Drainage element with insert

专利摘要:
The invention relates to a drainage element (1) made of plastic and a method for its production, which has at least one opening (3) into which an insert (2) is inserted, wherein the insert (2) with respect to the dewatering element (1) harder Surface has, wherein the insert (2) on its outer circumference at least one locking projection (2.8) having a blocking surface (2.5), the drainage element (1) in the opening (3) at least one locking surface (1.5), which by a recess in the outer surface of the opening (3) is formed, the insert (2) in the opening (3) can be pressed, wherein the locking surface (2.5) of the locking projection (2.8) of the insert (2) in the inserted state with the latching surface (1.5) in Intervention is such that the insert (2) is positively secured in the opening (3) of the dewatering element (1) against being pulled out.
公开号:AT515202A4
申请号:T50282/2014
申请日:2014-04-15
公开日:2015-07-15
发明作者:Rüdiger Keinberger；Peter Eckerstorfer；Markus Ecker；Roland Eckerstorfer
申请人:Röchling Leripa Papertech Gmbh & Co Kg；
IPC主号:

专利说明:

description
The invention relates to a drainage element made of plastic, which has inserts, in particular ceramic inserts.
A dewatering element is used in paper machines and paperboard, pulp and tissue machines for dewatering the fiber suspension. The objective insert or Keramikinsertfindet particular in drainage elements of suction boxes (vacuum cups, vacuum cleaners) use. The Entwäss¬rungselement forms the upper deck surface (the lid, the cover) of the suction box and is referred to in English as "Suction boxcover". designated. The drainage element has for attachment to its lower side usually two or more grooves for receiving T-rails of the suction box.
The suction box is part of the wire section of the paper machine. In the wire section, the fiber suspension is applied to the upper side of a continuous endless screen of plastic or metal. This sieve slides with its underside over the drainage element. The dewatering element has openings through which liquid is withdrawn through the screen by the application of negative pressure to the fiber suspension.
Since the screen is pressed against the dewatering element by the squeeze, the dewatering element must be made extremely smooth and wear resistant to minimize wear on the wire and dewatering element itself.
Therefore, very hard materials are best suited for drainage elements. According to the state of the art, it is known to produce drainage elements wholly made of ceramic or entirely of plastic, such as glass fiber reinforced plastic (GRP), or, for example, of steel with a ceramic coating. It is also known to mount ceramic strips or segments of ceramic on a support, especially on elongated plastic or steel T-rails.
However, the perforated lining for drainage elements has proven to be particularly advantageous, in which the drainage element itself has many openings, since the best possible Entwäs¬serung is achieved because the hole lining in comparison to other designs, the open area, can abut the vacuum highest is and the hole covering has a more uniform and gentle-deres drainage.
The hole design can be provided through openings in a completely ceramic or entirely plastic surface of the dewatering element.
The ceramic version has the advantage that the wear is minimal due to the high hardness and the extremely smooth surface. The ceramic construction has the disadvantage that large elements made of ceramic are difficult to produce and expensive, and that if the element is damaged, the entire element must be replaced.
The plastic version has the advantage that it is cheaper and easier to manufacture, with the disadvantage that it has a lower hardness and thus more wear than the ceramic version.
Therefore, drainage elements have been developed which have surface areas of different materials, in particular plastic and ceramic, in order to combine their advantages.
US 3404066 A shows a drainage element which consists of a hardwood panel and which covers the suction box to the whole. The plate is provided with bores which serve for the passage of liquid into the suction box. In order to minimize the wear on the hole edges of the hardwood board, it is proposed to insert hollow cylindrical ceramic inserts (or in general inserts with a high hardness, or inserts coated with hard material) into these holes. For this purpose, the bores have two cylindrical regions, the cylindrical region, which faces the sieve, having the same diameter as the hollow cylinder of the ceramic insert, and the lower cylindrical region having the same diameter as the inner diameter of the ceramic insert. The ceramic insert is secured in the bore with an epoxy adhesive.
CA 2273674 A1 shows a drainage element which consists of a plate made of plastic, preferably polyethylene. The plate has openings, in particular elongated openings. These openings are provided at their upper periphery with an endless band of harder material, in particular ceramic, so that this material forms the upper edge of the opening, this edge being preferably rounded. The endless
The strip itself preferably has a square cross section, with a circular cross section of the openings resulting in a ceramic sleeve as in the previously cited US Pat. No. 3,440,406.
The endless band can also have a round, oval, or trapezoidal cross-section.
DE 1761174 A1 shows a drainage element made of plastic, which may have different ceramic inserts. There are inserts, which enclose an opening in the dewatering element and elongated inserts, which are embedded in the material of the plastic used. The inserts which enclose the openings are formed substantially in accordance with the above-mentioned documents. The elongated inserts are prismatically designed with a trapezoidal base surface, with the smaller of the two parallel side surfaces of the trapezoidal prism facing upward, so that the inserts are positively enclosed by the plastic. To produce the Entwäss¬rungselements with openings is proposed to place the Öffnun¬gen enclosing inserts on the bottom of a cast or sintered mold and enclose them with plastic. In order to make the inserts height-adjustable, it is proposed to provide hollow-cylindrical inserts with a thread and to hold inserts which deviate from this shape displaceably in the openings.
A disadvantage of the prior art is that the inserts either pure by gravity, or the suction effect, are held by gluing or screwing in the openings. In the case of the method of gravity, it is disadvantageous that the inserts can fall out of the openings, especially during transport or when dismantling the dewatering element. A disadvantage of gluing is that the inserts can not be completely removed from the dewatering element again or only with great effort. A disadvantage is that the inserts, or the Entwässerungsele¬ment are consuming to edit, since additional openings, receptacles and fasteners must be present for the screws. Since the screws are usually accessible only from the bottom of the dewatering element, disassembly of the insert is complicated.
When encasing the inserts with plastic in a mold, it is possible to embed the inserts in a form-fitting manner, but this and the production method have not insignificant disadvantages. Due to the positive embedding by molding with plastic, the inserts can not be exchanged if they are damaged or worn out. When the inserts are provided with a thread, the interchangeability is given, but the insert has a complex shape and vibrations and frictional forces of the wire can lead to an undesired height adjustment.
The production method, consisting of placing the inserts in a cast or sintered mold and subsequently enclosing them with plastic, has the significant disadvantage that due to the foreign bodies in the mold, uniform hardening of the plastic becomes difficult, which leads to stresses in the plastic element ment and / or the inserts, which has a negative effect on the service life of the dewatering element or of the insert. In addition, elaborate casting molds are necessary, since holding elements for fi xing the inserts in the casting mold are required.
The object underlying the invention is to achieve a positive connection of the inserts in the plastic of the Entwäs¬ serungselements, while avoiding the above-mentioned disadvantages. For solving the problem, it is proposed to provide the inserts with at least one latching element which has the effect of a barb or similar barb, the latching element, upon insertion of the insert, engaging a latching surface in the opening of the dewatering element.
The inventive method for producing a stress-free drainage element with positively secured Kera-mikinserts is that in a first step, a plate made of plastic, preferably ultra-high molecular weight Polyethyl¬en sintered.
This plate is subsequently provided with openings by a machining process, in particular milling and / or drilling. The openings have, at a region remote from the surface of the plate, a partial section with a larger cross-section or a larger diameter. The ceramic inserts produced by known methods (for example sintering with possibly subsequent grinding) have an enlarged cross-section or diameter in a region spaced from the top surfaces of the insert. The enlarged cross-section or diameter of the insert is slightly larger than the cross-section or diameter of the portion of the opening, which connects to the portion of the opening with a larger cross-section or diameter in the direction of the surface of the plate.
One insert is pushed or pressed into each one opening of the dewatering element until the enlarged area of the insert engages with the enlarged area of the opening. The insert is enclosed on all sides by the plastic of the dewatering element in that partial area which is located in the opening on its lateral surface or its lateral surface.
An advantage of the subject invention is that - the drainage element consists of a tension-free manufactured-plastic plate, - the inserts are positively inserted into the openings of Entwässe¬rungselements - the inserts are protected against falling out and vertical displacement - and yet a rapid replacement of individual Inserts is possible.
Preferably, the insert has a ceramic coating or a ceramic insert on the surface with which it comes into contact with the screen, the rest of the insert being made of steel, for example.
Particularly preferably, the insert consists entirely of technical ceramics.
Preferably, the openings extend through the entire thickness of the dewatering element.
Preferably, the openings extend at an angle of 90 ° to the surface through the dewatering element.
Preferably, the insert itself has an opening which extends over the entire length of the insert.
Preferably, the length of the insert is less than the thickness of the dewatering element.
Preferably, the openings and the inserts have only circular cross sections.
The dewatering element is preferably produced by the process according to the invention.
However, an insert according to the invention can also be used according to the invention in a drainage element produced in another way, as long as it has at least one opening according to the invention.
The dewatering element is preferably made of a wear-resistant plastic such as a glass fiber reinforced plastic, or polyethylene.
The invention is illustrated by means of drawings:
FIG. 1: shows a particularly preferred drainage element according to the invention in a lateral sectional view with one inserted and an insert still to be inserted. FIG.
2: FIGS. 2a, 2b, 2c and 2d show exemplary drainage elements according to the invention from above.
3: FIGS. 3a, 3b, 3c and 3d each show an insert according to the invention in a lateral sectional view and from above.
4 shows a drainage element with an easily removable insert in a lateral sectional view.
Fig. 5: Shows a drainage element with insert in lateral
Sectional view, wherein the dewatering element has a trich¬terförmigen press-fit.
Fig. 6: Figs. 6a and 6b show drainage elements in partial side sectional view with inserts having no opening.
7 shows a drainage element with an insert, which has an arbitrarily shaped cover surface, in a lateral sectional view.
Fig. 8: Shows a drainage element with an insert whose
Sliding surface protrudes over the top surface of the dewatering element, in side sectional view.
In Fig. 1, two openings 3 of a Entwäs¬serungselements invention 1 are shown. The upper surface of the Entwässerungs¬elements 1, over which the sieve slides, is referred to in a row as the cover surface 1.7, the lower surface, which faces the interior of the suction box, as a base 1.8.
In this example, the opening 3 has a circular cross section in each area. In addition, two inserts 2 are shown, one of which is inserted into an opening 3.
The opening 3 has at least two regions with different diameter. In the present example, the opening 3 has four areas of different diameter.
Subsequent to the top surface 1.7, the opening 3 has a cylindrical region, which serves as a fit for the insert 2, this region being designated in succession as a fitting opening 3.1. The fit between insert 2 and cover element 1 is selected such that a gap-free transition from the cover surface 1.7 to the sliding surface 2.7 of the insert 2 is achieved.
In the next section of the opening 3, following the fitting opening 3.1, an area with a larger diameter than that of the fitting opening 3.1 follows. This area serves to receive the latching element of the insert 2 and is referred to in sequence as a receiving opening 3.2. Due to the abrupt increase in the diameter of the fitting opening 3.1 to the receiving opening 3.2, the cover element 1 has an annular surface which is aligned parallel to the cover surface 1.7. This annular surface is referred to as a follower surface 1.5. The receiving opening 3.2 forms a circumferential recess in the Mantelflä¬che the opening 3. This recess is spaced from the top surface 1.7b.
The receiving opening 3.2 is at its lower end in a ke¬gelstupfförmigen area 3.3 of the opening 3 via. This truncated cone-shaped region 3.3 is due to manufacturing technology undergoes when using a frustoconical milling cutter. If a cylindrical cutter is used, this region of the opening 3 can also be cylindrically shaped.
The frusto-conical region 3.3 has at its lower end a sudden reduction in the diameter, whereby in the dewatering element an annular bearing surface 1.6 is formed, on which the insert 2 lies with its lower support surface 2.6. The insert 2 is with its surfaces 2.5, 2.6 between see the surfaces 1.5, 1.6 of the dewatering element so fitted that no vertical movement of the insert 2 is possible.
At the lower end of the frusto-conical area 3.3, the passage opening 3.4 is included, which extends to the base area 1.8 of the drainage element 1.
The insert 2 has approximately a hollow cylindrical shape, with a substantially constant inner diameter of the insert opening 2.4. The insert 2 preferably has a rounding or a phase at the upper edge of the insert opening 2.4. The Deckflä¬che of the hollow cylinder of the insert 2, over which the sieve Guidelines, is referred to as a sliding surface 2.7, the Grundflä¬che of the hollow cylinder, which rests on the support surface 1.6 as a support surface 2.6. The support surface 2.6 has a smaller outer diameter than the opening 3.1.
To the support surface 2.6 includes a Einpressfase, or Ein¬presskegel 2.3, in which the outer diameter of the Inserts2 is continuously larger until the diameter of the diameter of the fitting opening 3.1 exceeds something. At the Einpresske¬gel 2.3 includes a short range 2.2 with constant Durchmes¬ser, which finally jumped to the fitting section 2.1 and thus forms an annular blocking surface 2.5, which is aligned parallel to the sliding surface 2.7 and parallel to the support surface 2.6.
When inserting the insert 2, its press-in cone 2.3 can first be easily inserted into the opening 3.1 until its diameter exceeds that of the opening 3.1. The force required for pressing in then increases continuously until the short region 2.2 reaches the fitting opening 3.1 and is pushed down along it with a constant force. As soon as the short section 2.2 has passed the fitting opening 3.1, the short section 2.2 passes into the receiving opening 3.2, which has the same or somewhat larger diameter as the short section 2.2. In this position, the insert is vertical through the surfaces 2.5, 2.6 and horizontal fitted into the opening 3 through the fitting section 2.1, whereby a vertical or horizontal movement of the insert 2 is prevented. The blocking surface 2.5 and the part of the short section 2.2 projecting beyond the fitting section 2.1 and of the press-in cone 2.3 form the locking projection 2.8.
The locking projection 2.8 can, as described above, extend over the entire circumference of the insert 2, or only over one or more partial areas of the circumference of the insert 2. The same applies to the receiving opening 3.2.
The inner diameter of the insert 2 is for example 14 mm, the outer diameter of about 20 mm. The thickness D of the Entwässerungs¬elements 1 is for example 40 mm. The length L of the insert is about 7 mm, for example. The width of the annular blocking surface 2.5 is approximately 0.5 mm. The width of the annular Sperrfläche 2.5 is dependent on the elasticity or the hardness of the plastic of the drainage element 1. The harder the plastic is the smaller the width of the Sperrflä¬che 2.5 can be dimensioned.
The dewatering element 1 can be produced in the long-term sintering process as up to 12 m long covering or strip without weld, with tension-free structure. The width of a dewatering element 1 with seven parallel rows of openings 3 is for example 220 mm. The width of the Entwässer¬rungselements 1 is the extension of the drainage element 1in the direction of the wire. The width of a Entwässerungsele¬ments 1 can also be greater (or smaller) be selected, for example, the width is over 500 mm, the support is performed by the substructure in a grid of about 250 mm. This support consists of an attachment of the drainage element 1, which is to be designed so that the Ent'Wässerungselement 1 can expand freely (T-rails, Win¬kelleisten, dovetail guides, screws in slots).
According to the invention it is also conceivable that the Entwässerungsele¬ment 1 is not made of a continuous plate, but more of a number of inventively manufactured Plattenbzw. There are drainage elements 1, which are ver¬ welded together, or successively in the longitudinal or Quer¬richtung the direction of the wire to be mounted following each other. For example, an inventive Entwäs¬ serungselement 1 covers only a portion of the width of the screen ab.Ein drainage element 1 according to the invention itself may have a be¬liebige form, the shape of a rectangular plate will be advantageous in most cases.
The resistance which the insert 2 applies against withdrawal from the dewatering element 1 can be adjusted via the width of the annular blocking surface 2.5 and / or its inclination to the cover surface 1.7 or the sliding surface 2.7. In addition, a change in the inclination of the blocking surface 2.5 has no influence on the necessary pressing force for inserting the insert 2.
If the blocking surface 2.5, starting from its common edge with the pass cylinder 2.1, slopes towards the top surface 1.7, the blocking projection 2.8 forms a barb. This verhaktsich when trying to pull out the insert 2 in the plastic of the dewatering element 1. A non-destructive removal of the In¬serts 2 is then not possible.
If the blocking surface 2.5, starting from its common edge with the pass cylinder 2.1, slopes away from the top surface 1.7, the blocking surface 2.5 forms a frustoconical blocking projection 2.8. If, for example, this truncated cone has the same inclination as the press-in cone 2.3, then the same force is necessary for the extraction as for the injection of the insulator 2. Such an insert 2 can be removed at any time without destruction and by a new insert 2, or be used in another drainage element 1.
By means of the invention, it is also possible to subsequently provide inserts, which are already in use, using full plastic dewatering elements, by drilling or milling the passport opening 3.1 and milling the receiving openings 3.2.
In FIGS. 2a, 2b, 2c and 2d, drainage elements 1 according to the invention are shown from above, the openings 3 of which are provided with inserts 2. The dewatering element 1 in this case has at least one row of openings 3. Preferably, however, it has a plurality of rows of openings 3, with the openings 3 of the successive rows being offset from one another as shown in Fig. 2a. In Fig. 2a, the rows are at an angle of 90 ° to the running direction of the wire, indicated by the arrow. As shown in Fig. 2b, the rows may also be oblique to the direction of the wire. The openings 3 and inserts 2 shown in FIGS. 2a and 2b have circular cross-sections. The inserts 2 can be designed according to one of the exemplary embodiments of FIGS. 3 a, 3 b and 3 c. The insert 2 of FIG. 3a has a locking projection 2.8 extending over the entire circumference, resulting in an annular blocking surface 2.5. The inserts 2 of Figs. 3b and 3c have four locking projections 2.5 distributed at regular intervals over the circumference of the insert 2. The inserts 2 of FIGS. 3a and 3b have a press-in cone 2.3.
The insert 2 of Fig. 3c has a substantially constant annular cross-section, from which the locking projections protrude 2.5. The locking projections 2.5 have at their lower end a radially tapered region, which performs the function of Einpresskegels 2.3. Of course, it would also be conceivable to carry out a locking projection 2.8 running over the entire circumference in this manner, that is to say with a press-in cone 2.3 spaced apart from the support surface 2.6.
The openings 3 can also be distributed in other patterns over the Entwäs¬ serungselement 1, as shown in Fig. 2c ge. In this case, differently shaped openings 3 and inserts 2 can be used. As shown in Fig. 2c, the opening 3 can be designed as a slot, wherein the insert 2 has a longitudinally oval shape. The embodiment of a longitudinal oval insect 2 is shown in FIG. 3d. Especially with the circular shape, or. Ring shape deviating cross sections of the insert 2, it is advantageous to arrange a plurality of locking projections 2.8 distributed over the circumference of the In¬serts 2. In this case, it is sufficient to make the cross-section of the opening 3 larger only in those regions in which the locking projections 2.8 come to rest in the inserted state.
As shown in Fig. 2d, the inserts 2 may also have an arbitrarily shaped sliding surface 2.7. The insert 2 at the left edge of the drainage element 1 has a triangular shape and has no insert opening 2.4. Such inserts 2 without insert opening 2.4 are seen in the running direction of the wire, preferably along the front and / or rear edge of the dewatering element 1, since there is greater wear on the edges than in the area between the edges. By wear rounds edges gradually. By placing the inserts 2 slightly spaced from the edge of the dewatering element 1, the degree of rounding is limited by the distance of the insert 2 from the edge.
The inserts 2 without insertion opening 2.4 can be designed according to FIGS. 6a and 6b. In Fig. 6a, the insert 2 is provided at its lower end with a, a Einpresskegel 2.3 having, cylindrical fitting portion 2.1. This under part of the insert 2 may be like the insert 2 of Figures 1, 3a, 3b, 3c, 4 and 5, with no insert opening 2.4 present. The plate-shaped upper section adjoining this lower section may have any cross-sectional shape, for example triangular as shown in FIG. 2d. This upper section can preferably be inserted into a correspondingly identical insertion section 3.5 of the opening 3, or also protrude over the cover surface 1.7 analogously to FIG.
FIG. 6b shows a further variant of the insert 2 without insert opening 2.4. In this case, the plate-shaped section itself is the fitting section 2.1, which is inserted into the correspondingly shaped fitting opening 3.1. From the periphery of the plat¬tenförmigen section are one or more locking projections 2.5, which engage in corresponding recesses in the Mantelflä¬che the opening 3. As a modification, it is conceivable to provide the insert 2 of FIG. 6b with one or more randomly shaped opening openings 2.4 and to provide the drainage element 1 with a passage opening 3.4.
In addition to the inserts 2 without insert opening 2.4, inserts 2 are also shown in FIG. 2d, which have a cylindrical insert opening 2.4 and an arbitrarily shaped sliding surface 2.7.
The sliding surfaces 2.7 of all inserts 2 are executed in Fig. 2d with rounded corners, this is in connection with the machining of the openings 3, in which the radii are determined by the size of the milling cutter. The inserts 2 with approximately square sliding surfaces 2.7 can advantageously be shaped according to one of FIGS. 7 and 8. The inserts have a lower section, which can be designed like an insert 2 shown in FIGS. 1, 3 a, 3 b, 3 c, 4. However, a plate-shaped section, which can have any desired cross-section and forms the sliding surface 2.7 of the insert 2, still adjoins the fitting section 2.1 at the top.
As shown in FIG. 7, the opening 3 preferably has an insertion opening 3.5 from the fitting opening 3.1 to the cover surface 1.7, which serves to receive the plate-shaped section of the insert 2. The lower surface of the plate-shaped portion forms the support surface 2.6, which rests on the support surface 1.6 of the dewatering element 1. In contrast to the inserts 2 of FIG. 1, the support surface 2.6 is above the blocking surface 2.5.
As shown in FIG. 8, the insert 2 can also be used in such a way that the upper plate-shaped section projects beyond the cover surface 1.7. In this case, the top surface 1.7 is at the same time the contact surface 1.6. In a modification of the insert of Fig. 8, it would be conceivable not to make the upper section plate-shaped but as a spherical segment.
In Fig. 4, a preferred embodiment of the locking surface 1.5und the locking surface 2.5 is shown. The blocking surface 2.5 of the Ras¬telements 2.8 is inclined away starting from the fitting section 2.1 of the sliding surface 2.7 and is in the state used same coverage at the locking surface 1.5 at. With a suitable tool, which moves from above through the opening 2.4 and is attached to the support surface 2.6 protruding part of the support surface 2.6, the insert 2 can be pulled from the top of the opening 3. The pull-out resistance depends on the inclination of the blocking surface 2.5.
FIG. 5 shows an embodiment of the insert 2 and the opening 3, in which the insert 2 does not need to have a press-in cone 2.3, since the opening 3 has a funnel-shaped area, which favors the pressing in of the insert 2.
Features of the invention have been advantageously described in the description of the figures, these can be combined as desired within the scope of expert trade, and inserts 2 designed differently can also be present on a dewatering element 1.

权利要求:
Claims (19)
[1]
Claims 1. A drainage element (1) made of plastic, which has at least one opening (3) into which an insert (2) is inserted, whereby the insert (2) has a harder surface than the drainage element (1) gekenn¬zeichnet that the insert (2) on its outer circumference at least one Sperr¬ projection (2.8) having a blocking surface (2.5), the drainage element (1) in the opening (3) at least ei¬ne latching surface (1.5), which is formed by a recess in the lateral surface of the opening (3), the insert (2) in the opening (3) can be pressed, wherein the locking surface (2.5) of the locking projection (2.8) of the In¬serts (2) in the inserted state with the latching surface (1.5) is engaged, so that the insert (2) is positively secured against being pulled out in the opening (3) of the dewatering element (1).
[2]
2. dewatering element (1) according to claim 1, characterized gekenn¬ characterized in that the dewatering element (1) in the opening (3) has a bearing surface (1.6) on which the insert (2) in the inserted state with the support surface (2.6) abuts, so that the insert (2) is gesi¬chert against vertical movement.
[3]
3. Drainage element (1) according to any one of claims 1 and 2, characterized in that the opening (3) has a fitting opening (3.1) into which the insert (2) fitted in the inserted state with the fitting portion (2.1) and is secured against hori¬ zontal movement.
[4]
4. dewatering element (1) according to claim 3, characterized gekenn¬ characterized in that the fitting portion (2.1) of the insert (2) has a cylindrical shape.
[5]
5. dewatering element (1) according to one of claims 3 to 4, characterized in that the insert (2) subsequent to the fitting portion (2.1) in the direction of the sliding surface (2.7) ei¬nen area which opposite the fitting portion (2.1) a larger, arbitrarily shaped cross section auf¬weist.
[6]
6. dewatering element (1) according to claim 5, characterized gekenn¬zeichnet that the support surface (1.6) of the Entwässerungsele¬ments (1) is the top surface (1.7) of the dewatering element (1).
[7]
7. dewatering element (1) according to one of claims 1 to 5, characterized in that the sliding surface (2.7) of the Inse¬rts (2) and the top surface (1.7) of the dewatering element (1) lie in a plane.
[8]
8. dewatering element (1) according to one of claims 1 to 7, characterized in that the opening (3) from the Deckflä¬che (1.7) of the dewatering element (1) to the base surface (1.8) of the dewatering element (1).
[9]
9. dewatering element (1) according to claim 8, characterized gekenn¬ characterized in that the insert (2) has an insert opening (2.4), which extends, starting from the conduction surface (2.7) over the entire length L of the insert (2).
[10]
10. dewatering element (1) according to claim 9, characterized gekenn¬ characterized in that the Insertöf fung (2.4) and the opening (3) of the dewatering element (1) concentric with each other and at an angle of 90 ° to the top surface (1.7) of the Entwässerungs¬ elements (1).
[11]
11. Drainage element (1) according to one of claims 1 to 10, characterized in that the opening (3) of Entwässe¬rungselements (1) and the insert (2) have only circular or ringför¬mige cross-sections.
[12]
12. dewatering element (1) according to one of claims 1 to 11, characterized in that the at least one Sperrvor¬sprung (2.8) on its side facing away from the sliding surface (2.7) and the locking surface (2.5) side conical or. has a tapered portion.
[13]
13. Drainage element (1) according to one of claims 1 to 12, characterized in that the blocking surface (2.5) of the Inse¬rts (2) is inclined towards the sliding surface (2.7) or away from this.
[14]
14. Drainage element (1) according to one of claims 1 to 13, characterized in that the locking projection (2.8) extends over the entire circumference of the insert (2).
[15]
15. Drainage element (1) according to one of claims 1 to 13, characterized in that a plurality of locking projections (2.8) are arranged distributed over the circumference of the insert (2).
[16]
16, drainage element (1) according to one of claims 1 to 15, characterized in that the insert (2) on its side facing away from the sliding surface (2.7) side a frusto-conical portion which serves as Einpresskegel (2.3) has.
[17]
17, drainage element (1) according to one of claims 1 to 16, characterized in that the sliding surface (2.7) of the Inse¬rts is formed by ceramic, or the insert (2) consists entirely of ceramic.
[18]
18. dewatering element (1) according to one of claims 1 to 17, characterized in that it consists entirely of wear-resistant plastic, in particular ultra-high molecular weight polyethylene.
[19]
19. A method for producing a dewatering element (1) according to one of claims 1 to 18, characterized in that the dewatering element (1) in the form of a continuous plate made of plastic, in particular sintered from ultra high molecular weight polyethylene, the dewatering element ( 1) is then provided with machining processes with openings (3), inserts (2) with a harder, more wear-resistant Oberflä¬che, in particular ceramic inserts, are pressed into the openings (3).

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DE4039232C2|1995-01-19|Process for producing a gas purging plug and gas purging plug

---

AT519549B1|2018-08-15|Cover for a one-sided upwardly open hollow body

---

DE202007015255U1|2008-11-06|Saugheber

---

AT507866A1|2010-08-15|PISTON RING

---

DE2829200C2|1985-09-05|Self-supporting stairs

---

DE19504349C2|1999-02-25|Supporting element, especially for a double or cavity floor

---

DE102015108230A1|2015-12-31|Blade element for a refiner

---

DE102011001075B4|2012-11-08|Urn with core of paper material

---

DE102017002310B3|2018-02-15|Coffee capsule dispenser

---

DE202019101074U1|2020-05-26|Plant pot coasters

---

DE202015102894U1|2015-09-03|Height adjustable bearing

---

DE202015009345U1|2017-04-19|Pan of a hip joint prosthesis

---

EP2960027B1|2017-04-19|Undercutting tool for producing a blind hole

同族专利:

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公开号 | 公开日

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EP3132091A1|2017-02-22|

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US9834888B2|2017-12-05|

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AT515202B1|2015-07-15|

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WO2015157787A1|2015-10-22|

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US20170037571A1|2017-02-09|

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EP3132091B1|2017-11-15|

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CN106460333A|2017-02-22|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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CH537490A|1972-02-03|1973-05-31|Huyck Corp|Hydrofoil - with ceramic insert at leading end of discharge section to reduce wear|

---

US6254729B1|1999-03-22|2001-07-03|Voith Sulzer Paper Technology North America, Inc.|Pulper with extraction plate assembly having removable inserts and method of manufacturing same|

---

US3365359A|1964-12-10|1968-01-23|Proulx Jean|Suction box covers for paper making machines|

---

US3404066A|1965-02-17|1968-10-01|Union Carbide Corp|Suction box cover|

---

SE349341B|1967-04-17|1972-09-25|Leder & Riemen Patent|

---

DE8714492U1|1987-07-31|1987-12-10|Konus Kem Usnjarska Pred Ind|

---

CA2273674A1|1998-06-09|1999-12-09|Weavexx Corporation|Reduced wear suction box cover for dewatering device|

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DE202010002332U1|2010-02-12|2010-09-30|Wedi Gmbh|Substructure element for underlaying a shower floor element|AU2017100428A4|2016-05-04|2017-05-18|Warn Industries, Inc.|A composite fairlead with a wear plate|

法律状态:
2020-12-15| MM01| Lapse because of not paying annual fees|Effective date: 20200415 |

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2021-04-15| HC| Change of the firm name or firm address|Owner name: ROECHLING INDUSTRIAL OEPPING GMBH & CO. KG., AT Effective date: 20210311 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA50282/2014A|AT515202B1|2014-04-15|2014-04-15|Drainage element with insert|ATA50282/2014A| AT515202B1|2014-04-15|2014-04-15|Drainage element with insert|

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US15/303,215| US9834888B2|2014-04-15|2015-04-14|Drainage element comprising an insert|

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EP15744848.1A| EP3132091B1|2014-04-15|2015-04-14|Drainage element comprising an insert|

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CN201580019488.5A| CN106460333A|2014-04-15|2015-04-14|Drainage element comprising insert|

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PCT/AT2015/050094| WO2015157787A1|2014-04-15|2015-04-14|Drainage element comprising an insert|