Abstract:
The invention relates to a lock for doors of housings or cabinets with particularly narrow frame profiles, comprising a bolt mechanism which is longitudinally moveably guided in the frame profile, and a door plate which can be fixed on the outside of the door leaf, said door plate having a first door plate area ( 11 ) with the handle ( 13 ) located therein and a second door plate area ( 12 ) in which the locking device is located.

Description:
BACKGROUND OF INVENTION 
     Description 
     The invention relates to a locking apparatus for doors of housings or cabinets having in particular narrow frame profiles, with a bolt mechanism that is longitudinally guided in the frame profile of the cabinet or housing, and with a door plate that can be fixed to the exterior of the door leaf and in which a handle can be pulled out of the plane of the door plate and can be locked and unlocked in its inserted position in the door plate by means of a lock in the door plate, whereby arranged in the intermediate space located between the door leaf and the door plate are at least one pinion coupled to the handle and one transfer member that is driven by the pinion and that can, for longitudinally displacing it, be coupled to the bolt mechanism arranged in the frame profile of the cabinet or housing, and whereby the door plate has at least one member that is for receiving the lock and that extends through the door leaf in a through-hole arranged outside of the frame profile, and whereby the door plate has a first door plate area receiving the handle and a second door plate area. 
     EP 0 675 994 B1 describes a locking apparatus having the foregoing features that is suitable especially for cabinets and housings, the frame profiles of which have only a narrow cross-section for receiving a bolt mechanism housed therein. This bolt mechanism comprises at least one locking rod in rod guides guided in the frame profile, and engaging locking mounts located in the frame profile of the cabinet or housing. Since the frame profile does not have adequate room for receiving actuating parts affixed on the door and projecting over its interior side, which parts protrude all the way to the cabinet plane when the door is closed, in the known locking apparatus the door plate is formed with two door plate areas, whereby the handle, along with pinion, pivot pin bearing, and the locking apparatus for the handle are arranged in the second door plate area located laterally beside the frame profile of the cabinet or housing and here go through the door leaf toward the interior in provided through-holes, while the first door plate area, which does not have any special functioning parts, covers the transfer member arranged in the intermediate space between door leaf and door plate and its connection to the bolt mechanism located in the frame profile of the cabinet or housing. 
     The known locking apparatus is associated with the disadvantage that, due to the arrangement of handle and pinion in the second door plate area, a substantial distance to the bolt mechanism to be driven thereby must be bridged by means of the transfer member, so that, for instance, if the bolt mechanism tilts in the frame profile when the handle is actuated, a corresponding amount of torque must be applied, which increases the actuating forces to be applied and results in a high degree of stress to the cooperating teeth in the components so that the service life of the locking apparatus can be reduced. 
     The object of the present invention is therefore to prevent the aforesaid disadvantages in a locking apparatus with the generic features. 
     SUMMARY OF THE INVENTION 
     This object is achieved, including advantageous embodiments and further developments of the invention, using the contents of the patent claims that follow this specification. 
     The basic idea of the invention is that the first door plate area receiving the handle with the pinion borne on the interior-side of the door plate is arranged in front of the frame profile of the cabinet or housing with the bolt mechanism located therein, and, guided as a transfer member in the gap existing between pinion and the exterior wall of the first door plate area, is a toothed rod that is arranged parallel to the door leaf and that on its leading edge has teeth that engage in the pinion teeth and that has on its surface facing the frame profile a connecting element for the bolt mechanism arranged in the frame profile of the housing or cabinet, and in that the second door plate area located outside of the frame profile before the at least one through-hole of the door leaf has a mount for the lock for the handle that is arranged in the second door plate area, whereby the lock when actuated causes the release of the handle via a bolt plate that spans the first and second door plate areas and that is displaceable against the effect of a spring. 
     The present invention has the advantage that the handle provided for actuating the bolt mechanism located in the frame profile of the housing or cabinet is housed with the pinion and transfer member in the first door plate area that comes to rest before the frame profile when the door is closed without components that go through the door leaf being necessary, so that the actuating forces can be transferred from the handle on the short path directly to the bolt mechanism. If the lock for the handle protrudes over the door leaf plane towards the interior due to the necessary components, the lock is arranged in the second door plate area located outside the frame profile of the cabinet or housing when the door is closed so that it is only necessary to provide for a transfer of the closing or opening forces from the lock to the locking/unlocking for the handle, which inventively occurs by means of the bolt plate displaceably arranged on the interior side of the door plate. 
     In accordance with one exemplary embodiment of the present invention it is provided that the toothed rod is embodied in a rectangular shape with one leg actuated by the pinion and with one guide leg arranged at right angles thereto, and the guide leg has a cut-out for engaging a nose located on the bolt plate mounted on the door plate. This embodiment is associated with the advantage that the toothed rod does not require any particular mount, but rather is displaceably fixed via the nose engaging it that is a part of the bolt plate mounted on the door plate. 
     With regard to the embodiment and mounting of the pinion, in accordance with one exemplary embodiment of the present invention, it is provided that the pinion is embodied as a flat disk rotatably borne in a hat-shaped bearing ring of the door plate with pinion teeth that are axially raised on one side, whereby the diameter of the disk is greater than the diameter of the pinion teeth. This is associated with the advantage that the toothed rod provides the mount for the pinion in that the teeth embodied on the leading edge of the toothed rod engage in the pinion teeth raised axially on the disk and thereby is adjacent to the disk forming the pinion and thereby simultaneously holds the pinion against its bearing in the hat-shaped bearing ring. 
     If the pinion is fixed and borne on the door plate, in accordance with one exemplary embodiment of the present invention, the pinion itself is also used for the attachment or pivotable mounting of the handle in the door plate in that it is provided that the pinion has on its side opposing the pinion teeth a projection that extends into the depression of the door plate that receives the handle, on which projection are mounted a pivot pin of the handle engaging in the pinion in a form fit and the handle borne so as to be pivotable at right angles to the door plate plane. Since the handle is fixed on the pinion with the pivot pin, there is no need for attaching the pivot pin or the shaft extending through the pinion by means of a separate fastening nut, as is required in the prior art, which would also project into the interior of the cabinet or housing in an undesired manner. 
     In accordance with one exemplary embodiment of the present invention, if it is provided that the mounting of handle and pivot pin is detachable on the projection of the pinion when the handle is in a position pulled-out from the door plate, this results in the advantage that when the door plate is reconfigured to be right- or left-fixed, the handle and pivot pin can be removed from the exterior side of the door plate and can be re-installed once the door plate has been turned without it being necessary to access the actuating mechanism located in the interior of the door plate. 
     With respect to the options for selectably installing the door plate in a right-fixed or left-fixed door, or with respect to turning the door with the door plate already mounted, in accordance with one exemplary embodiment of the present invention it is provided that two pinions are borne in associated bearing rings in a symmetrical arrangement on the interior side of the door plate and the teeth of the toothed rod engage the two pinions. If the toothed rod engages the two pinions, when the toothed rod is actuated, one pinion is caused to rotate with no effect by the other pinion that is attached to the handle so that when the door plate or handle is reconfigured, the other pinion is used for the actuating pinion. Thus the door plate can be used as a unit in different installations without regard to the components built into its interior, whereby it is merely necessary to change the handle to a position rotated by 180°. 
     With regard to the desired selectable installation of the door plate for a right-fixed or left-fixed door, in accordance with one exemplary embodiment of the present invention it is provided that the lock, which is also to be used depending on the installation position, can be selectably employed in different positions in the door plate. In addition it can be provided that the second door plate area has at both its upper and lower edge areas an opening for selectably inserting the lock that extends through the associated through-hole in the door leaf and the other opening can be covered by a blind cap that is insertable in the door plate. For visual reasons, in accordance with one exemplary embodiment of the invention, it can be provided that the opening of the second door plate area receiving the lock can be covered by means of a sliding cap that can be displaced in the door plate transverse to the vertical axis of the door plate; using the sliding cap results in appropriately covering the blind cap used in the other opening on the opening receiving the lock, whereby the exterior view of the door plate is designed in an appropriate manner. 
     In accordance with one exemplary embodiment of the present invention, the blind cap and sliding cap can be convex relative to the door plate and can be exchangeably employed in a guide adjoining the opening of the door plate. Due to the convex design, the guide and bearing of the sliding cap and blind cap on the door plate are self-locking without having to worry about the caps falling out. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The drawings illustrate one exemplary embodiment of the present invention that is described in the following. Shown is: 
     FIG. 1 a full view of a locking apparatus; 
     FIG. 2 a back view of the door plate of the locking apparatus with functional parts; 
     FIG. 3 the subject of FIG. 2 in an exploded view; 
     FIGS. 4 a, b  different individual views of the pinion; 
     FIG. 5 a side view of the handle. 
    
    
     DESCRIPTION OF PREFERRED EMBODIMENTS 
     A door leaf  60  with a folded edge  61  of a cabinet or housing can be placed against a frame profile  62  in a closed cabinet or housing, whereby arranged in the frame profile is a bolt mechanism  63  as described in detail in the generic EP 0 675 994 B1 with the closing rod  12  and parts that cooperate therewith. 
     Affixed to the exterior side of the door leaf  60  for actuating the bolt mechanism  63  is a door plate  10  that has a first door plate area  11  with the handle  13  arranged therein and a second door plate area  12  in which is arranged a lock for the handle  13 , which apparatus will be described in detail. While the first door plate area  11  with the handle  13  comes to rest before the frame profile  62  when the door is closed, the second door plate area  12  is outside of the frame profile  62  of the cabinet or housing so that parts that project inward into the cabinet or housing over the door leaf  60  for functional reasons, and that are provided with covering caps  16 , pass through the door leaf through cut-outs  64  provided for this purpose. As can furthermore be seen from FIG. 1, provided at the upper end of the door plate  10  is an inserted blind cap  14  that can receive, for instance, a manufacturer emblem, while arranged at the lower end of the door plate  10  for covering the receiving opening provided there, in this case for a lock for the handle  13 , is a sliding cap  15  that can be pushed to the left when the locking apparatus is in use so that it exposes the lock arranged therebehind, for instance in the form of a cylinder lock, which cylinder lock is covered on the back by the associated covering cap  16 . 
     FIGS. 2 and 3 illustrate in detail the functional structure of the locking apparatus, that is, of the door plate as carrier of the actuating functions. It should be noted that with regard to desired installation of the door plate  10  for a left-fixed or right-fixed door, which requires the door plate to be rotated 180°, the door plate is designed and equipped symmetrically so that to re-configure the door it is only necessary to change the handle inserted in the door plate, as will be described in detail. 
     Projecting into the interior in the region of each of the two ends of the handle  13  on the door leaf and here at its first door plate area are hat-shaped bearing rings  17 , each of which bears a pinion  18 . The basic body of the pinion  18  comprises a disk  19  that with a bearing projection  19   a  facing the handle  13  engages the hat-shaped bearing ring  17  and is borne here (see FIG. 4 b ). Placed on the side of the disk  19  facing the door leaf  60  are pinion teeth  20 , whereby the diameter of the pinion teeth  20  is smaller than the diameter of the disk  19 . On the bearing side the pinion  18  also has a U-shaped closed projection  21  that extends through the hat-shaped bearing ring  17  into the depression that receives the handle  13  so that the handle  13  can be affixed directly to the pinion  18 . A pivot pin  22  forming the axis of rotation for the handle  13  is inserted in a form fit into the associated opening  18   a  of the pinion  18  and together with corresponding bearing projections of the handle  13  is affixed to the projection  21  of the pinion  18  by corresponding receipt in pivot pin  22  and handle  13  so that the handle  13  can pivot around the axis  23  perpendicular to the plane of the door plate, but also so that rotating the handle  13  parallel to the plane of the door plate  10  results in a rotational movement of the pinion  18 . As can be seen in FIG. 5, the handle  13  is under the effect of a pre-tensioned spring  24  that urges it to the position pulled out from the door plate  10 . 
     Provided for transferring the rotational movement of the pinion  18  into a longitudinal movement of the bolt mechanism  63  is a toothed rod  25  that is embodied with two legs. Arranged on the leading edge  27  of the leg  26  arranged parallel to the door plate plane are the teeth that cooperate with the pinion  18 , while the guide leg  30  of the toothed rod  25  is guided in the interior on guide noses  31  located on the housing surface of the door plate  10 . Embodied on the leg  26  are connection openings  29  in which projections embodied on the bolt mechanism  63  engage in a manner not shown when the door is closed so that displacing the toothed rod  25  is translated to actuating the bolt mechanism  63 . Since two pinions  18  are borne on the bearing rings  17  due to the symmetrical design of the door plate, the toothed rod  25  extends across both pinions  18 , whereby only one pinion acts as drive pinion under the effect of the handle  13 , while the other pinion rotates with no effect when the toothed rod  25  is displaced. 
     Since the leg  26  of the toothed rod  25  is adjacent to the protruding disk  19  opposite the pinion teeth  20 , both pinions are maintained in their bearing in their associated bearing ring  17  by the toothed rod  25 ; the toothed rod  25  has in the guide leg  30  a longitudinal slot  32  in which a nose  34  arranged on a bolt plate  33  (to be described in the following) engages so that the toothed rod  25  is guided and fixed via the bolt plate  33  mounted on the door plate  10  and thus also holds the pinions  18  without additional means of attachment, whereby the pinions  18  themselves hold the handle  13  as described. 
     The aforesaid bolt plate  33  is held in the interior on the door plate  10  by means of screws  38  such that the bolt plate  33  is vertically displaceable. In its middle region the bolt plate  33  has a bolt projection  41  that engages and releases a hook  66  formed on the handle  13  (FIG. 5) so that depending on the position of the bolt plate  32  in the door plate  10  the handle  13  is held in its position pulled out of the door plate  10  under the effect of the spring  24  or is held in its inserted position. 
     The bolt plate  33  extends laterally from its attachment at the screws  38  across the second door plate area  12  and cooperates via projecting actuating surfaces  35  formed on it with the closing cam of a lock cylinder (not shown), which, as described for FIG. 1, is inserted in the lower opening  44  in the door plate  10  and is held to the rear by a mount  37 . As can be seen with the view in FIG. 1, the lower covering cap  16  covers the lock cylinder (not shown) with the mount  37 . The actuating surfaces  35  are provided with an end stop  36  for the closing cam (not shown) of the cylinder lock. Located between the two symmetrically arranged actuating surfaces  35  is a housing  39  for a spring  40  disposed thereunder that is supported on the projections of the door plate  10  and, on the interior, on the housing  39  of the bolt plate  33  such that the effect of the spring acts in both actuating directions of the bolt plate  33 . 
     As can be seen in particular in FIG. 3, connected to the openings  44  for inserting the lock is a guide slot  45  in which the sliding cap  15  covering the inserted lock is guided or into which the blind cap  14  can be inserted. 
     The attachment of the door plate  10  to the door leaf occurs via attaching screws that pass through the door leaf and screw into the screw domes  42  of the door plate  10 , whereby the covering caps  16  placed on the back side and screwed in with screw domes  43  also ensure that the door plate  10  is attached while clamping the door leaf. 
     If the lock behind the sliding cap  15  is actuated, the bolt plate is displaced against the effect of the spring  40  via the movement of the closing cam (not shown) along the associated actuating surface  35  of the bolt plate  33 , so that the bolt projection  41  releases the hook  66  of the handle  13  and the handle  13  opens out of the plane of the door plate  10  under the effect of the spring  24 . Then the handle  13  can be grasped and pivoted in a plane parallel to the plane of the door plate  10 . 
     This pivoting is translated into a rotational movement of the pinion  18 , which displaces the toothed rod  25 , which itself causes the bolt mechanism  63  connected to it to move when it is displaced. 
     The special nature of the locking apparatus, in addition to the positioning of the first and second door plate areas, is that the movable parts, such as handle, pivot pin, pinion, and toothed rod, hold themselves or are fixed by the nose  14  of the bolt plate  33  so that only the bolt plate  33  has to be screwed to the door plate  10 . If the door plate  10  configured in the illustration in FIG. 1 on a right-fixed door is to be converted to a left-fixed door, either by rotating the door leaf or by re-configuring the door plate, it is merely necessary to remove the handle  13  from the door plate  10  and, once it has been rotated 180°, re-install it, whereby no additional adaptations are necessary due to the symmetrical construction of all of the functioning parts in the interior of the door plate  10 , such as pinions, toothed rod, etc. The handle can be re-configured from the front side of the door plate in that with the handle in the pulled out position the axis  23  is removed from the projection  21  of the pinion  18 , whereby the pivot pin  22  and the handle  13  come free of the pinion  18 . Once the door plate  10  has been rotated, it is only necessary for the pivot pin to be inserted into the opposing pinion  18  and together with the handle  13  to be added by inserting the axis  23  into the projection  21  of the other pinion  18 . In the same manner, it is possible to re-configure the lock in a simple manner in that the blind cap  14  and the sliding cap  15  are removed from the guide slots  45  of the openings  44 . Once the two covering caps  16  have been unscrewed, the mount  37  can be removed from the door plate  10  and replaced in the area of the other opening  44  in a position of the door plate  10  that has rotated 180° so that the lock in the form of a cylinder lock (not shown) can be inserted and fixed. Once the covering caps  16  have been screwed on and the associated blind cap  14  and sliding cap  15  have been installed, the locking apparatus is ready for use again. 
     The locking apparatus described in the foregoing is suitable for installation in cabinets or housings having different heights because a total of three connection openings  29  for coupling to the bolt mechanism  63  are formed in the toothed rod  25 . If correspondingly short locking rods are used for the bolt mechanism  63  in a smaller cabinet or housing, these can be connected to the center connection opening  29 . In the case of a correspondingly taller cabinet or housing, shorter locking rods can be connected for the bolt mechanism  63  in each of the outer connection openings  29  of the toothed rod  25  so that it is possible to use short locking rods for the bolt mechanism  63  even in cabinets of greater height. 
     The features of the subject of this document disclosed in the foregoing specification, patent claims, abstract, and drawings can be essential individually and in any desired combinations for realizing the invention in its various embodiments. 
     The specification incorporates by reference the disclosure of German priority document 100 13 487.4 filed Mar. 20, 2000 and International priority document PCT/DE0/1/01048 of Mar. 19, 2001.