EP3462118A1 - Door system for opening and closing a container opening of a furnace - Google Patents

Abstract

The invention relates to an oven, in particular a melting and / or holding furnace, comprising an opening having a container for receiving a melt and a door for closing and opening the opening. Furthermore, the furnace comprises at least two first door-side joints which are fixed relative to the door and which define a first door-side rotation axis. Furthermore, the furnace has at least one, preferably exactly one, second door-side joint, which is fixed relative to the door and which is spaced from the first door-side rotation axis. The oven further comprises a first coupling device movably connecting the door to the container via the first door-side hinges, and a second coupling device movably connecting the door to the container via the second door-side hinge. In particular, it is advantageous if exactly two first door-side joints and exactly one second door-side joint are arranged on the door. So the door can be stored and guided by exactly three joints.

Description

The invention relates to an oven, in particular a melting and / or holding furnace for melting and / or keeping warm metal, with a door system for opening and closing a container opening.

Industrial furnaces, for example melting furnaces, often have containers with container openings in order to ensure access to the interior of the oven, for example for cleaning a melting chamber. Door systems are known from the prior art, with which industrial furnaces are provided to open and close these container openings. It is necessary that the door systems achieve a good sealing effect and the container opening can be closed as gap-free, for example, to ensure an efficiency of the furnace, a melt quality and to prevent heat escaping through the container opening from the oven.

Especially with large container openings thereby door sizes arise with door weights that require a supportive door guide and / or drive when opening and closing the doors. For this purpose, various guide and / or drive mechanisms are known from the prior art, which move an oven door when opening vertically along guide rails or by two-sided mounted levers move upwards.

Such furnace door systems are often exposed to high heat exposure during operation of the furnace. The hot melt inside the furnace may cause furnace door deformation and / or deformation on a door abutment surface surrounding the container opening. Furthermore, solidifying melt, for example liquid metal, or particles in the region of the container opening can lead to soiling and unevenness in the sealing area between the oven door and the oven. These deformations and soiling can result in a sealing surface of the oven door no longer sealing against a door contact surface and causing gaps between the oven and the closed door. The width of the resulting column can be several centimeters and the gaps can, depending on a prevailing pressure in the furnace, allow an undesired suction of ambient air or an undesirable ejection of the furnace atmosphere. This can reduce the efficiency of the process taking place in the furnace, for example a melting process, since it may be necessary to operate an increased energy expenditure for heating the furnace interior.

In the light of the results for the present invention, the task of proposing a furnace with a door system that minimizes leaks and improves the efficiency of the furnace as possible.

This object is achieved by a door system according to the subject matter of claim 1.

The furnace according to the invention, in particular a melting and / or holding furnace for melting and / or keeping metal warm, comprises a container having an opening, for example for receiving a melt and at least one door for closing and opening the opening. Typically, the furnace comprises a melting chamber in which metal can be melted and / or a holding chamber, in which the melt can be heated to a procedurally necessary temperature and / or maintained at this temperature. The oven includes at least one door having at least two first door-side hinges fixedly disposed relative to the door and defining, for example, a first door-side rotation axis. Furthermore, the furnace has at least one, preferably exactly one, second door-side joint, which is fixed relative to the door. The at least one second door-side joint or the exactly one second door-side joint can be arranged at a distance from a straight line defined by the first door-side joints on the door. The oven further comprises a first coupling device movably connecting the door to the container via the first door-side hinges, and a second coupling device movably connecting the door to the container via the at least one, preferably via the exact second, door-side hinge. In particular, it is advantageous if exactly two first door-side joints and exactly one second door-side joint are arranged on the door. So the door can be stored and guided by exactly three joints. Such a three-point bearing can have the advantage that the storage of the door is statically determined in a closed position. The fact that the sum of the forces and moments in the door and in the bearings, here in the joints, which are applied, for example by a gravitational force of the door always static at zero, will be tensions in the door and / or in the bearings Door avoided. A life of the door and the bearings can be increased.

The furnace may further comprise at least a first container-side hinge fixedly disposed relative to the container and at least one second container-side hinge fixedly disposed relative to the container. Typically, the first coupling device has at least one first coupling arm, each rigidly connecting at least one of the first door-side hinges to at least one of the at least one first container-side hinge. The second coupling device may have at least one second coupling arm which rigidly connects the at least one, preferably the exactly one second, door-side joint to the at least one second container-side joint.

The at least one second door-side joint, preferably the exactly one second door-side joint, can define a second door-side rotation axis or a pivot point. The at least one first container-side joint can define a first container-side axis of rotation. The at least one second container-side joint usually defines a second container-side axis of rotation. The first door-side joints, the at least one second door-side joint-preferably the second door-side joint-the at least one first container-side joint and the at least one second container-side joint can be arranged and configured such that the first door-side axis of rotation, the first container-side Rotary axis, and the second container-side axis of rotation are aligned substantially in pairs parallel to each other, for. B. at least in a construction situation. Preferably, in a construction position, the second door-side rotation axis is aligned parallel to the said axes of rotation. In this case, a deviation from the parallelism can be at most 10 °, preferably at most 8 °, particularly preferably at most 5 °. This may have the advantage that a door system comprising the door and coupling arms articulated thereon, which are also articulated on the container, as a coupling gear, preferably as a planar coupling gear, is formed. The coupling arms can be designed with rigid lengths and swing on the container. The coupling arms may further be hinged to the door, so that the door can be pivoted by a swinging motion. In this way, the door can close or open the container opening.

The at least one second door-side joint - preferably the exactly one second door-side joint - may be formed as a ball joint. This can be advantageous, since the door can be stored statically indefinitely in an open state and is determined statically only by a concern to the container in the closed state. Thus, the door can tumble in an open state by at least one indefinite degree of freedom and the position of the door can adapt to container-side deformations. Thus, the door in the closed state can lie substantially sealingly against the container.

The coupling arms can be levers or beams or also have a different shape. Regardless of the form, the coupling arms should have one establish rigid connection between the respective container side and door side joints.

The first coupling device and the second coupling device may be configured such that a first distance between the first door-side rotation axis and the first container-side rotation axis defined by the first coupling device is different from a second distance between the second door-side rotation axis and the second defined by the second coupling device container-side axis of rotation. Does the second door-side hinge only exactly one joint, e.g. a ball joint, and thus defines the aforementioned pivot point, the second distance can also be defined as the distance between the second container-side axis of rotation and the door-side pivot point defined by the exactly one second door-side joint. For a case where the first door-side rotation axis and the first tank-side rotation axis deviate from parallelism, the first distance may be the smallest distance between the first door-side joints and the first tank-side rotation axis. The first distance may e.g. at least 1.1 times, at least 1.2 times or at least 1.5 times the second distance.

In this case, an opening angle between a spanned by the door-side axes of rotation door-side plane and a spanned by the container side axes of rotation container-side level in a movement of the door from a closed position in which the door closes the opening of the container, in an open position, in the the door at least partially releases the opening of the container. This may be particularly advantageous in order to facilitate a cleaning of the door in the open position, in particular on a door inner side facing the container. Preferably, the plane spanned by the container-side axes of rotation extends parallel to a vertical. The opening angle is typically at least 20 °, preferably at least 30 °, more preferably at least 40 °. The opening angle is usually at most 80 °, preferably at most 70 °, particularly preferably at most 60 °. Does the second door-side hinge only exactly one joint, z. B. a ball joint, and defines the aforementioned door-side pivot point, the opening angle can be defined on the door side by a straight line perpendicular to the first door-side axis of rotation and passes through said door-side pivot point, which is determined by the exact second door-side hinge.

It can also be provided that the first distance to the second distance has a spacing ratio of less than 1. In this case, said opening angle may decrease upon movement of the door from a closed position to an open position.

The container opening is usually in a plane which is spanned by an edge of the container bounding the container opening. For example, in a closed position, the door is then vertically aligned. The container opening may also lie in a plane which includes a non-zero angle with a vertical plane. Such an inclination angle of a container opening plane can be, for example, at least 10 °. A sealing surface of the door, which surrounds the container opening in a closed position, abuts against a door abutment surface of the container and preferably seals the container opening, is typically oriented substantially parallel to the container opening plane in the closed position. When the container opening is in a plane including a non-zero angle of inclination with the vertical, the door in the closed position typically also has that angle of inclination to the vertical plane. The gravitational force acting on the door, which acts in the center of gravity of the door and points vertically downwards, can thus be used to achieve a closing and sealing effect. For example, without an additional drive which applies an additional sealing force, the door can seal the container opening in a closed state.

It may be advantageous if the container-side and the door-side joints are arranged and configured such that a first plane, which is spanned by the first door-side rotation axis and by the first container-side rotation axis, in the closed position in which the door closes the container opening , Is aligned parallel to a second plane, which is spanned by the second door-side axis of rotation and the second container-side axis of rotation. In the case that the second door-side joint comprises only one joint, z. B. a ball joint, which then the aforementioned door side Defined pivot point, said second plane can be spanned by this door-side pivot point and the second container-side axis of rotation instead of the second door-side axis of rotation and the second container-side axis of rotation. This can have the advantage that the forces which can be introduced into the door via the at least two first door-side joints and the at least one second door-side joint are likewise aligned parallel to one another at least in the closed position of the door, so that, for example, at the moment of closing, a self-rotation the door around the door's center of gravity is avoided. A sealing force by which the sealing surface of the door is pressed in the closed position to the door contact surface of the container can thus be distributed substantially uniformly over the sealing surface of the door. In particular, it can be advantageous if a movement force acting on the door is applied by the gravitational force acting on the door, for example by the above-described inclined arrangement of the container opening plane or by a guided movement direction which contains a vertical component.

The first coupling device may comprise a first adjusting device for changing the first distance. The second coupling device may comprise a second adjusting device for changing the second distance. As a result of deformations of the door contact surface and / or the door-side sealing surface or as a result of deposits, unwanted gaps may arise between the door and the container opening in the closed position of the door, as already described above. By adjusting devices, the first and / or the second distance can be changed such that an orientation of the door relative to the container opening can be readjusted. In this case, the first and / or the second distance may be adjustable such that the first and the second distance after adjustment have different lengths. Furthermore, the first and / or the second distance may be adjustable such that the first and / or the second door-side rotation axis from a position parallel to the first and / or second container-side axis of rotation in a position inclined relative to the first and / or second container-side axis of rotation is adjustable. Thus, the guide construction, which is realized by the first and the second coupling device, be adapted and sealing despite contamination or deformations of the door or container-side sealing surfaces can be realized. In the event of the statically clear leadership situation of the door on the three-point bearing described above is such an adjustment z. B. comparatively easy to make because of a change of the first and / or the second distance no tension results, as is the case for example in the overdetermined systems of the prior art, which are in particular realized by four-point bearings. The adjusting device can be realized comparatively easily, for example, according to a turnbuckle principle. In this case, a right-handed and a left-handed thread are combined in such a way that, for example, the first and / or the second distance can be changed by turning an internal thread receiving the left- and right-handed threads. The threads can be arranged for example on the coupling arms.

As an alternative or in addition to the adjusting device, the first coupling device and / or the second coupling device may comprise one, preferably one, spring device. The spring device can give the door an extra degree of freedom that can contribute to the self-sealing of the door. This can reduce the need for adjustment by an adjusting device, since the door can take over the effect of length adjustment within the structurally possible spring travel.

The door is typically a substantially rigid component, which may be exposed to strong influences of heat or temperature differences. Thus, a container interior is usually much warmer than an external oven environment. Typically, a container interior is heated to more than 800 ° C, while in the outer oven environment, temperatures of about 50 ° normally prevail. This can, for example, lead to deformations or, as a result of material changes in the refractory materials, cause changes in shape.

If necessary, the at least one second container-side joint may also comprise at least two joints. Thus, weight forces of the door can be distributed to different container-side joints.

If the second door-side joint comprises only one joint, at least two second container-side joints can be arranged such that a position of a perpendicular projection of the exactly one second door-side joint is arranged on the second container-side pivot axis defined second container side axis of rotation along the second container side axis of rotation between two of the at least two second container side joints, preferably centrally. Furthermore, at least two of the at least two first door-side joints in this case can each have an identical distance from the exactly one second door-side joint. By such a symmetrical arrangement of forces to be absorbed by the storage can be distributed substantially uniformly on the second container side joints.

In one embodiment, at least one of the at least one first container-side joint may comprise a ball joint. It is also possible for a plurality of the at least one first container-side joint to comprise a ball joint. As a result, the oven door can receive further degrees of freedom, which can allow automatic door alignment by tumbling. Act no driving forces on the door, the door can self-align until it remains in a rest position. In the rest position, a balance of power has typically set and the door is located with its sealing surface on the door bearing surface.

The oven may further comprise a locking device for locking the door in an open state of the door and / or in a closed state of the door. This ensures that the door is securely anchored while a person cleans the door or while cleaning the oven interior.

As described above, the door can apply sufficient sealing force to the door abutment surface surrounding the container opening only by virtue of its weight force, so that the container opening is sufficiently sealed in the closed position of the door. The oven may additionally or alternatively also include a drive for moving the door from the open state to the closed state and / or vice versa. By a driving force, the door can be moved. In addition, the drive may apply a force in the direction of the door abutment surface, preferably perpendicular to the door abutment surface, on the door when the door is already in the closed position is, so that a sealing effect is increased. The drive can support, for example, only one opening or closing movement. The drive may comprise, for example, an electric motor and a cable winch connected thereto, wherein the door can be pulled up or down on the reel by winding or unwinding a chain or steel cable. The drive can also be realized in the form of an actuator, which is integrated, for example, in the second coupling arm.

Exemplary embodiments of the invention are explained below with reference to figures.

Fig. 1

einen Ausschnitt eines Ofens in einer perspektivischen Ansicht mit einer Tür in einer geöffneten Position,

Fig. 2

einen Ausschnitt des Ofens der Figur 1 in perspektivischer Ansicht mit einer Tür in einer geschlossenen Position,

Fig. 3

eine schematische Ansicht eines viergliedrigen Koppelgetriebes,

Fig. 4

eine schematische Vorderansicht auf eine Tür mit einer ersten und einer zweiten Kopplungsvorrichtung und

Fig. 5

eine schematische Seitenansicht einer Tür mit einer ersten und einer zweiten Kopplungsvorrichtung.

Show it:

Fig. 1

a detail of a furnace in a perspective view with a door in an open position,

Fig. 2

a section of the stove FIG. 1 in perspective view with a door in a closed position,

Fig. 3

a schematic view of a four-link linkage,

Fig. 4

a schematic front view of a door with a first and a second coupling device and

Fig. 5

a schematic side view of a door with a first and a second coupling device.

The Figures 1 and 2 each show a section of a furnace 1, for example for melting metal, in a perspective view. The furnace has a container 2 for receiving a molten metal. The container 2 has an opening 3. The oven further comprises a door 4 adapted to open and close the opening 3. On the door 4, two first door-side joints 5 and 5 'are arranged, which are fixed relative to the door 4. The joints 5, 5 'are designed here as hinges and define a first door-side axis of rotation 5d. Exactly a second door-side joint 6 is fixed relative to the door 4 and spaced from the axis of rotation 5d. That's exactly one second door-side joint 6 is formed, for example, as a ball joint and defines a pivot point 6d. In alternative embodiments, it is also conceivable that, instead of the exactly one second door-side joint shown here, two or more second door-side joints are fixedly arranged on the door. These can then define a second door-side axis of rotation, the z. B. is aligned parallel to the first door-side axis of rotation 5d.

A first coupling device 7 connects the door 4 movably to the container 2 via the two first door-side joints 5 and 5 '. A second coupling device 8 movably connects the container 2 via the exactly one door-side joint 6 to the door 4. Two first container-side joints 9 and 9 'are fixed relative to the container 2. The first container-side joints 9 and 9 'are formed here, for example, as ball joints. Two second container-side joints 10 and 10 'are arranged relative to the container 2 fixed. (The container-side joints 9 'and 10, are in FIG. 1 not visible in FIG. 2 However, clearly visible.) The second container-side joint 10 is spaced from the first container-side hinge 9. For example, the joint is disposed along the vertical above the hinge 9.

The first coupling device 7 has first coupling arms 7 'and 7 "The coupling arm 7' rigidly connects the first door-side hinge 5 'to the first container-side hinge 9'." The coupling arm 7 "rigidly connects the first door-side hinge 5 to the first container-side hinge 9. The second coupling device 8 has a second coupling arm 8 'which connects the exactly one second door-side joint 6 rigidly with the container-side joints 10 and 10'. The second coupling arm 8 'is designed as a steel bracket. The two first tank-side joints 9 and 9 'define a first tank-side rotation axis 9d. The two second tank-side joints 10 and 10 'define a second tank-side rotation axis 10d. The door-side rotation axis 5d and the container-side rotation axes 9d and 10d are aligned in pairs in parallel, e.g. at least in a construction situation.

In the example shown, a first distance a1 between the first container-side rotation axis 9d and the first door-side rotation axis 5d describes in each case a length of the first coupling arms 7 ", 7. 'The first distance a1 is, for example 45 cm. A second distance a2 between the second container-side rotation axis 10d and the pivot point defined by the exactly one second door-side joint 6 is here, in contrast, z. B. only 30 cm. The first distance a1 defined by the first coupling arms 7 'and 7 "is therefore greater than the second distance a2 in the exemplary embodiment shown here, with the result that an opening angle α between a container-side plane and the container-side rotation axes 9d and 10d is spanned, and a door-side plane, which is spanned by the first door-side pivot axis 5d and defined by the exactly one door-side hinge 6 door-side pivot point 6d increases when opening the door 4. Instead of said door-side plane, the angle α door side also be defined by a straight line that perpendicularly intersects the door-side rotation axis 5d and passes through the pivot point defined by the exactly one second door-side hinge 6. In a closed position in which the door 4 closes the opening 3, the angle is α1, for example, 20 °, and in an open position, in which the door 4, the Öff 3, the angle α2 is for example 30 °, as in FIG FIG. 5 is clearly visible. Characterized in that the first coupling arms 7 'and 7 "are formed longer than the second distance a2, the door can thus be particularly well viewed and cleaned from one of the opening 3 side facing.

The first coupling device 7 and the second coupling device 8 each have, for example, an adjusting device. In this case, for example, in each case a turnbuckle is integrated on the first coupling arms 7 ', 7 ", so that the first coupling arms 7' and 7" can each be adapted independently of one another in terms of their length. Between the second coupling arm 8 'and the second door-side joint 6, a further adjusting device may be arranged such that the second distance a2 is adaptable by the further adjusting device.

Alternatively or in addition to the adjusting device, the oven 1, in particular the first and / or the second coupling device 7, 8 comprise a spring device, which gives the door 4 an additional self-sealing degree of freedom. This can reduce the need for adjustment, since the door 4 can take over the effect of length adjustment within the structurally possible spring travel.

The second door-side joint 6 is arranged exactly in the vertical door center plane in the embodiment shown here. On the door body attacks at least one chain, which can be rolled up and unrolled by means of a reel 11. The reel 11 is driven by an electric motor 12. By rolling up and unrolling the chain from the reel, the door is either raised so that the door 4 releases the opening 3 or the door 4 is lowered so that the opening 3 is closed. The door 4 can be locked in any position between an open and a closed position. The door 4 can also be driven otherwise, for example via actuators, which form the second coupling arm 8 'or are encompassed by it.

FIG. 3 schematically shows a coupling gear. The coupling mechanism shown essentially corresponds to the coupling mechanism for moving the door 4 of Figures 1 and 2 , The door 4 is hingedly connected to the container 2 via the first door-side joint, via the first coupling device 7 and via the first container-side joint 9. Furthermore, the door 4 is connected to the container 2 via the second door-side joint 6, via the second coupling device 8 and via the second container-side joint 10. The distances a1 and a2 are in FIG. 3 Simplified shown with identical length. The distances a1 and a2 of Figures 1 and 2 are different.

The FIG. 4 shows a schematic view of a door system, the door system of Figures 1 and 2 equivalent.

Claims (15)

Furnace (1), in particular for melting metal, comprising: a container (2) having an opening (3) for receiving a melt; a door (4) for closing and opening the opening (3); at least two first door-side joints (5, 5 ') fixed relative to the door (4); at least one second door-side hinge (6) fixed relative to the door (4); a first coupling device (7) movably connecting the door (4) to the container (2) via the first door-side joints (5, 5 '); and a second coupling device (8) movably connecting the door (4) to the container (2) via the at least one second door-side hinge (6). Oven (1) according to claim 1, characterized in that the at least one second door-side hinge (6) is spaced from a defined by the at least two first door-side joints straight line and that the at least one second door-side hinge for reducing mechanical stresses exactly a second door-side joint (6). Oven (1) according to claim 1 or 2, characterized in that the at least two first door-side joints (5, 5 ') define a first door-side rotation axis (5d). Oven (1) according to one of claims 1 to 3, characterized by
at least a first container-side joint (9) which is fixed relative to the container (2); and
at least a second container-side hinge (10) fixed relative to the container (2);
wherein the first coupling device (7) has at least one first coupling arm (7 ', 7 "), in each case rigidly connecting at least one of the first door-side joints (5, 5') with at least one of the at least one first container-side joint (9, 9 '). connects; and
wherein the second coupling device comprises a second coupling arm (8 ') rigidly connecting the at least one second door-side hinge (6) to the at least one second tank-side hinge (10, 10'). Oven (1) according to claim 3 and 4, characterized in that
the at least one second door-side joint (6) defines a second door-side rotation axis (6d) or a door-side rotation point;
the at least one first container-side joint (9) defines a first container-side rotation axis (9d); and
the at least one second container-side joint (10) defines a second container-side rotation axis (10d);
wherein the first door-side joints (5, 5 '), the at least one second door-side joint (6), the at least one first container-side joint (9, 9') and the at least one second container-side joint (10, 10 ') arranged in such and are formed such that the first door-side rotation axis (5d), the first container-side rotation axis (9d), and the second container-side rotation axis (10d) and preferably the second door-side rotation axis (6d) are aligned substantially in pairs parallel to each other. Oven (1) according to claim 5, characterized in that the first coupling device (7) and the second coupling device (8) are formed such that a by the first coupling device (7) defined first distance (a1) between the first door-side axis of rotation ( 5d) and the first container-side rotation axis (9d) is different from a second distance (a2) defined by the second coupling device (8) between the second door-side rotation axis and the door-side rotation point (6d) and the second container-side rotation axis (10d), and Although in such a way that an opening angle (α) between a door-side plane spanned by the door-side axes of rotation (5d, 6d) or standing between a perpendicular on the first door-side axis of rotation and by the - defined by the exact second door-side joint - pivot point Straights and a container-side plane defined by the container-side pivot axes (9d, 10d) when the door (4) moves from a closed position in which the door (4) closes the opening (3) of the container (2) to an open position, in which the door (4) at least partially releases the opening (3) of the container (2), in particular in order to facilitate inspection of the inside of the door and its cleaning in the open position. Oven (1) according to claim 5 or 6, characterized in that the first coupling device (7) comprises a first adjusting device for changing the first distance (a1) and / or that the second coupling device (8) comprises a second adjusting device for changing the second distance (a2). Oven (1) according to one of the preceding claims, characterized
in that the first coupling device (7) and / or the second coupling device (8) comprises one, preferably one, spring device. Oven (1) according to one of claims 4 to 8 ", characterized in that the at least one second container-side joint (10) comprises at least two joints. Furnace (1) according to claim 9, if appended to claim 2, characterized in that the at least one second door-side hinge (6) and the at least two second tank-side hinges (10, 10 ') are arranged such that a position of a perpendicular projection of the exactly one second door-side joint (6) onto the second container-side rotation axis (10d) defined by the second container-side joints (10, 10 ') along the second container-side rotation axis (10d) between two of the at least two second container-side joints (10, 10 ') is arranged, preferably in the middle. Oven (1) according to claim 5 or any one of claims 6 to 10, when dependent on claim 5, characterized in that the door-side (5, 5 ', 6) and container-side joints (9, 9', 10, 10 ') formed in such a way and arranged, in a closed position in which the door (4) closes the container opening (3), one of the first door-side rotation axis (5d) and from the first container-side rotation axis (9d) plane and one of the second door-side Axis of rotation or of which by the precisely a second door-side joint defined pivot point (6d) and of the second container-side axis of rotation (10d) spanned plane are aligned parallel. Furnace (1) according to claim 4 or any one of claims 6 to 11, as far as dependent on claim 4, characterized in that at least one of the at least one first container-side hinge (9, 9 ') comprises a ball joint. Furnace (1) according to claim 2 or any one of claims 3 to 12, when appended to claim 2, characterized in that at least two of the at least two first door-side joints (5, 5 ') each have an identical distance from the exactly one second door-side Have joint (6). Oven (1) according to one of the preceding claims, characterized by a locking device for locking the door (4) in an open state and / or in a closed state. Oven (1) according to one of the preceding claims, characterized by a drive (12) for moving the door (4) from an open position to a closed position and / or vice versa.

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