EP3290627A1 - Seal with a limit on the movement of the sealing strip - Google Patents

Abstract

The invention relates to a seal with a housing (1), a sealing strip (13, 14) which is displaceable to the housing (1), and with a trigger (16), with a displacement of the sealing strip (13, 14) for Housing (1) is releasable, with at least one lowering mechanism, and with a connecting rod assembly comprising at least one connecting rod, which couples the trigger with the lowering mechanism, so that movement of the trigger is transferable to the lowering mechanism, wherein the seal in the housing at least one stop has, at which the connecting rod assembly abuts directly or indirectly upon actuation of the trigger before the actuation of the trigger, the movement of the sealing strip causes parts of the sealing strip lose its leadership through the housing of the seal or the sealing strip completely exits the housing.

Description

In the Swiss patent CH 465 830 and in the European patent specification EP 1 450 002 B2 is ever described a seal having at least two scissors mechanisms with which a sealing strip of the seal can be lowered. The sealing strip comprises a retaining profile and a sealing profile of the seal. Each scissors mechanism is associated with an overload mechanism. The seal according to the document CH 465 830 has a trigger, which is connected via a connecting rod with the scissors mechanisms. Actuation of the trigger can be transmitted via the connecting rod from the trigger to the scissors mechanisms. The trip bar is displaced in an actuation of the trigger in a longitudinal direction of the seal in a housing. The scissor mechanism translates the movement in the longitudinal direction into a movement transverse to the longitudinal extent of the seal, whereby the sealing strip can be lowered and raised. The scissor mechanisms thus connect the sealing strip and the housing and allow a displacement of the sealing strip parallel to the housing.

The movement of the trigger of the seal from the document CH 465 830 is limited. The trigger has a size that causes the trigger to strike the seal on actuation against the housing from which protrudes the connecting rod on which the trigger is mounted.

It is different from the document EP 1 450 002 B2 known seal. The seal also has a connecting rod. This protrudes out of the case. The protruding from the housing end of the connecting rod forms a trigger, which can be actuated to lower by means of the scissor mechanisms, the sealing strip of the seal. The trigger can be pushed so far into the housing when actuated in the mounted state of the seal at most until the shutter has completely disappeared in the housing. In practice, the trigger will protrude in the assembled state due to a gap between the door leaf and the frame even with the door closed from the housing. When operated in the unmounted state, the trigger can even be pressed into the housing.

In other seals, including seals that have no scissors mechanisms for transmitting the longitudinal movement of the connecting rod in a downward or upward movement of the sealing strip, a trigger is provided, which is attached to the connecting rod of the seal that can be adjusted, how far the trigger protrudes from the housing of the seal. Such triggers can be adjusted to protrude very far out of the housing. If a trigger protruding far out of the housing is actuated so that it disappears completely in the housing, the sealing strip makes a maximum stroke. This stroke can be so large that parts of the seal are completely moved out of the housing of the seal. These parts may include, for example, the sealing profile of the seal. In particular, in the direction of the housing projecting legs of the sealing profile are then no longer performed under circumstances of the housing. This can then lead to relief of the trigger that parts of the sealing strip that have lost the leadership of the housing, not properly enter the housing. It can even lead to damage of parts of the sealing strip, in particular of the sealing profile.

This is where the invention starts.

The invention is based on the problem, a seal of the type mentioned, in particular with an adjustable trigger to improve so that the stroke that can exert the sealing strip is limited.

This problem is solved by a seal according to the invention in which the seal in the housing has at least one stop on which or with which the connecting rod assembly abuts directly or indirectly upon actuation of the trigger before the actuation of the trigger leads to the movement of the sealing strip in that parts of the sealing strip lose their guidance through the housing of the seal or the sealing strip completely leaves the housing.

The stop may be formed as a structure of the housing. It is also possible that the stopper is a separate component. Preferably, the stopper is then fixed in the housing immovably to the housing. The stop may in particular be firmly connected to the housing. However, the stop may be formed as a structure of the connecting rod assembly or attached to the connecting rod assembly.

An end remote from the trigger of the connecting rod assembly may have at least one structure which is provided for abutment against the stop. In the same place, the stop could be provided. Then, it is possible that the stop, viewed from the direction of the trigger, is mounted behind the trigger-remote end of the connecting rod assembly in the housing or formed by a structure of the housing or by a structure the connecting rod assembly is formed or attached to the connecting rod assembly.

It is also possible that the connecting rod assembly between the end to which the trigger is attached and the end remote from the trigger of the connecting rod assembly has at least one structure which is provided for abutment against the stop. The stop may then be secured to the housing, or formed by the housing, over, under, or beside the tie rod assembly in the longitudinal direction of the seal.

It is possible that the connecting rod assembly between the end to which the trigger is attached and the trigger end facing away from the connecting rod assembly comprises the stop. A structure against which the abutment abuts may then be secured to the housing, or formed by the housing, in the longitudinal direction of the seal, as viewed above, below or beside the connecting rod assembly.

• ein Modulgehäuse, das an dem Gehäuse befestigt ist,
• ein Verschiebeteil, das zu dem Modulgehäuse verschiebbar ist, und
• einen der Scherenmechanismen, der mit dem Modulgehäuse, mit der Dichtleiste und mit dem Verschiebeteil verbunden ist,

aufweist,

• wobei die Verschiebeteile der Module Teile der Verschiebestangenanordnung sind, die über Verbindungsstangen miteinander und mit dem Auslöser verbunden sind.

A seal according to the invention may comprise at least two modules, each module

• a module housing attached to the housing,
• a sliding member which is slidable to the module housing, and
• one of the scissors mechanisms connected to the module housing, the sealing strip and the sliding part,

having,

• wherein the sliding parts of the modules are parts of the sliding bar assembly, the over Connecting rods are connected to each other and to the trigger.

According to the invention, one of the modules may comprise a return mechanism, the return mechanism having a return spring which is supported on a fixedly connected to the module housing element of the return mechanism, and wherein the stop is fixedly connected to this element for supporting the return spring. The element may be part of a holder for the return spring and the stopper attached to a trigger-side end of the holder. The stop can be plugged in particular on the trigger side end.

It is likewise possible for the stop to be fastened in the module housing of one of the modules or to be designed as a structure of the module housing of one of the modules. The module housing in which the stop is attached or in which the stopper is formed as a structure, may belong to the module that is furthest away from the trigger. If the stop is mounted in the module housing, it can be fastened in particular between one end of the module housing and the end of the sliding part of the module in the module housing or be formed as a structure in the module housing.

In these two variants, the displacement part of the module, in which the stopper is provided, strike against the stop in order to limit the movement of the connecting rod assembly and thus of the holding profile and the sealing profile.

It is particularly advantageous if the stop consists, at least in part, of an elastomer, so that the abutment can be damped against the stop.

Fig. 1 und 1a

eine perspektivische Ansicht der erfindungsgemäßen Dichtung in einem nicht ausgelösten Zustand und in einem ausgelösten Zustand,

Fig. 2 und 2a

eine Frontansicht der Dichtung in einem nicht ausgelösten Zustand und in einem ausgelösten Zustand,

Fig. 3 und 3a

eine schlossseitige Ansicht der Dichtung in einem nicht ausgelösten Zustand und in einem ausgelösten Zustand,

Fig. 4 und 4a

eine bandsseitige Ansicht der Dichtung in einem nicht ausgelösten Zustand und in einem ausgelösten Zustand,

Fig. 5 und 5a

einen Schnitt durch die Dichtung in einem nicht ausgelösten Zustand gemäß der Linie V-V in Fig. 2 und in einem ausgelösten Zustand gemäß der Linie Va-Va in Fig. 2a,

Fig. 6 und 6a

einen Schnitt durch die Dichtung in einem nicht ausgelösten Zustand gemäß der Linie VI-VI in Fig. 2 und in einem ausgelösten Zustand gemäß der Linie VIa-VIa in Fig. 2,

Fig. 7 und 7a

eine Frontansicht der Dichtung ohne Gehäuse und ohne Dichtleiste in einem nicht ausgelösten Zustand und in einem ausgelösten Zustand,

Fig. 8 und 8a

eine Frontansicht der Dichtung ohne Gehäuse, ohne Haltemodul und ohne Dichtleiste in einem nicht ausgelösten Zustand und in einem ausgelösten Zustand,

Fig. 9 und 9a

einen vergrößerten Ausschnitt IX aus Fig. 8 bzw. einen vergrößerten Ausschnitt IXa aus Fig. 8a,

Fig. 10 und 10a

einen vergrößerten Ausschnitt X aus Fig. 8. bzw. einen vergrößerten Ausschnitt Xa aus Fig. 8a,

Fig. 11

eine perspektivische Ansicht des Scherenmechanismus,

Fig. 12

eine perspektivische Ansicht eines kurzen Scherenbeins,

Fig. 13

eine perspektivische Ansicht eines langen Scherenbeins,

Fig. 14a und b

Ansichten der Montage des Scherenmechanismus,

Fig. 15a bis d

Frontansichten von einer Einheit aus Verbindungsstangen und Verschiebeelement,

Fig. 16a bis d

Ansichten der vorgenannten Einheit von unten,

Fig. 17

eine Frontansicht eines Halters einer Überlastfeder,

Fig. 18

eine Ansicht des Halters der Überlastfeder von unten,

Fig. 19a und b

Ansichten der Montage des Überlastmechanismus,

Fig. 20a und b

Schnittansichten des montierten Überlastmechanismus,

Fig. 21 und 21a

eine erste Variante der erfindungsgemäßen Dichtung in einem nicht ausgelösten Zustand und in einem ausgelösten Zustand,

Fig. 22a bis c

Schritte einer erfindungsgemäßen Montage einer zweiten Variante der erfindungsgemäßen Dichtung,

Fig. 23

eine erste erfindungsgemäße Ausführung eines zweiten Moduls und

Fig. 24

eine zweite erfindungsgemäß Ausführung eines zweiten Moduls.

Further features and advantages of a seal according to the invention are described with reference to the accompanying drawings. Show:

Fig. 1 and 1a

a perspective view of the seal according to the invention in a non-triggered state and in a tripped state,

Fig. 2 and 2a

a front view of the seal in an untripped condition and in a tripped condition,

Fig. 3 and 3a

a lock side view of the seal in an untripped condition and in a tripped condition;

4 and 4a

a band side view of the seal in an untripped condition and in a tripped condition;

Fig. 5 and 5a

a section through the seal in a non-triggered state along the line VV in Fig. 2 and in a tripped state according to the line Va-Va in FIG Fig. 2a .

FIGS. 6 and 6a

a section through the seal in a non-triggered state according to the line VI-VI in Fig. 2 and in a tripped state according to the line VIa-VIa in FIG Fig. 2 .

Fig. 7 and 7a

a front view of the seal without housing and without sealing strip in a non-triggered state and in a tripped state,

Fig. 8 and 8a

a front view of the seal without housing, without holding module and without sealing strip in a non-triggered state and in a tripped state,

Fig. 9 and 9a

an enlarged section IX Fig. 8 or an enlarged section IXa Fig. 8a .

10 and 10a

an enlarged section X from Fig. 8 , or an enlarged section Xa Fig. 8a .

Fig. 11

a perspective view of the scissor mechanism,

Fig. 12

a perspective view of a short scissor leg,

Fig. 13

a perspective view of a long scissor bone,

Fig. 14a and b

Views of the assembly of the scissors mechanism,

Fig. 15a to d

Front views of a unit of connecting rods and displacement element,

Fig. 16a to d

Views of the above unit from below,

Fig. 17

a front view of a holder of an overload spring,

Fig. 18

a view of the holder of the overload spring from below,

Fig. 19a and b

Views of the mounting of the overload mechanism,

Fig. 20a and b

Sectional views of the assembled overload mechanism,

Figs. 21 and 21a

a first variant of the seal according to the invention in a non-triggered state and in a triggered state,

Fig. 22a to c

Steps of a mounting according to the invention of a second variant of the seal according to the invention,

Fig. 23

a first embodiment of a second module according to the invention and

Fig. 24

a second embodiment of a second module according to the invention.

A seal according to the invention has a housing 1, which has a constant cross-sectional profile over its length. In the illustrated example, the housing has substantially the shape of an inverted U with two legs 12 and a connecting web 11 which connects the two legs 12 together. On an inner side of the web 11 of the housing 1, two mirror-image webs 111 are attached. These are slightly undercut on sides 1111 facing each other so that the facing sides 1111 form a throat. The mutually remote sides 1112 of the webs 111 are slightly inclined.

The housing may be secured in a known manner in a groove of a door leaf. The attachment can be for example be done with the help of mounting brackets, which will come back. The person skilled in the art is familiar with various types of attachment from the prior art, in particular from published patent applications. Depending on the type of attachment, the housing may be modified to provide, for example, in the housing channels, lands, screw holes or other, which is useful for attaching the seal to a door.

A seal also has a sealing strip. In the example, the sealing strip is made in two parts. However, it could be in one piece or have more than two parts. In principle, any known from the prior art sealing strip can be used. In the example, the sealing strip comprises a rigid retaining profile 13, preferably made of aluminum, and an elastomeric sealing profile 14. Both have in the example over their length a constant cross-sectional profile. In the example, the retaining profile 13 as well as the sealing profile in cross section is substantially U-shaped. The retaining profile 13 as well as the sealing profile 14 each have a connecting web 131, 141 and two legs 132, 142, which are connected to each other via the connecting web 131, 142.

The sealing profile 14 is fastened via detent webs 143 in detent channels 133 of the retaining profile 13.

On the inside of the legs 132 of the retaining profile 13, two webs 134 are provided, which together with the connecting web 131 form channels whose purpose will be explained in more detail.

In the seal, two modules Ma, Mb are arranged, which in the exemplary embodiment comprise all parts which serve for a safe movement of the sealing strip relative to the housing.

The parts of the gasket, which belong to the modules Ma, Mb, can be found partly identical in both modules. These parts can then be used in the modules Ma, Mb for the same functions of the modules Ma, Mb. In part, the modules Ma, Mb also have special features that make special parts necessary. Functions that in the example has the first module can be perceived in another embodiment of a seal according to the invention of the second module and vice versa. It is therefore within the scope of the invention to modify the parts of the modules Ma, Mb in such a way that, if appropriate, they can also take on fewer, different or additional functions.

Identical or functionally similar parts of the modules Ma, Mb have reference numbers with the same numbers and differ by the attached letters a and b, where a stands for parts of the first module and b for parts of the second module. If details of the parts of the modules Ma, Mb are discussed, they will be referred to without attached letters if they are found in the parts of both modules Ma, Mb.

In the example, both modules Ma, Mb of the seal according to the invention have the function to connect the sealing strip and the housing and implement the movement of the trigger 16 in a movement of the sealing strip relative to the housing 1 in a release of the seal by pressing a trigger 16. For this purpose, each module Ma, Mb has a scissors mechanism Sa, Sb. In order to protect this scissors mechanism Sa, Sb of each module Ma, Mb in a so-called overload case, each module Ma, Mb also has an overload mechanism Ua, Ub.

The modules Ma, Mb can be placed in a housing 1 at the option of a person skilled in the art. But it is also possible that a seal according to the invention has no housing and the modules are placed directly in a groove of a door. It is possible to design a gasket to have only one module.

The first module Ma comprises a module housing 2a. This has a substantially constant cross-sectional profile in the form of an inverted U. It has a connecting web 21 which connects two legs 22 of the module housing 2a. On the inner sides of the legs 22 webs 221 are attached. These form together with the connecting web 21 channels whose function will be explained.

The connecting web 21 projects beyond the outer sides of the legs 22. These projecting ends 211 of the connecting web are designed such that they form a fit with the grooves on the mutually facing sides 1111 of the webs 111 of the housing 1. In particular, the fit can form a clearance fit with little play. The module housing 2a is inserted with the ends 211 in the grooves on the mutually facing sides 1111 of the webs 111 of the housing 1 and so fixed in the housing at least positively. Complete fixation can be achieved, for example, by at least selective deformation of the webs 111 of the housing inwardly, i. take place against the ends 211 or the legs 22. Parts of the webs 111 can thereby be pressed against the ends 211 or legs 22, so that at least one frictional connection is made.

Trigger-side ends of the module housing 2a terminate flush with a trigger-side end of the housing 1. In contrast, missing in a range at the trigger end of the module housing the Connecting web 21. The lack of the connecting web at the trigger end of the module housing 2a has its reason that 2a is created by the absence of the connecting web 21 at the trigger side end of the module housing space to insert a mounting bracket in the housing 1.

In a region remote from the trigger of the module housing 2a of the first module Ma, two opposing holes are provided in the legs 22 directly adjacent to the webs 221. Corresponding holes are also provided in the module housing 2b of the second module Mb. In these holes, pins 71 of a short scissor element 7a are rotatably arranged. These pins 71 are also on the underside of the webs 221, whereby the pins 71 are supported at a load in the direction of the webs 221 and protected against shearing.

The short scissors element 7a of the first module Ma - it is identical to the short scissors element 7b of the second module Mb - is substantially H-shaped. It has a connecting web 72, from which two arms 73 and two legs 74 extend. At the ends of the arms 73, which are slightly shorter than the legs 74, are the outwardly projecting pins 71, the function of which has already been explained. The ends of the arms 73 abut on the webs 221, which supports the arms 73 under load in the direction of the webs 221. A load of the short scissor element 7a - and thus the pin 71 and the arms 73 - can arise when pressing the sealing strip to a floor when lowering or lowered sealing strip.

On the legs 74, two inwardly projecting pins 75 are provided, which serve to connect to a long scissor element 6a.

The long shearing element 6a of the first module Ma - it is identical to a long scissor element 6b of the second module Mb - can be divided into two sections, namely a first portion 61 which forms a frame, and a second portion 62, which is a rod forms. The two sections 61, 62 are connected to each other. In the region of the connection, the second section 62 of the long scissor element 6a has two blind holes which are open towards the outside. In these blind holes, the inwardly projecting pin 75 of the short scissor element 7a are inserted. As a result, the long and the short scissors element 6a, 7a are pivotally connected to each other.

The inserted into the blind holes pin 75 and the ends of the legs 74 abut against bearing shells 611, which are formed on the first portion 61 in the region of the connection of the first portion 61 with the second portion 62. This makes it possible to transmit greater forces into the long scissor element 6a via the pins 75 or legs 74 than when the bearing shells were missing.

The second portion 62 of the long scissor element 6a has a tapered region 621 from the blind holes toward the free end of the second portion 62. This conical taper of the second portion 62 facilitates the assembly of the short scissor element 7a on the long scissor element 6a. To this end, the inwardly projecting pins 75 of the short scissor element can be placed on the second section 62 at the most tapered end of the taper so that the pins lie on both sides of the second section. From this end of the taper, the pins 75 can then be pushed in the direction of the blind holes. The pins 75 bent apart until they finally snap into the blind holes.

The free end of the first section 61 or the opening present in this first section 61 serves to guide and support the long scissors element 6a, which will be explained in more detail. This free end is movable to the module housing 2a.

At the free end of the second portion 62 of the long scissor element, two outwardly projecting pins 63 are provided, which serve to connect the long scissors element 6a to the retaining profile 13. The pins 63 are movably guided and supported in the channels formed by the webs 134 and the connecting web 131 of the holding profile 13.

The second portion 62 of the long scissor element 6a has a width which is not greater than the distance of the legs 74 of the short scissor element 7a. Thus, it is possible that the second portion 62 is submerged between the legs 74, for example, when the seal is not triggered.

The long scissor element 6a and the short scissor element 7a together form a first scissor mechanism Sa of the first module Ma, which is also present as a second scissor mechanism Sb formed by the long scissor element 6b and the short scissor element 7b in the second module.

The first module Ma has a displacement part 3a. This sliding part has a flat, rod-like portion 31 which extends over the entire length of the sliding part 3a. This flat, bar-like portion 31 has approximately the shape of a T. Two protruding edges 311 of the rod-like portion 31st protrude into the channels, which are formed by the webs 221 and the connecting web 21 of the module housing 2a. The edges 311 and thus the entire displacement part 3a are slidably guided in the channels.

On an underside of the bar-like portion 31, three different structures 32, 33a, 34a are provided.

The structure 32 at a trigger-side end of the slide member 3a serves as a first connection structure provided for connecting the slide member 3a of the first module Ma to a first link rod 8. Furthermore, the structure 32 is part of the overload mechanism of the first module Ma.

The structure 33 cooperates with the scissor mechanism Sa of the first module and is a part of the overload mechanism of the first module Ma.

The structure 34 is a second connection structure that serves to connect the displacement part 3a of the first module Ma to a second connection rod 9.

The first as well as the second connection structure 32, 34 are designed such that both tensile forces and compressive forces can be transmitted via the connection structures 32, 34.

The structure 33 has an arm 331 extending toward the trigger-side end, which extends parallel to the rod-like portion 31 of the slide part 3a. This arm 331 passes through the opening in the first section 61 of the long scissor element 6a of the scissors mechanism Sa of the first module Ma. A free end 612 of the first section 61 is thereby stored and guided between the arm 331 and the rod-like portion 31 of the sliding part 3a.

The free end 612 is held by a holder 4a for an overload spring 5a and the overload spring 5a of the first module Ma in a position between the arm 331 and the rod-like portion 31 of the slide member 3a. The overload spring 5a is a helical compression spring. The holder 4a for the overload spring is rod-like.

It can be in the holder roughly four areas 41, 42, 43, 44 distinguished.

A first portion 41 is configured to be guided between the arm 331 and the rod-like portion 31 of the slide member 3a. For this purpose, the first region 41 of the holder 4a has on a lower side a channel in which a web 3311 engages, which is provided on the upper side of the arm 331. A free end 411 of the first portion 41 has a throat and forms a bearing cup for the free end 612 of the first portion 61 of the long scissor element 6a.

A second region 42, which has a larger cross-sectional area than the first region 41, adjoins this first region. This second region 42 forms a stop on the one hand, and a first end of the overload spring 5a, on the other hand, is supported on this second region is stuck on the third rod-like portion 43 of the holder 4a. A second end of the overload spring 5a is supported on the structure 32 of the sliding part 3a. The overload spring 5a pushes the holder and in particular the first portion 41 of the holder against the structure 33 of the sliding part. Thereby, the free end 612 of the first section of the long Scissor element 6 a held between the arm 331 and the rod-like portion 31. The abutment function of the second region 42 of the holder 4a ensures that the overload spring 5a does not press the free end 612 of the first section 61 of the long scissor element 6a against the structure 33, which could impair a slight pivoting of the long scissor element. The length of the first region 41 of the holder 4a is selected such that the free end 612 of the first portion 61 of the long scissor element 6a is supported, at least with slight play, between the structure 33 and the first region 41 of the holder 4a.

The third area 43 of the holder 4a is adjoined by a fourth area 44. This fourth region 44 is guided in a blind hole in the structure 32. A lower boundary wall 321 of the blind hole has a downwardly open slot. This slot is from bottom to top, i. from the outside in the direction of the blind hole, rejuvenated. This makes it possible to press the fourth portion 44 of the holder 4a from below through the slot in the blind hole. The slot is widened elastically. The fourth region 44 of the holder 4a can not be easily removed from the blind hole through the slot or fall out.

The second module Mb also comprises a module housing 2b. The module housing 2b of the second module Mb has the same cross-sectional profile as the module housing 2a of the first module. It is essentially different in length. The module housing 2b of the second module Mb is longer than the module housing 2a of the first module Ma. This extra length is needed to accommodate a return mechanism R.

The return mechanism R serves to return the seal from a released condition to an untripped condition bring when the sealing force triggering the trigger 16 is taken.

The second module Mb, like the first module Ma, has a displacement part 3b. This sliding part has a flat, rod-like portion 31 which extends over the entire length of the sliding part 3a and whose cross-section corresponds to that of the corresponding portion 31 of the sliding part of the first module.

The flat, bar-like portion 31 carries on its underside three structures 32, 33b, 34b.

The structure 32 at a trigger side end of the slide member 3b serves as a first connection structure provided for connecting the slide member 3b of the second module Mb to the second link rod 9. Furthermore, the structure 32 is part of the overload mechanism of the first module Ma. The structure is identical to the corresponding structure 32 of the displacement part 3a of the first module Ma.

The structure 33b cooperates with the scissors mechanism Sb of the second module Mb and forms part of the overload mechanism Ub of the second module Mb. In addition, it forms part of the return mechanism R.
The structure 34b serves as part of the return mechanism.

The structure 34b could also serve as a second connection structure, which could serve to connect the displacement part 3b of the second module Mb with another connecting rod 9, which is not provided in the exemplary embodiment.

The overload mechanism Ub of the second module Mb is designed in the same way as the overload mechanism Ua of the first module Ma.

Also, the scissor mechanism Sb of the second module Mb is designed in the same way as the scissor mechanism Sa of the first module.

The return mechanism R comprises in addition to the structures 33b and 34b mentioned a holder 10 for a return spring 11 and the return spring 11. The holder 10 has a first fork-shaped portion 101 which has two pins 1011 on its outer sides. These pins 1011 are inserted into holes in the module housing 2b of the second module Mb. As a result, the holder 10 with respect to the module housing 2b and the housing 1 is immovable.

At this first region 101, a second region 102 connects, on which the return spring 11 is attached. The return spring 11 is a helical compression spring.

The third area is adjoined by a third area 103. This third area is guided in a blind hole of the structure 33b of the displacement part 3b. A lower boundary wall 331 of the blind hole has a downwardly open slot. This slot is tapered from bottom to top, ie from the outside in the direction of the blind hole. This makes it possible to press the third portion 103 of the holder 10 from below through the slot in the blind hole. The slot is widened elastically. The third region 103 of the holder 10 can not be easily removed from the blind hole through the slot or fall out. As a result, the position of the return spring 11 is secured in the seal.

In the second module Mb, a stop 17 may be provided (see Fig. 23 ). This stop 17 serves to limit the path of the holding profile 13 and the attached sealing profile 14 relative to the housing 1, so that the sealing profile 14 does not come within a range when the seal is actuated, in particular in the state not mounted in a door, in which the sealing profile 14 loses its leadership through the housing 1. Otherwise, there is a risk that the sealing profile 14 exits the housing 1. If the retaining profile 13 is then pulled back into the housing 1 when the release mechanism 12 is released via the scissors mechanisms Sa, Sb, the sealing profile 14 could be damaged if the guidance of the sealing profile 14 through the housing 1 is lost. The stop 17 limits the movement of the connecting rod assembly, which comprises the connecting rods 8, 9 and the sliding parts 3a, 3b, and the trigger 16. Thus, the movement of the scissors mechanisms Sa, Sb and consequently the retaining profile 13 and the sealing profile 14 is limited ,

The stopper 17 is arranged on the third region 103 of the holder 10 for the return spring 11. The stopper 17 is an elastomeric tube, which is attached to the third region 103 of the holder 10. Against this stop 17, the displacement part 3b of the second module strikes when the trigger 16 should be pressed so far into the housing that there is a risk that the sealing profile loses its leadership through the housing 1.

The stop 17 can also be arranged in the second module housing 2b between the trigger remote end of the sliding part 3b and the trigger remote end of the module housing 2b firmly connected to the module housing 2b. Alternatively, it is possible the To attach stop 17 to the trigger remote end of the sliding part 3b, as it is in Fig. 24 is shown. At the remote end of the module housing 2b then a counterpart to the stopper is provided which cooperates with the stop 17 to limit the path of the sliding part 3b of the second module Mb and the entire connecting rod assembly 8, 9, 3a, 3b and the trigger 16. The stop 17 is positioned in the module housing 2b or on the displacement part 3b, which abuts the connecting rod assembly 8, 9, 3a, 3b on the stop 17 and the counterpart upon actuation of the trigger 16 and the seal before the sealing profile 14 a guide through the housing 1 loses and could be damaged.

The connections between the trigger 16, the first connecting rod 8, the sliding part 3a of the first module Ma, the second connecting rod 9 and the sliding part 3b of the second module Mb are loaded both upon release and upon return to pressure, on the one hand by the pressure, which is exerted on the trigger 12 and the other by the pressure exerted by the return spring 15.

By the movement of the unit of the trigger 16, the first connecting rod 8, the sliding part 3a of the first module Ma, the second connecting rod 9 and the sliding part 3b of the second module Mb and the holders 4a, 4b for the overload springs, the free ends 612 of long scissors elements 6a, 6b with moves. As a result, these ends 612 are displaced relative to the housing 1 and the module housings 2a, 2b and the pins 71 of the short scissor elements 7a, 7b mounted pivotably therein. The scissor mechanisms Sa, Sb open and the sealing strip is thereby displaced downwards.

If, for whatever reason, the sealing strip is prevented from a complete downward movement, the or possibly one of the overload mechanisms Ua, Ub becomes effective. If the sealing strip is prevented from (further) downward movement, the scissor mechanisms Sa, Sb can not open any further. The free ends 612 of the long scissors elements 6a, 6b can then not be displaced together with the unit of the trigger 16, the first connecting rod 8, the displacing part 3a of the first module Ma, the second connecting rod 9 and the displacing part 3b of the second module Mb. A despite the stoppage of the sealing strip further taking place movement of the unit of the trigger 16, the first connecting rod 8, the sliding part 3a of the first module Ma, the second connecting rod 9 and the displacement part 3b of the second module Mb then causes the free ends 612 of long scissor elements 6a, 6b press against the holders 4a, 4b for the overload springs 5a, 5b and these are displaced in the direction of the trigger 16. As a result, the overload springs 5a, 5b are compressed.

Advantageously, the way by which the free ends 612 can be displaced against the overload springs 5a, 5b is as long as the path taken by the unit of the trigger 16, the first connecting rod 8, the sliding part 3a of the first module Ma, the second Connecting rod 9 and the displacement part 3b of the second module Mb can be moved. The scissor mechanisms Sa, Sb are then protected against damage due to overload.

When in the Fig. 21a , b illustrated inventive first variant of the embodiment described above, the return mechanism R is not provided in the second module Mb, but in the first module Ma. This has the advantage that on could be arranged at the end of the seal of the scissors mechanism Sb. This can provide for a stronger pressure of the sealing strip at its trigger remote end, which may be particularly important for the Schlagregedichtigkeit the seal of importance.

On the basis of in the FIGS. 22a to c illustrated second variant of the embodiment is explained how a seal according to the invention can be assembled without a game between the connecting rods 8, 9 and the sliding parts 3a, 3b, which could result in that the scissor mechanisms are not synchronously operated when the trigger the seal is pressed.

The in the FIGS. 22a to c illustrated second variant of the seal is largely designed as that in the FIGS. 1 to 20 illustrated embodiment. Differences are found in the design of the connecting rods 8, 9 and the displacement parts 3a, 3b.

The connecting rods 8, 9 are designed as rods with a circular cross-section, which is uniform over the entire length of the connecting rods 8, 9.

The displacement parts 3a, 3b differ from the displacement parts of the embodiment according to the FIGS. 1 to 20 by the execution of the connecting structures 32, 33 at the ends of the sliding parts. The connecting structures are configured in the second variant as blind holes, in which the connecting rods 8, 9 are inserted, in such a way that between the connecting rods 8, 9 and the sliding parts 3a, 3b no play is present.

In particular, the connecting rods 8, 9 of the second variant are designed simpler than the connecting rods 8, 9 of the other variants shown, which is an advantage of the second variant over the other variants.

The backlash between the connecting rods 8, 9 and the sliding parts 3a, 3b is achieved in each variant of a seal according to the invention.

The backlash of a seal according to the invention can be achieved in particular when the seals are assembled according to the inventive method.

In this case, for example, the first module Ma and the trigger 16 connected to the first module Ma via the first connecting rod 8 are inserted into the housing 1. The trigger 16, the connecting rod 8 and the displacement part 3a of the first module Ma are pressed against each other, without the scissor mechanism Sa of the first module Ma is actuated. The first module Ma is placed in the housing so that the trigger 16 protrudes from the housing 1 by a desired amount.

In a further step, the connecting rod 9 is then used to connect the first module Ma and the second module Mb in the provided on the side remote from the trigger 16 side connecting structure of the sliding part 3a of the first module in the longitudinal direction without play to the sliding part 3a. For this purpose, the connecting rod 9 is pressed against the sliding part 3a.

The connecting rod 9 can already be used together with the first module Ma in the housing 1 of the seal.

In the next step, the second module Mb is inserted into the housing 1. The trigger-side connection structure, the blind hole of the sliding part 3b of the second module Mb is thereby pushed onto the connecting rod 9, so that between the connecting rod 9 and the sliding part 3b no play.

1

Gehäuse

2a

Modulgehäuse des ersten Moduls

2b

Modulgehäuse des zweiten Moduls

3a

Verschiebeteil des ersten Moduls

3b

Verschiebeteil des zweiten Moduls

4a

Halter für die Überlastfeder des ersten Moduls

4b

Halter für die Überlastfeder des zweiten Moduls

5a

Überlastfeder des ersten Moduls

5b

Überlastfeder des zweiten Moduls

6a

langes Scherenelement des Scherenmechanismus des ersten Moduls

6b

langes Scherenelement des Scherenmechanismus des zweiten Moduls

7a

kurzes Scherenelement des Scherenmechanismus des ersten Moduls

7b

kurzes Scherenelement des Scherenmechanismus des zweiten Moduls

8

erste Verbindungsstange

9

zweite Verbindungsstange

10

Halter für die Rückstellfeder

13

Halteprofil

14

Dichtungsprofil

15

Rückstellfeder

16

Auslöser

17

Anschlag

Ma

erstes Modul

Mb

zweites Modul

Sa

Scherenmechanismus des ersten Moduls

Sb

Scherenmechanismus des zweiten Moduls

Ua

Überlastmechanismus

Ub

Überlastmechanismus

R

Rückstellmechanismus

If the positions of modules Ma, Mb are found in this way, the module housings 2a, 2b of the modules Ma, Mb are fastened to the housing 1. In addition to those in the Fig. 22c Arranged with arrows points webs of the housing 1 against the Modulghäuse 2a, 2b pressed.

1

casing

2a

Module housing of the first module

2 B

Module housing of the second module

3a

Shifting part of the first module

3b

Shifting part of the second module

4a

Holder for the overload spring of the first module

4b

Holder for the overload spring of the second module

5a

Overload spring of the first module

5b

Overload spring of the second module

6a

long scissor element of the scissors mechanism of the first module

6b

long scissor element of the scissors mechanism of the second module

7a

short scissor element of the scissors mechanism of the first module

7b

short scissor element of the scissors mechanism of the second module

8th

first connecting rod

9

second connecting rod

10

Holder for the return spring

13

retaining profile

14

weatherstrip

15

Return spring

16

trigger

17

attack

Ma

first module

mb

second module

Sat.

Scissors mechanism of the first module

sb

Scissors mechanism of the second module

Ua

Overload mechanism

ub

Overload mechanism

R

Reset mechanism

Claims (14)

A seal comprising a housing (1), a sealing strip (13, 14) which is displaceable relative to the housing (1) and a trigger (16) with which a displacement of the sealing strip (13, 14) to the housing (1) releasable, with at least one lowering mechanism, and with a connecting rod assembly comprising at least one connecting rod which couples the trigger with the lowering mechanism so that movement of the trigger is transferable to the lowering mechanism,
characterized,
in that the seal in the housing has at least one stop (17) on which or with which the connecting rod arrangement strikes directly or indirectly upon actuation of the trigger (16) before the movement of the sealing strip (13, 13) is actuated when the trigger (16) is actuated. 14) causes parts of the sealing strip (13, 14) lose their leadership through the housing (1) of the seal or the sealing strip (13, 14) completely out of the housing (1). Seal according to claim 1, characterized in that the stop (17) in the housing (1) fixed or is provided immovably to the housing (1) or immovable to the connecting rod assembly. Seal according to claim 1 or 2, characterized in that the stop (17) is connected to the housing (1) or the connecting rod assembly. Seal according to one of claims 1 to 3, characterized in that an end facing away from the trigger of the connecting rod assembly has at least one structure which is provided for abutment against the stop. Seal according to claim 5, characterized in that the stop from the direction of the trigger viewed behind the trigger remote from the end of the connecting rod assembly is mounted in the housing or on the connecting rod assembly. Seal according to one of claims 1 to 4, characterized in that the connecting rod assembly between the end to which the trigger is attached and the trigger end facing away from the connecting rod assembly comprises the stop or at least one structure which is provided for abutment against the stop. Seal according to claim 5, characterized in that the stop in the longitudinal direction of the seal considered above, below or next to the connecting rod assembly to the housing or the connecting rod assembly is attached. Seal according to one of claims 1 to 7, characterized in that the seal comprises at least two modules (Ma, Mb), each module (Ma, Mb) a module housing (2a, 2b) fixed to the housing (1), - A displacement part (3a, 3b) which is displaceable to the module housing (2a, 2b), and - One of the scissor mechanisms (Sa, Sb) which is connected to the module housing (2a, 2b), with the sealing strip (13, 14) and with the displacement part (3a, 3b), having, - wherein the displacement parts (3a, 3b) of the modules are parts of the sliding bar assembly, which are connected via connecting rods (8, 9) with each other and with the trigger. Seal according to Claim 8, characterized in that one of the modules (Mb) has a return mechanism (R), the return mechanism (R) having a return spring (11) resting on an element (101) of the return mechanism (101) connected to the module housing. R) is supported, and wherein the stopper with this element (101) for supporting the return spring (11) is firmly connected. Seal according to claim 9, characterized in that the element (101) is part of a holder (10) for the return spring (11) and the stopper is attached to a trigger-side end of the holder. Seal according to claim 8, characterized in that the stop is fixed in the module housing of one of the modules or is formed as a structure of the module housing of one of the modules. Seal according to claim 11, characterized in that the module housing, in which the stop is attached or in which the stopper is formed as a structure, belongs to the module which is farthest from the trigger. Seal according to claim 12, characterized in that the stop between one end of the module housing and the end of the sliding part of the module is mounted in the module housing or formed as a structure in the module housing. Seal according to one of claims 1 to 13, characterized in that the stop consists at least partially of an elastomer.

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