EP3034752A1 - Intake device for a sliding window or sliding door - Google Patents

Abstract

An intake device for a sliding window or a sliding door (3), in particular a lifting-sliding door, comprises a driver (7) which can be moved along a guide track (71, 72) on a housing (6); a linear damper (12) coupled to the driver (7), comprising a damper housing (13) and a piston movable in the damper housing (12) in the damper direction and a piston rod (14); a projection (8) coupleable thereto over a certain range of movement of the follower to slow movement of the follower (7) relative to the housing (6); wherein the driver (7) has a receptacle (75), in which the projection (8) can be inserted, and at least on one side of the driver (7) adjacent to the receptacle (75) has a run-on slope (76) is formed, wherein the Driver (7) is resiliently mounted in a direction substantially perpendicular to the damping direction and / or the projection (8) is resiliently mounted in a direction substantially perpendicular to the damping direction.

Description

The present invention relates to a collection device for a sliding window or a sliding door according to the preamble of claim 1 and a sliding window or a sliding door.

The DE 20 2014 001 516 U1 discloses an end position retracting device for sliding sash of a window or door, in which a driver along a guide track on a housing is movable, wherein the driver is connected to one side of a gas spring. The opposite side of the gas pressure damper is rotatably mounted on the housing, so that the gas pressure damper can be pivoted in a process of the driver to an angled end portion of the guide rail. By pivoting the driver then a fixed in a receptacle of the driver projection can be released. If such Endlageneinzugsvorrichtung used on a lift-sliding door, it may happen that the sliding sash is lowered in front of the parking position of the driver, for example, only slightly open the sliding sash for a night ventilation. Then, the gas spring pushes the driver directly into the end position, without this is coupled to the projection, so that the damping function is disabled.

It is therefore an object of the present invention to provide a collection device for a sliding window or a sliding door, which has an improved reliability.

This object is achieved with a collection device for a sliding window or a sliding door with the features of claim 1.

According to the invention, the driver is resiliently mounted in a direction substantially perpendicular to the damping direction and / or the projection is resiliently mounted in a direction substantially perpendicular to the damping direction. As a result, it can be ensured, especially in the case of a lift-and-slide door, that the projection always engages in the receptacle of the carrier in a closed position of the lift-and-slide door, even if a decoupling between the projection and the carrier has occurred by lowering the sliding door. By the resilient mounting of the driver and / or the projection is thus increasing the reliability, since it is ensured that after decoupling a latching of the projection on the driver can be done without damage occurs. The projection can then slide along the run-on slope on the driver, wherein either the driver or the projection is moved perpendicular to the damping direction, optionally also driver and projection can be moved perpendicular to the damping direction.

According to a preferred embodiment of the invention, a connecting element is fixed to the damper, on which the driver is fixed in the damping direction and is movable perpendicular to the damping direction. Thereby, the driver can be held by the damper in the direction of damping, so that corresponding damping forces can be effected. In a movement perpendicular to the damping direction of the damper is not loaded by transverse forces, wherein the damper is preferably fixed to the housing and only linearly movable in the damping direction. This results in a particularly stable feed device with a compact design, since the damper does not have to be mounted pivotally. For a coupling of the driver, this may have a T-shaped portion which engages in a recess on the connecting element. Other mechanical connections for coupling the driver in the direction of damping and to guide the driver to the damping direction are possible.

In a further embodiment of the invention, the projection is resiliently mounted on a fixable holder. The projection can be biased by a spring into a protruding position and then pressed against the force of the spring in the holder.

Further, the driver may comprise a guide member which is movable along the guide track, and a receiving part, on which the receptacle is formed, and which is resiliently mounted on the guide member. The driver is thus formed at least in two parts to support the receptacle resiliently on the guide member perpendicular to the damping direction.

For a compact design with high damping forces, the damper can be designed as a gas spring which biases the driver in the feed direction. Further, the driver can be made of a dimensionally stable material, in particular of metal, so that damage is avoided especially at higher impact forces in heavy sliding panels. According to the invention, a sliding window or a sliding door with a collection device is also provided. It is advantageous if the housing is fixed to the driver on a sliding sash and the projection on the window frame. The housing with the driver can be concealed mounted on a front side of the sliding leaf in a groove, so that the collection device on the outside is not visible. Alternatively, the collection device can also be fixed on the outside of the sliding leaf, that is, on an inside or outside, so that it can be easily retrofitted.

Figur 1A

eine Ansicht einer Schiebertür mit verdeckt liegender Einzugsvorrichtung;

Figur 1B

eine Ansicht einer Schiebetür mit außen montierter Einzugsvorrichtung;

Figuren 2A und 2B

zwei Ansichten einer Einzugsvorrichtung in der Parkposition;

Figuren 3A und 3B

zwei Ansichten der Einzugsvorrichtung der Figur 2 in einer Endlage;

Figuren 4A bis 4C

weitere Ansichten der Einzugsvorrichtung der Figur 3 in der Endlage;

Figuren 5A bis 5C

mehrere Detailansichten des Mitnehmers der Einzugsvorrichtung in unterschiedlichen Positionen, und

Figuren 6 bis 13

mehrere Ansichten einer Hebe-Schiebetür mit einer Einzugsvorrichtung in unterschiedlichen Positionen.

The invention will be explained in more detail with reference to several embodiments with reference to the accompanying drawings. Show it:

Figure 1A

a view of a sliding door with concealed feed device;

FIG. 1B

a view of a sliding door with externally mounted feed device;

FIGS. 2A and 2B

two views of a collection device in the parking position;

FIGS. 3A and 3B

two views of the collection device of FIG. 2 in an end position;

FIGS. 4A to 4C

Further views of the collection device of FIG. 3 in the final position;

FIGS. 5A to 5C

several detailed views of the driver of the collection device in different positions, and

FIGS. 6 to 13

several views of a lift-sliding door with a feeder in different positions.

A window or a door 1 comprises a frame 2, on which a sliding door 3 is movably held. On the window frame 2, a further sliding door or a fixed field 4 can be provided next to the sliding door 3. The sliding door 3 comprises on an upper end side, which faces the window frame 2, a groove 5, in which a housing 6 of a collection device is mounted. At the housing 6, a driver 7 is movably mounted, which can be coupled with a projection 8 on a holder 9 in order to decelerate the sliding door 3 in a movement into an end position. The holder 9 is fixed to an adapter profile 10 on the frame 2.

In Figure 1 A the collection device is concealed lying between the frame and a front side of the sliding door 3 is arranged. It is also possible to provide the collection device on an inside or outside of the sliding door, as in Figure 1 B is shown. There, a sliding door 3 'is movably held on a window frame 2', wherein guide elements 5 'are provided on a groove of the sliding door 3' in order to move the sliding door 3 'along the window frame 2'. Therefore, there is no room for the assembly of a collection device in this area.

The collection device with the housing 6 and the driver 7 is therefore mounted on an inside or outside of the sliding door 3 ', wherein the housing 6 is fixed to a profile of the sliding door 3'. The driver 7 is in turn coupled with a projection 8 which is fixed to a holder 9 which is fixed to an outer side of the frame 2 '. As a result, the collection device can also be retrofitted to existing doors 1 ', wherein the collection device is covered by a cover 11.

In the FIGS. 2A and 2B the collection device is shown, in which the driver 7 along a guide track 71 on the housing 6 is movable. For this purpose, two pins 70 are formed on the driver, which protrude on opposite sides and each engage in a slot-shaped or groove-shaped guide track 71. In FIG. 2A is a pin 70 at an angled end portion 72 of the guideway, while the remaining portion of the guide track 71 is formed linearly. At the angled end portion 72 of the driver 7, so that a decoupling between the projection 8 and a receptacle 75 can be made on the driver 7, so that the sliding door 3 or 3 'can be moved detached from the collection device. Only in an area shortly before the end position, for example, 5 cm to 20 cm before the end position, there is a coupling of the projection 8 to the driver 7 in order to apply appropriate braking forces on the sliding door 3 and 3 '.

The driver 7 is connected to a damper 12, which is designed as a gas pressure damper and a damper housing 13, into which a piston rod 14 engages and is guided by a piston. The damper housing 13 is fixed via a pin 15 on a holder 16 which is fixed to the front side of the housing 6. The housing 6 may be made of a profile, for example of an extruded aluminum profile, in which the holder 16 is fixed by means of screws 17 on the front side. As a result, the damper housing 13 is fixed securely at the end. At a groove of the housing then the driver 7 is slightly protruding with the receptacle 75, so that the projection 8 can be coupled to the driver 7.

The piston rod 14 is coupled via a connecting element 20 with the driver 7. The connecting element 20 in this case has a receptacle 21 in order to fix the driver 7 damping direction and to guide in a direction perpendicular to the damping direction displaced.

In the FIGS. 3A and 3B the collection device is shown in an end position, which corresponds to the closed position of the sliding leaf 3 or 3 '. The driver 7 was moved from the angled end portion 72 of the guideway to the opposite end of the guideway. The projection 8 engages in the receptacle 75 of the driver 7, wherein adjacent to the receptacle 75, a run-on slope 76 is provided. This run-on slope 76 has the function that the projection 8 can also be coupled to the driver 7, if this is already in the end position, for example, because the gas spring has moved the driver 7 already in the final position before the slide door 3 or 3 'is actually in the end position, so that then the projection 8 along the run-on slope 76 can be moved and is pressed against the force of a spring in a holder 9, and then lock in the receptacle 75. The mobility of the projection 7 perpendicular to the damping direction is shown schematically by the double arrow.

In the FIGS. 4A to 4C the collection device is shown in further detail. The driver 7 is in the final position of a stop 25, which is designed to be adjustable in order to adjust the end position can. The stop 25 in this case has a threaded portion which is screwed into a holder 18. The holder 18 is fixed by screws 19 on a profile of the sliding door 3 or 3 '. The holder 18 is further fixed to the housing 6 via screws 17. About the adjustable stop 25, the end position of the driver 7 can be adjusted.

In the FIGS. 5A to 5C the driver 7 is shown on the connecting element 20 in detail. The connecting element 20 pushes the driver through the designed as a gas spring damper 12 in the end position against the stop 25. The driver 20 has a receptacle 21 into which a T-shaped portion 77 of the driver 7 engages. Thereby, the driver 7 is fixedly coupled in the damping direction to the connecting element 20, but can be pivoted perpendicular to the damping direction, for example, when the driver 7 is moved to the angled end portion of the guide track. In addition, it is possible to support the driver 7 in a direction perpendicular to the damping direction resiliently. Then, the driver 7 is formed from at least two parts, wherein the driver has a guide part on which the pins 70 are arranged, and a receiving part, on which the receptacle 75 is formed. These two parts are then slidably or pivotably mounted to each other and preferably biased by a spring into a starting position. As a result, the mobility of the driver 7 can be used to lock a projection 8 on the run-on slope 76 on the recording.

In the FIGS. 6 to 13 the use of the feed device according to the invention is shown on a lifting-sliding door, in which a sliding leaf 3 is movably received in a frame 2.

In FIG. 6 is shown a closed position in which the fixed field 4 and the sliding door 3 are arranged within the frame 2. In this position, the projection 8 is in the vertical direction spaced from the driver 7, so that they are not in operative connection. However, it is shown that the projection 8 is biased by a spring 80 to the driver 7 and the projection 8 is thus resiliently mounted resiliently on the holder 9 perpendicular to the damping direction.

To move the sliding door 3, a handle element 50 is first pivoted, as shown in FIG FIG. 7 is shown. By pivoting the handle element of the sliding panel 3 is raised, so that the projection 8 engages now in the receptacle 75 to de driver 7. In this position, the sliding leaf 3 can now be moved in the opening direction, as in FIG. 8 can be seen, so that the gas spring of the damper 12 is tensioned. In Figure 8, the driver 7 has arrived at the angled end portion 72 of the guideway and are now the projection 8 free, so that the sliding sash 3 can be moved independently of the feed device. in the Normal operation can be a coupling of the projection 8 on the driver 7 in a closing movement.

However, it may happen that the user wants to open the sliding sash 3 only slightly, for example for a night ventilation, as in FIG. 9 is shown. If only a slight opening is made, the sliding leaf 3 can be lowered in this position, as in FIG. 10 is shown. By lowering the sliding leaf 3 in the night ventilation position of the driver 7 is also lowered, so that a decoupling takes place between the projection 8 and the driver 7. The driver 7 can then be moved due to the bias of the damper in the end position. When re-raising the sliding sash 3 ( FIG. 11 ) is now not the projection 8 into engagement with the driver 7. However, this is not detrimental when the sliding leaf 3 is now moved in the closing direction, as in FIG. 12 is shown, because by the method of sliding sash 3 over the short distance in the closing direction can now be a coupling of the projection 8 on the driver 7, since the projection 8 is resiliently mounted and along the run-on slope 76 moves on the driver 7 and in the Holder 9 is pressed until the projection 8 is locked in the receptacle 75 of the driver 7. Then the closing position is reached again, as in FIG. 13 is shown, and the sliding sash 3 can be lowered again via actuation of the grip element 50.

In the FIGS. 6 to 13 only the projection 8 is resiliently mounted in a direction perpendicular to the damping direction. Alternatively or additionally, it is also possible to support the driver 7 in a direction perpendicular to the damping direction resiliently.

In the illustrated embodiment, the damper is formed by a gas spring, which serves both as a force storage and as a damper. It is of course also possible, instead of a gas spring, to provide one or more springs, which act on the driver 7 and apply the damping forces by one or more dampers, which are designed independently of the springs. However, the use of a gas spring has the advantage that a particularly compact design is possible.

LIST OF REFERENCE NUMBERS

1,1 '

door

2, 2 '

frame

3, 3 '

sliding door

4

fixed panel

5

groove

5 '

guide element

6

casing

7

takeaway

8th

head Start

9

holder

10

adapter profile

11

Cover

12

damper

13

damper housing

14

piston rod

15

spigot

16

holder

17

screw

18

holder

19

screw

20

connecting element

21

admission

25

attack

50

handle element

70

spigot

71

guideway

72

end

75

admission

76

starting slope

77

section

80

feather

Claims (11)

Feeding device for a sliding window or a sliding door (3), in particular a lifting-sliding door, comprising: a) a driver (7) along a guide track (71, 72) on a housing (6) is movable; b) a with the driver (7) coupled linear damper (12) having a damper housing (13) and a in the damper housing (12) movable in the direction of damping piston and a piston rod (14); c) a projection (8) which is coupled over a certain range of movement of the driver with this, in order to brake a movement of the driver (7) relative to the housing (6); d) wherein the driver (7) has a receptacle (75) into which the projection (8) can be inserted, and at least on one side of the driver (7) adjacent to the receptacle (75) a run-on slope (76) is formed,
characterized in that e) the driver (7) is resiliently mounted in a direction substantially perpendicular to the damping direction,
and or f) the projection (8) is resiliently mounted in a direction substantially perpendicular to the damping direction. Feeding device according to claim 1, characterized in that on the damper (12) a connecting element (20) is fixed, on which the driver (7) fixed in the damping direction and is movable perpendicular to the damping direction. Feeding device according to claim 2, characterized in that the connecting element (20) on the piston rod (14) is fixed. Feeding device according to one of the preceding claims, characterized in that the driver (7) has a T-shaped portion (77) which engages in a recess on the connecting element (20). Feeding device according to one of the preceding claims, characterized in that the damper (12) is fixed to the housing (6) and is movable only linearly in the damping direction. Feeding device according to one of the preceding claims, characterized in that the projection (8) is resiliently mounted on a fixable holder (9). Feeding device according to one of the preceding claims, characterized in that the driver (7) has a guide part, which is movable along the guide track (71, 72) and a receiving part, on which the receptacle (75) is formed, and the spring on the Guide part is stored. Feeding device according to one of the preceding claims, characterized in that the damper (12) is designed as a gas pressure absorber, which biases the driver (7) in a feed direction. Feeding device according to one of the preceding claims, characterized in that the driver (7) is made of metal. Sliding window or sliding door (1) with a collection device according to one of the preceding claims. Sliding window or sliding door, characterized in that the housing (6) with the driver (7) on a sliding sash (3) and the projection (8) on a window frame (2) are fixed.

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