SLIDING ELEMENT WITH SEALING DEVICE AND SEALING ELEMENT

Abstract

The sliding element includes a sliding plate and a sealing device that includes at least one sealing element, which forms a sealing frame that is arranged on a rear side of the sliding plate and that extends peripherally along an edge of the sliding plate. The sliding plate includes a base plate and a flange plate, which is offset from the base plate, which is connected in one piece to the base plate and which is separated at its edge from the base plate by a circumferential anchor groove, which anchor groove serves for holding the at least one sealing element, which at least one sealing element includes an anchor member that is inserted into the anchor groove and that is connected via a connection body to a compression member.

Claims

1. Sliding element with a sliding plate and a sealing device that comprises at least one sealing element, which forms a sealing frame that is arranged on a rear side of the sliding plate and that extends peripherally along an edge of the sliding plate, wherein the sliding plate comprises a base plate and a flange plate, which is offset from the base plate, which is connected in one piece to the base plate and which is separated at its edge from the base plate by a circumferential anchor groove serves for holding the at least one sealing element, which at least one sealing element comprises an anchor member that is connected via a connection body to a compression member and wherein the anchor member of the at least one sealing element held within the anchor groove is aligned at least approximately in parallel to the sliding plate.

2. Sliding element according to claim 1, wherein a first sealing element is anchored with its anchor member in an upper anchor groove section of the anchor groove at the upper side of the sliding plate and in a left anchor groove section at the left side of the sliding plate and in a right anchor groove section of the anchor groove at the right side of the sliding plate and that a second sealing element is anchored with its anchor member in a lower anchor groove section of the anchor groove at the lower side of the sliding plate.

3. Sliding element according to claim 2, wherein the compression member of the first sealing element has a first compression axis, which is aligned perpendicular to the sliding plate.

4. Sliding element according to claim 2, wherein the compression member of the first sealing element has a form, which is at least approximately symmetrical and which corresponds at least approximately to the form of a cardioid having two contact zones and a symmetry axis, which corresponds to the compression axis.

5. Sliding element according to claim 2, wherein the anchor member of the second sealing element held within the anchor groove is aligned at least approximately in parallel to the sliding plate and that the compression member of the second sealing element has a second compression axis, which is aligned in parallel to the sliding plate-.

6. Sliding element according to claim 2, wherein the second compression axis, which, after mounting of the second sealing element, is vertically aligned, traverses the anchor member and the compression member of the second sealing element.

7. Sliding element according to claim 2, wherein the compression member of the second sealing element comprises one or two bending folds or a plurality of mutually displaced bending folds arranged alternately on both sides of the compression member, which are aligned inclined, perpendicular to the second compression axis.

8. Sliding element according to claim 2, wherein the compression member of the second sealing element comprises at least two compression chambers, which are arranged along the second compression axis one upon the other.

9. Sliding element according to claim 8, wherein the bending fold or one of the bending folds are arranged along the second compression axis between the compression chambers.

10. Sliding element according to claim 7, wherein the bending fold or the two or more bending folds and the compression chambers are designed such that during a displacement of the second sealing element along the second compression axis the compression member of the second sealing element is folded, whereby the compression chambers move essentially along the second compression axis.

11. Sealing element for a sealing device mounted on a sliding element according to claim 1, with an anchor member and a compression member, a) which comprises at least two compression chambers that are arranged one upon the other along a related compression axis, and b) which comprises one or two bending folds or a plurality of mutually displaced bending folds arranged alternately on opposite sides of the compression member, wherein the bending fold or the two or more bending folds and the compression chambers are designed such, that during a displacement of the second sealing element along the related compression axis the compression member is foldable, and the compression chambers are movable during the folding procedure essentially along the related compression axis.

12. Sealing element according to claim 11, wherein the bending fold or the two or more bending folds are aligned inclined, perpendicular to the related compression axis.

13. Sealing element according to claim 11, wherein the bending fold or one of the bending folds lies along the related compression axis between the compression chambers.

14. Sealing element according to claim 11, wherein the related compression axis traverses the anchor member and the compression member.

15. Sealing element according to claim 11, wherein between the anchor member and the compression member a shoulder member is provided that is aligned perpendicular to the compression axis.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] The invention is described below in detail with reference to the drawings, wherein:

[0031] FIG. 1a shows a sliding system 100 with a sliding element, i.e. a sliding door 1, that is provided with a sliding plate 10 and a sealing device with a sealing frame, which comprises a first sealing element 2 that runs along the upper side and along the lateral edges of the sliding plate 10, and a second sealing element 3 that runs along the lower side of the sliding plate 10;

[0032] FIG. 1b shows the sliding door 1 of FIG. 1a, which by means of carriages 91, 91 is guided along rails 9, 9, without the cover 99 of the rail 9 and without a door frame or casing 8;

[0033] FIG. 2 shows the sliding door 1 disclosed in U.S. Pat. No. 9,290,977B2, which is provided with a sealing device, which comprises mounting strips 6, that are screwed to the sliding door 1, and a circumferential sealing element 5 or a looped sealing frame;

[0034] FIG. 3a shows the left upper corner of the asymmetrically designed sliding plate 10 of FIG. 1b, which comprises a flange plate 12 that serves for holding the sealing frame 2, 3 and an edge member 15, which is provided at the left side of the sealing elements 2 and which is connected by means of a connection device 92 to a first carriage 91;

[0035] FIG. 3b shows the left upper corner of the asymmetrical formed sliding element 1 of FIG. 3a before mounting the sealing frame 2, 3;

[0036] FIG. 4a shows corner pieces of the sliding plate 10 cut along the cutting lines A--A, B--B of FIG. 1b with the flange plate 12, which peripherally is separated from the base plate 11 by an anchor groove 18, which serves for mounting the sealing frame 2, 3;

[0037] FIG. 4b shows the corner pieces of the right edges of the sliding plate 10 of FIG. 4a with the protruding flange plate 12, which holds the sealing frame 2, 3;

[0038] FIG. 5a shows the upper right corner piece of the sliding plate 10 of FIG. 4b with the mounted first sealing element 2;

[0039] FIG. 5b shows the lower right corner piece the sliding plate 10 in a preferred embodiment with the second sealing element 3, which in this embodiment is used for all four members of the sealing frame;

[0040] FIG. 6a shows in spatial view a section of the unstressed second sealing element 3 with the anchor member 31 and the compression member 32, which are connected with one another by a connection body 30;

[0041] FIG. 6b shows the unstressed second sealing element 3 of FIG. 6a from the front side;

[0042] FIG. 6c shows the stressed second sealing element 3 of FIG. 6b with the anchor member 31 displaced downwards and the compressed compression member 32;

[0043] FIG. 7a shows the first sealing element 2 with the longitudinal axis a of the anchor member 21 and the compression axis x of the compression member 22 coaxially aligned; and

[0044] FIG. 7b shows the second sealing element 3 with the longitudinal axis a of the anchor member 31 and the compression axis y of the compression member 32 aligned perpendicular to one another.

DETAILED DESCRIPTION

[0045] FIG. 1a shows an inventive sliding system 100 with an inventive sliding element, i.e. a sliding door 1, which in this preferred embodiment is displaceable along two rails 9 in front of a room opening, i.e. a door frame or casing 8. The rails 9 are covered by a bezel 99. As an alternative only one rail can be used as well.

[0046] In preferred embodiments the sliding system 100 is designed in such a way that the sliding door 1 can be moved horizontally in front of the room opening and in the final phase of the closing process can be moved against the casing 8 and against the floor, in order to tightly close the room opening on all sides.

[0047] For this purpose, the sliding door 1 comprises a sliding plate for example made from wood, that in this preferred embodiment is provided with a sealing device, which comprises a first sealing element 2 arranged along the upper edge and along the lateral edges of the sliding plate 10, and a second sealing element 3 arranged along the lower side of the sliding plate 10. Hence, both sealing elements 2, 3 form a sealing frame at the rear side of the sliding door, which is partly or preferably fully closed in itself. When closing the sliding door 1, the first sealing element 2 is guided against the casing 8 and the second sealing element 3 is guided against the floor and compressed, thereby providing optimal acoustic and thermal sealing.

[0048] The sliding plate 10 comprises on the front side a base plate 11 and on the rear side a flange plate 12 that is facing the door frame or casing 8. Between the base plate 11 and the flange plate 12 an anchor groove 18 is provided, which surrounds the flange plate 12 like a frame and in which the sealing frame with the first and second sealing element 2, 3 has been inserted.

[0049] At the left side and outside of the sealing element 2 the sliding plate 10 is optionally provided with an edge member 15, which is connected to a first carriage 91. At the front side the sliding plate 10 is connected to a second carriage 91. As described in U.S. Pat. No. 9,290,977B2 the two carriages 91, 91 are preferably guided on separate rails 9, 9. Along the second rail 9, the front-sided second carriage 91 can completely be driven away from the room opening. In order to avoid that the first carriage 91 enters the range of the second rail 9, it is displaced relative to the range of the sliding door 1, which together with the sealing device is used for sealing the room opening. In the shown embodiment, this is reached particularly advantageous by the asymmetrical design of the sliding door 1 which in addition is provided with the edge member 15. Hence, the carriages 91, 91 can advantageously be decoupled from the neighbouring rails 9, 9 and the room opening can completely be opened.

[0050] The edge member 15, shown hatched, is therefore only optionally provided and can also be omitted. Without this edge member 15 the left side of the sliding plate 10 would be identical to the right side and would identically be provided with the elements of the sealing frame 2; 3. Hence, the sliding element 1 can have a symmetrical or asymmetrical design.

[0051] FIG. 1b (see also FIG. 3a) shows, that the sliding door 1 is very slim even with the mounted sealing device. Essentially, only the parts of the sealing elements 2, 3, which are required for sealing purposes, are visible. The further parts of the sealing elements 2, 3 are integrated into the sliding door 1.

[0052] FIG. 2 shows the sliding door 1 disclosed in U.S. Pat. No. 9,290,977B2, which is provided with a sealing device, that comprises mounting strips 6 screwed to the sliding door 1 and a circumferential sealing element 5. The sealing element 5 comprises an anchor member 51 and a compression member 52 with two compression chambers 521, 522. The anchor member 51 is held in an anchor channel 60 provided in the mounting strip 6.

[0053] FIG. 3a shows the left upper corner of the asymmetrical designed sliding plate 10 of FIG. 1b, which comprises at the left side besides the first sealing element 2 the extended edge member 15, which is connected by a connection device 92 to the first carriage 91. For this purpose, a mounting device has been inserted into a mounting channel 19, which is provided at the upper side of the sliding plate 10.

[0054] The sealing element 2 shown forms a member of the sealing frame shown in FIG. 1b, which is provided at the rear side of the sliding plate 10. The sealing frame comprises, as shown in FIG. 1b and FIG. 4b, the first sealing element 2, which forms the upper part and the lateral parts of the sealing frame, as well as the second sealing element 3, which forms the lower member of the sealing frame. The form of the sealing frame is preferably adapted to the form of the sliding plate 10 and/or the form of the edges of the room opening, i.e. the door frame or casing 8 provided there.

[0055] FIG. 4b shows further, that the first and the second sealing elements 2, 3 comprise each an anchor member 21; 31 and a compression member 22; 32, which are connected with one another by a connection body 20; 30.

[0056] The first sealing element 2 shown in FIG. 3a is almost completely integrated into the sliding door 1. The anchor member 21 is received in an anchor groove 18. The connection body 20 is received in a receiving space 14 that adjoins the anchor groove 18. The compression member 22 protrudes however out of the receiving space 14, preferably at least to an extent, as it shall be compressed to obtain a tight closing. Hence, FIG. 3a shows that the sliding door 1 can be designed with minimal dimensions and the sealing device can aesthetically advantageously be integrated into the sliding plate 10.

[0057] For the purpose of advantageously mounting the sealing frame with the sealing elements 2, 3, a circumferential anchor groove 18 is introduced at the rear side of the sliding plate 10. The anchor groove 18 forms an anchor frame, which corresponds to the sealing frame with the sealing elements 2, 3. The sliding plate 10 comprises a base plate 11 at the front side and a flange plate 12 at the rear side facing the room opening, which is connected in one piece with the base plate and which is merely peripherally separated from the base plate 11 by the anchor groove 18 and the receiving space 14.

[0058] By introducing the receiving space 14 and the anchor groove 18 the flange plate 12 is excavated at the edges. For example, in a first process the receiving space 14 and in a second process step the anchor groove 18 is excavated, which is directed between the base plate 11 and the flange plate 12 in parallel thereto against the neighbouring side of the sliding door 1. Hence, the profile of the excavated recess with the receiving space 14 and the anchor groove 18 is preferably an L-profile that is directed towards the centre of the flange plate 12. Since the sliding plate 10 with the base plate 11 and the flange plate 12 is preferably made as one unitary piece, the front side and the rear side of the sliding door 1 have an identical appearance, if the user does not prefer another design. After the sliding door 1 has been closed, the sealing frame 2, 3 adjoins the casing 8 and the floor and is therefore invisible. At the front side and the rear side for example only a white surface or the wooden structure of the sliding plate 10 is visible.

[0059] The sliding plate 10 can be made from metal or plastic. If the sliding plate 10 is made from plastic, a casting box, whose interior space corresponds to the dimensions the sliding plate, may for example be provided and filling material with an L-profile is positioned at locations, where the receiving space 14 and the anchor groove 18 are provided. Subsequently plastic is poured into the casting box.

[0060] Since in the receiving space 14 receives at least a part of the sealing frame 2, 3, the dimensions of the flange plate 12 will typically by a degree, which corresponds to the dimensions of the sealing frame 2, 3, be smaller than the dimensions of the base plate 11.

[0061] FIG. 3b shows the left upper corner of the asymmetrical designed sliding plate 10 of FIG. 3a before insertion of the sealing frame, i.e. of the first sealing element 2. It is shown, that the flange plate 12 is peripherally separated from the base plate 11 by the receiving space 14 and the anchor groove 18, which extend in the shape of a frame. Hence, at the rear side of the sliding plate 10, the flange plate 12 is offset from the base plate 11. The flange plate 12 and the edge member 15 of the sliding plate 10 preferably form a planar surface. Hence, FIG. 3b shows that not only the mounting strip 6 of the known solution of FIG. 2 can be avoided to spare material labour and space, but that parts of the sealing frame 2,3, which are not required for the sealing function, 3 can be sunk into the sliding plate 10 in order to save further space.

[0062] FIG. 4a shows above the upper right corner piece of the sliding plate 10 cut along the cutting line A--A of FIG. 1b and below the lower right corner piece of the sliding plate 10 cut along the cutting line B--B of FIG. 1b. By auxiliary lines the cut-out intermediate piece between the two corner pieces as well as the cut-out left member of the sliding plate 10 is symbolised, which can be designed symmetrical or asymmetrical. It is shown that the flange plate 12 peripherally is separated by the anchor groove 18 from the base plate 11, but else is connected in one piece to the base plate 11. The anchor groove 18 comprises an upper anchor groove section 181 at the upper side, a lower anchor groove section 183 at the lower side and lateral anchor groove sections 182 at the right and left side of the flange plate 18 auf. Hence, the anchor groove 18 with the anchor groove sections 181, 182, 183 has the form of a frame and allows receiving the sealing frame 2, 3, which preferably forms a closed loop, which in the shown embodiment has a rectangular form, but can also incorporate curves and bows.

[0063] FIG. 4b shows the corner pieces of the right edge of the sliding plate 10 of FIG. 4a with the sealing frame inserted into the anchor groove 18. The sealing frame comprises in this preferred embodiment a first sealing element 2 and a second sealing element 3 which are differently designed and which fulfil different functions. The first sealing element 2 is inserted into the upper anchor groove section 181 and into the lateral anchor groove sections 182 and serves for sealing the sliding plate 10 against the casing 8 (see FIG. 1a). The second sealing element 3 is inserted into the lower anchor groove section 183 and serves for sealing the lowered sliding plate 10 against the floor.

[0064] As shown in FIGS. 4b, 5, 6a, 6b and 6c, the two sealing elements 2, 3 comprise each an anchor member 21; 31, which can be inserted into the anchor groove 18, and a compression member 22; 32, which are mutually connected by the connection body 20; 30.

[0065] FIG. 5a shows, that the anchor member 21 of the first sealing element 2, which has the profile of a tree, is held within the anchor groove 18 and is aligned at least approximately in parallel to the sliding plate 10 and that the compression member 22 of the first sealing element 2 has a first compression axis x, which is aligned perpendicular to the sliding plate 10. Hence, the anchor member 21 is securely held in the anchor groove 18, while the connection body 20 is received in the receiving space 14 and is supported by a part of the base plate 11. Adjacent to the anchor groove 18 the connection body 20 of the sealing element 2 is seated with a shoulder member 201 on the flange plate 12, which ensures even alignment of the first sealing element 2.

[0066] The compression member 22 of the first sealing element 2 is designed at least approximately symmetrical and has at least approximately the form of a cardioid that exhibits two contact zones 221, 222 and a symmetry axis, which corresponds to the compression axis x and which is aligned perpendicular to the room opening. When closing the sliding door 1 the two contact zones 221, 222 hit the casing 8, whereafter the compression member 22 is pressed against the base plate 11 and is deformed while maintaining symmetry. The two contact zones 221, 222 thereby effect a doubled sealing, wherefore reliable acoustic and thermal sealing results.

[0067] FIG. 4b shows, that the anchor member 31 of the second sealing element 3, which also exhibits the form of a tree and which essentially corresponds to the anchor member 21 of the first sealing element 2, is held within the anchor groove 18 and is aligned at least approximately in parallel to the sliding plate 10 and that the compression member 32 of the second sealing element 3 exhibits a second compression axis y, which is aligned at least approximately in parallel to the sliding plate 10 and after installation of the sliding door 1 perpendicular to the floor.

[0068] In this preferred embodiment the compression axis y traverses the anchor member 31 and the compression member 32 of the second sealing element 3 approximately in the middle. In this way only little space is required for mounting the second sealing element 3. The connection body 30 of the second sealing element 2 is seated with a shoulder member 301 on a shortened member 111 of the base plate 11 thereby ensuring that the mounted second sealing element 3 is aligned along a straight line. The flange plate 12 extends beyond the shortened member 111 of the base plate 11 and serves thereby as a bezel for covering the connection body 30.

[0069] It has been outlined that the sealing frame comprises the first sealing element 2, the second sealing element 3 or a combination therefrom. If the sealing frame consists only of the first sealing element 2, then it forms all four parts of the sealing frame as shown above in FIG. 4b. If the sealing frame however consists only of the second sealing element 3, then, as shown in FIG. 5b, it can be inserted from all sides into the anchor groove 18.

[0070] FIG. 5b shows as an example the lower right corner piece of the sliding plate 10 in a preferred embodiment with the second sealing element 3, which in this embodiment forms all four parts of the sealing frame. The longitudinal axis a of the anchor member 31 and the second compression axis y are coaxially aligned.

[0071] FIG. 6a shows in spatial view a section of the unstressed second sealing element 3 with the anchor member 31 and the compression member 32, which are mutually connected by the connection body 30. The anchor member 31, which adjoins the connection body 30 at the upper side and which is aligned along the compression axis y, shows the profile of a tree and is provided with two pairs of anchor elements 311. The connection body 30 is provided with the shoulder member 301, which serves as flange element. The compression element 32 comprises a smaller first compression chamber 321 and a larger second compression chamber 322, which are arranged along the compression axis Y one above the other. In the sidewalls of the first compression chamber 321 a first bending fold 323 is formed in. Between the two hollow compression chambers 321, 322 a second bending fold 324 is formed in. The first and the second bending fold 323, 324, i.e. the corresponding indentations are directed against one another and are formed at least approximately symmetrical to the compression axis y.

[0072] The bending folds 323, 324 and the compression chambers 321, 322 are formed in such a way, that when the second sealing element 3 is displaced along the second compression axis y, i.e. when vertically lowering the sliding plate 10, the compression member 32 of the second sealing element 3 is compressed and optionally partly folded. Thereby, the compression chambers 321, 322 are displaced downwards essentially along the second compression axis y. A lateral displacement of the compression element 22, by which the compression of the compression member 22 would fail, is avoided. Instead the compression chambers 321, 322 are compressed along the compression axis y, whereby a tight closure results below the sliding plate 10.

[0073] FIG. 6b shows the unstressed second sealing element 3 of FIG. 6a from the front side.

[0074] FIG. 6c shows the stressed second sealing element 3 of FIG. 6b with the anchor member 31 displaced downwards and the compression member 32 compressed along the compression axis y.

[0075] FIG. 7a shows the first sealing element 2 with the longitudinal axis a of the anchor member 21 and the compression axis x of the compression member 22 coaxially aligned with one another. Hence, instead of the second sealing element 3 the first sealing element 2 can be inserted in the same way into the anchor groove 18 e.g. at the lower side of the sliding plate 10 of FIG. 4b. The shoulder member 201 drawn with a dashed line can optionally be provided.

[0076] FIG. 7b shows the second sealing element 3 with the longitudinal axis a of the anchor member 31 and the compression axis y of the compression member 32 aligned perpendicular to one another. Hence, instead of the first sealing element 2 the second sealing element 3 can be inserted in the same way into the anchor groove 18 e.g. at the upper side the sliding plate 10 of FIG. 4b. The shoulder member 301 drawn with a dashed line can optionally be provided as required.

LIST OF REFERENCES

[0077] 100 sliding system [0078] 1 inventive sliding element, sliding door [0079] 1 known sliding element with sealing device [0080] 10 sliding plate [0081] 11 base plate [0082] 111 shortened member of the base plate 11 [0083] 12 flange plate [0084] 14 receiving space [0085] 15 extended edge member [0086] 18 anchor groove [0087] 181 upper anchor groove section [0088] 182 lateral anchor groove sections [0089] 183 lower anchor groove section [0090] 19 mounting channel [0091] 2 first sealing element [0092] 20 connection body of the first sealing element [0093] 201 shoulder member of the connection body 20 [0094] 21 anchor member of the first sealing element 2 [0095] 22 compression member of the first sealing element 2 [0096] 221 first contact wave [0097] 222 second contact wave [0098] 3 second sealing element [0099] 30 connection body of the second sealing element [0100] 301 shoulder member of the connection body 30 [0101] 31 anchor member of the second sealing element 3 [0102] 311 anchor elements [0103] 32 compression member of the second sealing element 3 [0104] 321 first compression chamber [0105] 322 second compression chamber [0106] 323 first bending fold [0107] 324 second bending fold [0108] 5 known sealing element [0109] 51 anchor member of the known sealing element 5 [0110] 52 compression member of the known sealing element 5 [0111] 521 lateral compression chamber [0112] 522 lower compression chamber [0113] 6 mounting strip [0114] 60 anchor channel [0115] 8 door frame, casing [0116] 9 rails [0117] 91 carriages [0118] 92 connection device [0119] 93 mounting device [0120] 99 cover