NO165513B - AAPEN / CLOSED WINDOW DETECTOR. - Google Patents

Abstract

Open / closed detector for window, where switch function is achieved by opening / closing an electrical circuit when the window is opened / closed. The electrical circuit includes units that normally occur in a window, ie hinges 3, locking point 5 and fittings 4. Metallic screws 7 form a link between the alarm center and the detector's switch function via metal in frame 1 and frame 2. Advantageously already built-in bracing steel in frame 1 and frame is advantageously used. In frame 2, the bracket 4 itself may be used as conductive metal.

Description

The present invention relates to how to use existing components that are included in a window, and in particular in a metal-reinforced PVC window, to build up a detector for sensing whether the window is open or closed, primarily for use in alarm systems. However, such a detector can also be used in the area of energy saving (ENØK) and the like.

In alarm systems in connection with windows, detectors of various types are often used. These are most often retrofitted to the windows. Common types are magnetic or inductive switches, vibration switches and current loops that are glued directly to the window surface. Such retrofitting on the windows, however, often creates problems for the function the detector is supposed to perform.

Furthermore, the physical mounting location often makes the detector easily vulnerable. This consequently entails vulnerability also for the alarm system as such.

From US patent 1 556 626 an electric detector for attempted break-ins through a window is known, where metal plates in the frame and frame are intended to come into contact with each other and close an electric circuit when force is applied to the window to break it open.

This detector, which may apparently be somewhat similar to the present invention, thus has a somewhat different function, namely to detect break-ins, but not in itself to detect whether a window is in an open or closed position. The electrical circuit will here be open both when the window is closed and when the window is open, and thus not be able to detect normal opening of the window at all. It should also be noted that the locking point and locking fitting are not included here as any part of the electrical circuit, in contrast to the present invention.

US patent 3 147 468 in and of itself shows something similar to "use of locking point and locking fitting in the electrical circuit", i.e. the latch in a lock is used to close an electrical contact device inside the locking point in the window frame. Here, however, the entire electrical system is placed in the frame (as well as a small conductor piece on the case), and this equipment is typical retrofit equipment. Detection of normal opening/closing of the window is, however, achieved here in roughly the same way as in the present invention, but with a different technical solution. In contrast to the known technique, the present invention provides the opportunity to utilize components that are already built in during normal window production, as part of a detection system. Essential components of the detector are included as a natural part of the window. Therefore, it is not necessary to connect to external sensors to provide information about the window's status to an alarm system. The open/closed detector according to the invention is built-in and thus hidden from the surroundings. This reduces the vulnerability of the function that the alarm system is supposed to serve.

The above-mentioned purposes are achieved according to the invention by the fact that the detector is designed as shown in the subsequent patent claims.

A more detailed description of the invention shall be made with reference to certain non-limiting examples of embodiment, and with reference to the attached figures, where

fig. 1 and fig. 2 shows the units included in windows of standard types,

fig. 3 shows the use of self-drilling screws to connect the locking point and any spring steel to metal inside a window frame, as well as how a self-drilling screw can provide contact for the wire to be connected to the alarm central, and

fig. 4 schematically shows the electrical circuit.

Reference is first made to fig. 1 and 2, which show two standard types of windows. Reference number 1 shows the window frame, while 2 is the window frame. The window frame 1 is equipped with conductive metal on the sides where locking point 5 and hinges 3 are attached. These respective metal parts are not in physical, i.e. electrical, contact with each other. The metal can either be placed on the outside of the frame 1 or placed inside it. For wooden windows, it will be easiest to drill longitudinal pieces of metal pipe into the frame. However, the invention is particularly applicable when it comes to PVC windows, where the electrical wiring path in the frame 1 is then made up of the metal reinforcements that are already embedded in the PVC profiles. Locking point 5 and hinges 3 are individually connected to their respective metal parts in the frame by means of conductive screws 7 (see fig. 3). If metal 9 is used inside the frame, self-drilling screws 7 are used. If metal is used on the outside of the window frame, through screws with nuts can also be used.

In contrast to the frame 1, in the case of the window frame 2, it is necessary that there is physical, i.e. electrical contact between the different sides of the frame 2 which is to be used for the switch function in the detector. The lock fitting 4 can here be used as such metal, whether the fitting is of a type that sits on the outside of the frame 2, see fig. 2, or it is of a type that is located inside the frame, see fig. 1. If the locking fitting 4 does not satisfy this requirement, the frame 2 must be equipped with conductive metal in the same way as the window frame 1, and the fitting 4 and hinges 3 must be electrically connected to this metal.

The detector's one contact point is the locking point 5 in the window frame 1, and the other contact point is the locking bracket 4 in the window frame 2. When the window is closed and the locking bracket's operating device, e.g. a twister 6, is in the closed position, the fitting 4 and the locking point 5 will be in physical contact with each other. The switch function of the detector is thus closed. Otherwise, the switch function will be open.

Not all locking points are metal. Moreover, one is not always 100% sure that the physical contact between fitting 4 and locking point 5 is good enough. In such cases, the locking point 5 is therefore supplied with spring steel 8 or another conductive spring device, which is fixed with a screw. Where possible, the fixing screw for the locking point is also used as the fixing screw for the spring steel. In fig. 3

is also shown a plastic cap 10 for insulation of the connection screw, and reference number 11 shows the connection cable to the alarm central.

Fig. 4 shows purely schematically the electrical circuit, which can consist of a simple series connection through voltage source and detector instrument, which in itself does not constitute any part of the present invention, and further into the window frame 1 on two sides, which has no electrical connection together. The connection to the conductive metal in the frame 1 on the two sides takes place, for example, as shown in fig. 3, with screw that is covered by a plastic cap. On the left side in the example in fig. 4, the metal conductor in the window frame 1 then provides an electrical wire up to the locking point 5, where there is also a connection as shown in

fig. 3, using screws. In the same way, electrical wiring takes place on the right side of the frame up to hinge 3, and the hinge itself then ensures contact between frame 1 and frame 2 on

this page. In the window frame 2, there is a continuous wiring path via embedded metal all the way to the locking fitting 4. When the window is then closed and the twister 6 is pulled, the electrical circuit is closed in this switch point, which therefore consists of fitting 4 and locking point 5.

Claims (8)

1. Open/closed window detector, where an electrical circuit is broken when the window is opened, characterized in that the circuit comprises either the window's locking point (5), locking fitting (4) and at least one of the window's hinges (3) connected in series, or a series connection of a first locking point (5), locking fitting (4) and a second locking point, electrical contact between locking point(s) (5) and locking fitting (4) only occurs through direct mechanical contact when the operating device(s) (6) for the locking fitting (4) or fittings are in the closed position. 2. Detector according to claim 1, where locking point (5), locking fitting (4) and hinges (3) are used as series elements in an electrical circuit to provide a switch function for an alarm system, characterized in that locking point (5), fitting (4) and hinges (3) are connected to the alarm system via metal in the window frame (1) and the window frame (2). 3. Detector according to claim 1 or 2, characterized in that conductive screws (7) connect locking point(s) (5), hinges (3) and locking fittings (4) with the metal (9) in frame (1) and frame (2). 4. Detector according to claim 1, 2 or 3, characterized in that the fitting (4) also constitutes the conductive metal in the window frame (2). 5. Detector according to claim 1, 2 or 3, where the window is of the PVC type with built-in brace steel, characterized in that the brace steel constitutes the conducting metal. 6. Detector according to one of the preceding claims, characterized in that conductive metal connects two or more sides of the window frame (2). 7. Detector according to claim 1, characterized in that the locking fitting (4) also forms the hinge function, as the circuit then comprises the window's locking point (5) and locking fitting (4) connected in series. 8. Application of metallic structural elements in windows, in particular metal reinforcements in a PVC window, as conductor paths in an electrical circuit for detecting whether the window is open or closed, where the window's locking point (5), locking fitting (4) and at least one of the window's hinges (3) are included as series-connected parts of said circuit.