, in which / which the treated Fluid a bulk bed substantially from the bottom up flowed through at the top and the bulk material, the bulk material bed migrating in a countercurrent to the fluid essentially from top to bottom, by at the lower end of the bulk material bed bulk quantities withdrawn distributed by line or grid-like distributed bulk material exhaust pipes and at the upper end of the bulk material bed bulk quantities be given to the bulk material. In particular, refers the invention to such generic fluid treatment plants, where the bulk beds by a common horizontal Schüttgutaustragskanal are interconnected, the Bulk material by means of a traction drive over the Discharge channel from the fluid treatment plant is removable.

TECHNOLOGICAL BACKGROUND

Fluid treatment plants of the type mentioned are from the WO 2001/017663 Applicant known, in which a Fluidanström- and bulk material discharge floor according to EP 0 257 653 B1 preferably applies. As from the state of the art representing 1 can be seen, includes the known fluid treatment plant 1' a pipe channel 2 ' who in 1 is shown cut transversely to its longitudinal axis and from a variety of within the pipe channel 2 ' consecutively arranged traveling bed reactor modules 3 ' consists. Parallel to a side wall of the pipe channel 2 ' runs a lower lying inflow channel 4 ' for untreated fluid and an overflow channel located above 5 ' for treated fluid. The fluid to be treated flows over laterally arranged, possibly closable, inlet windows 6 ' in a gas distribution room 12 ' below an inflow floor 8th' in each reactor module. About from the EP 0257653 B1 known distributor bottom 8th' enters the fluid to be treated in a horizontally extended bulk bed 9 ' approximately uniform height, which consists of z. B. adsorptive or absorptive or catalytically active bulk material particles. Above the bulk material bed 9 ' is located under the pipe duct ceiling 10 ' a continuous charging channel 11 ' , in which the treated fluid can collect, before it via lateral, possibly closable Abströmfenster 7 ' the moving-bed reactor module 3 ' leave and through the outflow channel 5 ' from the fluid treatment plant 1' can be dissipated.

To the bulk of the bulk bed 9 ' gradually replaced, from time to time at the lower end consumed bulk material is withdrawn and placed at the top of fresh bulk, so that the bed height remains constant. The gradual bulk material removal takes place in a known manner via the distributor plate 8th' its bulk material outlet pipes 13 ' via a known bulk material discharge device 15 ' can be released and closed again. This is above a horizontal baffle plate 15A ' at least one discharge finger each 15B ' horizontally through the gap between the baffle plate 15A ' and the associated bulk material discharge pipe 13 ' to the side edges 15C ' the baffle plate 15A ' movable. As a result, bulk material is thrown off the baffle plate and from above slips correspondingly much bulk material from each Schüttgutaustragsrohr 13 ' to. Discharged bulk material can be transported via a bulk material delivery cart 16 ' or one along the pipe channel 2 ' running conveyor belt are discharged.

To be able to track the same amount of fresh bulk material to maintain the bed height at the same time bulk material discharge, is by means of a chassis 18 ' along the pipe channel 2 ' within the same mobile charging trolley 19 ' intended. In the 1 is the charging truck 19 ' just above the illustrated moving bed reactor module. The charging truck 19 ' is formed trough-shaped and with a variety of grid-shaped arranged discharge funnels 20 ' provided in bulk material outlet pipes 14 ' pass over at the bottom. Below the lower mouths 21 ' the bulk material outlet pipes 14 ' There is a horizontally extending dust sheet, which acts as a bulk material obturator 23 ' serves and is perforated hole-like for this purpose in the respective positions of the mouth ends of Schüttgutauslassrohre. The dust sheet is horizontally displaceable by about an opening width, so that in its second sliding position, the mouth ends of the bulk material outlet pipes 14 ' closes. In this way it is possible to charge the trolley 19 ' over each one in the pipe channel 2 ' successive moving bed reactor modules 3 ' to proceed to make a bulk material exchange there. When the charging truck 19 ' now along the charging canal 11 ' is moved, the dust plate interrupts the fluid outflow at the top of the bulk bed 9 ' , about the charging truck 19 ' straight away drives, and the dust sheet grinds over the Spit zen of the bulk material cone, which is characterized by the refilling at the upper limit of the bed of bulk material 9 ' form.

The uniformity with which the bulk material travels through the bulk material beds is due to the technical effect and the economy of such a countercurrent fluid treatment method of great importance. Therefore, special discharge devices 15 ' used below each bulk material bed, which subtracts from each of the mostly numerous bulk material discharge tubes cyclically at each stroke practically the same amount of bulk material per outlet. The used for this purpose with great success Schüttgutaustragsvorrichtungen are from the EP 0 357 653 B1 known. In this known Schüttgutaustragseinrichtung is below a series of juxtaposed mouth openings of Schüttgutabzugsrohre a strip-shaped, continuous and constantly wide storage area arranged in the shape of the transverse leg of a U- or T-beam. A finger-like rod arranged parallel to the row of tubes and, accordingly, also parallel to the elongated storage area 15B ' fits with undersize between the storage area and the pipe mouths and is from its front ends by a drive between the side edges 15C ' the storage area transversely to the longitudinal extent movable reversibly intermittently. In the case of each of these movements, dammed up bulk goods are thrown over the side edge of the storage area into a collecting container located underneath the pipe mouth on the storage area. The latter may be a funnel arrangement separately for each moving-bed reactor module 9 ' , a bulk material delivery car 16 ' which passes through a plurality of bulk material reactor modules in a bulk material discharge channel, or else be a conveyor belt. The long-term functionality of these discharge devices has been a guarantee for the trouble-free functioning of generic fluid treatment systems for more than 20 years. For reasons of material properties such discharge devices are limited in length, so that usually for each bulk material bed (moving bed reactor module) finds a self-powered discharge device application.

PRESENTATION OF THE INVENTION

Of the Invention is based on the problem, the bulk-friendly Discharge of bulk material quantities from generic Fluid treatment plants continue to improve. After another Aspect of the invention are intended in generic Fluid treatment plants, the bulk material discharge devices be simplified in a way that in large plants lead to a simplification of the operation. The invention solves the problem with a fluid treatment plant with the Features of claim 1. Accordingly, it is provided that in a generic Fluid treatment plant a bulk material discharge device at least one storage surfaces having, trough-shaped Has storage element. The baffle is below in a row juxtaposed mouth openings of the Schüttgutteilabzugsrohre arranged such that it accumulated from these emerging bulk material. The storage areas within the gutter according to the invention are in Distance of the mouth openings of the bulk material partial discharge pipes (Mouth openings) arranged, with between these spaced-apart storage surfaces openings in the gutter, in particular in the form of bottom openings, are provided by the dammed up bulk material from the channel-shaped storage element can escape. The leakage of the bulk material through the spaced-apart openings in the gutter is effected by a Schüttgutschieber. At least one bulk material pusher will come from each storage channel added. So no bulk particles longer Time can remain in the storage gutter, is the Schüttgutschieber the gutter shape adapted. Preferably, the bulk material pusher touches by means of a suitably designed edge all bulk goods Surface areas of the channel-shaped storage element. Furthermore, for a bulk material discharge a the bulk material slide the longitudinal direction the channel after shifting drive provided such that the Schüttgutschieber dammed up bulk material at least one of the openings from the storage channel thrown off.

The newly designed storage element, the newly designed Schüttgutschieber and its drive enable a completely new and simplifying operation. So are the only relatively short reversing working thrusts of the bulk material discharge finger according to the state of the art of the order of magnitude 30 cm in length replaced by comparatively long-stroke, in particular extremely long-stroke movements. Also omitted the great lengths the Austragsfingers of the prior art and the associated Risks of thermal stress and the like, because the inventive Discharge gate valves have a length of maximum of the inner width of the storage channel.

It is now possible in various ways to design the discharge device according to the invention in detail:
If the gutter-shaped baffle element is arranged in a bulk material discharge channel which extends over the length of more than one moving bed reactor module, it becomes possible to progressively move the at least one bulk material slide along this storage channel across the width of a plurality of moving bed reactor modules and to reverse only when the bulk material shifter has arrived at the other end of a discharge channel. In this way, a Schüttgutschieber consecutively carry a variety of dammed bulk material quantities on the adjacent sliding in slide movement direction bottom hole of the storage channel, because the slide hits after exceeding such a bottom hole on the next storage area and clears the bulk material there to the next Bo denloch, where it exits - and so on. As far as the preceding or following of "bottom hole" or "bottom opening" or "opening" is mentioned, this means in the context of the invention, any type of opening of the wall of the channel-shaped storage element through which the pushed along the channel bulk material can escape from this without being dropped over one of the lateral gutter edges in an uncontrolled amount.

If in a gutter-shaped storage element several Schüttgutschieber can be moved in a row, several can Bulk solids discharge steps in a single stroke be effected. For this purpose, it is expedient to Schüttgutschieber in the same manner as the discharge openings to space. In this way, the same discharge opening run over by two or more Schüttgutschiebern in succession. And every time you drive over, there is a dammed-up portion of bulk material from its storage area over the opening discharged. As a result, it is not only possible, the Schüttgutaustragsmenge to adapt to the needs of the fluid treatment plant per working stroke, by placing more or less shakers per gutter in a row be used. It is also possible in this way a particularly flat-building Schüttgutaustragsvorrichtung to realize in which the distance between each mouth opening a bulk material discharge pipe and the associated storage area on the gutter-shaped storage element is particularly low. Thus, the respectively jammed bulk quantity becomes special small. All dimensions of the bulk material discharge device can be reduced accordingly. Nevertheless, each working stroke a sufficiently large bulk material from each bulk material discharge pipe are discharged because the discharged bulk quantity of the number of consecutive arranged bulk material shifter multiplied accordingly. In particular, it is possible to use several bulk material pushers to summarize a gutter in a bulk material pusher cart. Such a car can be moved very safe and there is no danger in the trough-shaped To tilt the baffle element.

If the Schüttgutschieber several parallel trough-shaped Damping elements are mechanically combined, so that they are common can be moved, the number of this decreases necessary drives accordingly. In this way it is possible all rows of bulk material discharge pipes of a Migratory reactor module with a single row of sliders in one operation to the bulk material subset to subject. This is possible even if in each groove-shaped Stowage element arranged several Schüttgutschieber one behind the other are. Also in this way a Schüttgutschieberwagen is realized.

It is possible but not mandatory, in one Row of juxtaposed Schüttgutschieber as to execute a continuous element. Rather, it will preferably, only a few, preferably two, bulk material slides in side by side running channel-shaped storage elements to summarize and execute as an element. This can be attached in particular swinging.

If the gutter-shaped dam elements as a construction component one of the bulk material exhaust pipes penetrated intermediate floor Connected to this will be additional elements to stiffen such a false floor, as in the past were required, avoided while saving weight.

The Cross-sectional shape of the channel-shaped storage elements is in principle freely selectable. Particularly advantageous are standardized U-beams proved, as they are used in steel construction. such Standard profiles have a particularly high uniformity of the inner cross section and they are particularly torsionally. In this way, a jamming of the bulk material shifter or similar irregularities especially safely counteracts. The channel-shaped storage elements serve the safe and near-wall guidance of the bulk material slide.

If the Schüttgutschieber on the gutter walls on the inside abut the backlash low play, is avoided by that Bulk material particles between the contour edge of the bulk material pusher and the inner surface of the trough-shaped Clamp the baffle element and thus be destroyed. To one Such concerns without the risk of jamming due to z. B. to reduce thermal expansion, the actual bulk material shifter so independent of his drive that he is indeed in Moving direction is moved, but independently of the Gravity following at the bottom of the channel-shaped storage element invests. A corresponding holder accordingly has vertical guides, like a slit or at least a long hole.

Around To further improve the protection of bulk materials, this can be the Trough-shaped damming element touching edge of the Bulk pusher made of a different material than the rest Slider exist, z. B. designed brush-shaped be.

Especially gentle on the bulk goods is the operation of the or bulk material slide then, if its movement speed is as low as possible is, in particular up to 2.0 m / min., Preferably between 0.5 and 1.5 m / min.

Summarized is a reduction of the weight, the height, the bulk material particle destruction and / or the amount achieved the necessary drive devices.

The the aforementioned and the claimed and in the embodiments described to be used according to the invention Components are subject in size, shape design, Material selection and technical conception no special exceptions, so that the selection criteria known in the field of application unrestricted Application can be found.

Further Details, features and advantages of the subject matter of the invention emerge from the subclaims and from the following description the accompanying drawing, in the - example - a preferred embodiment of the invention Arrangement of a fluid treatment plant with countercurrently operated bulk beds is shown.

BRIEF DESCRIPTION

In show the drawing:

2 from a single moving bed reactor module of a fluid treatment plant a section of the distributor plate with discharge in a perspective view;

3 from the same fluid treatment plant, a first embodiment of a bulk material discharge device in omitting the inflow base and the bulk material removal trolley;

4 from the discharge device 3 a schematic vertical section along the line IV-IV according to 3 ;

5 an alternative embodiment of the bulk material according to 2 and 3 . 4 in perspective view;

6 from the bulk material discharge device 5 an enlarged detail view when leaving the false floor;

7 for a fluid treatment plant 2 a further alternative embodiment of the bulk material discharge device in a perspective view, omitting the channel-shaped storage elements as well

8th , from the bulk material discharge device 7 a synopsis of a Schüttgutschieberwagens with a channel-shaped storage element.

DETAILED DESCRIPTION THE EMBODIMENTS

According to the embodiment according to 2 is in each of preferably a plurality of in-line moving bed reactor modules arranged in series 3 an inflow and bulk material discharge floor 8th provided, inter alia, from the EP 0 257 653 B1 is known. The Schüttgutaustrittsrinnen downwardly adjoining Schüttgutabzugsrohre 13 are telescopically constructed and sit with a rosette on an intermediate floor 8B grid-like. You can do the perforations 8C of the false floor 8B enforce and end at a specified distance below ( 8th ). The intermediate floor 8th is from a bulk material discharge device 15 worn designed substructure. Below the bulk material discharge device 15 can be a bulk material delivery car 16 during its journey through a bulk material discharge channel, which connects several moving-bed reactor modules in a row in the lower area, are moved to the bulk material receiving.

In the 3 and 4 Schüttgutaustragseinrichtung shown in detail 15 may consist of profiles extending across the reactor width 100 consist of C-shaped or similar profile cross-section. The profile top is perforated in grid-like intervals so that the mouths of Schüttgutabzugsrohre 13 have about the same cross-section or fit through it. This upper profile leg 100A serves as a support for the intermediate floor 8B , At a lateral longitudinal edge of the upper profile leg 100A closes, preferably closed, lateral substantially vertical profile leg 100B at. At its lower edge in turn closes a horizontal lower profile leg 100C at. This consists of regularly scheduled bulk cargo storage areas 110 and between these arranged openings (bottom openings) 120 , The storage areas 110 are located substantially centrally below the respective associated bulk material exhaust pipe 13 of the bulk material removal floor located above 8th , At the lower profile leg 100C joins the lateral profile leg 100B opposite edge of a side wall 100D with approximately vertical orientation, with a side wall 100E Aligns, which also in a vertical orientation to the lateral profile leg 100B opposite edge of the upper profile leg 100A followed. In this way creates a cross-sectionally approximately C-shaped box profile, in which between the free edges of the aligned upper and lower side wall 100D and 100E opposite guide rails for a Schüttgutschieberwagen 200 form. The lateral profile leg 100B , the lower profile leg 100C and the lower sidewall 100D form a trough-shaped Damping element with between the storage areas 110 located discharge openings 120 , In the embodiment shown here is a plurality of rows of Schüttgutabzugsrohren 13 arranged parallel to each other. Correspondingly many profiles 100 are provided at appropriate intervals.

The in 4 illustrated Schüttgutschieberwagen 200 extends at right angles to the profiles 100 , A traverse 210 carries on upright arms 210A between the side distances of adjacent profiles 100 ever reach through a chassis 220 , its rolling or sliding guide elements 220A which are designed as rail wheels in the illustrated and insofar preferred embodiment, between the upper edge of the lower side wall 100D and the lower edge of the upper side wall 100E run on rails, so that a stable guidance is given. To the chassis 220 closes a Schüttgutschieber 230 on, the stroking the cross section of the channel-shaped storage element on the length of the profile 100 passes through when the bulk material pusher carriage 200 in the longitudinal direction T of the profiles 100 is moved by a common drive. The only bulk material pusher per channel thus passes over storage areas alternately 110 and discharge openings 120 , Because of the preferably uniform and comparatively slow driving speed of the bulk material pusher carriage 200 of up to 2.0 m / min. and less, the bulk material is extremely well protected.

The embodiment according to 5 and 6 differs from the previous one first in that the profiles forming the channel-shaped storage areas 100 arranged in pairs with a lateral distance from each other and are designed substantially U-shaped with a slight asymmetry. The outer, slightly longer U-leg is at its upper edge with an upper profile leg 100A for laying on and carrying and if necessary attaching the false floor 8B Mistake. The bulk material pushers 230 are connected in pairs and in the area of the interspace of each profile pair by a holder 230A slightly pendulum suspended, even with slight distortions of the profiles 100 trouble-free to remain traversable by the bulk material groove formed by the profile. Another special feature of this embodiment is that several, in the exemplary embodiment four, Schüttgutschieberpaare 230 at a distance of adjacent bulk material exhaust pipes 13 are arranged one behind the other, so that in a single passage through the bulk material slide through the channel-shaped storage elements 100 bulk material is cleared and discharged four times in succession from each storage area. In the illustrated embodiment, in turn, the Schüttgutschieber 230 all adjacent trough-shaped storage elements 100 to a bulk material slide car 200 connected with each other.

Furthermore, this embodiment can be removed that the trough-shaped walls of the storage elements 100 grazing touching edges of the slider 230 are constructed in a special way, in the embodiment brush-shaped (edge strips 230B ). Of the 5 Incidentally, this is also a bulk goods delivery car 16 removable, which with the bulk material slide carriage 200 may be drivingly connected, so that both cars together drive through the discharge channel with a single drive.

Out 6 Incidentally, by way of example, it can be seen how a bulk material cone 110A between the mouth of a bulk material discharge pipe and a storage area 110 formed.

The embodiment according to 7 and 8th differs from the previous two in that for each channel-shaped storage element 110 from two mutually opening U-profiles a specially guided above and below Schüttgutschieberwagen 200 is provided, in the illustrated and so far preferred embodiment one behind the other at a distance from the bulk material exhaust pipes 13 four bulk material pushers 230 has, whose holder 230A the bulk material pushers 230 in slot-shaped recordings, so that they rest gently on the channel floor due to their weight. If the margins 230B the bulk material pusher 230 again from another material, eg. B. brush-shaped, are constructed, the Schüttgutschieber 230 also rigid at the front and rear of the holder 230A (not shown) and thus the bulk material during forward and reverse travel of the car 200 even better. The adjacent bulk material pusher carriages 200 are moved by a common drive, with a traverse 210 again with vertical arms 210A are connected laterally centrally to the respective Schüttgutschieberwagen 200 attack. The so-designed Schüttgutschieberwagen 200 can be mounted with a certain play to each other, so that they also in deformations of the channel-shaped storage elements 100 the slides can be moved without hooking. In 8th are of a gutter-shaped storage element 100 in the right part of the image, the bulk material removal tubes omitted, while in the left part of the image, an intermediate floor is also not provided is. A side profile leg 100B is partially in the form of fasteners 100F realized. The storage function alone takes over the lower U-profile iron.

Instead of a bulk material delivery car 16 The bulk material discharge channel, which has several moving bed reactor modules, can accommodate 3 a row connects together, funnel-shaped and be equipped with a longitudinal conveyor, such as a conveyor belt, a vibrating trough or the like for bulk material removal to an end face of the system out.

3

Moving bed reactor modules

8th

Airflow and bulk material discharge floor

8B

false floor

8C

perforations

13

Bulk material discharge pipes

15

Schüttgutaustragseinrichtung

16

Schüttgutaustragswagen

100

profile

100A

upper profile leg

100B

lateral profile leg

100C

lower profile leg

100D

lower Side wall

100E

upper Side wall

100F

fasteners

110

storage areas

110A

bulk cone

120

openings

200

Bulk material slider wagon

210

traverse

210A

poor

230

bulk slide

230A

holder

230

edge strips

T

driving direction

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• WO 2001/017663 [0002]
• EP 0257653 B1 [0002, 0002, 0028]
• EP 0357653 B1 [0005]

Claims (10)

Fluid treatment plant, consisting of one or more juxtaposed, parallel operated bulk material beds ( 3 ), in which the fluid to be treated flows through a bulk material bed substantially from bottom to top and the bulk material traverses the bulk material bed in countercurrent to the fluid substantially from top to bottom, by at the lower end of the bed of bulk material ( 3 ) Bulk material quantities distributed by line or grid-like arranged Schüttgutabzugsrohre ( 13 ) and at the upper end of the bulk material bed bulk material quantities are fed to the bulk material, characterized in that a bulk material discharge device ( 15 ) at least one storage area ( 110 ), trough-shaped storage element ( 100 ), which below below in a row juxtaposed mouth openings of Schüttgutabzugsrohre ( 13 ) is arranged such that the baffle element from the bulk material discharge pipes ( 13 ) accumulating bulk material between the provided at the distance of the pipe mouth openings storage areas ( 110 ) Openings ( 120 ) for the passage of accumulated bulk material from the storage element ( 100 ), and the at least one, the channel shape adapted movable bulk material shifter ( 230 ), and that for a Schüttgutteilmengenaustrag a the bulk material shifter ( 230 ), in particular via the channel bottom, whose direction of longitudinal extension is provided after a shifting drive such that the bulk material slider ( 230 ) accumulated bulk material through at least one of the openings ( 120 ) of the storage element ( 100 ). Fluid treatment plant according to claim 1, characterized in that the channel-shaped storage element ( 100 ) is arranged in a bulk material discharge channel which extends over the length of more than one moving bed reactor module ( 3 ). Fluid treatment plant according to claim 1 or 2, characterized in that in a channel-shaped storage element ( 100 ) several bulk material pushers ( 230 ) are in a row. Fluid treatment plant according to one of claims 1 to 3, characterized in that a plurality of bulk material slides ( 230 ) a gutter ( 100 ) in a bulk material pusher carriage ( 200 ) are summarized. Fluid treatment plant according to one of claims 1 to 4, characterized in that bulk material shifter ( 230 ) of a plurality of parallel juxtaposed trough-shaped storage elements ( 100 ) are mechanically combined. Fluid treatment plant according to claim 5, characterized in that a few, preferably two, bulk material pushers ( 230 ) in adjacent gutter-shaped storage elements ( 100 ) are summarized. Fluid treatment plant according to one of claims 1 to 6, characterized in that the channel-shaped storage elements ( 100 ) as a structural component of one of the bulk material discharge pipes ( 13 ) penetrated or supporting this intermediate floor supported or connected to this. Fluid treatment plant according to one of claims 1 to 7, characterized in that standardized U-carrier as a channel-shaped storage element ( 100 ) be used. Fluid treatment plant according to one of claims 1 to 8, characterized in that the bulk material shifter ( 230 ) at the gutter walls on the inside of at least one baffle element ( 100 ) are arranged with little play or rest there. Fluid treatment plant according to one of claims 1 to 9, characterized in that the at least one channel-shaped storage element ( 100 ) touching edge ( 230B ) of the bulk material slide ( 230 ) consists of a different material than the rest of slide, z. B. is designed brush-shaped.