NL2020834B1 - Sealing apron device - Google Patents
Sealing apron device Download PDFInfo
- Publication number
- NL2020834B1 NL2020834B1 NL2020834A NL2020834A NL2020834B1 NL 2020834 B1 NL2020834 B1 NL 2020834B1 NL 2020834 A NL2020834 A NL 2020834A NL 2020834 A NL2020834 A NL 2020834A NL 2020834 B1 NL2020834 B1 NL 2020834B1
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- Prior art keywords
- sealing
- mounting
- section
- sealing apron
- block
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G21/00—Supporting or protective framework or housings for endless load-carriers or traction elements of belt or chain conveyors
- B65G21/20—Means incorporated in, or attached to, framework or housings for guiding load-carriers, traction elements or loads supported on moving surfaces
- B65G21/2045—Mechanical means for guiding or retaining the load on the load-carrying surface
- B65G21/2063—Mechanical means for guiding or retaining the load on the load-carrying surface comprising elements not movable in the direction of load-transport
- B65G21/2072—Laterial guidance means
- B65G21/2081—Laterial guidance means for bulk material, e.g. skirts
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
Abstract
The invention relates to an assembly comprising a sealing apron device and a transport assembly, wherein the transport assembly comprises a conveyor and a wall arranged above said conveyor, wherein the sealing apron device comprises a sealing apron block for sealing gaps between the wall and. the conveyor in a sealing direction and. a holder for holding said sealing apron. block relative to said wall, wherein the sealing apron block is adjustable with respect to the holder in the sealing direction, wherein the holder comprises a bracket with mounting section for mounting the bracket relative to the wall and a retaining section for retaining the sealing apron block in the sealing direction, wherein the retaining section is solely supported relative to the wall by the mounting section, and wherein the mounting section is arranged to be rigidly mounted with respect to the wall.
Description
BACKGROUND
The invention relates to a sealing apron device for a conveyor device.
A sealing apron device is for example known from EP 0825137 Al. EP 0825137 Al discloses an installation for the formation of a sealing apron along a conveyor belt by using sealing apron blocks in the form of panels which can be moved individually with respect to the frame of the installation towards the conveyor belt, characterized in that that the panels comprise a series of parallel grooves which extend transversely to the direction in which the panels can be moved and in that each of them is retained by a retaining member which comprises a means of blocking the panel through an element that is supported in a groove belonging to the panel.
In a first embodiment, the retaining member is made in the form of a clam comprising two arms which meet in a common section whose base, intended to come in contact with the grooves of the panel, has a beveled section. At their upper part the arms are bent to bear on the metal plate of the supporting frame of the installation. As the arms are traversed by threaded studs welded to the plate, it will be sufficient to tighten more or less the nuts to apply more or less strongly the section of the clam on a panel.
In a second embodiment, the retaining member is constituted by a rectangular plate whose lower end is slightly bent to better fit into the grooves of the panel. The plate may be applied more or less strongly in contact with the panel by screwing more or less the nut on the threaded stud which is welded to the frame plate and passes through a longitudinal slot formed in the plane of symmetry of the panel.
SUMMARY OF THE INVENTION
A disadvantage of the known sealing apron device is that the clamping force of the retaining member for holding the panel to the supporting frame can be unintentionally adjusted to a level that damages the panel. Moreover, the nut or nuts have to be loosened to move the panel towards the conveyor belt.
It is an object of the present invention to provide a sealing apron device wherein damage to the sealing apron block can be prevented.
According to a first aspect, the invention provides a sealing apron device for a transport system, wherein the transport system comprises a conveyor and a wall arranged above said conveyor, wherein the sealing apron device comprises a sealing apron block for sealing gaps between the wall and the conveyor in a sealing direction and a holder for holding said sealing apron block relative to said wall in a mounting plane parallel to said sealing direction, wherein the sealing apron block is adjustable with respect to the holder in the sealing direction along an adjustment path, wherein the holder comprises a bracket with a mounting section for mounting the bracket relative to the wall, a retaining section for retaining the sealing apron block in the sealing direction and a bridge section for connecting the retaining section to the mounting section, wherein the retaining section comprises a retaining part for clamping the sealing apron block in a clamping direction transverse to the mounting plane, wherein the retaining section is solely connected to the mounting section by the bridge section and wherein the mounting section is arranged to be rigidly mounted with respect to the wall.
The retaining part exerts a clamping force on the sealing apron block which can be independent of a fastening torque at the mounting section such that the sealing apron block can be clamped by a predetermined clamping force and no alteration of the fastening torque is required between retaining and adjustment. Consequently, damaging the sealing apron block through an excessive clamping force can be prevented.
In an embodiment thereof, the retaining section is resiliently connected to the mounting section. The resilience allows for the retaining section to be temporarily displaced by the apron sealing block to allow an adjustment of the sealing apron block in the sealing direction .
In a further embodiment, the retaining section, the mounting section and the bridge section are formed as one piece. One piece and/or an integral part can be more economical.
In a further embodiment, the mounting section and the retaining section are spaced apart in the sealing direction. Hence, the mounting section can mounted to the wall at a location upstream of or above the sealing apron block in the sealing direction, enabling a longer adjustment path and, consequently, a lower waste percentage. In a further embodiment, the mounting section and the retaining section are spaced apart in the clamping direction over a fixed distance. Thus the position of the retaining section in the clamping direction can be solely dependent on the position of the mounting section.
In a further embodiment, the retaining section is arranged to extend at a fixed clamping distance in the clamping direction relative to the mounting plane. Hence, the sealing apron block can be clamped by a constant or substantially constant clamping force.
In a further embodiment thereof, the sealing apron block has a block thickness in the clamping direction, and wherein the clamping distance is larger than the block thickness. Hence, the mounting section can be placed in direct abutment with the wall, while the sealing apron block can be fitted between the retaining section and the mounting plane.
In a further advantageous embodiment, the retaining section extends parallel or substantially parallel to the mounting plane along the entire adjustment path .
In a further embodiment, the mounting section comprises a mounting surface facing the mounting plane. In a further embodiment thereof, the mounting surface is arranged to directly abut the wall in the mounting plane. The abutment can facilitate mounting the mounting section rigidly with respect to the wall.
In a further embodiment, the holder further comprises a common mounting member for mounting the bracket to the wall at the mounting plane. The mounting member can aid the mounting of the mounting section with respect the wall.
In a further embodiment thereof, the a common mounting member comprises a mounting strip arranged to be fixedly mounted directly onto the wall in the mounting plane and wherein the bracket is arranged to be rigidly mounted to the mounting strip. The mounting strip can be attached to the wall to provide predetermined fastening points for the bracket. Moreover, the mounting strip can be used to prepare a plurality of brackets to be mounted to the wall at once.
In a further embodiment, the a common mounting member comprises one or more fasteners for securing the bracket with respect to the wall. The one or more fasteners can fixedly secure the mounting section to the wall. Moreover, the one or more fasteners can releasably secure the mounting section to the wall to allow for mounting and unmounting of the bracket.
In a further embodiment, the retaining part comprises one or more saw teeth for biting into the sealing apron block in the clamping direction. Said one or more saw teeth can therefore securely retain the sealing apron block.
In a further embodiment thereof, the one or more saw teeth each comprise a wedge-shaped surface that is inclined in the clamping direction and the sealing direction towards the sealing apron block. The wedge-shaped surface ensures that - when a sufficient force is applied to the sealing apron block in the sealing direction - the relative movement of the sealing apron block with respect to the one or more saw teeth in the sealing direction temporarily displaces the one or more saw teeth out of biting engagement with said sealing apron block. Hence, the position of the sealing apron block in the sealing direction can be adjusted by forcing the sealing apron block over the tops of the one or more saw teeth over a short distance in the sealing direction before the one or more saw teeth bitingly engage the sealing apron block again.
In a further embodiment, the retaining section is resiliently flexible with respect to the mounting section in a direction away from the sealing apron block, wherein the sealing apron block is arranged to displace the retaining section relative to the mounting section through sliding contact with the wedge-shaped surface of the one or more saw teeth in the sealing direction. The wedge-shaped surface ensures that - when a sufficient force is applied to the protrusion in the sealing direction - the relative movement of the sealing apron block with respect to the one or more saw teeth in the sealing direction temporarily displaces the one or more saw teeth out of biting engagement with said sealing apron block. Hence, the position of the sealing apron block in the sealing direction can be adjusted by forcing the sealing apron block over the tops of the one or more saw teeth over a short distance in the sealing direction before the one or more saw teeth bitingly engage the sealing apron block again.
In a further embodiment, the sealing apron block comprises one or more grooves extending through the sealing apron block in the sealing direction, wherein each groove is arranged for receiving the retaining part. Hence, the retaining part and the one or more grooves can provide a guiding of the sealing apron block.
In a further embodiment, the saw teeth are made of a rigid material, preferably a metal, more preferably a steel alloy. A rigid material is less prone to deformation and facilitates the saw teeth biting into the sealing apron block .
In a further embodiment, the sealing apron block is made of a material with a lower hardness than the material of the saw teeth. A difference in hardness further facilitates the saw teeth biting into the sealing apron block.
In a further embodiment, the sealing apron block is made of a deformable material, preferably an elastically deformable material, more preferably rubber. A deformable material can provide a better sealing at the conveyor belt.
In a further embodiment, the sealing apron block has a first side and a second side opposite to the first side in the clamping direction, wherein the sealing apron block comprises an abutment surface at said second side thereof for directly abutting the wall. When the abutment surface directly abuts the wall, accumulation of dirt or bulk material between the wall and the sealing apron block can be prevented.
In a further embodiment, the sealing apron block comprises a main body and a protrusion extending away from said main body in a protrusion direction opposite to the clamping direction. The protrusion can provide a striking surface, such that blows of a hammer or mallet can be received at a well-defined surface, thereby preventing that the hammer or mallet slips and damages other parts of the sealing apron device.
In a further embodiment thereof, the retaining section further comprises a bracket opening, and wherein the protrusion is arranged to extend through said bracket opening in the protrusion direction along the adjustment path. Hence, movements of the protrusion transverse to the sealing direction and the clamping direction can be limited. Hence, the sealing apron block is less prone to dislocation with respect to an adjacent sealing apron block or with respect to the bracket.
According to a second aspect, the invention provides a transport system comprising the sealing apron device according to the invention. The assembly comprises the sealing apron device according to the first aspect of the invention and thus has the same technical advantages, which will not be repeated hereafter for reasons of conciseness .
According to a third aspect, the invention provides a method for sealing a gap between a wall and a conveyor using the sealing apron device according to the invention, wherein the method comprises the step of mounting the sealing apron block and the bracket to the wall by fixedly securing the mounting section with respect to the wall. The retaining part exerts a clamping force on the sealing apron block which can be independent of a fastening torque at the mounting section such that the sealing apron block can be clamped by a predetermined clamping force without damaging the sealing apron block.
In an embodiment thereof, the method further comprises the step of adjusting the sealing apron block along the adjustment path towards the conveyor by exerting an adjustment force to the sealing apron block in the sealing direction, wherein the retaining section is resiliently flexible with respect to the mounting section in a direction away from the sealing apron block, wherein the adjustment of the sealing apron block along the adjustment path displaces the retaining section relative to the mounting section through sliding contact with the retaining part. The relative movement of the sealing apron block with respect to the retaining part in the sealing direction can temporarily displace the retaining part. Hence, the position of the sealing apron block in the sealing direction can be adjusted by forcing the sealing apron block over a short distance in the sealing direction.
In a further embodiment thereof, the sealing apron block is adjusted along the adjustment path without loosening the mounting section with respect to the wall. Hence, the sealing apron blocks can be adjusted more easily.
The various aspects and features described and shown in the specification can be applied, individually, wherever possible. These individual aspects, in particular the aspects and features described in the attached dependent claims, can be made subject of divisional patent applications .
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will be elucidated on the basis of an exemplary embodiment shown in the attached schematic drawings, in which:
Figure 1 shows an isometric view of a transport system comprising a conveyor, a wall and an apron device according to the present invention;
figure 2 shows an isometric view of the sealing apron device according to figure 1 comprising a plurality of sealing apron blocks and a plurality of brackets;
figure 3 shows a top view of a plurality of the sealing apron blocks according to figure 2;
figure 4 shows an exploded view of a part of the sealing apron device according to figure 2;
figure 5 shows a | section | view | of | one | of | the | |
sealing | apron blocks mounted | to the | wall | by | one | of | the |
brackets | in a start position | according to | the | line | V- | V in | |
figure 2 | I figure 6 shows a | section | view | of | one | of | the |
sealing | apron blocks mounted | to the | wall | by | one | of | the |
brackets | in an intermediate position | according | to the | line | |||
VI-VI in | figure 2; figure 7 shows a | section | view | of | one | of | the |
sealing apron blocks mounted to the wall by the bracket in an end position according to the line VII-VII in figure 2;
figures 8-10 show front views of the sealing apron block mounted to the wall according to figures 5-7, respectively; and figure 11 shows a section view of the sealing apron block mounted to the wall according to line XI-XI in figure 10.
DETAILED DESCRIPTION OF THE INVENTION
Figure 1 shows a transport system 11 for transporting bulk material 9. The transport system 11 comprises a conveyor 8 for conveying said bulk material 9. The transport system 11 further comprises a set of walls 7 arranged above the conveyor 8 for preventing an overflow of the bulk material 9 over the sides of the conveyor 8. The transport system 11 further comprises a sealing apron device 1 according to an exemplary embodiment of the present invention for sealing any gaps 70 between the wall 7 and the conveyor 8.
As can best be seen in figure 1, in this exemplary embodiment, the transport system 11 is arranged for receiving the bulk material 9 and for transporting the bulk material 9 in a transport direction U along the conveyor 8. The conveyor 8 comprises a conveyor belt 80 having a concave or substantially concave transport surface 81 extending in the transport direction U. In particular, the transport surface 81 has a trough form in cross section. The conveyor belt 80 is supported by rotatable support rolls 82, e.g. mounted on a centering assembly according to EP 2 451 730 Bl. The support rolls 81 allow the conveyor belt 80 to progress in the transport direction U. The support rolls 82 are spaced apart in the transport direction U. Between the support rolls 82, the conveyor belt 80 may flex, causing the transport surface 81 to be uneven or undulating.
The walls 7 extend above and along the conveyor 8 in the transport direction U. Each wall 7 is provided with the sealing apron device 1 according to the invention.
The sealing apron device 1 comprises a plurality of sealing apron blocks 2 which are individually adjustable in a sealing direction B for contacting the conveyor 8. In other words, the sealing apron blocks 2 are arranged for sealing gaps 70 between the wall 7 and the conveyor 8 in the sealing direction B. In particular, the sealing apron blocks 2 are arranged for contacting the transport surface 81 of the conveyor belt 80. In this embodiment, the sealing direction B is parallel or substantially parallel to the wall 7. More particularly, in this embodiment, the sealing direction B is directed in a downward or vertical direction .
As can best be seen in figures 1 and 2, the sealing apron device 1 further comprises a holder 5 for holding the sealing apron blocks 2 relative to the wall 7 in a mounting plane P parallel to the sealing direction B. The sealing apron blocks 2 are adjustable with respect to the holder 5 in the sealing direction B along an adjustment path L. As is best shown in figure 3, the sealing apron blocks 2 form a contiguous or a substantially contiguous sealing apron 10 in the transport direction U in the mounting plane P along the wall 7. In other words, the sealing apron blocks 2 form a continuous or a substantially continuous sealing apron 10 in the transport direction U along the wall 7.
As can best be seen in figure 2, the holder 5 comprises one or more brackets 4 for mounting and retaining the sealing apron blocks 2 with respect to the wall 7. In particular, the sealing apron blocks 2 of the sealing apron device 1 are each mounted to the wall 7 by a respective bracket 4 . The brackets 4 are arranged for clamping the sealing apron blocks 2 against the wall 7 in a clamping direction C transverse to the mounting plane P. The brackets 4 are arranged for retaining the sealing apron blocks 2 with respect to the wall 7 in a retaining direction A opposite to the sealing direction B while permitting adjustment of the sealing apron blocks 2 in the sealing direction B when a sufficiently large adjustment force F is applied to the sealing apron block 2 in the sealing direction B. Said adjustment force F can for example be a blow of a hammer or mallet. In particular, the sealing apron blocks 2 are adjustable with respect to the brackets 4 in the sealing direction B between a start position, as shown in figures 5 and 8, and an end position, as shown in figures 7 and 10, along the adjustment path L.
The brackets 4 may be mounted directly to the wall 7. However, in this example, the holder 5 comprises a common mounting member 6 for mounting the brackets 4 with respect to the wall 7 at the mounting plane P. The brackets 4 are mounted to the wall 7 or the common mounting member 6 using suitable fasteners 61, 62, e.g. bolts.
As can best be seen in figures 3 and 4, the sealing apron block 2 comprises a main body 20. The main body has a first side 21 and a second side 22 opposite to the first side 21 in the clamping direction C. The main body 20 has a block thickness T in the clamping direction C. At said second side 22, the main body 20 comprises an abutment surface 32 for abutting the wall 7 . The abutment surface 32 is in line with the mounting plane P for mounting the sealing apron block 2 relative to the wall 7.
The main body 20 comprises an upper side 23 and a lower side 24 opposite to the upper side 23 in the sealing direction B. In this exemplary embodiment, the lower side 24 of the main body 20 comprises an inclined wear surface 34 inclined towards or as to match an inclination angle of the transport surface 81. At its first side 21, the main body 20 extends from the upper side 23 to the lower side 24 in the sealing direction B over an initial block height H, as is best shown in figures 5-7.
The main body 20 further comprises a first lateral side 25 and a second lateral 26 side opposite to the first lateral side 25 in a width direction Y, parallel to the mounting plane P and perpendicular to the sealing direction B. In this particular embodiment, the width direction Y is parallel to the transport direction U. The main body 20 extends from the first lateral side 25 to the second lateral side 26 in the width direction Y over a block width W.
The sealing apron block 2 comprises a protrusion 30 extending away from the first side 21 of the main body 20 in a protrusion direction G. In this exemplary embodiment, the protrusion direction G is opposite to the clamping direction C. The protrusion 30 is located at or near the upper side 23 of the main body 20. The protrusion 30 comprises a head portion 37 and a neck portion 38 that connects the head portion 37 with the main body 20. The head portion 37 of the protrusion 30 extends in the width
direction | Y | over | a head width | XI. | The | head width XI | is |
smaller than | the : | sealing apron block | width W. | ||||
As | shown in figure 3, | the | neck portion 38 of | the | |||
protrusion | 30 | is formed by | two | side recesses | 28 | ||
undercutting | the | protrusion 30 | in | the | width direction | Y. | |
The neck | portion | 38 has a neck width | X2 in said width | ||||
direction | Y. | The | neck width X2 | is | smaller than the head | ||
width XI. | As | best | seen in figure | 11, | the | neck portion 38 | is |
further defined by a bottom recess 29 facing in the sealing direction B. The protrusion 30 forms a striking surface 33 for receiving the adjustment force F. The striking surface 33 faces in or substantially in the retaining direction A. In this exemplary embodiment, the protrusion 30 lies flush with the upper side 23 of the main body 20 for forming the striking surface 33.
The sealing apron block 2 comprises two parallel grooves 27. The grooves 27 extend through the main body 20 from the upper side 23 to the lower side 24 in the sealing direction B. In this embodiment, the grooves 27 are located at the first side 21 of the main body 20. The grooves 27 are located on either side of the protrusion 30 in the width direction Y.
As is best shown in figure 3, the sealing apron device 1 comprises a further sealing apron block 2 directly adjacent to the sealing apron block 2. The further sealing apron block 2 is identical or substantially identical to the sealing apron block 2 having essentially the same features. The sealing apron block 2 comprises a first profile 36 at its first lateral side 26 facing the further sealing apron block 2. The further sealing apron block 2 comprises a second profile 37 at its second lateral side 27 facing the sealing apron block 2. In this embodiment, the sealing apron block 2 comprises a third profile at its second lateral side 27 identical to the second profile 37. The first profile 36 and the second profile 37 of two adjacent blocks 2 are complementary profiles. In particular, the first profile 36 and the second profile 37 are stepped profiles. The first profile 36 of the sealing apron block 2 is arranged to be fitted between the wall 7 and the second profile 37 of a further sealing apron block 2 upstream in the width direction Y and directly adjacent to the sealing apron block 2.
As can best be seen in figure 4, the bracket 4 comprises a mounting section 40 for mounting the bracket 4 relative to the wall 7 and a retaining section 50 for retaining the sealing apron block 2 in the sealing direction B. The bracket 4 further comprises a bridge section 42 for connecting the retaining section 50 to the mounting section 40. In this exemplary embodiment, the retaining section 50, the mounting section 40 and the bridge section 42 are formed as one piece and/or integral. In other words, the bracket 4 is formed in one piece and/or as a single part. In particular, the bracket 4 is formed from a single piece of plate material. The bridge section 42 is formed as a bend in the plate material. In this exemplary embodiment, the bridge section 42 extends transverse to the mounting plane P. The retaining section 50 extends parallel to the mounting plane P along the entire adjustment path L. The mounting section 40 and the retaining section 50 are both oriented parallel to the mounting plane P. The mounting section 40 and the retaining section 50 are spaced apart in the clamping direction C over a fixed distance.
The retaining section 50 comprises a retaining part 51 for clamping the sealing apron block 2 in a clamping direction C transverse to the mounting plane P. The retaining section 50 is arranged for retaining the sealing apron block 2 in a position relative to mounting section 40 such that the mounting plane P is coplanar with the wall 7. The retaining part 51 is further arranged for retaining the sealing apron block 2 in the retaining direction A. The retaining part 51 is however configured for permitting the sealing apron block 2 to move in the sealing direction B when the adjustment force F is applied. The mounting section 40 and the retaining section 50 are spaced apart in the sealing direction B.
The retaining part 51 is arranged for engaging the sealing apron block 2 at least when the sealing apron block 2 is in a first part LI of the adjustment path L between the start position and an intermediate position between the start position and the end position. The retaining part 51 engages the sealing apron block in one or more retaining positions. The retaining part 51 is arranged for at least partially running out of the engagement with the sealing apron block 2 in the sealing direction B when the sealing apron block 2 is in a second part L2 of the adjustment path L downstream in the sealing direction B, as is best shown in figure 7.
In this exemplary embodiment, the retaining part 51 comprises one or more saw teeth 53 for biting into the sealing apron block 2 in the clamping direction C. More particularly, a plurality of saw teeth 53. The saw teeth 53 each comprise a wedge-shaped surface that is inclined in the clamping direction C and the sealing direction B towards the sealing apron block 2. In particular, the saw teeth 53 are arranged for allowing a one-way displacement of the sealing apron block 2 in the sealing direction B. The retaining section 50 is resiliently flexible
The retaining part 51 is substantially U-shaped, having two parallel or substantially parallel legs 52 extending in the clamping direction C towards the grooves
27. The grooves 27 are arranged for receiving the legs 52 of the bracket 4. The saw teeth 53 are located at the respective terminal ends of the legs 52. In this embodiment, the one or more retaining positions are located at or near the terminal ends of the saw teeth 53.
As is best shown in figures 7-10, in an embodiment, the retaining section 50 of the bracket 4 further comprises a guiding part 54 for guiding the sealing apron block 2. In particular, the guiding part 54 is arranged for guiding the protrusion 30 of the sealing apron block 2 along at least a part of the adjustment path L. Preferably, the guiding part 54 is arranged to guide the protrusion 30 over the entire or substantially the entire adjustment path L. The guiding 54 part engages the sealing apron block 2 at one or more guiding positions. In this embodiment, the guiding positions are located within the side recesses 28. The guiding part 54 is arranged for engaging the protrusion 30 of the sealing apron block 2 at least when the sealing apron block 2 is in the second part L2 of the adjustment path L. In this embodiment, the guiding part 54 and the retaining part 51 are arranged for simultaneously engaging the sealing apron block 2 in at least a part of the adjustment path L. In particular, the guiding part 54 and the retaining part 51 are arranged for simultaneously engaging the sealing apron block in the one or more guiding positions and the one or more retaining positions, respectively. The guiding positions are spaced apart from the retaining positions.
The guiding part 54 comprises two parallel guides 55 extending in or substantially in the sealing direction B for engaging the protrusion 30 of the sealing apron block 2 .
In this particular embodiment, the guiding part 54 comprises a bracket opening 56 for receiving and guiding the protrusion 30 of the sealing apron block 2. The protrusion 30 extends through the bracket opening 56 in the protrusion direction G. The guides 55 are arranged on either side of the bracket opening 56 for constraining movements of the protrusion 30 in the width direction Y. The guides 55 are arranged for engaging the protrusion 30 at said neck portion 38. In this exemplary embodiment, the guides 55 are formed by the edges of the bracket opening
56.
As shown in figure 8, the bracket opening 56 has an upper portion 57 and a lower portion 58 downstream in the sealing direction with respect to said upper portion
57. The upper portion has a receiving width SI in the width direction Y that is equal to or greater than the head width XI. The upper portion 57 is arranged for receiving the protrusion 30 in the start position. The lower portion 58 has a guiding width S2 in the width direction Y that is smaller than the head width XI and equal or larger than the neck width X2.
In this exemplary embodiment, the guides 55 are arranged in the lower portion 38 only. As is best shown in figure 6, the guides 55 and the side recesses 28 are in mutual engagement when the protrusion 30 is displaced from the start position towards the end position into an intermediate position.
The bracket 4 further comprises a stop part 59 bounding the bracket opening 56 at its lower end for constraining the movement of the sealing apron block 2 in the sealing direction B. The stop part 59 can prevent that the protrusion 30 moves in the sealing direction B beyond the end position as shown in figure 11. The stop part 59 is arranged for abutting the protrusion 30 of the sealing apron block 2 in the end position. In particular, as shown in figure 11, the stop part 59 is arranged for engaging the bottom recess 29 at the neck portion 38 of the protrusion 30.
In the exemplary embodiment as shown in figures 5-7, the mounting section 40 comprises a mounting surface 41 for mounting the mounting section 40 relative to the wall 7. The mounting surface 41 faces the mounting plane P. In this example, the mounting section 40 further comprises one or more fastener holes 43 for receiving the fasteners 61, 62. The mounting section 40 is rigidly mounted to the wall 7. In other words, the mounting section 40 is prevented or substantially prevented from moving with respect to the wall 7. When the mounting section 40 is mounted to the wall 7, the orientation of the mounting surface 41 relative to the wall 7 and/or a mutual distance between the mounting surface 41 and the wall 7 is independent of a fastening force of the fasteners 61, 62.
The retaining section 50 is solely connected to the mounting section 40 by the bridge section 42. In other words, the retaining section 50 is solely supported by the mounting section 40. Preferably, the retaining section 50 is resiliently connected to the mounting section 40. More particularly, the retaining section 50 is resiliently flexible with respect to the mounting section 40 in a direction away from the sealing apron block 2. The sealing apron block 2 is arranged to displace the retaining section 50 relative to the mounting section 40 through sliding contact with the wedge-shaped surface of the saw teeth 53 in the sealing direction B. The retaining section 50 and the wall 7 are spaced apart in the clamping direction C over a clamping distance D. The clamping distance D is larger than the block thickness T of the sealing apron block 2. As a result, the mounting section 40 can be rigidly mounted relative to the wall 7 without a tolerance. The clamping distance D between the retaining part 51 and the mounting plane P in the clamping direction C is independent of a fastening force of the fasteners 61, 62. In other words, a clamping force with which the retaining part 51 clamps the sealing apron block 2 onto the wall 7 is independent of a fastening force of the fasteners 61, 62.
The legs 52 of the retaining part 51 extend in the clamping direction C from the clamping distance D towards the sealing apron block 2 and are received within the slots 25. The saw teeth 53 protrude from the legs 52 into the sealing apron block 2 for retaining said sealing apron block 2. Preferably, the saw teeth 53 bite into the sealing apron block 2 over a depth of at least one millimeter. More preferably, the saw teeth 53 bite into the sealing apron block 2 over a depth between one and three millimeter. Most preferably, the saw teeth 53 bite into the sealing apron block 2 over a depth of two millimeter. The saw teeth 53 are made of a rigid material. Preferably, the saw teeth 53 are made of a metal. Most preferably, the saw teeth 53 are made of a steel alloy. In particular, the sealing apron block 2 is made of a material with a lower hardness than the material of the saw teeth 53. The sealing apron blocks 2 are preferably made of a deformable material, more preferably an elastically deformable material, most preferably rubber.
As is best shown in figure 4, in this exemplary embodiment, the common mounting member 6 comprises a mounting strip 60. The mounting strip 60 is fixedly mounted directly onto the wall 7 in the mounting plane P. The bracket 4 is arranged to be rigidly mounted to the mounting strip 60. The fasteners 61,62 comprise a pair of first fastening elements 61 associated with said mounting strip 60. The fasteners 61, 62 further comprise second fastening elements 62 for being fastened onto the first fastening elements 61. The first fastening elements 61 and the second fastening elements 62 are arranged for securing the bracket 4 with respect to the wall 7. In this particular embodiment, the first fastening elements 61 are threaded studs and the second fastening elements 62 are threaded nuts. Alternatively, the mounting strip 60 may for example be provided with threaded holes for receiving bolts therein .
The mounting strip 60 is mounted to the wall 7 in the mounting plane P. The mounting strip 60 extends in the transport direction U. The first fastening elements 61 extend from the mounting strip 60 in a direction opposite to the clamping direction C to provide distinct mounting points for the bracket 4.
In this exemplary embodiment, the mounting strip 60 is welded to the wall 7. Alternatively, the mounting strip 60 may be fixed to the wall 7 by bolting, adhering, or any other suitable fastening method for rigidly connecting the mounting strip 60 to the wall 7. The mounting strip 60 comprises cutouts 63 at its bottom side for providing weld locations such that a welding line or welding slag can be prevented to extend below the mounting strip 60.
In this embodiment, the mounting surface 41 of the mounting section 40 abuts the mounting strip 60. Alternatively the mounting surface 41 can directly abut the wall 7 in the mounting plane P. The bracket 4 is rigidly connected to the mounting strip 60 by fastening said second fastening elements 62 onto the first fastening elements 61. In other words, the mounting section 40 is rigidly mounted with respect to the wall 7.
A method for mounting and adjusting the sealing apron blocks 2 with respect to the wall 7 will be illustrated using figures 5-10.
Figures 5 and 8 show the sealing apron block 2 mounted to the wall 7 in the start position. The sealing apron block 2 and the bracket 4 have been mounted to the wall 7 by fixedly securing the mounting section 40 to the wall 7. The first profile 36 has been fitted between the second profile 37 of an adjacent further sealing apron block 2 and the wall 7 as shown in figure 3. The abutment surface 32 of the sealing apron block 2 is in direct abutment with the wall 7. The upper side of the sealing apron block 2 is located downstream of or below the mounting strip 60 in the sealing direction B. The protrusion 30 of the apron sealing block 2 has been fitted through the bracket opening 56. The bracket 4 has been rigidly mounted with respect to the wall 7 by fastening the second fastening elements 62 onto the first fastening elements 61.
The legs 52 of the retaining part 51 of the bracket 4 are placed in the grooves 27 of the sealing apron block 2 for retaining and/or guiding the sealing apron block 2 in the sealing direction B. The retaining part 51 is retaining the sealing apron block 2 at the one or more
retaining | positions . | The | sealing apron | block 2 | is | clamped | |
against the wall 7 | in | the | clamping | direct ion | C | by | the |
bracket 4. | Movements | of the | sealing apron block | 2 | in | the |
retaining direction A, for example due to irregularities in the transport surface 81, are suppressed by the retaining part 51 of the bracket 4. The saw teeth 53 of the retaining part 51 at least partly protrude into the main body 20 of the sealing apron block 2 for securely retaining the sealing apron block 2 at the one or more retaining positions .
Figures 6 and 9 show the sealing apron block 2 mounted to the wall 7 in the intermediate position between the start position and the end position. The sealing apron block 2 has been adjusted in the sealing direction B along the first part LI of the adjustment path L by exerting the adjustment force F to the striking surface 33 of the sealing apron block 2. The adjustment force F is for example exerted by striking the striking surface 33 with a hammer. The adjustment of the sealing apron block 2 along the adjustment path L displaces the retaining section 50 relative to the mounting section 40 through sliding contact with the retaining part 51. Preferably, the sealing apron block 2 is adjusted along the adjustment path L without loosening the mounting part 40 with respect to the wall 7. In other words, the connection between the first fastening elements 61 and the second fastening elements 62 can be unaltered.
In the intermediate position, the protrusion 30 is engaged by the guides 55. The guides 55 are received and engaged within the side recesses 28 of the protrusion 30. The guides 55 engage the sealing apron block 2 at the one or more guiding positions. The protrusion 30 is thus constrained by the bracket 4 in both the clamping direction C and the width direction Y.
At the location of the retaining part 51 the sealing apron block 2 is clamped against the wall 7 in the clamping direction C by the bracket 4. At said location of the retaining part 51, the legs 52 are received within the grooves 27 constraining the sealing apron block 2 in the width direction Y. The retaining part 51 engages the sealing apron block 2 at the one or more retaining positions. The one or more retaining positions are spaced apart from the one or more guiding positions. In this particular embodiment, the one or more retaining positions are spaced apart from the one or more guiding positions in both the width direction Y and the sealing direction B. Hence, the sealing apron block 2 is constrained in the width direction Y at both the location of the protrusion 30 and the location of the retaining part 51.
Figures 7 and 10 show the sealing apron block 2 in the end position. The sealing apron block 2 has been further adjusted in the sealing direction B over the second part L2 of the adjustment path L. In other words, the sealing apron block 2 has been adjusted over the entire adjustment path L. The guiding part 54 is in engagement with the sealing apron block 2 at the one or more guiding positions. In this embodiment, the retaining part 51 is in engagement with the sealing apron block 2 at a part of the one or more guiding positions. The retaining part 51 is partly running out of the engagement with the sealing apron block 2 in the sealing direction. In the end position, the protrusion 30 abuts the stop part 59 of the bracket 4. In particular, as shown in figure 11, the neck portion 38 of the protrusion 30 is securely held in place by the side recesses 28 and the bottom recess 29 to prevent rotation of the sealing apron block 2 relative to the bracket 5. The length of the adjustment path L is larger than fifty percent of the initial block height H of the sealing apron block 2 . Preferably, the adjustment path is larger than fifty-five percent of the initial block height H, more preferably more than sixty percent. In this exemplary embodiment, the length of the adjustment path L is equal to or substantially equal to the part of the initial block height H of the sealing apron block 2 below the protrusion 30 .
It is to be understood that the above description is included to illustrate the operation of the preferred embodiments and is not meant to limit the scope of the invention. From the above discussion, many variations will be apparent to one skilled in the art that would yet be encompassed by the scope of the present invention.
Claims (24)
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL2020834A NL2020834B1 (en) | 2018-04-26 | 2018-04-26 | Sealing apron device |
EP19718757.8A EP3784608A1 (en) | 2018-04-26 | 2019-04-25 | Sealing apron device |
PCT/EP2019/060640 WO2019207056A1 (en) | 2018-04-26 | 2019-04-25 | Sealing apron device |
AU2019260544A AU2019260544A1 (en) | 2018-04-26 | 2019-04-25 | Sealing apron device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL2020834A NL2020834B1 (en) | 2018-04-26 | 2018-04-26 | Sealing apron device |
Publications (1)
Publication Number | Publication Date |
---|---|
NL2020834B1 true NL2020834B1 (en) | 2019-11-05 |
Family
ID=62685046
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
NL2020834A NL2020834B1 (en) | 2018-04-26 | 2018-04-26 | Sealing apron device |
Country Status (1)
Country | Link |
---|---|
NL (1) | NL2020834B1 (en) |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS55132014U (en) * | 1979-03-13 | 1980-09-18 | ||
JPH0261812U (en) * | 1988-10-28 | 1990-05-09 | ||
US5048669A (en) * | 1990-03-13 | 1991-09-17 | Martin Engineering Company | Modular conveyor belt sealing system |
EP0536847A1 (en) * | 1991-10-10 | 1993-04-14 | Mass Flow Equipment B.V. | Sealing apron device for the loading trough of a belt conveyor |
EP0825137A1 (en) * | 1996-08-22 | 1998-02-25 | Technic Gum | Device for manufacturing an upstanding edge along a conveyor belt |
US7712715B2 (en) * | 2008-02-25 | 2010-05-11 | Asgco Manufacturing, Inc. | Clamping arrangement for a conveyor seal |
-
2018
- 2018-04-26 NL NL2020834A patent/NL2020834B1/en active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS55132014U (en) * | 1979-03-13 | 1980-09-18 | ||
JPH0261812U (en) * | 1988-10-28 | 1990-05-09 | ||
US5048669A (en) * | 1990-03-13 | 1991-09-17 | Martin Engineering Company | Modular conveyor belt sealing system |
EP0536847A1 (en) * | 1991-10-10 | 1993-04-14 | Mass Flow Equipment B.V. | Sealing apron device for the loading trough of a belt conveyor |
EP0825137A1 (en) * | 1996-08-22 | 1998-02-25 | Technic Gum | Device for manufacturing an upstanding edge along a conveyor belt |
US7712715B2 (en) * | 2008-02-25 | 2010-05-11 | Asgco Manufacturing, Inc. | Clamping arrangement for a conveyor seal |
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