The present invention relates to a sealing device for a door or a window, to a fastening means of such a drop-down seal and to an insert element of such a fastening means.
Manually or automatically actuable drop-down seals for doors or windows are usually arranged in a groove of a door leaf or window casement, or on an end side, and screwed on by way of an angled fastening bracket. This is disclosed, for example, in EP 1 122 394. U.S. Pat. No. 2,066,188 discloses a drop-down seal with a fastening plate.
Furthermore, EP 1 772 586 discloses an angled fastening bracket which is intended to improve mechanical fitting. Said angled fastening bracket is arranged in captive fashion in the housing rail.
EP 1 748 142 discloses an angled retaining bracket with a magnet arranged behind it, wherein a fastening screw passes through both the angled retaining bracket and the magnet.
EP 2 305 938 discloses a retaining element with a countersinkable screw.
It is an object of the invention to provide a sealing device, in particular a drop-down seal, which is straightforward to fit, in particular even by hand.
The sealing device according to the invention for a door or window has a housing rail and a sealing strip, which is retained in the housing rail. The sealing device also has at least one fastening means for fastening the housing rail on a door leaf or window casement, wherein the fastening means comprises a plate for resting on an end surface of the door leaf or window casement and also comprises a through-opening for a screw, said through-opening being arranged in the plate. According to the invention, a restraining means for retaining the screw is present in the through-opening.
This makes it possible for the screw to be pre-fitted. Use can be made, for this purpose, of commercially available screws, in particular wood screws. The operation of fitting the seal on the door leaf or window casement is simplified since it is no longer necessary for the screw to be held by hand. The fitter can use one hand to hold the (cordless) screwdriver and use the other hand to hold the seal, and possibly also the fastening means. This therefore makes it possible for the seal to be fitted, and fastened, in the door leaf using one hand.
Doors in this text are also understood to cover a gate, in particular a sliding gate. The seal is preferably a drop-down seal with a sealing strip which can be raised and lowered relative to the housing rail. However, it may also be, for example, a slide seal.
The restraining means preferably has at least one arm or is formed by at least one arm, which retains the screw. Said arm is arranged in the through-opening. This design is relatively cost-effective.
It is preferable for at least three, more preferably precisely three, arms to be present, said arms being arranged in the through-opening in a manner distributed over the circumference of the same. They are directed preferably radially toward a center point of the through-opening. The screw can thus be retained in an already pre-centered manner in the through-hole and incorrect orientation in the radial direction during fitting is not really possible any longer.
In other embodiments, precisely four arms are present. This is advantageous, in particular, when the restraining means, in particular the arms with restraining fingers, are to engage in the thread turns in an offset manner along the length of the screw. The screw can thus be retained without wobbling. As an alternative, or in addition, it can be retained in a state in which it is already oriented in the manner necessary for definitive fitting. This orientation runs usually parallel to the longitudinal direction of the housing rail.
The at least one arm preferably runs in a plane defined by the through-opening.
The at least one arm is preferably of bendable design such that it can be bent out of the through-opening when the screw is being screwed in. The screw can thus be countersunk in alignment with the surface of the plate in the door leaf or window casement. In addition, the at least one arm does not break off, and it is therefore also the case that it is not possible for any problematic small parts to remain in the seal or to scratch, or damage in any other way, any floor coverings such as parquet.
In one embodiment, the screw is retained in the through-opening at right angles to the plate. In another embodiment, the screw is retained at an angle other than 90° in relation to the plate. This can be achieved by at least one arm having a bent restraining finger.
In a straightforward embodiment, the restraining means is produced together in one piece with the plate and preferably in one piece with the fastening means as a whole. The fastening means is preferably a work piece punched from a metal, for example steel, a plastics injection molding or a zinc die casting. If the restraining means is formed in one piece with the plate, or even in one piece with the fastening means as a whole, then it consists preferably of the same material as the plate, in particular of metal or plastics material.
In other embodiments, the fastening means is produced from a first material, preferably from metal, and the restraining means is produced from a second material, preferably from a plastics material. The restraining means made of plastics material, in one embodiment, is applied to the plate or the fastening means by injection molding.
In another embodiment, the restraining means is an insert element which can be fixed in the through-opening. The restraining means is produced preferably from plastics material or metal. The fastening means, in this exemplary embodiment, is produced preferably from a metal, in particular steel. In this embodiment, it is possible for the insert element to be applied to the screw by injection molding or to be produced in the form of a separate component.
In preferred embodiments, the screw is retained in a fixed state by means of a droplet of adhesive. This is an extremely straightforward and cost-effective fixing method, in particular when the restraining means is formed in one piece with the plate and/or when the restraining means and the plate are produced from metal.
In a preferred embodiment, the entire angled retaining bracket is produced from plastics material, the bracket having the restraining means in its accommodating opening. It is possible for the restraining means to be formed in one piece with the rest of the angled retaining bracket or to be designed in the form of an insert element. The restraining means may be formed, for example, by the aforementioned at least one arm, preferably by three or four arms.
In another embodiment, the angled retaining bracket made of plastics material has a retaining ring, which encloses the screw and thus forms the restraining means. The retaining ring, or even the angled retaining bracket as a whole, can be applied to the screw by injection molding or produced in the form of a separate component. The angled retaining bracket may be formed in more than one piece, e.g. the retaining ring may be designed in the form of an insert element. It is preferably the case, however, that said angled retaining bracket is also formed in one piece.
If the fastening means, restraining means and screw are present in the form of three separate parts, then it is the case during fitting, depending on the embodiment, that the fastening means and restraining means first of all form a unit, into which the screw is fitted, or the restraining means is fastened first of all onto the screw, before the two are introduced together into the through-opening of the fastening means.
In preferred embodiments, the housing rail has a u-shaped cross section with two side walls and an upper crosspiece, which connects the two side walls to one another. The plate of the fastening means runs preferably at an angle of 90° or greater in relation to the crosspiece. If the fastening means is an angled retaining bracket, then the plate is formed by one limb of the angled bracket and a second limb of the angled retaining bracket runs at an angle of 90° or greater in relation to the plate.
If the angle is greater than 90°, then this facilitates automatic or semiautomatic mechanical fitting of the seal in a door leaf or window casement. It is possible for the seal, with fastening means pre-fitted, to be pushed into the door groove more easily than in the case of an angle of precisely 90°. The plate is then bent into a right angle in relation to the crosspiece by virtue of the screw being screwed tightly in the end surface of the door leaf or window casement. The angle of greater than 90° has, in addition, the advantage that, with the screw pre-fitted, the second limb can already be pushed all the way into the housing rail and need no longer be displaced relative to the housing rail when the screw is being screwed into the door leaf.
In one embodiment, the fastening means is formed in one piece with the housing rail or is fixed, e.g. welded or adhesively bonded, thereto. It is also possible, however, for it to be designed in the form of a separate component.
In preferred embodiments, the fastening means is a separate angled retaining bracket with a first and a second limb, wherein the first limb forms the plate with the through-opening and the second limb can be pushed onto the housing rail beneath the crosspiece. As a result, the fastening means can easily be produced separately from the seal. In addition, there are no further elements necessary for connecting the seal to the fastening element. The seal is preferably provided with such a fastening means at its two ends. However, arrangement of said fastening means at one end, and of an alternative retaining means at the other end, of the seal is also possible.
The second limb is preferably of such a length that it projects beyond the free end of the pre-fitted screw, and therefore the angled retaining bracket pushed into the housing rail is retained in the latter. This makes it easier for the angled retaining bracket to be fastened on the door leaf using one hand, and therefore facilitates the fitting of the seal.
At least one restraining element is preferably present on the second limb, said restraining element acting as a brake to prevent the angled retaining bracket from falling out of the housing rail. The restraining element may be a resilient tongue, an elevation and/or depression and/or a widened portion of the second limb or an alternative means. The restraining element preferably acts merely as a brake, and therefore the angled retaining bracket, even in the case of the housing rail running in the vertical direction, i.e. in the case of “overhead fitting”, does not fall out of the rail, although it is still the case that it can be pulled out of the rail without any greater amount of force having to be applied by hand. Said brake preferably forms merely a force fit with the housing rail. In alternative embodiments, however, the restraining means is designed such that the angled retaining bracket is retained in the housing rail and can be removed again only with the use of a tool or by a relatively large amount of force being applied by hand. In this case, the restraining means preferably forms a force fit and form fit with the housing rail.
In one embodiment according to the invention, the fastening means is an angled retaining bracket with a first and a second limb, wherein the first limb forms a plate for resting on an end surface of a door leaf or window casement and has a through-opening for a screw, wherein the restraining means for retaining the screw is present in the through-opening. The restraining means preferably has at least one arm, which is arranged in the through-opening.
In one embodiment according to the invention, the insert element has an annular main body with a hole, wherein the hole forms the through-opening for the screw, and wherein at least one arm is arranged in said hole for the purpose of retaining the screw.
The aforementioned embodiments can be combined with one another. Further embodiments are specified in the dependent claims.
Preferred embodiments of the invention will be described hereinbelow with reference to the drawings, which serve merely for explanatory purposes and should not be interpreted as being restrictive. In the drawings:
The drop-down seal 3 illustrated here has a u-shaped housing rail 30, which is open in the downward direction and in which is arranged a sealing strip, i.e. a carrier strip 31 with a sealing element 32. The carrier strip 31 can be raised and lowered relative to the housing rail 30, a mechanism which cannot be seen in the figures being present in the housing rail 30 for this purpose. In the lowered state, the sealing element 32 provides sealing in relation to a floor B.
The triggering of the seal and thus the raising and lowering operations take place usually via an actuating rod which projects from one end side of the seal and, when the door leaf is being closed, strikes against the door frame and is pushed in, the mechanism therefore being activated for lowering purposes. When the door leaf is being opened, the actuating rod is relieved of loading and the sealing strip is raised again by way of restoring springs.
The seal can also be triggered in other ways, for example manually or by motor-driven or magnetic means. It is also possible for the seal to be a slide seal, which is therefore not lowered when the door is being closed. It is likewise possible for the sealing element 32 to be in a form other than that presented here.
The angled retaining bracket 1 is produced preferably from a metal, in particular steel. It is formed in one piece. The two limbs 10, 11 are of preferably planar design.
The first limb 10 has a through-opening 12 for the screw 2. It is also possible for more than one such opening to be present, in which case preferably all the openings are designed according to the invention as described hereinbelow.
The through-opening 12 has an encircling countersink 13 in the form of an oblique surface in which a screw head can be countersunk. Also present in the through-opening 12 are three arms 14, which project radially inward toward the center point of the opening 12. These arms are nevertheless preferably shorter than the radius, and they therefore do not extend as far as the center point. It is also possible for fewer or more than these three arms 14 to be present. The arms 14 are aligned preferably with the rear side of the first limb 10. The rear side is directed toward the free end of the second limb 11 and/or, in the fitted state, toward the lateral end surface of the door leaf T. The arms 14 have their opposite surfaces aligned preferably with the base of the encircling countersink 13, the base being adjacent to said rear side. The arms 14 are preferably designed to have thinner walls than the first limb 10. As a result, or on account of some other configuration, they are preferably bendable. The bending capability can be increased, in addition, by recesses 15 in the circumference of the through-opening 12, said recesses being adjacent to the arms 14. In this example, the arms 14 are produced from the same material as the rest of the angled retaining bracket 1 and form, as restraining means, part of the single-piece angled retaining bracket 1.
In
As can be seen in
Yet more exemplary embodiments will be explained hereinbelow. What has been said above, in particular the variants specified above, also applies to these exemplary embodiments.
The screw 2, however, is nevertheless retained preferably parallel to the second limb 11 and cannot fall out, as can be seen to good effect in
By virtue of this right-angled arrangement of the screw 2, the angled retaining bracket, once again, can be pre-fitted in the seal such that it cannot fall out, and it can be screwed on the door leaf with one hand. There is no need for the angled retaining bracket 1, when the screw is being screwed in, to be held additionally by hand. Also, there is no need for the screw 2 to be positioned at an angle.
This embodiment has, in addition, the advantage that the second limb 11 can be pushed all the way into the housing rail 3 as early as the pre-fitting state and there is therefore no longer any need for the angled retaining bracket 1 to be displaced relative to the housing rail 3 when being screw-fitted on the door leaf.
For the screwing-in operation, the first limb 10 bends toward the end surface of the door or toward the second limb 11, until the two limbs 10, 11 form a right angle. This is illustrated in
In the exemplary embodiments described up until now, the arms 14 formed a restraining means which is in one piece with the rest of the angled retaining bracket 1. In the exemplary embodiment according to
On its outer circumference the insert element 4 has restraining noses 42, which are distributed preferably over the circumference and project radially outward. They serve to retain the insert element 4 in the opening 12 of the first limb 10. The restraining noses 42 are designed preferably in the form of latch-in elements, as can be seen to good effect in
The insert element 4 is produced preferably from plastics material or from metal. Either it is connected to the screw prior to the screw and angled retaining bracket being joined together or it is already retained in the angle retaining bracket, in particular fitted therein. It is produced from plastics material, but may also be applied directly to the screw 2 or the angled retaining bracket 1 by injection molding.
In the embodiment according to
In this embodiment, the arms 14 or lugs are designed to be wider than in the variants described up until now. In this example, each arm is of semi-elliptical or semicircular shape. At their free ends, they form a common, more or less closed circumference of an opening 12, in which the screw 2 is accommodated. It is preferably the case, however, that the arms 14 do not come into contact at these free ends.
The free ends have angled restraining fingers 140. Two of these extend onto that side of the angled retaining bracket 1 which is directed toward the second limb 11. The other two restraining fingers 140 are bent onto that side of the angled retaining bracket 1 which is directed away from the second limb 11. It is preferable for in each case two adjacent restraining fingers 140 to be oriented in the same direction.
Each restraining finger 140 preferably forms more or less a right angle with the rest of the arm 14. Each arm 14 runs preferably more or less parallel to the first limb 10. It is preferably the case that that, with the exception of the direction of their restraining fingers 140, all of the arms 14 are identical in terms of shape and orientation. The arms 14 are distributed preferably uniformly over the inner circumference of the countersink 13. It is preferably the case that precisely four arms 14 are present, each of these having a restraining finger 140. The restraining fingers 140 here engage in the screw threads 23 preferably in an offset manner over the course of said screw thread.
It has been found that said arrangement fixes the screw 2 to better effect and the latter wobbles to a lesser extent in its pre-fitted position. In addition, the screw 2 can be retained automatically in a horizontal position, i.e. parallel to the second limb 11, even in the pre-fitted position, and there is therefore no longer any need for it to be oriented in position prior to being fitted definitively in the door.
In this exemplary embodiment, the arms 14, 14′, 14″, 14′″ are bent such that they have their restraining fingers 140 engaging in the screw thread 23 in an offset manner over the course of said screw thread. The arms 14, 14′, 14″, 14′″ are, accordingly, bent differently. Their restraining fingers 140 all extend in the same direction, i.e. to the side which is directed toward the second limb 11.
The first arm 14 is of more or less right-angled design, part of the arm 14 being formed by the restraining finger 140. The adjacent, second arm 14′ is of identical design or forms a second angle, which forms an oblique surface between the restraining finger 140 and the opposite end of the arm 14′. Said oblique surface here is inclined such that the restraining finger 140 of said second arm 14′ projects further beyond the first limb 10 than the first restraining finger 140 of the first arm 14. It is also the case that the third arm 14″ and the fourth arm 14′″ have oblique surfaces which are directed such that the corresponding restraining fingers 140 each project to an even greater extent. This means that they follow the thread 23 of the screw 2, as can be seen to good effect in
The oblique surfaces may all be directed inward, that is to say to the side which is directed toward the second limb 11. It is also possible, however, for one or more oblique surfaces to be inclined outward, that is to say to that side of the first limb 10 which is located opposite the second limb 11.
It is also the case in this example that the fingers 14 are of preferably planar design, wherein, once again, they are preferably of semi-elliptical or semi-circular shape. The restraining fingers 140 are present or absent, depending on the embodiment. There are no restraining fingers illustrated in the present figures. The screw 2 is retained in a fixed position the through-opening 12 of the first limb 10 by way of the droplet 5 of adhesive. When the screw 2 is being screwed in, its bond with the droplet 5 of adhesive is released by the screw thread and the screw 2 can be displaced relative to the angled retaining bracket 1.
The crosspieces 142 preferably have predetermined breaking points or are designed to be thin or weak enough to break when the screw 2 is being screwed in during the fitting operation of the seal, it thus being possible for the screw 2 to be screwed definitively into the door.
The first limb 10 is preferably of sufficiently thick design for the angled retaining bracket 1, even when configured from plastics material, to be sufficiently stable to retain the drop-down seal in the door. As can be seen in the figures, said first limb is preferably thicker than the second limb 11.
In one embodiment, the angled retaining bracket 1 made of plastics material is produced in the form of a discrete single-piece element and is connected to the screw at a later stage, for example welded, adhesively bonded or connected by a press fit at a later stage.
It is preferable, however, for the angled retaining bracket 1 to be applied to the screw 2 by injection molding, the retaining ring 141 therefore being produced by virtue of the screw 2 being overmolded.
All the above described embodiments of the angled retaining bracket with restraining means formed thereon in one piece can be produced from metal or plastics material. If they are produced from plastics material, they can be made in the form of discrete elements and connected to the screw at a later stage. It is also possible, however, for them to be applied in this form to the screw, in particular a metal screw, by injection molding.
In the drawings mentioned, some of the screws are illustrated without threads. This has been done merely in order to simplify the illustration. Each of the screws has a thread.
The individual features of the embodiments mentioned above can be combined with one another in addition to form yet more embodiments.
The sealing device according to the invention and the angled retaining bracket according to the invention allow the angled retaining bracket to be fitted on the door leaf using one hand and thus facilitate the fitting of the seal.
Number | Date | Country | Kind |
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14161656 | Mar 2014 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/056479 | 3/25/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/144794 | 10/1/2015 | WO | A |
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8745924 | Tshai | Jun 2014 | B2 |
9598895 | Dintheer | Mar 2017 | B2 |
9803418 | Dintheer | Oct 2017 | B2 |
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1122394 | Aug 2001 | EP |
1748142 | Jan 2007 | EP |
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2305938 | Apr 2011 | EP |
Number | Date | Country | |
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20170107755 A1 | Apr 2017 | US |