EP3643849A1 - Flap for roof, ceiling or façade - Google Patents

Abstract

Disclosed is a roof, ceiling or facade opening (1) with a base part (2) having a frame part (4) and a cover part (3) pivotably mounted on the base part (2) for movement between a closed position and at least one open position about a pivot axis ). The roof, ceiling or facade opening also has a drive for pivoting the cover part (3) about the pivot axis relative to the base part (2). The drive has a linear actuator (17) and a lever mechanism for converting a compressive or tensile force of the linear actuator (17) into a pivoting movement of the cover part (3). The linear actuator (17) is pivotably mounted with a first bearing point in a first pivot bearing (18) rigidly formed with the base part (2) relative to the base part (2) and is pivotably connected to a lever arm of the lever mechanism with a second bearing point (20) . The lever mechanism comprises a lever arm (9), which is pivotally mounted at a first connection point in a straight guide with the cover part (3) and at a second connection point in a rotary bearing (12) rigidly formed with the base part (2), and a control lever arm (10) pivotably mounted at a first connection point in a second pivot bearing (14) rigidly formed with the base part (2). The control lever arm (10) is movably connected to the lifting lever arm (9) via a link guide (15, 16).

Description

The invention relates to a roof, ceiling or facade opening with the features of the preamble of claim 1.

Such roof, ceiling or facade openings are widely known from the prior art. In particular, so-called skylight domes are known, which are arranged, for example, in the area of stairwells or elevator shafts on the ceiling or roof side in buildings and serve for ventilation or ventilation, i.e. an air exchange of the interior of the building connected to the skylight dome with the outside air. At the same time, they serve to allow light to enter the interior of the building, which is why these domelights are usually provided with dome-like covers made of glass, acrylic glass or another transparent material. But there are also other types of roof or ceiling openings, for example exhaust air dampers or smoke extraction dampers. There are also facade openings, such as Revolving windows or flaps.

Such roof, ceiling or facade openings are often actuated by automatic drives in order to move the cover part closing the opening from a closed position to an open position and vice versa from the open position back to the closed position. It is not uncommon for roof, ceiling or facade openings of this type to be designed in such a way that they can be used in combination, namely once as a ventilation or ventilation opening with one adjustable opening angle of the cover part, such as is necessary for the purpose of air exchange or for regulating the temperature inside the building, and as a smoke exhaust opening, in which state the cover part is completely removed from the opening in order to release a maximum passage cross section and thus in one In case of smoke, smoke can be removed from the interior of the building as quickly and effectively as possible.

Accordingly, in particular for such combined applications, the drives must be designed in such a way that, in particular, constructions that can be implemented in a limited installation space can be used to achieve wide opening angles of the cover part. It should also be noted that the cover parts have a comparatively large force to move and pivot on the one hand due to their own weight, especially in the case of larger roof, ceiling or facade openings, and on the other hand due to possible loads due to, for example, snow and possibly due to wind loads these forces must be implemented by the drive. Under this premise, drives have already been proposed which have a comparatively complex structure with a lever mechanism composed of a plurality of lever arms. Such a solution, which shows the features of the preamble of claim 1, is for a roof opening in the EP 2 003 262 A2 disclosed. A disadvantage of this solution, as already described above, is that the structure is complex and has many lever arms, which makes it difficult to assemble and costly to implement. In addition, a solution designed with a correspondingly large number of lever arms, which are designed to be pivotable relative to one another, is also susceptible to malfunction. In addition, the in the EP 2 003 262 A2 described solution of the load entry, which is loaded on the linear actuator, is designed to be comparatively unfavorable. Here, in a phase of the first opening, large forces arise, which are to be applied by the linear actuator, which requires a corresponding dimensioning of the actuator, which must withstand such forces or must exert such forces.

Here, the invention is intended to remedy this, and in particular a roof, ceiling or facade opening with an improved drive is to be specified, which is characterized in that it is easier to manufacture with a few parts and, in the process, an optimal drive power of the linear actuator exploits, so that the linear actuator can be dimensioned accordingly with low power.

This object is achieved by a roof, ceiling or facade opening with the features of claim 1. Advantageous further developments of a roof, ceiling or facade opening according to the invention are specified in the dependent claims 2 to 10.

As is customary in the prior art, the roof, ceiling or facade opening according to the invention also initially has a base part which has a frame part and on which a cover part is pivotably attached, which cover part can be pivoted relative to the base part between a closed position and at least one open position. The cover part can for example be connected to the frame part via a hinge or a hinge strip. The cover part itself can in turn have a frame and line the frame of the cover element, for example a closure plate or a closure hood, wherein the cover element can be non-transparent or transparent, for example in the manner of a light dome.

Furthermore and also as is customary in the prior art, the roof, ceiling or facade opening according to the invention also has a drive with which the cover part can be driven and pivoted about the pivot axis and relative to the base part for moving between the closed position and the at least one open position . This drive has a linear actuator and a lever mechanism, the linear actuator being connected to a lever of the lever mechanism and optionally being able to apply compressive or tensile forces to the lever to which the linear actuator is connected. The linear actuator is mounted with a first bearing point in a first pivot bearing which is rigidly formed with the base part and can be pivoted relative to the base part and is connected to a second bearing point pivotally connected to the lever arm of the lever gear. The lever gear has two lever arms, a lifting lever arm and a control lever arm. In particular, the lever mechanism can consist of exactly these two lever arms and can be formed exclusively with these lever arms.

The lifting lever arm is pivotally mounted at a first connection point in a straight guide with the cover part and at a second connection point in a rotary bearing rigidly formed with the base part relative to the base part. The control lever arm is pivotably mounted at a first connection point in a second pivot bearing which is rigidly formed with the base part, relative to the base part. The control lever arm is also movably connected to the lifting lever arm via a link guide. This link guide allows a reduction in the number of lever arms in the lever mechanism while maintaining a wide opening angle, which can be up to over 160 ° depending on the design of the lever geometry and the link guide. By integrating a link guide in the lever gear, a significant simplification of the structure of this lever gear can be achieved compared to the prior art, in particular the number of levers involved, which is required for the implementation and guidance of the pivoting movement based on the linear drive of the linear actuator , be reduced. In particular, in an implementation according to the invention it may be sufficient to provide only two levers involved, namely the lever arm and the control lever arm. Compared with the known prior art, in particular with that from the EP 2 003 262 A2 known construction, in particular a more effective conversion of the driving force that is generated with the linear actuator can be achieved, so that - especially at the beginning of the opening movement - particularly large driving forces do not have to be generated by the linear actuator, as is required in this prior art.

The link guide can in particular be implemented in such a way that a link path is formed in the lifting lever arm, in which a bearing element arranged on the control lever arm at a second connection point along the link path is movably mounted. The slide track can, in particular, have a non-linear, curved course, in particular also in order to be able to map the pivoting movement.

According to one embodiment of the roof, ceiling or facade opening according to the invention, the linear actuator can in particular be pivotably mounted on the control lever arm with the second bearing point. By this measure, the force of the linear actuator is introduced into the control lever arm, so that, especially when the bearing element guided in a link guide in the lifting lever arm is arranged thereon, the lifting lever arm does not move in one of the directions in which the lifting lever arm is to be pivoted, deviating direction is loaded with the force introduced by the linear actuator, so that tilting of the drive is counteracted. If the control lever arm has the bearing element of the link guide, the point at which the bearing element is arranged on the control lever arm, the connection point at which the control lever arm is fixed in the second pivot bearing, and the second bearing point at which the control lever arm is connected to the linear actuator , lie on the corner points of a triangle. In particular, the point at which the bearing element is arranged on the control lever arm can lie in a vertical projection on a connecting line between the connecting point and the second bearing point between the latter two points.

In a further advantageous embodiment of the roof, ceiling or facade opening according to the invention, the cover part can be pivoted in an open position to a first side of a closing plane in which the pivot axis, about which the cover part can be pivoted, lies and in which there is a contact with the cover part in the closed position of the closed opening cross section, and the first and / or the second pivot bearing can be arranged on a side of the closing plane opposite the first side and at a distance from the closing plane. Furthermore, the first and / or the second pivot bearing can be located further away from the closing plane than the pivot bearing. Such an arrangement, in which in particular the first and / or the second Swivel bearings are further apart from the closing plane than the pivot bearing allows the arrangement of the lever mechanism in a space which, seen perpendicular to the closing plane, has a comparatively small height while at the same time realizing a far-reaching, achievable opening angle of the cover part.

In the roof, ceiling or facade opening according to the invention, the lifting lever arm can be connected to the cover part in the first connection point, in particular in a linear guide. This can be realized, for example, by a roller arranged on the lifting lever arm and running in a rectilinear roller track of the cover part.

In particular, it can be provided for the roof, ceiling or facade opening according to the invention that the cover part can be moved in at least two different open positions, namely in a ventilation position and in a smoke extraction position. The ventilation position serves to ventilate the interior of the room or building, with the cover part typically having a smaller opening angle in the ventilation position than in the smoke extraction position, which serves to quickly remove smoke from the interior of the room or building. The opening angle in the smoke extraction position ideally extends as close as possible to 180 °, in particular is at least 160 °, preferably at least 165 °.

The linear actuator can comprise, for example, a hydraulic or pneumatic pressure cylinder, a spindle drive or a rack and pinion drive.

Fig. 1

eine Schnittdarstellung eines Ausführungsbeispiels einer erfindungsgemäß gestalteten Dach-, Decken- oder Fassadenöffnung in einem geschlossenen Zustand;

Fig. 2

eine Schnittdarstellung des Ausführungsbeispiels einer erfindungsgemäß gestalteten Dach-, Decken- oder Fassadenöffnung gemäß Fig. 1 in einem für Ventilationszwecke geöffneten Zustand; und

Fig. 3

eine Schnittdarstellung des Ausführungsbeispiels einer erfindungsgemäß gestalteten Dach-, Decken- oder Fassadenöffnung gemäß Fig. 1 in einem für Entrauchungszwecke geöffneten Zustand.

Further advantages and features of a roof, ceiling or facade opening according to the invention result from the following description of an exemplary embodiment with reference to the attached figures. Show:

Fig. 1

a sectional view of an embodiment of an inventive roof, ceiling or facade opening in a closed state;

Fig. 2

a sectional view of the embodiment of a roof, ceiling or facade opening designed according to the invention Fig. 1 in a state open for ventilation purposes; and

Fig. 3

a sectional view of the embodiment of a roof, ceiling or facade opening designed according to the invention Fig. 1 in a state open for smoke extraction purposes.

In the figures, a possible exemplary embodiment of a roof, ceiling or facade opening according to the invention is shown in three different sectional views. In the exemplary embodiment shown, the roof, ceiling or facade opening is formed in the form of a light dome 1. However, other types of roof, ceiling or facade openings can also be designed in a comparable manner and also have the features described below using the exemplary embodiment, such as e.g. Roof or ceiling flaps, rotating windows in roofs or facades or the like.

The light dome 1 shown in the figures has a base part 2 and a cover part 3 connected to the base part 2. The base part 2 has a frame part 4 which surrounds a channel 21 in the manner of a shaft. With the frame part 4, the skylight dome 1 can be inserted into a cutout of a roof or a ceiling and fixed there in order to form the roof or ceiling opening.

The cover part 3 has a peripheral frame 5 and a cover 6 inserted therein, in this case, for example, a dome-like cover made of acrylic glass. The cover part 3 is connected to the base part 2 via a hinge 7, which enables the cover part 3 to pivot relative to the base part 2 and thereby defines a pivot axis. A pivoting of the cover part 3 relative to the base part 2 is achieved by a - motor-driven - drive, which has an actuator, here in the form of a linear actuator 17, and a lever mechanism connected to the actuator. In this exemplary embodiment, the lever mechanism is composed of a lever arm 9 and a control lever arm 10. The lever arm 9 is connected to the frame 5 of the cover part 3 via a linear guide, the linear guide being one with the Frame 5 of the cover part 3 connected roller conveyor 8 and a roller 13 running therein and arranged at one end of the lever arm 9 comprises. At another end, the lever arm 9 is pivotally arranged on the frame part 4 of the base part 2, more precisely on a bracket 11 rigidly connected to the frame part 4 and in a pivot bearing 12. Around this pivot bearing 12, the lever arm 9 can be moved parallel to the through the hinge 7 formed pivot axis rotate axis of rotation.

The control lever arm 10 is also rotatably connected to the bracket 11 in a pivot bearing 14. The pivot bearing 14 is from a closing plane in which the pivot axis formed by the hinge 7 lies and which is parallel to the frame 5 of the cover part 3 in the closed position (see Figure 1 ) is offset in a direction opposite the cover 6 and spaced from the closing plane. In the lifting lever arm 9, a link path 15 is provided, in which a roller 16 arranged on the control lever arm 10 runs, so that the link path 15 forms a link guide together with the roller 16. The slide track 15 has a curved course, as can be seen in the figures.

The linear actuator 17 is connected at a connection point on a side opposite the bracket 11 to the frame part 4, forming a swivel bearing 18, and is rotatably or pivotably mounted about the swivel bearing 18. The pivot bearing 18 is also offset in a direction opposite the cover 6 and spaced apart from the closing plane. At an end opposite the pivot bearing 18, the linear actuator 17 is connected to the control lever arm 10 at a connection point 20, and can also be pivoted there. The axes of rotation for the pivoting movements of the linear actuator in about the pivot bearing 18 and the connection point 20 and the control lever arm 10 about the pivot bearing 14 are also parallel to the pivot axis, which is determined by the hinge 7.

By actuating the linear actuator 17 in an opening direction in which the actuator 17 is spread between the pivot bearing 18 and the connection point 20, the cover part 3 is pivoted in an opening movement about the hinge 7. The linear actuator 17 exerts a tensile force on the control lever arm 10, as a result of which the roller 16 rolls along the slide path 15 and thereby pivots the lifting lever arm 9 in an opening direction about the pivot bearing twelve. The roller 13 runs in the roller conveyor 8 and thus moves the cover part 3 in the opening direction. When the linear actuator 17 is actuated in the opposite direction, the lever gear is moved in the opposite direction and the cover part 3 is thus moved back into the closed position (cf. Figure 1 ).

The opening movement, as can be triggered as described above, can be up to one as in Figure 2 shown open position for ventilation or ventilation purposes or in a further opening movement up to one as in Figure 3 recognizable smoke vent position. In the in Figure 2 The ventilation position shown is the duct 21, which is closed in the closed position shown in FIG. 1, partially opened for an air exchange for ventilation and / or air conditioning purposes. In the smoke extraction position, the cover part is pivoted by almost 180 ° around the hinge 7, so that the channel 21 is completely cleared for a large opening cross section and thus rapid removal of smoke from the interior of the room or building, which is connected to the channel 21.

From the above description and the figures, the advantageous embodiment in the design according to the invention has once again become clear, which in particular enables a lever mechanism to be realized with only two lever arms, which thus enables large opening widths of the cover part 3 with few parts and in a robust design .

Reference list

1

Skylight dome

2nd

Base part

3rd

Cover part

4th

Frame part

5

frame

6

cover

7

hinge

8th

Roller conveyor

9

Lever arm

10th

Joystick arm

11

console

12th

Pivot bearing

13

role

14

Swivel bearing

15

Scenic track

16

role

17th

Linear actuator

18th

Swivel bearing

19th

console

20th

Connection point

21

channel

22

Connecting strut

Claims (10)

Roof, ceiling or facade opening (1) with a base part (2) having a frame part (4) and a cover part (3) attached to the base part (2) and pivotable for moving between a closed position and at least one open position about a pivot axis a drive for pivoting the cover part (3) about the pivot axis relative to the base part (2), the drive comprising a linear actuator (17) for selectively applying a compressive or tensile force and a lever mechanism for converting the compressive or tensile force into a pivoting movement of the cover part (3), the linear actuator (17) having a first bearing point in a first pivot bearing (18) rigidly formed with the base part (2) being pivotably mounted relative to the base part (2) and having a second bearing point ( 20) is pivotally connected to a lever arm of the lever mechanism, the lever mechanism one at a first connection point in a straight guide ung with the cover part (3) and at a second connection point in a rigidly formed with the base part (2) pivot bearing (12) relative to the base part (2) pivotally mounted lever arm (9) and one at a first connection point in a rigid with the Base part (2) formed second pivot bearing (14) relative to the base part (2) pivotally mounted control lever arm (10), characterized in that the control lever arm (10) is movably connected to the lever arm (9) via a link guide (15, 16) is. Roof, ceiling or facade opening (1) according to claim 1, characterized in that a link path (15) is formed in the lifting lever arm (9), in which a bearing element (16) arranged on the control lever arm (10) at a second connection point. is movably mounted along the slide path (15). Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized in that the linear actuator (17) with the second bearing point (20) is pivotally connected to the control lever arm (10). Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized by a closing plane in which the pivot axis lies, about which the cover part (3) can be pivoted, and in which there is a cover part (3) in it Closed position closed opening cross-section of the roof, ceiling or facade opening (1), wherein the cover part (3) is pivoted away from the closing plane when pivoting from the closed position into an open position on a first side of the closing plane, and wherein the first and / or the second pivot bearing (14, 18) is / are arranged on a side of the closing plane opposite the first side spaced from the closing plane, the first and / or the second pivot bearing (14, 18) being further away from the closing plane than the pivot bearing ( 12). Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized in that the lifting lever arm (9) is connected to the cover part (3) in a linear guide at the first connection point. Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized in that the cover part (3) can be moved in at least two different open positions, namely in a ventilation position and in a smoke extraction position, an opening angle of the cover part (3) is smaller in the ventilation position than in the smoke extraction position. Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized in that the linear actuator (17) comprises a hydraulic or pneumatic pressure cylinder. Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized in that the linear actuator (17) comprises a spindle drive. Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized in that the linear actuator (17) comprises a rack and pinion drive. Roof, ceiling or facade opening (1) according to one of the preceding claims, characterized in that it is designed as a dome light.

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