EP4306737A1 - Sealing element with drainage means - Google Patents

Abstract

The invention relates to a sealing element (206, 306) for a post-transom facade (200) with a post (202) and a transom (204, 304) which can be fastened to a side surface (218) of the post and which has at least one on the outside Sealing groove (222, 224, 322, 324) for receiving a sealing profile and a screw channel (220, 320), wherein at least one drainage channel is arranged between the screw channel (220, 320) and the sealing groove (222, 224, 322, 324). , wherein the post (202) has at least one sealing groove (210, 212) for receiving a sealing profile on an outside facing the bolt (204, 304), and wherein the sealing element (206, 306) has the following: a first anchoring part (230, 330), which is designed to be secured in the sealing groove (210, 212) of the post; a sealing area (232, 332), which is connected to the first anchoring part (230, 330) in such a way that the sealing area (232, 332), in the assembled state, forms a joint area between the bolt (204, 304) and the post (202 ), wherein the sealing element (206, 306) has at least one drainage projection (240, 242, 340, 342), which is designed to extend into the drainage channel of the bolt in the assembled state.

Description

The present invention relates to a sealing element for a post-transom facade. In particular, the invention relates to a sealing element for mullion-transom facades with a mullion and a latch which can be fastened to a side surface of the mullion and which has at least one sealing groove on an outside for receiving a sealing profile and a screw channel, with at least one between the screw channel and the sealing groove Drainage channel is arranged, the post having at least one sealing groove for receiving a sealing profile on an outside facing the bolt. The present invention further relates to a post-transom facade with the above-mentioned sealing element.

A post and beam facade is from the DE 198 30 087 C2 known. With such post-transom facades, it is important to achieve targeted drainage of the water that collects in the horizontal transom profiles, for example condensation or the like. The water is fed into the vertical post profiles via drainage channels and drains downwards via drainage channels. The joint areas in which the bars abut the posts must be effectively sealed so that water that collects cannot run off on the outside of the post in the area of the joint before it enters the vertical posts.

In the known post-transom facades, the drainage function is often achieved by a plastic profile in the horizontal transom profiles, which is pushed onto the main transom profile in its full length in the palatinate area and is equipped with drainage channels. The plastic profile is designed and placed on the transom profile in such a way that its front end protrudes slightly into the rebate area of the post profile in the area of the joint, without an opening or notch in the post area of the joint is necessary. The sealing in the area where the plastic profile protrudes beyond the front end of the associated main bar profile is carried out by a sealing filler piece which is inserted into a hollow chamber of the plastic profile that is to be closed.

Starting from such post-transom facades with pushed-on plastic profiles, the DE 102 00 449 A1 a sealing element (or sealing sleeve) is provided, which enables effective drainage of the horizontal bar without requiring the additional, pushed-on plastic profiles for drainage.

The present invention is based on the object of the sealing element DE 102 00 449 A1 to be further developed in such a way that further improved drainage is achieved, especially in the joint area between the post and the associated bars.

This task is solved by the subject matter of independent patent claim 1. Advantageous developments of the device according to the invention can be found in the dependent patent claims.

• einen ersten Verankerungsteil, welcher dazu ausgebildet ist in der Dichtungsnut des Pfostens befestigt zu werden.
• einen Dichtbereich, welcher derart mit dem ersten Verankerungsteil verbunden ist, dass der Dichtbereich, im montierten Zustand, einen Stoßbereich zwischen dem Riegel und dem Pfosten abdichtet,

wobei das Dichtungselement wenigstens einen Entwässerungsvorsprung aufweist, welcher dazu ausbildet ist sich, im montierten Zustand, in den Drainagekanal des Riegels zu erstrecken.Accordingly, the invention relates to a sealing element for a post-transom facade with a post and a bar that can be fastened to a side surface of the post and which has at least one sealing groove on an outside for receiving a sealing profile and a screw channel, with at least a drainage channel is arranged, wherein the post has at least one sealing groove for receiving a sealing profile on an outside facing the bolt, and wherein the sealing element has the following:

• a first anchoring part which is designed to be fastened in the sealing groove of the post.
• a sealing area which is connected to the first anchoring part in such a way that the sealing area, in the assembled state, seals a joint area between the bolt and the post,

wherein the sealing element has at least one drainage projection which, in the assembled state, is designed to extend into the drainage channel of the bolt.

The sealing element of the present invention therefore serves not only to seal the joint area between the bolt and the post. Rather, the sealing element has drainage projections which extend into the drainage channel of the post and thus improve the drainage of the water in the drainage channels of the bars into the drainage channels of the posts. The drainage projections are accordingly guide elements that direct the flow of water from the transom drainage channel into the post drainage channel. As will be explained in more detail later, the drainage projections can also be used to enable a flush arrangement of the mullion and transom profiles without forming part of the transom in such a way that it extends into the pallet area of the mullion. This particularly improves the construction of the transom profiles and the associated sealing strips.

According to a further embodiment of the present invention, the drainage projection is designed in a ramp shape. The drainage projection can have a thickness that increases in the direction of the sealing area of the sealing element. In other words, when installed, the thickness of the ramp can decrease towards the transom (i.e. away from the post), so that the ramp can reliably lift water from the transom's drainage channel into the post's drainage channel.

According to a further embodiment, the drainage projection is connected to the anchoring part in such a way that the drainage projection, in the assembled state, extends from the side surface of the post into the drainage channel of the transom. According to this embodiment variant, it can be achieved in particular that the sealing element does not extend beyond the sealing profiles of the post. Rather, on the one hand, this is anchored in the sealing profiles of the post, with the drainage projections extending exclusively to the side of the post. For this purpose, either a recess can be provided in the sealing profile of the post, via which the drainage projections are connected to the anchoring part. Alternatively, the anchoring parts can be connected to the drainage projections via a thin web, the web being adapted to the shape of the sealing profiles.

According to a further embodiment, the sealing element is designed to seal the end face of the bolt. The sealing element can on the one hand engage in the sealing groove of the bolt and on the other hand in an interior of the post.

According to a further embodiment, the post has a sealing groove on each of its opposite sides for receiving a sealing profile, a drainage channel being arranged between the screw channel and the sealing grooves and the sealing element having two drainage projections, the two drainage projections being designed in such a way that When assembled, one of the drainage projections extends into one of the drainage channels. This means that both drainage channels of the transom profiles can be easily drained into the post using a single sealing element.

According to a further embodiment, the sealing element has a further drainage projection which, in the assembled state, is designed to extend into the screw channel of the post. This third drainage projection can accordingly extend between the first and second drainage projections for the drainage channels. The third drainage projection extends substantially parallel to the first and second drainage projections. With this additional drainage projection, not only safe drainage of the drainage channels, but also of the screw channel can be achieved. The third drainage projection can also be designed in the shape of a ramp, as has already been explained in connection with the drainage projections for the drainage channels.

According to a further embodiment, the sealing element has a second anchoring part, which is designed to be fastened in a profile of the bolt, in particular in the at least one sealing groove. Accordingly, the sealing element can be used not only for sealing, but also for aligning the bolt on the post.

According to a further embodiment, the second anchoring part is designed to protrude over the side surface of the post in the assembled state. The second anchoring part therefore does not extend forward over the post, but only to the side of the post, so that a flush arrangement of the bolt with the post can be achieved.

According to a further embodiment, the second anchoring part extends perpendicular to the first anchoring part. This ensures a right-angled arrangement of the post and the transom.

• einem Pfosten mit wenigstens einer Seitenfläche und wenigstens einer Dichtungsnut zur Aufnahme eines Dichtungsprofils;
• einen Riegel, welcher an der Seitenfläche des Pfostens befestigt ist und an einer Außenseite wenigstens eine Dichtungsnut zur Aufnahme eines Dichtungsprofils aufweist, wobei der Riegel einen Schraubkanal aufweist, und wobei zwischen dem Schraubkanal und der Dichtungsnut mindestens ein Drainagekanal angeordnet ist,
• ein Dichtungselement nach einem der Ansprüche 1 bis 9, wobei das Dichtungselement zwischen dem Pfosten und dem Riegel angeordnet ist.

According to a further aspect, the present invention relates to a post-transom facade which has the following:

• a post with at least one side surface and at least one sealing groove for receiving a sealing profile;
• a bolt which is attached to the side surface of the post and has at least one sealing groove on an outside for receiving a sealing profile, the bolt having a screw channel, and at least one drainage channel being arranged between the screw channel and the sealing groove,
• a sealing element according to any one of claims 1 to 9, wherein the sealing element is arranged between the post and the transom.

The invention is explained below with reference to the figures shown in FIGS. illustrated embodiments explained in more detail.

FIG. 1

eine Pfosten-Riegel-Fassade gemäß dem Stand der Technik;

FIG. 2

eine schematische Frontansicht einer Pfosten-Riegel-Fassade gemäß einer Ausführungsform der vorliegenden Erfindung;

FIG. 3

ein Querschnitt durch die in FIG. 2 gezeigte Pfosten-Riegel-Fassade.

FIG. 4

eine schematische Frontansicht einer Pfosten-Riegel-Fassade gemäß einer Ausführungsform der vorliegenden Erfindung; und

FIG. 5

ein Querschnitt durch die in FIG. 4 gezeigte Pfosten-Riegel-Fassade.

Show it:

FIG. 1

a post-transom facade according to the state of the art;

FIG. 2

a schematic front view of a post-transom facade according to an embodiment of the present invention;

FIG. 3

a cross section through the in FIG. 2 Post and beam facade shown.

FIG. 4

a schematic front view of a post-transom facade according to an embodiment of the present invention; and

FIG. 5

a cross section through the in FIG. 4 Post and beam facade shown.

The FIG. 1 shows a perspective view of a portion of a post-transom facade 100 according to the prior art. The FIG. 1 corresponds in particular to FIG. 11 of DE 102 00 449 A1 . The post and beam facade 100 has a post 102 and a bolt 104 connected thereto. A sealing element 106 is arranged in the abutment area of the bolt 104 with the post 102.

The post has a profile with a screw channel 108 and two external sealing grooves 110, 112. The sealing grooves 110, 112 are arranged on opposite sides of the post and extend parallel to the screw channel 108.

A first drainage channel 114 is arranged between the first sealing groove 110 and the screw channel 108. A second drainage channel 116 is arranged between the second sealing groove 112 and the screw channel 108.

The bolt has a profile with a screw channel 120 and two external sealing grooves 122, 124. The sealing grooves 122, 124 are arranged on opposite sides of the bolt and extend parallel to the screw channel 120.

A first drainage channel 126 is arranged between the first sealing groove 122 and the screw channel 120. A second drainage channel 128 is arranged between the second sealing groove 124 and the screw channel 120.

The sealing element 106 is designed to seal the joint area between the post 102 and the bolt 104. For this purpose, the sealing element 106 has a sealing area 132 on which extends over a side surface 118 of the post 102 before assembly of the bolt 104 (not shown). When mounting the bar 104 on the post 102, the sealing area 132 is compressed, whereby the abutting edge between the post 102 and the bar 104 is sealed.

The sealing element 106 has a first anchoring part 130, which is arranged in a portion of the first sealing groove 110. Second and third anchoring parts 134, 136 extend into the sealing grooves 122, 124 of the post 104. A web 131 is arranged between the first anchoring part 130 and the second and third anchoring parts 134, 136, which covers the first sealing groove 110 and thus protects against water entry protects. The FIG. 2 is a top view of a post-transom facade according to the present invention. The post-transom facade 200 according to FIG. 2 has two sealing elements 206, 306. The sealing elements 206, 306 are two different embodiments of the present invention.

The post-transom facade 200 according to FIG. 2 has a post 202 with a screw channel 208 and two sealing grooves 210, 212 arranged on the outside. A first drainage channel 214 is arranged between the first sealing groove 210 and the screw channel 208. A second drainage channel 216 is arranged between the second sealing groove 212 and the screw channel 208. A first latch 204 is arranged on a first side surface 218 of the post 202. Like this in particular FIG. 3 As can be seen, the bolt 204 is arranged aligned/flush with the post 202. In the FIG. 2 The sealing grooves 210, 212, 222, 224, 322, 324 shown lie in the same plane.

The first latch 204 has a screw channel 220 and two sealing grooves 222, 224 arranged on the outside. A first drainage channel 226 is arranged between the first sealing groove 222 and the screw channel 220. A second drainage channel 228 is arranged between the second sealing groove 224 and the screw channel 220.

The first bar 204 is connected to the post 202 via a sealing element 206 according to a first embodiment. The sealing element 206 has an anchoring part (230, FIG. 3 ), which extends into the first sealing groove 210. The first anchoring part is designed to connect the sealing element 206 to the first sealing groove 210 of the post 202. The sealing element 206 has a sealing area 232, which is connected to the first anchoring part in such a way that the sealing area 232, in the assembled state, seals a joint area between the bolt and the post. For this purpose, the sealing area 232 can be arranged in particular between the first side surface 218 of the post 202 and the abutting surface of the bolt 204. In other words, the sealing area 232 can be clamped between the post 202 and the first bar 204.

The sealing element 206 has second and third anchoring parts 234, 236 which extend into the first and second sealing grooves 222, 224, respectively. Although this is from the FIG. 2 is not immediately recognizable, it should be noted that the second and third anchoring elements 234, 236 extend in particular from the side surface 218 in the direction of the bolt 204. In other words, the second and third anchoring parts 234, 236 are in the FIG. 2 shown drawing plane, so that the sealing grooves 222, 224 of the bolt 204 are arranged flush with the first sealing groove 210 in the assembled state. This has the advantage that sealing profiles, which are inserted into the sealing grooves 222, 224, 210, can be made of the same size (deep) in order to protect the corresponding facade elements against the ingress of water.

A web 231 is arranged between the first anchoring part 230 and the second and third anchoring parts 234, 236, which covers the first sealing groove 210 and thus protects against water entry.

The first sealing element 206 has a first drainage projection 240, which in the assembled state shown here extends into the first drainage channel 226 of the bar 204. The sealing element 206 further has a second drainage projection 242 which extends into the second drainage channel 228. The first and second drainage projections 240, 242 improve the drainage of water from the drainage channels 226, 228 of the bar 204 into the first drainage channel 214 of the post 202. The two drainage projections 240, 242 also ensure the seal between the web area 231 and the drainage channels 226 , 228 of the bolt 204 is improved, since the drainage projections 240, 242 are in particular designed in one piece with the web 231. Water from the drainage channels 226, 228 of the bar 204 can therefore drain via the drainage projections 240, 242 and the web 231 of the sealing element 206 into the first drainage channel 214 of the post 202.

The FIG. 3 is a cross section through the in FIG. 2 shown embodiment of the post-transom facade 200 can be seen. For the sake of simplicity, they are: FIG. 2 However, only the screw channel 220 and the first sealing groove 222 of the first bolt 204 can be removed. The sealing element 206 is attached to the first anchoring part 230 in the first sealing groove of the post 202.

The FIG. 3 In particular, it can be seen schematically that the first drainage projection 240 is designed in a ramp shape. In other words, the drainage projection 240 has a thickness that decreases with a distance from the first side surface 218. The ramp-shaped drainage projection 240 enables a continuous transition between the height of the first drainage channel 222 and the web 231 of the sealing element 206. This allows water to flow easily and reliably from the first drainage channel 222 via the ramp-shaped drainage projection 240 and the web 231 into the first drainage channel 214 of the post 202 can be directed.

Coming back up FIG. 2 It should be noted that the mullion-transom facade 200 also has a sealing element 306 according to a second embodiment of the present invention. The second sealing element 306 is between the post 202 and a second bar 304 arranged.

The sealing element 306 has an anchoring part (330, FIG. 3 ), which extends into the second sealing groove 212 of the post. The first anchoring part is designed to connect the sealing element 306 to the second sealing groove 212 of the post 202. The sealing element 306 has a sealing area 332, which is connected to the first anchoring part in such a way that the sealing area 332, in the assembled state, seals a joint area between the bolt 202 and the post 304. For this purpose, the sealing area 332 can be arranged in particular between the second side surface of the post 202 and the abutment surface of the bolt 304. In other words, the sealing area 332 can be clamped between the post 202 and the second latch 304.

The sealing element 306 has second and third anchoring parts 334, 336 which extend into the first and second sealing grooves 322, 324, respectively. Although this is from the FIG. 2 is not immediately recognizable, it should be noted that the second and third anchoring elements 334, 336 extend in particular from the side surface 318 in the direction of the bolt 304. In other words, the second and third anchoring parts 334, 336 are in the FIG. 2 shown drawing plane, so that the sealing grooves 322, 324 of the bolt 204 are arranged flush with the second sealing groove 212 in the assembled state. This has the advantage that sealing profiles which are inserted into the sealing grooves 322, 324, 212 are of the same size (depth). can be used to protect the corresponding facade elements against the ingress of water.

A web 331 is arranged between the first anchoring part 330 and the second and third anchoring parts 334, 336, which covers the second sealing groove 212 of the post 202 and thus protects against water entry.

The sealing element 306 has a first drainage projection 340, which in the assembled state shown here extends into the first drainage channel 326 of the bolt 304. The sealing element 306 further has a second drainage projection 342 which extends into the second drainage channel 328. The first and second drainage projections 340, 342 improve the drainage of water from the drainage channels 326, 328 of the bar 304 into the second drainage channel 216 of the post 202. The two drainage projections 340, 342 also ensure the seal between the web area 331 and the drainage channels 326 , 328 of the bolt 304 is improved, since the drainage projections 340, 342 are in particular designed in one piece with the web 331. Water from the drainage channels 326, 328 of the bar 304 can therefore drain via the drainage projections 340, 342 and the web 331 of the sealing element 306 into the second drainage channel 216 of the post 202.

According to FIG. 3 is the sealing element 306 is attached to the first anchoring part 330 in the second sealing groove 212 of the post 202. The FIG. 3 In particular, it can be seen schematically that the second drainage projection 342 is designed in a ramp shape. In other words, the drainage projection 342 has a thickness that decreases with distance from the second side surface of the post 202. The ramp-shaped drainage projection 342 enables a constant transition between the height of the drainage channel 324 and the web 331 of the sealing element 306. As a result, water can be easily and reliably guided from the drainage channel 324 via the ramp-shaped drainage projection 342 and the web 331 into the second drainage channel 216 of the post 202 become.

The sealing element 306 according to the second embodiment has a third drainage projection 344. When assembled, the third drainage projection 344 extends into the screw channel 320 of the second Bar 304. Similar to the two first and second drainage projections 340, 342, the third drainage projection 344 is also preferably designed in a ramp shape. This is particularly the case FIG. 3 removable. Although in the FIG. 3 shown that the ramp-shaped, third drainage projection 344 has a greater slope than the first and second drainage projections 342, 344. However, this is only an example, because the slope of the third drainage projection 344 can also be equal to or less than the slope of the first and second drainage projections 342, 344.

The post-transom façade 400 according to FIG. 4 is essentially identical to the post-and-beam façade Fig. 2 . The post-transom facade 400 has a post 402 with a screw channel 408 and two sealing grooves 410, 412 arranged on the outside. A first drainage channel 414 is arranged between the first sealing groove 410 and the screw channel 408. A second drainage channel 416 is arranged between the second sealing groove 412 and the screw channel 408. A first latch 404 is arranged on a first side surface 418 of the post 402. Like this in particular FIG. 5 As can be seen, the latch 404 is arranged aligned/flush with the post 402. In the FIG. 4 The sealing grooves 410, 412, 422, 424, 522, 524 shown lie in the same plane.

The first latch 404 has a screw channel 420 and two sealing grooves 422, 424 arranged on the outside. A first drainage channel 426 is arranged between the first sealing groove 422 and the screw channel 420. A second drainage channel 428 is arranged between the second sealing groove 424 and the screw channel 420.

The first bar 404 is connected to the post 402 via a sealing element 406. The sealing element 406 is essentially identical to the sealing element 206 according to the Figures 2 and 3 and has corresponding drainage projections.

The post-transom facade 200 also has a second sealing element 506 that is essentially identical to the sealing element 306. The second sealing element 506 is between the post 402 and a second bar 504 arranged. The second bar 504 is identical to the second bar 304 and has corresponding drainage projections.

According to the in the Figures 4 and 5 In the embodiment shown, a molded part 600 is provided in the screw channel 408 of the post 402 for vapor pressure compensation. The molded part 600 is detachably connected to the screw channel 408. In particular, the molded part 600 can be clipped into the screw channel 408. The molded part 600 has a ventilation opening 602, which extends lengthways through the molded part 600 and thus serves to ventilate the drainage channels 414, 416. Side surfaces 604 partially cover the drainage channels 414, 416 and thus allow air to escape via the ventilation opening.

The molded part 600 can be aligned with a lower edge of the bars 404, 504.

The molded part 600 can also have an injection opening into which sealant can be injected into the rebate base of the transom and mullion facade 400.

The invention is not limited to the embodiments shown in the figures, but results from a synopsis of all the features disclosed herein.

Reference symbol list

100, 200, 400

Post and beam facade

102, 202, 402

post

104, 204, 304, 404, 5047

bars

106, 206, 306, 406, 506

Sealing element

108, 208, 408

screw channel

110, 210, 410

first sealing groove

112, 212, 412

second sealing groove

114, 214, 414

first drainage channel

116, 216, 416

second drainage channel

118, 218, 418

side surface

120, 220, 320, 420

screw channel

122, 222, 322, 422, 522

first sealing groove

124, 224, 324, 424, 524

second sealing groove

126, 226, 326, 426

first drainage channel

128, 228, 328, 428

second drainage channel

130, 230, 330

first anchoring part

131, 231, 331

web

132, 232, 332

sealing area

134, 234, 334

second anchoring part

136, 236, 336

third anchoring part

240, 340

first drainage projection

242, 342

second drainage projection

344

third drainage projection

600

molding

602

Drainage opening

604

side surface

Claims (10)

Sealing element (206, 306) for a post-transom facade (200) with a post (202) and a bar (204, 304) which can be fastened to a side surface (218) of the post and which has at least one sealing groove (222, 224, 322, 324) for receiving a sealing profile and a screw channel (220, 320), at least one drainage channel being arranged between the screw channel (220, 320) and the sealing groove (222, 224, 322, 324), the post (202) has at least one sealing groove (210, 212) for receiving a sealing profile on an outside facing the latch (204, 304), and wherein the sealing element (206, 306) has the following: - A first anchoring part (230, 330), which is designed to be fastened in the sealing groove (210, 212) of the post. - a sealing area (232, 332), which is connected to the first anchoring part (230, 330) in such a way that the sealing area (232, 332), in the assembled state, forms a joint area between the bolt (204, 304) and the post ( 202) seals, characterized in that the sealing element (206, 306) has at least one drainage projection (240, 242, 340, 342) which, in the assembled state, is designed to extend into the drainage channel of the bolt. Sealing element (206, 306) according to claim 1,
wherein the drainage projection (240, 242, 340, 342) is designed to be ramp-shaped. Sealing element (206, 306) according to claim 2,
wherein the drainage projection (240, 242, 340, 342) has a thickness that increases towards the sealing region of the sealing element (206, 306). Sealing element (206, 306) according to one of claims 1 to 3,
wherein the drainage projection (240, 242, 340, 342) is connected to the anchoring part in such a way that the drainage projection (240, 242, 340, 342), in the assembled state, extends from the side surface (218) of the post into the drainage channel (226 , 228, 326, 328) of the bolt, and / or wherein the sealing element is designed to seal the end face of the bolt. Sealing element (206, 306) according to one of claims 1 to 4,
wherein the post (202) has a sealing groove (222, 224, 322, 324) on each of its opposite outer sides for receiving a sealing profile, with between the screw channel (220, 320) and the sealing grooves (222, 224, 322, 324) one drainage channel (226, 228, 326, 328) is arranged in each case, and wherein the sealing element (206, 306) has two drainage projections (240, 242, 340, 342), the two drainage projections (240, 242, 340, 342) are designed in such a way that one of the drainage projections (240, 242, 340, 342), in the assembled state, extends into one of the drainage channels (226, 228, 326, 328). Sealing element (306) according to one of claims 1 to 5,
wherein the sealing element (306) has a further drainage projection (344) which, in the assembled state, is designed to extend into the screw channel (320) of the bolt. Sealing element (206, 306) according to one of claims 1 to 6,
wherein the sealing element (206, 306) has a second anchoring part (234, 334) which is designed to be fastened in a profile of the bolt, in particular in the at least one sealing groove. Sealing element (206, 306) according to claim 7,
wherein the second anchoring part (234, 334) is designed to protrude beyond the side surface (218) of the post when assembled. Sealing element (206, 306) according to claim 8,
wherein the second anchoring part (234, 334) extends perpendicular to the first anchoring part (230, 330). Post-transom facade (200), which has the following: - a post (202) with at least one side surface (218) and at least one sealing groove for receiving a sealing profile; - a latch (204, 304), which is attached to the side surface (218) of the post and has at least one sealing groove on an outside for receiving a sealing profile, the latch (204, 304) having a screw channel (220, 320), and at least one drainage channel is arranged between the screw channel (220, 320) and the sealing groove, - a sealing element (206, 306) according to one of claims 1 to 9, wherein the sealing element (206, 306) is arranged between the post (202) and the bolt (204, 304).

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