EP2402542B1 - Door system - Google Patents

Description

The invention relates to a door system according to the preamble of patent claim 1.

From the DE-OS 23 19 399 is a door system with at least one movably mounted door known. A sealing device is provided for sealing the door leaf with respect to an adjacent component of the door system, wherein the sealing device has at least one sealing strip movable between a sealing position and a non-sealing position. The sealing device also has at least one first, arranged on the sealing strip and the sealing strip depending on the position of the door leaf moving magnet. The sealing strip, which is arranged sunk in the ground, is raised by the attractive force of a second, arranged in the door magnet when the door is above the sealing strip, for example in the closed position of the door leaf. When the door leaf is again moved out of this sealing position, the magnets also come out of their attractive force, and the sealing strip falls back into its lowered position due to the action of gravity. To release the attractive force of the magnets, a high expenditure of force is required, since the high static friction of the magnetically attracted to the door sill edge sealing strip must be overcome. Especially with manually operated door, this has a negative effect on the comfort of the door system. But even with automatic door systems, this effect may be undesirable because a higher drive power must be installed, as would actually be required for the movement of the door leaf. Furthermore, the sealing strip may jam before reaching its sunk in the ground position and thus represent a trip hazard.

Other door systems of a similar kind with a sealing device having magnets, is from the JP H11 315670 A and from the DE 20 29 917 A1 known.

The invention has for its object to provide a door system whose door has a functionally reliable at low operating forces sealing device.

The object is solved by the features of patent claim 1.

The subclaims form advantageous embodiments of the invention.

According to the invention, the first magnet interacts with at least one second magnet arranged on the door leaf, wherein the second magnet is rotatably mounted on the door leaf, whereby the sealing strip is acted upon in its non-sealing or in its sealing position, depending on the rotational position of the second magnet , This arrangement has low operating forces on a high reliability.

The axis of rotation of the second magnet is arranged parallel to the longitudinal axis of the sealing strip.

In a preferred embodiment, the second magnet is a bar magnet, i. formed with a cylindrical cross section, wherein the one half of the cylinder is designed as a north pole and the other half of the cylinder as a south pole. The first magnet is formed on its surface facing the second magnet, adapted to the cross section of the second magnet, i. as half shell with concave cross section. As a result, an optimal interaction of the two magnets is achieved with the least possible distance.

In order to prevent direct contact of the magnets, a spacer element can be arranged between the first magnet and the second magnet. The spacer element is advantageously formed at least on its outer surfaces of a material having a low coefficient of friction. This ensures that the rotatable magnet with respect to the first magnet can be rotated with little effort when the magnets are in attractive force to each other.

The sealing device has at least one actuating element, which projects beyond the extension of the door leaf, at least in the non-sealing position of the sealing strip. This makes it possible to dispense with bottom-side sealing elements, as disadvantageously present in the prior art.

The actuating element is operatively connected via a gear with the second magnet, so that a displacement of the actuating element causes a rotation of the second magnet. To restore the raised basic position of the sealing strip, the second, rotatable magnet is provided with a return device, e.g. a spring operatively connected, which rotates after lifting the application of the actuating element, the rotatable magnet back to its normal position. The restoring device can act on the second magnet or on the actuating element or be integrated in the transmission.

In order to further increase the force of the loading of the sealing strip against the building floor, at least a third magnet can be arranged on the door, wherein the second, rotatably mounted magnet between the first, arranged on the sealing strip magnet and the third magnet is arranged. Here, the axis of rotation of the second magnet in the plane of the door leaf can be displaced vertically, so that there is a "floating" storage of the second magnet. Between the output shaft of the gearbox and the axis of rotation of the magnet an articulated power transmission is to be provided, e.g. a cardan drive to compensate for the misalignment of the axes. Also, the third magnet may be formed on its surface facing the second magnet adapted to the cross section of the second magnet, e.g. as half shell with concave cross section.

All magnets described may be arranged at least in sections along the longitudinal extent of the sealing strip, for example in the end regions of the sealing strip. Alternatively, the magnets can also be arranged along the entire longitudinal extent of the sealing strip.

The door system can be designed, for example, as a sliding door system, revolving door system or the like.

In the following, exemplary embodiments are explained in more detail in the drawing with reference to FIGS.

Fig. 1a

eine Frontansicht einer erfindungsgemäßen Türanlage, bei Offenlage des Türflügels;

Fig. 1b

eine Darstellung gemäß Fig. 1 a, jedoch bei Geschlossenlage des Türflügels;

Fig. 2a

den unteren Randbereich der Türanlage gemäß Fig. 1 in einem ersten Betriebszustand einer Ausführungsform, die nicht Bestandteil der Erfindung ist;

Fig. 2b

eine Darstellung gemäß Fig. 2a, jedoch in einem zweiten Betriebszustand;

Fig. 3a

eine Schnittdarstellung entlang Linie X-X aus Fig. 2a;

Fig. 3b

eine Darstellung gemäß Fig. 3a, jedoch in einem zweiten Betriebszustand;

Fig. 4a

eine Schnittdarstellung eines abgewandelten Ausführungsbeispiels , das Bestandteil der Erfindung ist, in einem ersten Betriebszustand;

Fig. 4b

eine Darstellung gemäß Fig. 4a, jedoch in einem zweiten Betriebszustand.

Showing:

Fig. 1a

a front view of a door system according to the invention, in the open position of the door leaf;

Fig. 1b

a representation according to Fig. 1 a , but in the closed position of the door leaf;

Fig. 2a

the lower edge area of the door system according to Fig. 1 in a first operating state of an embodiment which does not form part of the invention;

Fig. 2b

a representation according to Fig. 2a but in a second operating condition;

Fig. 3a

a sectional view taken along line XX Fig. 2a ;

Fig. 3b

a representation according to Fig. 3a but in a second operating condition;

Fig. 4a

a sectional view of a modified embodiment, which is part of the invention, in a first operating state;

Fig. 4b

a representation according to Fig. 4a but in a second operating state.

In the Fig. 1a and 1b is designed as a sliding door system door system 1 is shown in front view in the open position or in the closed position of the door leaf 2. Trained as a sliding leaf door 2 is slidably mounted along a fixedly arranged on a building ceiling 9 guide rail 8 via a guide means 5. The closable by the door 2 passage area of the door system 1 is bounded laterally by building walls 10. The guide device 5 has two roller carriages 6 with rollers 7, which roll in the guide rail 8. The suspended on the guide device 5 door 2 has a circumferential profile 3. A mounted on the profile grip device 4 is used for manual operation of the door leaf 2. Alternatively or In addition, a power-operated displacement of the door leaf 2 by a drive device is conceivable. In the area of the building floor 13, the door leaf 2 can likewise have a guide device, which can serve for the bottom-side guide and / or locking, but is not shown here. Furthermore, the door leaf 2 in the region of the building floor 13 has a sealing device 11 which serves to seal the bottom-side horizontal lower edge of the door leaf 2 with respect to the building floor 13 in the closed position of the door leaf 2. The sealing device 11 has for this purpose a movable sealing strip 12.

In the position according to Fig. 1 a is the door 2 in full open position, and accordingly, the sealing strip 12 of the sealing device 11 is in a raised position, so that between the lower edge of the sealing strip 12 and the surface of the building floor 13, a small gap remains, which unimpeded movement of the door leaf 2 allowed.

In the position according to Fig. 1b is the door leaf 2 in the fully closed position, and accordingly, the sealing strip 12 of the sealing device 11 is in the lowered position, so that the lower edge of the sealing strip 12 sealingly rests on the surface of the building floor 13. The lowering or raising the sealing strip 12 is carried out depending on the position of the door leaf 2 and will be described in more detail below.

In the Fig. 2a and 2b the lower, the sealing device 11 receiving portion of the door leaf 2 is shown in two operating states. The profile 3 of the door leaf 2 has in its essential extent a surface area 3 a, which can surround a plate-shaped component, for example a glass pane. At the lower horizontal edge of the door leaf 2, the profile 3 has a receiving region 3b, which can be designed as a downwardly open groove and accommodates the components of the sealing device 11. In the receiving area 3b, the sealing strip 12 is mounted vertically displaceable. The sealing strip 12 carries at the top a first magnet 14, one of which, in the drawing upper half as the south pole 14s and the other, in the drawing lower half than North pole 14n is formed. Furthermore, the sealing strip 12 has a flexible sealing element 12a, for example a sealing rubber, which is preferably U-shaped and seals the entire opening of the receiving region 3b including the sealing strip 12 tightly. In this case, the sealing element must be dimensioned in terms of its dimensions and / or flexibility so that it allows the entire path of movement of the sealing strip 12 from the fully retracted to the fully extended position without significant mechanical resistance. The actuation of the sealing strip 12 via a trained as a plunger actuator 18. In the movement of the door leaf 2, the actuator 18 comes with an adjacent component of the door system 1, for example, not shown, adjacent door or a fixed building wall 10, in the plant when the Door leaf 2 enters the position in which the sealing strip 12 is to be moved from its non-sealing position to its sealing position, for example in the closed position of the door leaf 2. A continuation of the movement of the door leaf 2 causes an insertion of the actuating element 18 in the receiving area 3b of the door leaf 2, where a gear 19 is arranged, which converts the linear movement of the actuating element 18 into a rotational movement. The rotary shaft of the transmission 19 is aligned parallel to the longitudinal axis of the sealing strip 12 and rotatably carries a second, rotatable, cylindrical magnet 15, whose one, in the drawing upper half of the cylinder as the south pole 15s and the other, formed in the drawing lower half of the cylinder as the north pole 15n is. To restore the raised basic position of the sealing strip 12 of the rotatable magnet 15 is operatively connected to a restoring device, not shown here, for example, a spring which rotates after the elimination of the application of the actuating element 18, the rotatable magnet 15 in its normal position. The restoring device can act on the rotatable magnet 15 or on the actuating element 18 or be integrated in the gear 19.

The Fig. 2a shows a first operating state of an embodiment which is not part of the invention, in which the door leaf 2 is in the partially open position and is moved in the closing direction (arrow A). The south pole 14s of the arranged on the sealing strip 12 magnet 14 is the North pole 15n of the arranged on the door leaf 2, rotatable magnet 15 opposite, so that the sealing strip 12 is held by this attractive force in the raised position.

The Fig. 2b shows a second operating state in which the door leaf 2 has reached its closed position. By approaching the building wall 10, the actuating element 18 is pushed into the receiving area 3b of the profile 3 of the door leaf 2 (arrow B). Via the gear 19, this linear movement of the actuating element 18 is converted into a rotation of the rotatable magnet 15 by 180 ° (arrow C). As a result, the orientation of the poles of the rotatable magnet 15 was reversed, so that now the north pole 15n is oriented upward and the south pole 15s downward. Since now the poles of the same name of the magnets 14, 15 are opposite, the sealing strip 12 is acted upon by this repulsive force against the building floor 13 (arrow D).

The Fig. 3a and 3b show in sectional view the lower, the sealing device 11 receiving area of the door leaf 2 in two operating states. This sectional plane corresponds to the line XX of Fig. 2a ,

In the operating state according to Fig. 3a is the sealing strip 12, which is formed in this embodiment in one piece with the first magnet 14 and the bottom and laterally enclosed by a U-shaped sealing member 12a, in the raised position. In the receiving area 3b of the profile 3 of the door leaf 2, a receiving profile 17 is mounted with a guide element 20 which surrounds the rotatable magnet 15 at the top with a small gap. At its front ends, which lie in other sectional planes, the rotatable magnet 15 can be mounted on the guide element 20 via pivot bearings. Below the rotatable magnet 15 of the integrally formed with the sealing strip 12 magnet 14 is arranged, the rotatable magnet 15 directed surface is concave, so that the magnets 14, 15, which are in attractive force to each other, with a small gap, only with an intermediate layer a spacer element 21 shown here in dashed lines, abut each other. The spacer 21 is at least on its outer surfaces of a material designed with low coefficient of friction. This ensures that the rotatable magnet 15 can be rotated with respect to the first magnet 14 with little effort. when the magnets 14, 15 are in an attractive force to each other. In a different, not shown embodiment, a spacer element 21 may optionally be omitted if, for example, the guide member 20 and / or the sealing strip 12 are formed so that the sealing strip 12 in its fully retracted position with the guide member 20 comes into abutment between the rotatable magnet 15 and the sealing strip 12 associated magnet 14 an at least small gap remains.

In the operating state according to Fig. 3b is the sealing strip 12 in lowered, acted upon the building floor 13 position. The rotatable magnet 15 was rotated by inserting the actuator 18 by 180 ° (arrow E). Thus, the south pole 15s of the rotatable magnet 15 now faces the south pole 14s of the magnet 14 of the sealing strip 12, as a result of which the sealing strip 12 is applied in a repulsive manner downwards against the building floor 13 (arrow F).

A subsequent, not shown here opening movement of the door leaf 2 leads to a reverse movement of the sealing device 11, in which case the rotatable magnet 15 is rotated by the return means by 180 ° back and then again down north pole 15n the south pole 14s of the first magnet 14 attracts ,

The Fig. 4a and 4b show in sectional view the lower portion of the door leaf 2, which is a formed according to a modified embodiment, which is part of the invention, formed sealing device 11, in two operating states.

In the operating state according to Fig. 4a is the sealing strip 12, which is formed integrally with the first magnet 14 in this embodiment and the bottom and laterally enclosed by a U-shaped sealing element 12a, in the raised position. In the receiving area 3b of the profile 3 of the door leaf 2, a receiving profile 17 is mounted with a third magnet 16, which surrounds the rotatable magnet 15 at the top with a small gap. At its front ends, which lie in other sectional planes, the rotatable magnet 15 is mounted on the door leaf 2 via pivot bearings, wherein the pivot bearings in the plane of the door leaf 2 are vertically displaceable. Both the third magnet 16 and the first, integral with the sealing strip 12 magnet 14 are formed on their the rotatable magnet 15 facing sides with concave surfaces, so that the magnets 14, 15, 16, which are in attractive force to each other, with little Gap, only with the interposition of the spacer element 21, abut each other, since in this operating state, all the magnets 14, 15, 16 are aligned with overhead south pole 14s, 15s, 16s and bottom north pole 14n, 15n, 16n and thus are mutually in attractive force.

In the operating state according to Fig. 4b is the sealing strip 12 in lowered, acted upon the building floor 13 position. The rotatable magnet 15 was rotated by inserting the actuator 18 by 180 ° (arrow G). Thus, the north pole 15n of the rotatable magnet 15 now faces the north pole 16n of the magnet 16 fixedly mounted in the door leaf, whereby the rotatable magnet 15 is applied in a repulsive manner downward. Since the pivot bearing of the rotatable magnet 15 are vertically displaceable, this is displaced downwards (arrow H). Since, moreover, the south pole 15s of the rotatable magnet 15 is now opposite the south pole 14s of the magnet 14 of the sealing strip 12, the sealing strip 12 is applied in a repulsive manner downwards against the building floor 13 (arrow I). The rotatable magnet 15 now "floats" between the other two magnets 14, 16.

A subsequent, not shown here, opening movement of the door leaf 2 leads to a reverse movement of the sealing device 11, in which case the rotatable magnet 15 is rotated by the return means by 180 ° back and then upstanding south pole 15s from the north pole 16n of the door in the second firmly arranged magnet 16 is tightened and the north pole then again down 15n the south pole 14s of the first magnet 14 attracts.

List of reference characters

1

door system

2

door

3

profile

3a

area

3b

reception area

4

handle means

5

guide means

6

roller carriage

7

caster

8th

guide rail

9

building ceiling

10

building wall

11

seal means

12

sealing strip

12a

sealing element

13

building floor

14

magnet

14n

North Pole

14s

South Pole

15

magnet

15n

North Pole

15s

South Pole

16

magnet

16n

North Pole

16s

South Pole

17

Up profile

18

actuator

19

transmission

20

guide element

21

spacer

Claims (8)

1. Door system (1) having at least one movably mounted door leaf (2), and having a sealing device (11) for sealing the door leaf (2) in relation to an adjacent structural part of the door system (1), wherein the sealing device (11) has at least one sealing strip (12), which can be moved between a sealing position and a non-sealing position, and wherein the sealing device (11) has at least one first magnet (14), which is arranged on the sealing strip (12) and moves the sealing strip (12) in dependence on the position of the door leaf (2),
   wherein the first magnet (14) interacts with at least one second magnet (15), which is arranged on the door leaf (2),
   wherein the second magnet (15) is mounted in a rotatable manner on the door leaf (2), as a result of which the sealing strip (12), in dependence on the rotary position of the second magnet (15), is forced into its non-sealing or into its sealing position, wherein at least one third magnet (16) is arranged on the door leaf (2),
   characterized
   in that the second, rotatably mounted magnet (15) is arranged between the first magnet (14), which is arranged on the sealing strip (12), and the third magnet (16), and
   in that the axis of rotation of the second magnet (15) can be displaced in the plane of the door leaf (2).
2. Door system according to Claim 1,
   characterized in that the axis of rotation of the second magnet (15) is arranged parallel to the longitudinal axis of the sealing strip (12).
3. Door system according to Claim 1,
   characterized in that the second magnet (15) has a cylindrical cross section, wherein the one cylinder half is designed in the form of a north pole (15n) and the other cylinder half is designed in the form of a south pole (15s).
4. Door system according to Claim 1,
   characterized in that the first magnet (14), on its surface which is directed towards the second magnet (15), is designed in adaptation to the cross section of the second magnet (15).
5. Door system according to Claim 1,
   characterized in that a spacer element (21) is arranged between the first magnet (14) and the second magnet (15).
6. Door system according to Claim 1,
   characterized in that the sealing device (11) has at least one actuating element (18), which, at least in the non-sealing position of the sealing strip (12), projects beyond the extent of the door leaf (2).
7. Door system according to Claim 6,
   characterized in that the actuating element (18) is operatively connected to the second magnet (15) via a gear mechanism (19), and therefore displacement of the actuating element (18) causes the second magnet (15) to rotate.
8. Door system according to Claim 1,
   characterized in that the third magnet (16), on its surface which is directed towards the second magnet (15), is designed in adaptation to the cross section of the second magnet (15).

Images