Device for securing a door leaf against unintentional deflection

Abstract

The invention relates to a device for securing the door leaves (1) of a multiple-leaf door system against unintentional deflection from the normal operating position. Said device comprises a lock (retaining device (HV) that is located in the vicinity of the ends of the door leaves (1) and is configured as a switching gear. The lock can be secured in the normal position by an integrated magnetic brake (MB).

Description

[0001] The invention pertains to a device for preventing the door leaves of a door system with at least one leaf used in an escape and rescue route from being swung unintentionally out of position according to the introductory clause of claim 1.

[0002] It is known that revolving doors, for example, have leaves which rotate around a central axis. The leaves extend between the central, pillar-like drive component and the boundary walls of the revolving door, which are designed in the form of segments of a cylinder. The leaves are supported on the central drive component in such a way that they can pivot, so that, after the revolving door has been stopped, a retaining force can be overcome and the leaves swung out of their normal, radially oriented operating position, in which they are perpendicular to the boundary walls as the revolving door revolves, into an open position, which allows free passage.

[0003] As a result, a rescue and escape route is opened, which makes it possible for people to pass through the revolving door without hindrance.

[0004] A design of this type also means that the revolving door can be stopped from revolving and the leaves opened in situations where this would be desirable, such as especially during the summer.

[0005] A comparable situation exists in the case of sliding door systems. A defined retaining force must again be overcome so that the sliding doors can be swung out of their normal position in which they are in a plane parallel to the stationary sidewalls into an open position which allows free passage in an emergency.

[0006] It is difficult to support doors of this type in such a way that they can be intentionally released and swung out of position because, first, the leaves of a revolving door must be held securely in their normal position, in which they can form an “X” in cross section, for example, when the door is revolving. Second, after the door has been stopped, it must be possible to swing the leaves aside by hand either when desired or after overcoming a predetermined retaining force and thus to move them into the position in which they allow free passage and thus create a rescue and escape route. Because the dimensions of such door systems and thus also of the leaves themselves are relatively large, the forces acting on the door during normal operation must also be taken into account.

[0007] As experience has shown, the retaining forces required for the leaves to withstand wind pressure are much higher than the forces which can be reasonably expected to be overcome when the leaves are to be opened in a panic situation. Because the positions of the door leaves are usually scanned for control purposes, situations in which the leaves have been unintentionally swung out of their normal positions can cause problems with the normal operation of the door and prevent the door from being moved at all. The door leaves must therefore always be held in their normal position in spite of the forces which may be acting on them, but it must also be possible to swing them out of the way in a panic situation.

[0008] For this purpose, a so-called “storm lock” is known from DE 40 36 881 C2, in which a stop device, which rotates around the central axis of the revolving door, can be brought into engagement with a partially elastic, pivotable retaining device to prevent the door leaves from swinging out of position until a force is exerted which is strong enough to swing at least part of the retaining device away from the stop device, thus making it possible for the door leaves to swing. The amount of this force, which acts on the retaining device, is predetermined by the stop device.

[0009] The retaining device has stop points, designed as cams. A roller, which is supported on a spring-loaded, four-bar linkage with adjustable elastic force, cooperates with the retaining device. The four-bar linkage can also be locked in position by means of an electromagnet.

[0010] The effort required to construct a device of this type is considerable; it is complicated to install; and it is difficult to adjust the elastic forces properly. In particular, however, because of the spring-loaded pretension of the four-bar linkage, the blocking action can be overridden by shock-like forces even when the electromagnets are active.

[0011] Latching devices for holding the leaves of revolving doors in position are also known. In this type of device, each leaf has its own drive, which pushes the leaf against a stop, which holds the leaf in place. The stop can be actuated by an electromagnetic retaining magnet; compare DE 44 42 191 A1.

[0012] This type of design is also very complicated to build and to install, because a drive, designed as a door closer, for example, must be provided for each door leaf, and each of these drives must develop enough torque to hold the door leaf in question against the controlled stop. To improve the retaining force, retaining magnets can also be provided.

[0013] In addition, the action of these types of door closers is dependent on the direction in which they operate, which means that an additional drive must be provided for each door leaf to return the leaf to its original position. This represents an additional complication in the construction of these types of revolving doors and also leads to additional expense.

[0014] A damping and retaining device with an electrical retaining magnet and an eddy-current brake, furthermore, is known from DE 90 00 881 U1. This device can be used in the drives of doors and gates.

[0015] Finally, latch catches which can be actuated by linear motors and which can serve to secure the leaves of a revolving door are also known. Compare EP 0 340 771.

[0016] As a result of their electromechanical complexity, however, it has been impossible to introduce these devices into widespread use.

[0017] The invention is based on the task of simplifying the known devices for preventing the leaves of a door system from being swung out of position unintentionally, especially by wind pressure, so that the operational reliability of these devices can be improved and their service lives prolonged.

[0018] This task is accomplished according to the invention by the features of claim 1.

[0019] Additional features of the invention can be derived from the subclaims.

[0020] The design of the means used to hold the leaves in place in their normal operating position by means of a locking mechanism consisting of a pin assigned to the leaf and a fork arm, which is permanently but rotatably attached to the frame and which, in the normal or working position, surrounds the retaining pin but releases the retaining pin after being pivoted outward by preferably ±30°, and a magnetic brake assigned to the fork arm to generate the required retaining moment in the normal or working position of the fork arm, is extremely effective and reliable, because the retaining pin assigned to the leaf is a part of the locking mechanism and is thus held positively in place without the need for springs.

[0021] In addition, the retaining force produced by the magnetic brake can be adjusted relatively easily to suit the operating conditions in question.

[0022] Because the magnetic brake is mounted on a bolt between the fork arm and the fork arm bracket together with the means for rotatably supporting the bolt on the roof structure of the door system, a compactly designed and very lightweight device, which occupies little space, is obtained for securing the leaves of the door. This is a significant advantage not only with respect to cost but also with respect to the installation, operation, and maintenance of these types of revolving doors.

[0023] The position of the leaves at any moment can be transmitted by way of a switch, which scans the switching position of the latching elements, to a circuit arrangement which controls the operation of the door system.

[0024] Another advantage is that, when the magnetic brake is released, i.e., when it is not receiving any current, the leaf in question can be swung aside easily and without a great deal of force. As the leaf is being swung back into the normal position, the retaining pin engages easily and reliably with the fork arm and carries the fork arm and thus also the fork bracket along with it into the normal position. The various forces in question, namely, the force required to withstand wind pressure and the force which must be overcome to open the door wing in a panic situation, can therefore always be adjusted safely, reliably, and reproducibly.

[0025] In a preferred embodiment, the wing is swung back into its normal position automatically. Suitable for this purpose are in particular electrical, mechanical, pneumatic, or hydraulic stored-energy devices, which can be charged during the swinging movement. Drive means which can be actuated separately are also a conceivable alternative.

[0026] The invention is explained in the following on the basis of an exemplary embodiment of a revolving door, which is illustrated in the drawing:

[0027] FIG. 1 shows a cross section through a retaining device according to the invention arranged opposite the upper edge of the frame of a leaf of a revolving door;

[0028] FIG. 2 shows a plan view of the retaining device according to FIG. 1 in the normal position; and

[0029] FIG. 3 shows a functional diagram of the retaining device according to FIG. 1.

[0030] A retaining device, designated “HV” overall in FIG. 1, is provided for each leaf 1 of a multi-leaf revolving door, not shown in detail but known in and of itself, which door is installed within the boundary walls 38, the retaining device being located opposite the upper area of the frame 6 of the leaf. Each leaf 1 is supported in such a way by part of a leaf hanger 2, which forms part of a leaf support 18, that the leaf can pivot around an axis 17. The leaf supports 18 are attached to the roof structure 31, which revolves along with the door and which is concealed by a ceiling 3, which extends between the boundary walls 4, which form a cylindrical jacket.

[0031] A brush type seal 5 is provided all the way around between the ceiling 3 and the boundary walls 4.

[0032] Each leaf 1 has its own retaining bolt 7, which is permanently connected by a flange 8 to the upper edge of the leaf frame 6. As FIG. 3 in particular shows, a fork arm 9 works together with each retaining bolt 7. This arm is rotatably attached to one end of a bolt 11, which projects through a hole 21 in the roof structure. The bolt 11 passing through the ceiling 3 is rotatably supported in a flange bearing 40, which is attached to the roof structure 31; at its other end, the bolt rotatably supports a fork bracket 25, attached to the bolt by a locking device 13, this bracket being provided at its other end with latching surfaces 42-44; see also FIG. 2.

[0033] A magnetic brake, designated “MB” overall, is also assigned to the bolt 11; this brake is installed between the fork bracket 25 and the roof structure 31. The magnetic brake MB comprises a brake flange 24, permanently connected to the bolt 11 by a fitted key 12, a fork brake 22, permanently connected to the roof structure 31, and a winding 23; see FIG. 1.

[0034] On the end facing away from the bolt 11, the fork bracket 25, as FIG. 2 shows, has three semicircular latching surfaces 42, 43, 44, offset from each other by 30° with respect to the center of rotation of the fork arm; these latching surfaces work together with a roller 28, which is elastically supported in the direction transverse to its rotational direction, in a manner to be described in greater detail below.

[0035] The roller 28 is rotatably supported by a bolt 29 in a fork 30, which can act by way of a plunger 27, spring-loaded in the axial direction, on a switch 26.

[0036] The fork arm 9 and the fork bracket 25 are therefore rigidly connected to the bolt 11, which passes through the hole 21 and is rotatably supported in the flange bearing 40 of the roof structure 31, in such a way that they are both aligned with a longitudinal axis 45, as FIG. 2 shows.

[0037] The longitudinal axis 45 is simultaneously the centerline of the spring-loaded roller 28, so that, in the position shown in FIG. 2, the centerline of the spring-loaded roller 28 and the longitudinal axis 45 are in alignment with each other. The fork arms 16 enclose the retaining bolt 7—see also FIGS. 1 and 3—and, as long as the fork bracket 25 remains in the position shown, they hold the leaf 1 in alignment with the longitudinal axis 45 indicated in FIG. 3, which corresponds to the normal operating position of the revolving door. To maintain this position, the required retaining moment is generated by the magnetic brake MB (see FIG. 1) as long as the winding 23 is excited, with the result that relative movement between the brake flange 24 of the fork bracket 25 and the fork brake 22 is prevented. Thus the fork arm 9 also remains in alignment with the longitudinal axis 45 and holds the leaf 1 of the revolving door in place by way of the retaining bolt 7, which is attached to the wing. The force exerted by the fork arm, i.e., the force which prevents the leaf 1 from being moved out of its normal position by the effect of wind, for example, can be determined by adjusting the retaining force of the magnetic brake MB.

[0038] In an emergency or in a dangerous situation, this retaining force can be released by turning off the magnetic brake MB, by the exertion of force on the leaf 1 so that the leaf 1 can be swung out of its normal position in one direction or the other to create an escape route. As a result of the movement of the leaf 1 in the one pivoting direction 15 or the other around the retaining bolt 7, the fork arm 9 is moved in the one pivoting direction 14 or the other according to FIG. 3, and the spring-loaded roller 28 is moved by the latching surface 42 or 44 of the fork bracket 25 in the direction parallel to the longitudinal axis 45. This movement serves to actuate the switch 26, the switch positions of which, defined by the latching surfaces 42-44, are scanned by the control circuit of the revolving door (not shown) and can thus produce the desired result.

[0039] In addition, the latching surfaces 42 and 44 ensure the reliable latching of the fork arm 9 and the retaining bolt 7 when the leaf 1 travels back from the completely outward-swung emergency and danger position into its normal position in alignment with the longitudinal axis 45.

[0040] Of course, the locking mechanism described above can also be designed in a manner which differs from the exemplary embodiment; the only crucial point is that its movements must be interrupted by a controllable magnetic brake MB.

[0041] The present description is based on a revolving door, but the invention can also be applied to the horizontally sliding wings of a sliding door with or without side parts.

List of Reference Numbers
1  leaf of door
2  leaf hanger
3  roof
4  boundary wall
5  brush seal
6  leaf frame
7  retaining bolt
8  flange
9  fork arm
10 fork opening
11 bolt
12 feather key
13 locking device
14 pivoting direction, fork arm
15 pivoting direction, leaf
16 fork arms
17 axis
18 leaf support
19 center of rotation of fork arm
20 bearing
21 hole
22 fork brake
23 winding
24 brake flange
25 fork bracket
26 switch
27 plunger
28 roller
29 bolt
30 fork
31 roof structure
38 boundary wall
40 flange bearing
42 latching surface
43 latching surface
44 latching surface
45 longitudinal axis
HV retaining device
MB magnetic brake

Claims

1. Device for electromagnetically preventing the leaves of an at least single-leaf door system located in an escape and rescue route from being unintentionally swung out of the normal operating position, characterized in that each leaf (1) of the door has its own rotational direction-independent locking mechanism (7, 9, 11, 25-30) to serve as a controllable securing means which can be locked by a magnetic brake (MB), the driving part (7) of which mechanism is mounted permanently to the leaf frame (6), whereas the driven part (9) is mounted permanently but rotatably to the door frame (31), where the driving part (7) can be returned automatically to the starting position.

2. Device according to claim 1, characterized in that the part (9) has an electrical, mechanical, pneumatic, or hydraulic stored-energy device, which can be charged during a deflection from the normal operating position.

3. Device according to claim 1, characterized in that the locking mechanism comprises a retaining bolt (7), which is mounted on the upper leaf frame (6) of the leaf (1) near the end of the leaf (1) facing the boundary wall (38); a pivotably supported a fork arm (9), which can be brought into and out of working connection with the retaining bolt (7); and a fork bracket (25), which can be pivoted synchronously together with the fork arm (9) and which cooperates with latching elements (27-30), where the fork arm (9) and the fork bracket (25) are attached to a rotatably supported bolt (11), which supports a brake flange (24) forming a part of the magnetic brake (MB).

4. Device according to claim 3, characterized in that the force of the magnetic brake (MB) is continuously variable.

5. Device according to claims 1 and 3, characterized in that the magnetic brake (MB) is mounted on the top surface of a roof structure (31) connected to the door system, and in that the flange bearing (40) of the bolt (11) is attached to the bottom of the roof structure (31), which has at this point a hole (21), which allows the bolt (11) to pass through.

6. Device according to claims 1-5, characterized in that a switch (26), which is part of a circuit arrangement which controls the door system, is assigned to the latching elements (27-30), where the switch scans the position of the switching disk (i.e., the fork bracket 25), which carries the latching surfaces (42, 43, 44).

7. Device according to claims 1-6, characterized in that the switching disk has three latching surfaces (42, 43, 44) offset 30° from each other, the center latching surface (43) being in alignment with a longitudinal axis (45), which intersects the center of the bolt (11), the center of the fork arm (9), and the center of the cam-scanning roller (28).

8. Device according to claims 1-6, characterized in that the fork arm (9) has, at its free end, a fork opening (10), which expands toward the end, the retaining bolt (7) being held approximately in the middle of this opening.

9. Device according to the preceding claims, characterized in that the door system comprises a revolving door, which is installed so that it can rotate radially with respect to boundary walls in the form of segments of a cylinder.

10. Device according to the preceding claims, characterized in that the door system has horizontally movable sliding elements.