EP3452680B1 - Sealing device - Google Patents

Description

TECHNICAL AREA

The present invention relates to a sealing device for actuating a lowering seal and a sliding door with such a sealing device.

STATE OF THE ART

Drop-down seals are used to seal doors and windows. They prevent the passage of light and offer soundproofing and protection against drafts and smoke. In the case of exterior doors, they also serve as splash protection in the rain and, depending on the design, can also protect against flooding.

Lowerable door and window seals usually consist essentially of a housing in the form of a downwardly open, hat-shaped or U-shaped profile rail, a sealing strip with a sealing profile that can be raised and lowered in this housing and an actuating mechanism for raising and lowering the sealing strip. In proven drop-down seals, the actuating mechanism has leaf springs which are fastened at a first point on the housing, at a second point on the sealing strip and at a third point on a slide. The slide usually merges into an actuating button which protrudes from the housing on one or both sides. When the door is closed, the actuation button on the door frame is pressed in and the sealing strip is automatically lowered against the spring force of the leaf springs and pressed against the floor to form a seal. When the door is opened, the actuation button is released again and the sealing strip is automatically raised. Other types of actuation mechanisms are known, such as lever assemblies. Such Door seals are made for example EP 0 338 974 , DE 299 16 090 U and EP 0 509 961 known. EP 2 085 559 discloses an automatically lowerable sealing device in which the lowering mechanism is activated by the application of a lateral force.

EP 2 476 857 discloses a drop down seal for sliding doors. The lowering seal is designed as described above and has an actuating button protruding from the seal housing. In the area of the secondary closing edge, the door frame has a stop element with a downward sloping inclined surface and a rectilinear receiving pocket. When the door leaf is closed, a first roller attached to the door leaf runs along this inclined surface and pulls a spring-loaded slide downwards. A second roller arranged on the slide presses a lever onto the actuation button, which thereby activates the actuation mechanism and lowers the sealing strip. When the door leaf is closed further, the first roll enters the receiving pocket and the lowering movement is stopped. The door leaf is completely closed in this state. Thanks to the receiving pocket, the drop-down seal remains in the closed position without the need for any further blocking devices. Only when the door leaf is opened is the roller removed from the receiving pocket, which enables the sealing strip to be raised automatically. This arrangement has the disadvantage that the user has to exert a relatively large amount of force when closing the door, because the slide must be lowered against the spring force and the resistance of the lever pressing on the actuating button. Another disadvantage is that when the door is opened, the automatic lifting of the slide leads to the door opening automatically and the user therefore not maintaining full control during the opening process. Another disadvantage is that the slide is arranged behind the lowering seal in the running direction of the sliding door, so that the sealing strip has to be shortened and cannot seal completely in the area of the secondary closing edge. Furthermore, the end position allows little play, so that precise guidance of the door leaf and precise positioning of all elements are essential.

Drop-down seals with an actuation button that can be activated on the front have proven themselves in practice for pivoting door leaves. The power transmission ratio when closing the door leaf is already around 1:30 without any further mechanisms, so that the Actuating button can be pressed in without any noticeable effort when closing the door leaf. The use of such drop-down seals for sliding doors is more problematic, since the power transmission to the actuating button is only 1: 1 and therefore more force has to be used to also push in the actuating button when the door leaf is closed.

DISCLOSURE OF THE INVENTION

It is therefore an object of the invention to provide an improved sealing device for sliding doors.

This object is achieved by a sealing device with the features of claim 1.

The inventive sealing device of a sliding door with a displaceably mounted door leaf has a lowering seal with a sealing strip and with a lowering mechanism for automatically lowering and raising the sealing strip. The lowering takes place against a restoring force. Furthermore, the sealing device has an activation unit for activating the lowering seal, the activation unit having a supporting surface directed upwards in the lowering direction and a supporting element which rests on this supporting surface when the door leaf is closed and thereby actuates the lowering seal.

When it rests on this bearing surface, the support element preferably actuates the lowering seal by actuating the lowering mechanism.

The upwardly directed support surface has the advantage that the weight of the door leaf partially or completely presses on the support element. A person who closes the sliding door has to use relatively little or no additional force to lower the sealing strip. Despite the drop-down seal, the sliding door can be closed with little effort.

The support element is preferably connected or operatively connected to the lowering mechanism. It can also be part of the lowering mechanism itself.

The support surface and support element are preferably designed in such a way that when the door leaf is closed, an upward force is obtained which is deflected in such a way that it acts on the actuating mechanism.

The support surface is preferably a run-on surface and the support element is a run-on element which, resting on the run-on surface, runs along the latter. The ramp surface is preferably a sliding surface and the ramp element is a sliding element. Instead of a sliding element, rollers or other suitable means for a relative movement between the support surface and the support element can also be attached. Instead of a longitudinal movement, the support surface can also be used to simply raise the support element in order to actuate the lowering seal, in particular the lowering mechanism.

The arrangement according to the invention is preferably arranged on the side of the secondary closing edge of the sliding door. However, it can also be arranged on the main closing edge.

The activation unit, like the lowering mechanism, preferably consists exclusively of mechanical means and preferably does not include any magnets and / or electric motors and / or sensors.

Since the support surface can be arranged next to the drop-down seal in the sliding direction and since it is also possible to fasten the support element at the front in the upper area of the drop-down seal, the sealing strip can extend over the entire length of the door leaf and can therefore provide an optimal seal.

The activation unit is preferably designed such that it holds the sealing strip in a lowered position without the restoring force influencing a sliding movement of the door leaf in the longitudinal direction of the sealing strip. This means that no additional blocking mechanisms are necessary to keep the door leaf in its closed position.

Furthermore, the restoring force of the drop-down seal prevents complete closing the sliding door does not. Because of their great weight, many sliding doors have a braking mechanism which brakes the closing movement of the door leaf shortly before the fully closed position is reached. This prevents fingers or other parts of the body from becoming too tight. In preferred embodiments of the invention, this braking mechanism should not be influenced by the restoring force of the lowering seal or by the force required to lower the seal. In addition or as an alternative, it should not have to be expended even more force to close the door. In these embodiments, the lowering seal can therefore be completely lowered even before the fully closed position has been reached and can be held in this position without the need for additional external force. As the closing movement continues, the sealing strip rubs across the floor, but only over a short distance.

This "zero force position" can be achieved in various ways. There is preferably a position of the support or sliding element on the support surface or the sliding surface, in which position the sealing strip is completely lowered and in which position the restoring force acting on the sealing strip is deflected in a direction perpendicular to the longitudinal direction of the sealing strip.

The bearing surface or the sliding surface preferably runs at least partially in the longitudinal direction of the lowering seal in an inclined direction, preferably running from bottom to top in the closing direction of the door leaf. The slope can be constant or changing. The force that has to be applied to lower the sealing strip can be set by means of the slope. It is thus possible to select power transmission ratios in order to optimize the power to be used.

The support surface or the sliding surface preferably has a horizontally extending section on which the support or the sliding element rests in order to hold the sealing strip in the lowered position. The horizontal section preferably adjoins the inclined section. The door leaf can be closed completely by first moving the support element or sliding element up along the inclined surface and thereby lowering the sealing strip and then moving along the horizontal surface with the sealing strip lowered until the door leaf is at the Door frame is on the side.

In one embodiment, the bearing surface or the sliding surface has a recess in which the bearing or the sliding element rests in order to hold the sealing strip in the lowered position. The recess can be arranged, for example, in the inclined surface or in the horizontal surface.

As an alternative or in addition, the horizontal surface can also be followed by a counter-inclined surface which is equally inclined or has a different incline than the inclined surface. In the lowered position of the sealing strip, the support element preferably reaches this counter-inclined surface, so that the restoring force acting on the sealing strip makes a contribution to the complete closure of the door leaf.

The support surface and the support element preferably move relative to one another. The support surface or the sliding surface is preferably arranged in a stationary manner. This means that the support surface is, for example, fixed in position in the door frame or in the wall or on the floor, i.e. it is stationary. The support element is preferably movable, in particular displaceable, in the longitudinal direction together with the lowering seal. It is preferably fastened together with this in or on the sliding door leaf.

The support element is preferably firmly connected to the drop-down seal and the support surface is formed in a module that is separate from the drop-down seal.

The upwardly directed contact surface enables a variety of mechanisms to transmit the triggering force to the actuating mechanism of the drop-down seal. Thus, the same basic principle can be applied to the most varied types of drop-down seals.

In preferred embodiments, the lowering mechanism of the lowering seal has an actuation button which activates the lowering mechanism by the action of an external force. The support element preferably acts directly or indirectly on this actuating button and thereby lowers the sealing strip. Since many known lowering seals have such an actuation button, the use activation unit according to the invention with these known drop-down seals without the latter having to be significantly changed.

In preferred embodiments, the lowering seal has a housing in which the sealing strip can be raised and lowered. The operating button can protrude from the front of this housing. In other embodiments, it is aligned with the end face of the housing or it is arranged set back. The recessed arrangement is the most preferred. It is preferably displaceable relative to the housing in the longitudinal direction of the sealing strip.

The support element preferably acts on the front side of this actuating button, usually by pressing it in directly or indirectly when the door is closed and by releasing it again when the door is opened. In other embodiments, the operating button is pulled to lower the sealing strip.

The activation unit according to the invention can also be used with other types of lowering mechanisms, the support element acting directly or indirectly on a suitable point of the lowering seal.

In a first preferred embodiment according to the invention, the support element is a first arm of a swivel module, a second arm of the swivel module acting on the lowering seal, preferably the actuating button.

In a second preferred embodiment according to the invention, the support element is a lever arm.

The support element can also be part of another force transmission mechanism.

The sealing device according to the invention has the advantage that it is relatively insensitive to tolerances, both in the vertical and in the horizontal direction. The assembly of the sealing device is therefore relatively simple and time-saving.

The claimed invention also includes a sliding door with slidably mounted Door leaf and a sealing device according to the invention.

The activation unit can also be designed as a retrofit kit for existing drop-down seals. The claimed invention therefore also relates to an activation unit of a sealing device according to the invention, the activation unit having a first module which forms the support surface and a second module which has a fastening element for fastening the lowering seal in the door leaf and the support element arranged on the fastening element.

The drop-down seal is usually attached in a groove on an end face of the door leaf, arranged on the end face or attached to the side of the door leaf. The drop-down seal is usually located at the lower end of the door leaf and seals it off from the floor. However, it is also possible to arrange the drop-down seal at the top or to the side so that these edges are sealed.

The feature "directed upwards in the lowering direction" as used in this text and the claims relates to the description of a lowering seal arranged below, which seals downward, but also includes all variants of the arrangement of the lowering seal on other end faces of the door leaf. The same applies to features “downward”, “upward”, “raise”, “lower” and the like. These variants are therefore also covered by the patent claims and are intended to fall under the scope of protection claimed.

Further embodiments are given in the dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Figur 1

eine Ansicht einer erfindungsgemässen Dichtungsvorrichtung von vorne mit angehobener Dichtleiste gemäss einer ersten Ausführungsform;

Figur 2

einen Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 1 mit angehobener Dichtleiste;

Figur 3

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 2;

Figur 4

den Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 2 mit Sicht von der gegenüberliegenden Seite;

Figur 5

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 4;

Figur 6

eine Ansicht einer erfindungsgemässen Dichtungsvorrichtung von vorne mit abgesenkter Dichtleiste gemäss Figur 1;

Figur 7

einen Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 7 mit abgesenkter Dichtleiste;

Figur 8

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 7;

Figur 9

den Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 7 mit Sicht von der gegenüberliegenden Seite;

Figur 10

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 9;

Figur 11

eine Ansicht einer erfindungsgemässen Dichtungsvorrichtung von vorne mit angehobener Dichtleiste gemäss einer zweiten Ausführungsform;

Figur 12

einen Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 11 mit angehobener Dichtleiste von einer ersten Seite;

Figur 13

eine Ansicht einer erfindungsgemässen Dichtungsvorrichtung von hinten mit angehobener Dichtleiste gemäss Figur 11;

Figur 14

den Längsschnitt gemäss Figur 12 von der gegenüberliegenden Seite;

Figur 15

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 14;

Figur 16

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 12;

Figur 17

eine Ansicht einer erfindungsgemässen Dichtungsvorrichtung von hinten mit abgesenkter Dichtleiste gemäss Figur 11;

Figur 18

einen Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 17 mit abgesenkter Dichtleiste von einer ersten Seite;

Figur 19

eine Ansicht einer erfindungsgemässen Dichtungsvorrichtung von vorne mit abgesenkter Dichtleiste gemäss Figur 11;

Figur 20

den Längsschnitt gemäss Figur 18 von der gegenüberliegenden Seite;

Figur 21

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 20;

Figur 22

eine perspektivische Darstellung der Dichtungsvorrichtung gemäss Figur 18;

Figur 23

eine perspektivische Darstellung des Gleitmoduls in einer ersten Position;

Figur 24

eine perspektivische Darstellung des Gleitmoduls gemäss Figur 23 in einer zweiten Position;

Figur 25

eine Ansicht einer erfindungsgemässen Dichtungsvorrichtung von vorne mit abgesenkter Dichtleiste gemäss einer dritten Ausführungsform;

Figur 26

einen Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 25;

Figur 27

eine Ansicht der Dichtungsvorrichtung gemäss Figur 25 von vorne mit angehobener Dichtleiste;

Figur 28

einen Längsschnitt durch die Dichtungsvorrichtung gemäss Figur 27;

Figur 29

eine Seitenansicht eines erfindungsgemässen Auflagemoduls in einer zweiten Ausführungsform;

Figur 30

eine perspektivische Darstellung des Auflagemoduls gemäss Figur 29;

Figur 31

eine Seitenansicht eines erfindungsgemässen Auflagemoduls in einer dritten Ausführungsform und

Figur 32

eine perspektivische Darstellung des Auflagemoduls gemäss Figur 30.

Preferred embodiments of the invention are described below with reference to the drawings, which are only used for explanation and are not to be interpreted as restrictive. In the drawings show:

Figure 1

a view of a sealing device according to the invention from the front with a raised sealing strip according to a first embodiment;

Figure 2

a longitudinal section through the sealing device according to Figure 1 with raised sealing strip;

Figure 3

a perspective view of the sealing device according to Figure 2 ;

Figure 4

the longitudinal section through the sealing device according to Figure 2 with view from the opposite side;

Figure 5

a perspective view of the sealing device according to Figure 4 ;

Figure 6

a view of a sealing device according to the invention from the front with a lowered sealing strip according to FIG Figure 1 ;

Figure 7

a longitudinal section through the sealing device according to Figure 7 with lowered sealing strip;

Figure 8

a perspective view of the sealing device according to Figure 7 ;

Figure 9

the longitudinal section through the sealing device according to Figure 7 with view from the opposite side;

Figure 10

a perspective view of the sealing device according to Figure 9 ;

Figure 11

a view of a sealing device according to the invention from the front with a raised sealing strip according to a second embodiment;

Figure 12

a longitudinal section through the sealing device according to Figure 11 with raised sealing strip from a first side;

Figure 13

a view of a sealing device according to the invention from behind with raised sealing strip according to Figure 11 ;

Figure 14

the longitudinal section according to Figure 12 from the opposite side;

Figure 15

a perspective view of the sealing device according to Figure 14 ;

Figure 16

a perspective view of the sealing device according to Figure 12 ;

Figure 17

a view of a sealing device according to the invention from behind with a lowered sealing strip according to FIG Figure 11 ;

Figure 18

a longitudinal section through the sealing device according to Figure 17 with lowered sealing strip from a first side;

Figure 19

a view of a sealing device according to the invention from the front with a lowered sealing strip according to FIG Figure 11 ;

Figure 20

the longitudinal section according to Figure 18 from the opposite side;

Figure 21

a perspective view of the sealing device according to Figure 20 ;

Figure 22

a perspective view of the sealing device according to Figure 18 ;

Figure 23

a perspective view of the sliding module in a first position;

Figure 24

a perspective view of the sliding module according to Figure 23 in a second position;

Figure 25

a view of a sealing device according to the invention from the front with lowered sealing strip according to a third embodiment;

Figure 26

a longitudinal section through the sealing device according to Figure 25 ;

Figure 27

a view of the sealing device according to Figure 25 from the front with raised sealing strip;

Figure 28

a longitudinal section through the sealing device according to Figure 27 ;

Figure 29

a side view of a support module according to the invention in a second embodiment;

Figure 30

a perspective view of the support module according to Figure 29 ;

Figure 31

a side view of a support module according to the invention in a third embodiment and

Figure 32

a perspective view of the support module according to Figure 30 .

DESCRIPTION OF PREFERRED EMBODIMENTS

the Figures 1 to 10 show a first embodiment of a sealing device according to the invention.

The sealing device has a lowering seal 1 of a known type, as described for example at the beginning. The lowering seal 1 has a housing rail 10 which is fastened by known means, here by means of a fastening bracket 13 pushed into a groove of the housing rail 10 at the end in a lower groove of a sliding sliding door leaf. Other types of fastening, for example by means of side brackets, are also possible. In the raised state, the lowering seal is preferably aligned with the underside of the sliding door leaf.

In contrast to the prior art, the housing rail 10 is not only hat-shaped or U-shaped with the formation of a first chamber open at the bottom. It preferably has a second chamber which is delimited by an external additional wall 100. A sealing strip can be lowered and raised in the first chamber. For this purpose, there is a known type of mechanical lowering mechanism also arranged in the chamber. It is not shown here, but is known from the prior art. It preferably has one or more leaf springs, each of the leaf springs being attached to the housing 10, to the sealing strip and to a slide 15. The slide 15 is connected to an actuating button 14 which is arranged at least on one, preferably only on one side of the housing rail 10. It can protrude from the housing rail 10, be aligned with its end face or be arranged set back. If the actuating button is arranged within the housing 10, it can be moved by pushing or pulling. However, it can also be contacted and moved, for example, through a lateral or upper window 101 in the housing rail 10. Release mechanisms alternative to the actuating button can also be used in the sealing device according to the invention.

The sealing strip preferably has a support rail 12 and an elastomeric sealing profile 11 attached to it. The housing rail 10 and the support rail 12 are preferably made of aluminum or another suitable metal. The sealing profile 11 is preferably made of rubber or silicone.

How compared to the Figures 1 and 6th As can be clearly seen, the sealing profile 11 seals the gap between the underside of the door leaf and a base B in the lowered state of the sealing strip.

The sealing device according to the invention further comprises an activation unit for activating the actuating mechanism of the lowering seal. The activation unit preferably acts on the actuation button 14 of the lowering seal, preferably by pressing it in. Depending on the activation unit and lowering mechanism, she can also move the button or pull it out to lower the sealing strip.

As in Figure 2 can be seen, the activation unit has a support module 2. This support module 2 is arranged next to the lowering seal 1. It is fixed in place on the floor B or the door frame. The through bores available for this purpose are provided with the reference number 20. The support module 2 is located next to the lowering seal 1, being received when the door leaf is moved into the second chamber, formed by the additional wall 100 of the housing rail 10. This is in the Figures 1 , 3 and 6th good to see.

In this example, the support module 2 is designed as an angle element, with one leg attached to the floor or door frame and the second leg protruding upwards. The support module 2 has an upwardly directed support surface. In this case, the support surface is designed as an inclined surface 21 and a horizontal surface 22 adjoining it. The support surface preferably forms a sliding surface, the surface properties of the inclined surface 21 and the horizontal surface 22 allowing sliding, for example by selecting the material and / or by a correspondingly fine surface treatment and / or by a coating. The support module 2 is preferably made of plastic, metal or a coated metal or wood.

The activation unit further comprises a force transmission module with a support element. In this exemplary embodiment, the force transmission module is a swivel module 3 with a swivel arm 30 and a follower 31. This is shown in FIG Figures 2 to 5 as well as 7 to 10 clearly recognizable. The pivot arm 30 and the follower 31 are arranged next to one another in the transverse direction of the lowering seal and are directed downwards. They are connected to one another via a pivot axis 32 and can be pivoted jointly with respect to the housing rail 10. The pivot axis 32 is preferably arranged in a module housing or a module frame which is preferably firmly connected to the mounting bracket 13. The pivot axis 32 is preferably located laterally above the housing rail 10. This has an opening 101 in the region of the second chamber through which the driver 31 and the pivot arm 30 pass, as shown in FIG Figure 5 is easily recognizable.

The swivel module 3 is preferably flush with or set back to the housing rail 10 arranged. The actuating button 14 is correspondingly set back. This allows the full width of the door leaf to be sealed using the drop-down seal.

The closing direction of the door leaf is in the Figures 2 and 3 marked with an arrow. As soon as the door leaf is pushed into the area of the support module 2 in this direction of the arrow, the follower 31 stands on the support surface of the support module 2. It thus forms a support element. It is preferably designed as a sliding element which, when the door leaf is closed, slides along the inclined surface 21 up to the horizontal surface 22. The closing movement thus lifts the driver 31. The associated swivel movement of the swivel module 3 moves the swivel arm 30 to the rear. This presses the actuating button 14 and activates the lowering seal 1.

In the Figures 2 to 5 the driver 31 is still in front of the support module 2. The actuating button 14 is unloaded and the sealing strip 11, 12 is raised.

In the Figures 7 to 10 the driver 31 has moved up the inclined surface 21 and reached the horizontal surface 22. When sliding up, the sealing strip 11, 12 was lowered by the pressed-in actuating button 14 moving the slide 15 and the latter tensioning the leaf springs and lowering the sealing strip 11, 12. When the horizontal surface 22 was reached, the maximum lowering of the sealing strip 11, 12 was also achieved. It is now sealingly on the floor B. It is spring-loaded. The restoring force acting on it is, however, diverted via the actuating button 14 to the swivel module 3, more precisely to the driver 31. Since this stands up vertically on the horizontal surface 22, the sealing strip 11, 12 is held in the lowered state without any further blocking means. The door leaf can be closed further in the direction of the arrow by sliding the driver 31 along the horizontal surface 22 and without having to overcome the restoring force of the sealing strip for this purpose. The displacement of the driver 31 is preferably a sliding movement.

As an alternative to the sliding surface on the driver 31 and support module 2, rollers or other suitable means can also be attached to the driver 31 and / or to the support module 2 in order to enable a relative movement that is as frictionless as possible.

If the door leaf is opened again in the opposite direction to the arrow, the driver 31 slides down the inclined surface 21. The swivel arm 30 is swiveled back and releases the actuating button again. The leaf springs relax and the sealing strip 11, 12 is automatically raised again.

The pivot arm 30 is located in the longitudinal direction of the sealing strip in front of the actuating button 14. The actuating button 14 is usually provided with a thread so that it can still be adjusted on site; i.e. its basic position can be adjusted in the longitudinal direction with respect to the support rail 12 and the housing rail 10. So that this is also possible when using the module according to the invention, the swivel arm 30 has a through opening 30. This can be enforced with a suitable tool, such as an Allen key or screwdriver, in order to change the operating button 14 in its basic position.

In the Figures 11 to 24 a second embodiment is shown. The same parts are denoted by the same reference symbols as in the first exemplary embodiment and are not described again. What has been said above applies. Instead of a swivel module 3, there is a lever module 4, which is also arranged in the second chamber of the housing rail 10 and is operatively connected to the support module 2 as soon as the sliding door leaf has reached this support module 2 in the closing movement.

In this example, the lever module 4 is pivotably arranged on the fastening bracket 13, which for this purpose has two fastening lugs 130 protruding at the front. The pivot axis of the lever module 4 is provided with the reference number 41. In the illustrated embodiment, the lever module 4 protrudes from the mounting bracket 13. Alternative arrangements in which the lever module 4 is also aligned with the end face of the housing rail 10 or is even arranged set back are possible.

The lever module 4 has a pivot lever 42, which in turn runs next to the lowering seal 1 and parallel to its longitudinal direction. In parallel to the pivot lever 42, but on the front side in front of the lowering seal 1, an activation lever 43 is pivotably held via the same pivot axis 41. A connecting bolt 44 connects the activation lever 43 to the pivot lever 42 so that they can only be pivoted together and in the same direction. The activation lever 43 in turn has a through opening 45 in order to adjust the actuation button 14.

The pivot lever 42 slides upwards along the inclined surface 21 when the door leaf is closed. This is from the synopsis of the Figures 15 and 21 good to see. If the horizontal surface 22, as in Figure 21 shown, reached, it preferably lies flat on this surface. The pivot lever 42 is shaped accordingly. He forms the support element.

During this movement, it is pivoted about the pivot axis 41. The activation lever 43 is pressed accordingly against the actuation button 14 and the sealing strip 11, 12 is lowered.

In this example, too, the restoring force acting on the sealing strip 11, 12 is compensated for by the pivot lever 42 resting on the support module 2 and the door leaf can be closed further when the sealing strip 11, 12 is completely lowered.

When the door leaf is opened, the pivot lever 42 slides down the inclined surface 21 again and releases the actuating button 14 so that the sealing strip 11, 12 is raised again.

The slope of the inclined surface 21 again influences the translation and the force required for lowering the seal.

The support module 2 shown in this embodiment is designed to be adjustable. The same module can also be used in the first exemplary embodiment described here or in other exemplary embodiments of the invention.

It shows how particularly in the Figures 23 and 24 can be clearly seen, a stationary module frame 24 in which a module body 23 is held displaceably. The module body 23 forms the inclined surface 21 and the horizontal surface 22. The module frame 24 has a guide slot 25 on both sides, which on each side is penetrated by two guide pins 26. The guide pins 26 are firmly connected to the module body 23. The guide slot 25 runs diagonally upwards, with the opposite slope to the inclined surface 21. An adjusting screw 27 penetrates the module frame 24 on the side opposite the inclined surface 21 and presses on the module body 23. This makes it possible to adjust the stroke of the sealing strip 11, 12 so that it is optimally pressed onto the floor B. Other types of adjustability of the activation unit in terms of stroke and distance are possible.

In the Figures 25 to 28 a further embodiment of a sealing device according to the invention is shown. The same parts are also provided with the same reference symbols here and are no longer repeated in detail.

The activation unit for actuating the lowering mechanism of the lowering seal in turn has the support module 2, which is arranged in a stationary manner on the door frame or on the floor.

The activation unit further comprises a swivel module 5, which in turn has a swivel arm 50 and a follower 51, which are firmly connected to one another via a swivel axis 52 and can thus be swiveled together with one another. In contrast to the embodiment according to the Figures 1 to 10 however, follower 51 and swivel arm 50 no longer run parallel to one another but have an angle of 90 ° or more, but less than 180 °. The angle is preferably approximately 120 °. Furthermore, the swivel arm 50 and the follower are preferably linear. In the first example, only the swivel arm 30 is straight and the follower 31 preferably forms an angle, in particular a right angle.

The pivot arm 50 according to the third exemplary embodiment is preferably made much shorter than the follower 51.

The pivot axis 52 can be arranged within the housing rail 10 and attached to it on both sides. Other types of attachment are possible.

As in the first exemplary embodiment, the driver 51 slides up along the support module 2 when the door leaf is closed and is deflected. As a result, the swivel arm 50 is also deflected and presses the actuating button 14. This moves backwards and the sealing strip 11, 12 is lowered.

Again, the weight of the door leaf is used as the triggering force. In the lowered state, the restoring force of the lowering seal is again deflected thanks to the support of the driver 51 on the support module 2. The restoring force of the lowered seal can therefore no longer push the door leaf open. No additional force is required to hold the door leaf in the closed position.

In the Figures 29 to 32 two further variants of the support module 2 are shown. These variants can be used in the above-mentioned exemplary embodiments or other embodiments in accordance with the teaching according to the invention.

In the variant according to Figures 29 and 30 the horizontal surface 22 of the support module 2 has a recess 28. The free end of the driver 31, 51 or of the pivot lever 42 is held in this recess 28. In this position, the sealing strip 11, 12 is slightly raised again, but still seals completely. This recess prevents the driver 31, 51 or the pivot lever 42 from being unintentionally displaced. The slight lifting of the sealing strip 11, 12 furthermore minimizes the forces necessary for the further closing of the door leaf.

In the variant according to Figures 31 and 32 a mating inclined surface 29 is then present in the closing direction of the door leaf of the horizontal surface 22. This has the opposite inclination than the inclined surface 21, ie it points downwards. Its gradient can differ from the gradient of the inclined surface 21. The opposing inclined surface 29 is preferably designed to be steeper. When the door leaf closes completely, the driver 31, 51 or the pivot lever 42 preferably reaches the opposing inclined surface 29, so that the sealing strip 11, 12 is slightly raised again, but still seals sufficiently. However, this counter-inclined surface 29 causes the The restoring force of the seal contributes to the closing of the door leaf and actively keeps it in its closed position.

The sealing device according to the invention enables known drop-down seals to be used in sliding doors, whereby they do not hinder the closing movement of the sliding doors. REFERENCE LIST 1 Drop-down seal 29 Counter bevel 10 Housing rail 100 Additional wall 3 Swivel module 101 opening 30th Swivel arm 11 Sealing profile 31 Followers 12th Support rail 32 Swivel axis 13th Mounting bracket 33 Through opening 130 Fastening nose 14th Operating button 4th Lever module 15th Slider 41 Swivel axis 42 Swivel lever 2 Support module 43 Activation lever 20th Through hole 44 Connecting bolt 21 Sloping surface 45 Through opening 22nd Horizontal plane 23 Ramp body 5 Swivel module 24 Ramp frame 50 Swivel arm 25th slot 51 Followers 26th Guide pin 52 Swivel axis 27 Adjusting screw 28 deepening B. floor

Claims (17)

1. Sealing device for a sliding door having a displaceably mounted door leaf, wherein the sealing device has a drop-down seal having a sealing strip (11, 12) and having a lowering mechanism for automatically lowering and lifting the sealing strip (11, 12), wherein the lowering is performed counter to a restoring force, wherein the sealing device furthermore has an activation unit for activating the drop-down seal, characterized in that

   the activation unit has a bearing face (21, 22, 29) that in the lowering direction is directed upward, and

   in that the activation unit has a bearing element (31, 42, 51) which in the closing of the door leaf bears on said bearing face (21, 22, 29) and, on account thereof, activates the drop-down seal.
2. Sealing device as claimed in claim 1, wherein the bearing element (31, 42, 51) in the closing of the door leaf bears on the bearing face (21, 22, 29) and, on account thereof, activates the lowering mechanism and thus the drop-down seal.
3. Sealing device as claimed in either of claims 1 and 2, wherein the activation unit is configured for holding the sealing strip (11, 12) in a lowered position without the restoring force influencing any sliding movement of the door leaf in the longitudinal direction of the sealing strip (11, 12).
4. Sealing device as claimed in claim 3, wherein a position of the bearing element (31, 42, 51) on the bearing face (21, 22, 29) is present, in which position the sealing strip (11, 12) is fully lowered and the restoring force acting on the sealing strip (11, 12) is deflected in a direction perpendicular to the longitudinal direction of the sealing strip (11, 12).
5. Sealing device as claimed in one of claims 1 to 4, wherein the bearing face (21, 22, 29) is a slide face and the bearing element (31, 42, 51) is a slide element which in the closing of the door leaf slides along said bearing face (21, 22, 29) and, on account thereof, activates the lowering mechanism.
6. Sealing device as claimed in one of claims 1 to 5, wherein the bearing face (21, 22, 29) in the longitudinal direction of the drop-down seal at least in part runs obliquely.
7. Sealing device as claimed in claim 6, wherein the bearing face (21, 22, 29) in the closing direction of the door leaf runs from bottom to top.
8. Sealing device as claimed in either of claims 6 and 7, wherein the bearing face has a downwardly directed oblique counter-face (29) on which the bearing element (31, 51, 42) bears in the lowered position of the sealing strip (11, 12).
9. Sealing device as claimed in one of claims 1 to 7, wherein the bearing face has a horizontally running portion (22) on which the bearing element (31, 42, 51) bears so as to hold the sealing strip (11, 12) in the lowered position.
10. Sealing device as claimed in one of claims 1 to 9, wherein the bearing face (21, 22, 29) has a depression (28) in which the bearing element (31, 42, 51) bears so as to hold the sealing strip (11, 12) in the lowered position.
11. Sealing device as claimed in one of claims 1 to 10, wherein the bearing face (21, 22, 29) is disposed so as to be locationally fixed, and the bearing element (31, 42, 51) is displaceable conjointly with the drop-down seal (1).
12. Sealing device as claimed in claim 11, wherein the bearing element (31, 42, 51) is fixedly connected to the drop-down seal (1), and the bearing face (21, 22, 29) is configured in a module (2) that is separate from the drop-down seal.
13. Sealing device as claimed in one of claims 1 to 12, wherein the lowering mechanism has an activation button (14) which activates the lowering mechanism by way of an influence of external force, and wherein the bearing element (31, 42, 51) acts indirectly or directly on this activation button so as to lower the sealing strip (11, 12).
14. Sealing device as claimed in one of claims 1 to 13, wherein the bearing element is a first arm (31, 51) of a pivot module (3, 5), wherein a second arm (30, 50) of the pivot module (3, 5) activates the drop-down seal.
15. Sealing device as claimed in one of claims 1 to 13, wherein the bearing element is a lever arm (42).
16. Sealing device as claimed in one of claims 1 to 15, wherein the activation unit has a first module (2) which configures the bearing face (21, 22, 29), and has a second module (3, 4, 5) which has a fastening element (13) for fastening the drop-down seal in the door leaf as well as the bearing element (31, 42, 51) that is disposed on the fastening element (13).
17. Sliding door having a displaceably mounted door leaf and a sealing device as claimed in one of claims 1 to 16.

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