EP3636862B1 - Espagnolette fitting for a window casement pivotable against a frame - Google Patents

Description

The invention relates to a connecting rod fitting for a sash of a window, window door or the like that can be pivoted against a frame, with several longitudinally displaceable drive rod sections, with several locks each controlled by the drive rod sections and with several drives for driving the drive rod sections.

From the EP 1 302 615 A2 a drive rod fitting according to the preamble of claim 1 has become known, in which individual drive rod sections arranged on different spars of the sash are connected to one another via corner deflections. One of the drive rod sections has a motor drive, while another of the drive rod sections can be driven manually. This means that the entire connecting rod fitting is driven either manually or by motor through the coupling by means of the corner drives. However, the corner deflections are very expensive to manufacture and complex to assemble components.

From the DE 10 2004 018 062 A1 a window with an electromotive lock has become known. Here each locking element has its own electromechanical drive. With a large number of locking elements, this design leads to a very high structural complexity with a correspondingly high number of electromotive drives.

The invention is based on the problem of developing a connecting rod fitting of the type mentioned at the outset in such a way that it is particularly simple to construct and assemble.

This problem is solved according to the invention in that the connecting rod sections are mechanically decoupled from one another so that there is no mechanical connection between the connecting rod sections, that at least one of the drives has an electromechanical actuator and that the electromechanical actuator is connected to a control device.

With this design, the espagnolette fitting can be installed particularly easily because no coupling elements that are complex to manufacture and install, such as a corner deflector or the like, are required. The drive rod sections are driven by the electromechanical actuator, which in turn is controlled by the control device. Each of the connecting rod sections is connected to several locks, so that the connecting rod fitting offers a high level of security. For example, all drive rod sections can be driven from a locking position into an open position by means of a corresponding control. Alternatively, the drive rod section of the lower spar can also connect the sash to the frame for a tilted position of the sash, while only the drive rod sections on the side spar are driven into the open position. As a result of this design, the connecting rod sections arranged in the side rails require only two positions for locking and unlocking, although the connecting rod fitting has three positions in the tilted position. This advantage is particularly important when using several electromechanical actuators. In this way, the drive rod sections can also be produced particularly cost-effectively. The control device enables joint or selected switching of the drives. Another advantage of this design is that an attempt to manipulate one of the drives or one of the drive rod sections does not lead to an unlocking of the entire drive rod fitting due to the decoupling. The espagnolette fitting therefore offers a particularly high level of security against manipulation.

With four spars, according to another advantageous development of the invention, four independent controls of multiple locks of the sash in the frame can be easily generated if the drive rod sections each extend over a straight section of a spar of the sash or the frame. The drive rod sections are thus decoupled at least at the corners of the frame or of the sash. Of course, two mechanically decoupled drive rod sections, each with their own drive, can also be used with a particularly long spar.

According to another advantageous development of the invention, the drive rod fitting can be composed of many identical parts if the electromechanical actuators are connected to one end of the drive rod sections. This makes it possible to create a simple replacement structure for different spar lengths. This design also enables simple positioning and assembly of the connecting rod sections.

According to another advantageous development of the invention, the control of the electromechanical actuator is particularly simple when a handle is connected to the control device. The position of the handle is thus transmitted to the control device. The connection can be made, for example, by means of an electrical conductor or wirelessly. The handle can have a handle for driving one of the drive rod sections. In this way, several drive rod sections with electromechanical actuators can be controlled by the one drive rod section having the handle.

According to another advantageous development of the invention, the control of the drive rod fitting is particularly simple if the control device is connected to an electrical switch or a remote control.

Often all the drive rod sections are arranged on the wing. According to another advantageous development of the invention, the supply of the electromechanical actuator with electrical power is particularly simple if the drive rod section connected to the handle as a drive is arranged on the sash and at least one drive rod section connected to the electromechanical actuator is arranged on the frame. This design means that no line transitions are required between the sash and the frame to supply the electromechanical actuator with electrical power.

According to another advantageous development of the invention, the assembly of the espagnolette fitting is particularly simple if the electromechanical actuator has dimensions for assembly in a rebate groove and rebate gap between the sash and the frame.

A safety device to prevent locking of the drive rod sections when the sash is open is particularly simple according to another advantageous development of the invention if the electromechanical actuator or the control device is connected to a sensor for detecting the position of the sash relative to the frame.

According to another advantageous development of the invention, the electromechanical actuator can be used to transmit particularly high forces if the electromechanical actuator has a spindle drive. High forces are required, in particular, when the fasteners transmit tightening forces of the sash against the frame. Another advantage of such a spindle drive is the self-locking, so that manual displacement of the drive rod section is not possible. This contributes to further increasing the manipulation security of the drive rod section.

Tightening forces of the sash against the frame can be easily transferred according to another advantageous development of the invention if the drive rod section driven by the electromechanical actuator has at least two locking pins distributed over its length and if the locking pins face ramps of locking plates. By distributing the locking pin over the length of the connecting rod section, an even tightening of the sash against the frame can be ensured. The approach ramps of commercially available striking plates are constructed in such a way that the locking pin slides along it when it moves into the locking position and introduces tightening forces in the sash towards the frame.

The indirect control of the electromechanical drives via the handle turns out to be particularly simple according to another advantageous development of the invention if at least the drive rod section connected to the handle has a sensor for detecting its position and is connected to the control device.

Fig.1

ein Fenster mit einem erfindungsgemäßen Treibstangenbeschlag,

Fig.2

vergrößert einen Teilbereich eines Treibstangenabschnitts mit einer Handhabe,

Fig.3

einen Teilbereich eines weiteren Treibstangenabschnitts mit einem elektromechanischen Aktor,

Fig.4

einen Teilbereich eines weiteren Treibstangenabschnitts mit einem elektromechanischen Aktor,

Fig.5

einen Teilbereich eines weiteren Treibstangenabschnitts mit einem elektromechanischen Aktor,

Fig.6

Bauteile einer weiteren Ausführungsform des Treibstangenbeschlages.

The invention allows numerous embodiments. To further clarify its basic principle, two of them are shown in the drawing and are described below. This shows in

Fig. 1

a window with a connecting rod fitting according to the invention,

Fig. 2

enlarges a partial area of a drive rod section with a handle,

Fig. 3

a sub-area of a further drive rod section with an electromechanical actuator,

Fig. 4

a sub-area of a further drive rod section with an electromechanical actuator,

Fig. 5

a sub-area of a further drive rod section with an electromechanical actuator,

Fig. 6

Components of a further embodiment of the espagnolette fitting.

Figure 1 shows a window with a sash 2 pivotable against a frame 1 and with a connecting rod fitting 3 for locking the sash 2 in the frame 1. The connecting rod fitting 3 has in each spar 4 - 7 of the window a longitudinally displaceable drive rod section 8 - 11, which mechanically are decoupled from each other. The decoupling ensures that there is no mechanical connection between the connecting rod sections 8-11. The drive rod sections 8-11 each have their own drive 12-15. One of the drives 12 has a handle 16, while the other drives 13-15 each have an electromechanical actuator 17-19. The drive rod sections 8-11 each control a plurality of closures 20 of the same type in the exemplary embodiment. The locks 20 are arranged evenly distributed over the circumference of the window and have locking pins 21 fastened to the drive rod sections 8-11, which are opposed to locking plates 22 fixedly arranged in the frame 1.

A control device 23 for controlling the drives 13-15 having the electromechanical actuators 17-19 is arranged in the wing 2. The control device 23 receives signals from a sensor 24 for detecting the position of the drive rod section 8 driven by the handle 16 and signals from a sensor 25 which detects the position of the sash 2 in the frame 1. The electromechanical actuators 17-19 can be supplied with power, for example inductively or via a line. In an embodiment not shown, the drive rod sections 9 - 11 having the electromechanical actuators 17 - 19 can also be arranged in the frame 1.

Figure 2 shows a portion of the drive rod section 8 from Figure 1 with the drive 12 having the handle 16 in an enlarged view. A sash lifter 27 is arranged on a faceplate 26 that covers the drive rod section 8 and is screwed to the sash 2.

Figure 3 shows a partial area of the drive rod section 9 arranged in the upper spar 5 Figure 1 with the drive 13 having the electromechanical actuator 17. The electromechanical actuator 17 has a spindle drive 28 with an electric motor 29 which drives a spindle 30. The spindle 30 is at one end of the Driving rod section 9 connected. Furthermore shows Figure 3 that the drive 13 has the height of the other components of the drive rod section 9 and can therefore be mounted in the rebate groove between the sash 2 and the frame 1. Furthermore, the drive rod section 9 has an opening device 31. By a corresponding control of the electromechanical actuator 17, the wing 2 can also be moved into a gap ventilation position or a tilted position.

Figure 4 shows one in the left spar 6 of the window Figure 1 arranged partial area of the drive rod section 10 with the drive 14 having the electromechanical actuator 18. The electromechanical actuator 18 is like that from Figure 3 constructed and connected to the end of the drive rod section 10. Furthermore, in Figure 4 It can be seen that the drive rod section 10 is composed of individual straight sections 32. The drive rod section 10 can thus be adapted for different dimensions of the window.

Figure 5 shows one in the lower spar 7 of the window Figure 1 arranged partial area of the drive rod section 11 with the drive 15 having the electromechanical actuator 19. The drive 15 and the drive rod section 11 are from Figure 4 built up.

Figure 6 shows components of a further embodiment of the drive rod fitting with four drive rod sections 108-111. In this embodiment, each drive rod section 108-111 has an electromechanical drive 112-115. The drives 112-115 can be controlled, for example, via a remote control (not shown) or via buttons on the window respectively. The wing 2 can also be made from Figure 1 have motor drives with which it can be moved into a rotating or tilting position.

Claims (11)

1. A drive rod fitting (3) for a window casement (2) pivotable against a frame (1) of a window, a French door or the like, having a plurality of longitudinally displaceably guided driving rod sections (8-11, 108-111), having in each case a plurality of closures (20) controlled by the drive rod sections (8-11, 108-111) and having a plurality of drives (12-15, 112-115) for driving the drive rod sections (8-11, 108-111), characterized in that the drive rod sections (8-11, 108-111) are mechanically decoupled from one another, so that no mechanical connection exists between the drive rod sections, that at least one of the drives (13-15, 112-115) has an electromechanical actuator (17-19) and that the electromechanical actuator (17-19) is connected to a control device (23).
2. The drive rod fitting according to claim 1, characterized in that the drive rod sections (8-11, 108-111) in each case extend over a straight section of a crossbar (4-7) of the casement (2) or of the frame (1).
3. The drive rod fitting according to claim 1 or 2, characterized in that the electromechanical actuators (17-19) are connected to an end of the drive rod sections (8-11, 108-111).
4. The drive rod fitting according to at least one of claims 1 to 3, characterized in that a handle (16) is connected to the control device (23).
5. The drive rod fitting according to at least one of claims 1 to 4, characterized in that the control device (23) is connected to an electrical switch or to a remote control.
6. The drive rod fitting according to at least one of claims 1 to 5, characterized in that the drive rod section (8) connected to the handle (16) as drive (12) is arranged on the window casement and at least one drive rod section connected to the electromechanical actuator is arranged on the frame (1).
7. The drive rod fitting according to at least one of claims 1 to 6, characterized in that the electromechanical actuator (17-19) has dimensions for mounting in a rebate groove and rebate clearance between window casement (2) and frame (1).
8. The drive rod fitting according to at least one of claims 1 to 7, characterized in that the electromechanical actuator (17-19) or the control device (23) is connected to a sensor (25) for detecting the position of the casement (2) relative to the frame (1).
9. The drive rod fitting according to at least one of claims 1 to 8, characterized in that the electromechanical actuator (17-19) has a spindle drive (28).
10. The drive rod fitting according to at least one of claims 1 to 9, characterized in that the drive rod section (9-11, 108-111) driven by the electromechanical actuator (17-19) has at least two locking pins (21) distributed over its length and that the locking pins (21) in each case face run-up ramps of fixed locking plates (22).
11. The drive rod fitting according to at least one of claims 4 to 10 characterized in that at least the drive rod section (8) connected to the handle (16) has a sensor (24) for detecting its position and is connected to the control device (23).

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