The present invention relates to a lock of the passive door blade of a double door. The invention especially relates to a lower lock of the passive door blade.
The active door blade 1 and the passive door blade 2 are rotatably attached to the jamb structure 4 of the doorway by means of hinges. Usually the active door blade 1 comprises a lock 5 comprising a bolt 6. When the active door 1 is locked, the bolt 6 is partially inside the striker lock body 7, thus locking the active door to the passive door. The striker lock body is also called a striker lock and vice versa, because in practice the body comprises the lock functions. Because the passive door 2 is locked to the jamb structure 4 of the doorway and the floor level 3, the passive door cannot rotate and neither can the active door locked to the passive door. It can be said that in normal use the passive door is a part of the jamb structure of the doorway 4. The locking of the active door 1 is released normally and the door is opened normally.
The striker lock body 7 is combined with pull bars 9, 10 installed in the passive door 2 and locking the passive door to the jamb structure of the doorway and the floor. Recesses 12, 11, into which the ends of the striker bars are located when the passive door is locked, are arranged in the jamb structure 4 and the floor level 3. A release means 8 is arranged in the striker lock body for pulling the pull bars towards the inside of the passive door so that the ends of the pull bars move away from the recesses 11, 12 of the frame structure and the floor level. The name of the pull bars is derived from this action. When the pull bars are pulled inside the passive door, the passive door can be opened, i.e. rotated. A typical release means 8 comprises a hand-turnable lever. In some known solutions the release means 8 is not located in connection with the striker lock body of the passive door but instead it is formed as a separate unit being in connection with the pull bars. The pull bars can also be moved back to the protruding position away from the inside of the passive door by using the release means 8, whereby the passive door can be locked back to the jamb structure and the floor level.
Another way of locking the passive door is by using separate locks in the upper edge and/or lower edge of the passive door blade.
The problem with the upper and lower lock is that the control wedge 14 resists closing and opening the active door. The lock 13 has a spring/spring system pressing the control wedge out from the lock. The control wedge then presses the active door. This reduces convenient usability of the active door. Further, if the active door is combined with door automatics, the lock 13 can also resist the operation of the door opening/closing apparatus.
There also are solutions in which the ends 9, 10 of the pull bars are in connection with the upper and lower lock of the passive door. Thereby the bolts of the upper and lower locks lock the passive door to the jamb structure and the floor level instead of the ends of the pull bars. The operation of the upper and lower locks can be controlled by means of the release means 8 via the pull bars 9, 10.
The aim of the invention is to provide a lock for the passive door blade producing minimal disadvantages for the use of the active door. The aim is achieved as described in the independent claim. The dependent claims describe the various embodiments of the invention.
The lock 16 of the passive door blade comprises a lock body 23, a latch 17 and a control wedge 18. The control wedge is arranged to linearly move to a position extended away from the lock and a position retracted into the lock. The lock additionally comprises a lever 20, a leading shaft 21 and a spring system 27. The lever 20 is rotatably fastened 25 at its first end to a control wedge 18 and rotatably fastened 24 to the leading shaft 21 at its other end. The leading shaft 21 is also rotatably attached 22 to the lock body 23 and the leading shaft comprises a control cam 26 being in connection with the latch 17. The spring system 27 is arranged to rotate the leading shaft towards a position in which the control cam 26 keeps the latch 17 inside the lock and in which the control wedge 18 is in the extended position.
The lever 20 and the leading shaft 21 are arranged to transfer the force of the spring system 27 to the control wedge 18 so that the force parallel with the linear movement of the control wedge is at its largest in the extended position of the control wedge and at its smallest when the control wedge is in the position retracted inside the lock.
In the following the invention is described in more detail by reference to the appended figures, in which
The lock additionally comprises a lever 20, a leading shaft 21 and a spring system 27. The lever 20 is rotatably fastened 25 at its first end to the control wedge 18 and rotatably fastened 24 by its second end to the leading shaft 21. The rotatable attachment can be carried out e.g. by means of an axle stub. The leading shaft 21 is also rotatably fastened 22 to the lock body 23. The leading shaft also comprises a control cam 26 being in loose contact with the latch 17. Loose contact means that when the latch is out, the control cam allows upward movement of the latch, i.e. the connection between the control cam and the latch is removable. Mainly the connection of the latch and the control cam is maintained in the various usage situations of the lock. In other words, the physical contact between the latch and the control cam is the main contact.
The spring system 27 is arranged to rotate the leading shaft towards the position in which the control cam 26 keeps the latch 17 inside the lock and the control wedge 18 is in the extended position.
Thus the leading shaft is arranged to rotate about the lock body 23 at the attachment point 22 of the lock body and the leading shaft. The rotation of the leading shaft also controls the control wedge 18 and the latch 17. The lever 20 and the leading shaft 21 are arranged to transfer the force of the spring system 27 to the control wedge 18 so that the force parallel with the linear movement of the control wedge is at its largest in the extended position of the control wedge and at its smallest in the position in which the control wedge is retracted into the lock.
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In case automatic operation is combined with the active door for opening and/or closing the door the lock according to the invention also makes the operation of the used door automatic apparatus easier. Thus the automatics apparatus does not need so much operation force as when using known apparatuses. The automatic apparatus can also be dimensioned for a smaller power.
The spring system 27 of the embodiment of the figures is a torsion spring system arranged in connection with the attachment point 22 of the leading shaft 21 to the lock body so that the first free end of the spring system 27 is supported by the lock body 23 and the other free end of the spring system is supported by the attachment point 24 of the leading shaft 21 and the lever 20.
It can be seen in the figures that the front plate 19 of the lock is L-shaped. The first edge of the front plate comprises a hole for the control wedge 18 and the other edge comprises a hole for the bolt 17.
Should it be desired to use to the lock according to the invention in the upper edge of the passive door so that the latch can be depressed inside the lock body if the hole in the jamb of the door is not aligned or it has been plugged somehow, the lock according to the invention must be provided with a spring or the like means for lifting the latch up.
In light of the above examples it is obvious that the embodiment according to the invention can be realized in a number of ways. It is obvious that the invention is not limited to the examples mentioned here, but that the invention can be realized by a number of different embodiments within the appended claims.
Number | Date | Country | Kind |
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20095327 | Mar 2009 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI2010/050227 | 3/23/2010 | WO | 00 | 8/30/2011 |