The invention relates to a safety interlocking device (referred to hereinafter as the SI device) with an escape unlocking means (referred to hereinafter as the EU means). Entrances to hazardous spaces have to be protected using SI devices. These devices ensure that the entrance is cleared only when specific conditions are met, so that the hazardous space may be entered safely. An SI device requires an EU means, as it must be possible to leave the hazardous space at all times, i.e. including when the entrance is closed. The escape unlocking of the SI device may therefore be possible merely from the hazardous space. The safety of the SI device is ensured by mechanisms for monitoring the interlocking state of a lock.
The object of the invention is to propose a safety interlocking device with an economical escape unlocking means.
According to the invention, this object is achieved by the safety interlocking device set forth in the claims.
A safety interlocking device of this type comprises:
a) A locking unit for mounting on the safe side to a door relative to a hazardous region. This locking unit comprises a guide which can be fastened to the door and a lock which is guided in the guide and has an actuating handle.
b) A locking cage for mounting on a door frame interacting with the door.
c) An escape unlocking (EU) means for unlocking the safety interlocking device. This escape unlocking means allows the safety interlocking device to be unlocked from the hazardous region. This serves to open the locked door from the hazardous region, in order to be able to escape from the hazardous region.
According to the invention, an economical and safe solution for an escape unlocking means is attained by the following features.
A device according to the invention is distinguished by the following features:
Taken together, these features ensure simple operation and a simple construction of the EU means. The displacement of the arresting tip arresting the locking stop can be attained directly by displacement of the rod. At the same time, it is not possible to unlock the locking stop from the safe side, without deliberately making major changes to and interventions in the SI device. The interlocking of the locking stop can resist high forces, but can be released from the hazardous space by merely low forces.
In the normal position, these arresting surfaces and the axis of the locking stop are expediently positioned relative to one another in such a way that rotation of the locking stop into the emergency opening position requires pivoting of the first arresting surface into a region which the arresting tip assumes in the normal position. This arrangement of the interacting parts causes direct blocking of this movement, provided that the arresting tip is in the normal position. Movement of the locking stop means that the arresting tip is either out of operative connection with the locking stop or can be pivoted together with the locking stop. If, however, the arresting tip is in operative connection with the first and the second arresting surface, neither of the two conditions is met and the locking stop is non-rotatably connected to the base plate.
In a preferred embodiment, the arresting tip engages, at least in the normal position, with a hole in the locking stop. A hole in the locking stop and a round rod which interacts therewith and is inserted therein, as the arresting tip, reliably interlock rotation of the locking stop about its axis positioned perpendicularly to the axial direction of the hole. As the rod and the arresting tip are concealed within the SI device and the door frame and the emergency handle is visible and operable merely from the hazardous side, the arresting of the locking stop cannot be handled from the safe side.
However, the arresting tip does not need to engage with the locking stop. It can also fill out an intermediate space between an outer surface of the locking stop and an inner surface of the base plate. In this case, the intermediate space would have to be reduced, at least in a partial region, on rotation of the locking stop about its pivot axis; this is prevented by an arresting tip provided there. If, however, the arresting tip is removed from this region, the locking stop can pivot freely.
There can be articulated to the base plate two locking stops which can pivot in opposite directions of rotation from the interlocking position into the emergency opening position. In this case, the EU means has for each locking stop an arresting tip and a rod, which rods expediently possess a common emergency handle. The emergency handle therefore allows both rods to be displaced at the same time and therefore both locking stops to be unlocked at the same time.
In principle, it is possible to unlock the locking stop by pressing the emergency handle or by pulling the emergency handle. These two possibilities require different solutions in the arresting tip and rod. If the arresting tip forms the tip of the rod, then it is preferable for said tip to be able to be brought out of operative connection with the first arresting surface of the locking stop by pulling the emergency handle. Pulling the emergency handle causes the rod and the arresting tip to be jointly displaced from the safe side toward the hazardous side and thus the arresting tip to be moved out of the pivot region of the first arresting surface. In this embodiment of the arresting tip on the rod, unlocking can also be attained by pressing the emergency handle. This requires the arresting tip to fill out the above-mentioned intermediate space between the outer surface of the locking stop and the inner surface of the base plate and to have on the hazardous space side of its arresting region a less voluminous region allowing pivoting of the locking stop.
Unlocking by pressing the emergency handle is attained also by the following embodiment: The arresting tip is a part which is independent of the rod. It can be brought out of operative connection with the second arresting surface on the base plate by pressing the emergency handle and jointly displacing the rod and arresting tip. That is to say, the arresting tip then passes out of a guide region in the base plate, thus allowing it to pivot together with the locking stop.
The invention will be described hereinafter in greater detail with reference to the figures, in which:
The first embodiment illustrated in
The locking unit 13 is fastened to a door 17 to a hazardous space: to the safe side 19 of this door. There are embodied on the hazardous space side 21 of this door 17 an emergency handle 23, on the safe side 19 an actuating handle 25 for the lock 27. The lock 27 is displaceably guided in a locking guide 29. The locking guide 29 is screwed to the door 17.
The locking cage 15 is arranged on the door frame 18. It possesses a base plate 31 and a locking stop 33 articulated thereto. The locking stop 33 can pivot about the pivot axis 35, provided that this pivoting is released by actuating the escape unlocking means. The lock 27 reaches, in the closed position of the SI device, between the base plate 31 and locking stop 33. The locking stop 33 is arrested by the escape unlocking means in its normal position, i.e. so as to be unable to pivot relative to the base plate 31. The door 17 is therefore interlocked.
The interlocking is generally monitored by electronic means and/or electromechanical means and/or magnetic means. This involves monitoring the position of the lock relative to the locking stop. In addition, the arresting of the locking stop is generally monitored. The monitoring means do not form the subject-matter of the present invention, although SI devices according to the invention are generally speaking equipped with such means.
Essential to the invention is the simple manner in which the locking stop is arrested. This can take place in a slightly different manner without departing from the inventive concept:
In the first exemplary embodiment illustrated in
In this respect, exemplary embodiments 1, 2 and 4 differ from exemplary embodiment five according to
Still another escape unlocking is realised in the exemplary embodiments according to
By pulling the emergency handle 23 of the exemplary embodiment according to
However, in the exemplary embodiment according to
In summary, the invention may be regarded as a safety interlocking device (11) comprising a locking unit (13) for mounting on the safe side (19) to a door (17) relative to a hazardous region, and a locking cage (15) for mounting on a door frame (18) interacting with the door (17). In order to be able to open, from the hazardous region, the locked door (17) and escape from the hazardous region, an escape unlocking means (39) is provided for unlocking the safety interlocking device (11). The locking cage (15) has a locking stop which is articulated to a base plate (31) so as to be able to pivot about a pivot axis (35) from an interlocking position into an emergency opening position. The escape unlocking means (39) possesses at least one arresting tip (41) which, in an escape position, releases the locking stop (33) for pivoting into the emergency opening position. Provided between an emergency handle (23) and the arresting tip (41) is a stretched rod piece (49) which is embodied so as to be displaceable together with the arresting tip (41). In the normal position of the EU means (39), the arresting tip (41) is in arresting operative connection with a first arresting surface of the locking stop (33) and a second arresting surface of the base plate (31). At least one of these operative connections can be released by displacement of the arresting tip (41) in the rod direction.
Number | Date | Country | Kind |
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00881/08 | Jun 2008 | CH | national |