Lock cylinder device.

专利摘要:
The invention relates to a lock cylinder device (1) comprising two housing parts (3) and an interposed connecting bridge (2) and preferably additionally an extension part (5) between the housing part and the connecting bridge, each housing part (3) being assigned to a lock cylinder, (i) by the Housing part (3) is designed as an adapter housing in which a lock cylinder unit (4) consisting of insert stator (4S) and insert rotor (4R) is detachably or non-detachably arranged or (ii) in that housing part (3) is designed as a lock cylinder stator in which the lock cylinder rotor is detachable or is permanently arranged. The housing part (3) has a receiving space for receiving the lock cylinder unit or the lock cylinder rotor, and the receiving space is arranged eccentrically or centrally relative to the outer circumference of the housing part (3). It is further provided that the connecting bridge (3) has two profile parts (2P) and a radially protruding web part (2S) which connects the two profile parts (2R), the outer circumference of the profile parts (2P) being circular or essentially circular. The profile part (2P) has a circular, semicircular or non-circular receiving area for receiving the adjoining housing part (3) or extension part (5) or mounting part, the receiving area being arranged centrally or eccentrically relative to the outer circumference of the profile part (2P).
公开号:CH715752B1
申请号:CH00703/19
申请日:2019-02-19
公开日:2020-07-31
发明作者:Ebnöther Andreas；Sprenger Detlef
申请人:Assa Abloy Schweiz Ag；
IPC主号:

专利说明:

The object is a lock cylinder device, which is preferably from a kit, respectively. Production kit can be produced. The lock cylinder device comprises two housing parts and an interposed connecting bridge and preferably additionally an extension part interposed between the housing part and the connecting bridge. Alternatively, the lock cylinder device comprises a housing part, a mounting part and an interposed connecting bridge and preferably additionally an extension part interposed between the housing part and the connecting bridge.Each housing part is assigned to a lock cylinder. Insert technology and non-insert technology are possible for the design of stator and rotor.
Prior art for this is provided by EP 1 039 073 A1, EP 2 336 460 A1, DE 41076709A1, CH 706692 B1.
The invention is based on the object of creating an improved lock cylinder device which has high stability in use and can advantageously be installed.
The invention solves this problem according to the invention with the subject matter of claim 1.
The object is achieved by the subject matter of claim 1. It is a lock cylinder device comprising two housing parts and an interposed connecting bridge and preferably also an extension part interposed between the housing part and connecting bridge, or comprising a housing part, a mounting part and an interposed connecting bridge and an extension part is preferably also interposed between the housing part and the connecting bridge, each housing part being assigned to a lock cylinder,<tb> (i) <SEP> in that the housing part is designed as an adapter housing, in which a lock cylinder unit composed of insert stator and insert rotor is detachably or non-detachably arranged (insert technology) or<tb> (ii) <SEP> in that the housing part is designed as a lock cylinder stator, in which a lock cylinder rotor is detachably or non-detachably arranged (non-insert technology) Have housing which is designed as a cylindrical sleeve.
In the solution according to the invention it is provided that the connecting bridge has two profile parts and a radially protruding web part which connects the two profile parts, wherein the outer periphery of the profile parts is circular or substantially circular, and that each housing part has a receiving space for receiving the lock cylinder assembly or the lock cylinder rotor, wherein the outer circumference of the housing part is circular or substantially circular, and wherein the receiving space is arranged eccentrically or centrally relative to the outer circumference of the housing part, and that the profile part has a circular, semicircular or non-circular receiving area Receiving the adjoining housing part or extension part or mounting part, the receiving area being arranged centrally or eccentrically relative to the outer circumference of the profile part.
Furthermore, the object is also achieved with the subject matter of claim 2. It is a lock cylinder device comprising two housing parts and an intermediate connecting bridge and preferably additionally an extension part between the housing part and connecting bridge interposed, or comprising a housing part, a mounting part and a Interposed connecting bridge and preferably an extension part between the housing part and the connecting bridge interposed, each housing part being assigned to a lock cylinder,<tb> (i) <SEP> in that the housing part is designed as an adapter housing, in which a lock cylinder unit composed of insert stator and insert rotor is detachably or non-detachably arranged (insert technology) or<tb> (ii) <SEP> in that the housing part is designed as a lock cylinder stator in which the lock cylinder rotor is detachably or non-detachably arranged (non-insert technology). In the case of the lock cylinder assembly (insert technology), the insert stator can be fixed to the insert stator on the outside Have housing which is designed as a cylindrical sleeve.
In the solution according to the invention it is provided that the connecting bridge has two profile parts and a radially protruding web part which connects the two profile parts, wherein the outer periphery of the profile parts is circular or substantially circular, andthat the housing part has a receiving space for receiving the lock cylinder unit or the lock cylinder rotor, wherein the outer circumference of the housing part is circular or substantially circular, and wherein the receiving space is arranged eccentrically or centrally relative to the outer circumference of the housing part, andthat the profile part has a circular, semicircular or non-circular receiving area for receiving the adjacent housing part or extension part or mounting part, wherein the receiving area is arranged centrally or eccentrically relative to the outer circumference of the profile part. It is essential that in the profile part a passage for engaging and / or reaching through and / or for supporting and / or for mounting the lock cylinder unit and / or the insert rotor and / or the lock cylinder rotor and / or the housing part and / or the extension part in such a way is designed that lifting these components out of the receiving area, preferably lifting these components out of receiving means of the receiving area, is prevented or at least hindered.
Furthermore, the object is also achieved with the subject matter of claim 3. It is a lock cylinder device comprising two housing parts and an intermediate connecting bridge and preferably additionally an extension part interposed between the housing part and the connecting bridge, orcomprising a housing part, a mounting part and an interposed connecting bridge and preferably also an extension part interposed between the housing part and the connecting bridge,each housing part is assigned to a lock cylinder,<tb> (i) <SEP> in that the housing part is designed as an adapter housing, in which a lock cylinder unit composed of insert stator and insert rotor is detachably or non-detachably arranged (insert technology) or<tb> (ii) <SEP> in that the housing part is designed as a lock cylinder stator in which the lock cylinder rotor is detachably or non-detachably arranged (non-insert technology). In the case of the lock cylinder assembly (insert technology), the insert stator can be fixed to the insert stator on the outside Have housing which is designed as a cylindrical sleeve.
In the solution according to the invention it is provided that the connecting bridge has two profile parts and a radially protruding web part which connects the two profile parts, wherein the outer periphery of the profile parts is circular or substantially circular, andthat the housing part has a receiving space for receiving the lock cylinder unit or the lock cylinder rotor, wherein the outer circumference of the housing part is circular or essentially circular, and wherein the receiving space is arranged eccentrically or centrally relative to the outer circumference of the housing part, andthat the profile part has a circular, semicircular or non-circular receiving area for receiving the adjacent housing part or extension part or mounting part, wherein the receiving area is arranged centrally or eccentrically relative to the outer circumference of the profile part.
It is essential that the housing part with the locking cylinder assembly or the lock cylinder rotor is permanently connectable, or is not releasably connectable without destruction or damage, and / orthat the profile part of the connecting bridge with the housing part and / or with the extension part and / or with the mounting part is permanently connectable or is not releasably connectable without destruction or damage. This solution with a permanent connection or a connection which cannot be released without destruction is possible both for purely mechanical locking cylinders and for mechatronic locking cylinders. In the case of mechatronic lock cylinders, the connection between the housing part and the lock cylinder unit, which cannot be detached or cannot be detached without destruction, can be provided.
Furthermore, the object is also achieved with the subject matter of claim 4. It is a lock cylinder device comprising two housing parts and an interposed connecting bridge and preferably additionally an extension part interposed between the housing part and the connecting bridge, orcomprising a housing part, a mounting part and an interposed connecting bridge and preferably also an extension part interposed between the housing part and the connecting bridge,each housing part is assigned to a lock cylinder,<tb> (i) <SEP> in that the housing part is designed as an adapter housing, in which a lock cylinder unit composed of insert stator and insert rotor is detachably or non-detachably arranged (insert technology) or<tb> (ii) <SEP> in that the housing part is designed as a lock cylinder stator in which the lock cylinder rotor is detachably or permanently arranged (non-insert technology).
In the case of the lock cylinder assembly (insert technology), the insert stator can have a housing fixed to the insert stator on the outside, which housing is designed as a cylindrical sleeve.
In the solution according to the invention it is provided that the connecting bridge has two profile parts and a radially protruding web part which connects the two profile parts, wherein the outer periphery of the profile parts is circular or substantially circular, andthat the housing part has a receiving space for receiving the lock cylinder unit or the lock cylinder rotor, wherein the outer circumference of the housing part is circular or essentially circular, and wherein the receiving space is arranged eccentrically or centrally relative to the outer circumference of the housing part, andthat the profile part has a circular, semicircular or non-circular receiving area for receiving the adjacent housing part or extension part or mounting part, wherein the receiving area is arranged centrally or eccentrically relative to the outer circumference of the profile part. It is essential that the connecting bridge and / or the housing part and / or the extension part have or have a cable receptacle.
It can be provided, in particular in connection with claim 1, that a cam comprising a lock bit and / or a coupling to the insert rotor or lock cylinder rotor is arranged between the two profile parts of the connecting bridge.
It can be provided that the length of the housing part forming the adapter housing is the same as the length of the insert stator.
It can be provided that in a kit, respectively. Production kit the dimensions of the insert rotor are identical to the dimensions of the lock cylinder rotor.
It can be provided that the rear end of the insert rotor protrudes beyond the rear end face of the insert stator and / or the housing part designed as an adapter housing, orthat the lock cylinder rotor protrudes with its rear end over the rear end of the lock cylinder stator.
It can be provided that the protruding end of the insert rotor and / or the lock cylinder rotor can be coupled to a rotor extension and / or a coupling, preferably can be coupled non-rotatably.
It can be provided that the passage formed in the profile part is closed at the top, preferably is annular.
It can be provided that the housing part and / or the extension part and / or the mounting part can be inserted from above into the receiving area formed in the profile part during the assembly of the lock cylinder device.
It can be provided that the receiving area formed in the profile part has at least one receiving groove as receiving means, preferably for positive holding, the receiving groove preferably being arranged centrally or eccentrically relative to the outer circumference of the profile part.
It can be provided that the receiving area formed in the profile part and / or the at least one receiving groove is formed open at the top, preferably with a semicircular contour.
It can be provided that the receiving area formed in the profile part and / or the at least one receiving groove is designed to be complementary to an associated receiving area of an adjacent housing part or extension part or assembly part.
It can be provided that the receiving areas formed in the housing part or in the extension part or in the mounting part are identical to one another.
It can be provided that the passage formed in the profile part is circular or semicircular or polygonal, preferably symmetrically, regularly polygonal and is arranged centrally or eccentrically relative to the outer circumference of the profile part.
It can be provided, in particular in connection with claim 2, that the passage formed in the profile part has at least one radial opening, preferably to the side.
It can be provided that the passage formed in the profile part is designed such that the insert rotor or the lock cylinder rotor engages in the passage or passes through the passage, preferably is not supported there,whereby it is provided<tb> (a) <SEP> that the housing part does not engage in the passage or does not pass through the passage, and / or<tb> (b) <SEP> that the housing part is not supported in the passage.
It can be provided that the lock cylinder unit in the housing part designed as an adapter housing and / or the lock cylinder rotor in the housing part designed as a lock cylinder stator can be displaced, preferably axially, during assembly of the lock cylinder device.
It can be provided that the cam provided with the locking bit has a passage which is formed coaxially with the passage formed in the profile part.
[0031] It can be provided that the coupling can be arranged in the passage formed in the cam.
It can be provided that the protruding rear end of the lock cylinder rotor or of the insert rotor engages in or through the passage formed in the profile part.
It can be provided that the protruding rear end of the lock cylinder rotor or of the insert rotor engages in the extension part and interacts there with the rotor extension and / or the coupling.
It can be provided that the rotor extension coupled to the rear end of the lock cylinder rotor or the insert rotor engages in or passes through the passage formed in the profile part. It can be provided, in particular in connection with claim 3, that the non-detachable connection is designed as a screw connection and / or adhesive connection and / or solder connection and / or weld connection and / or rivet connection and / or snap-in connection.
It can be provided that several non-detachable connections are arranged at a distance from one another, next to one another, preferably in a row.
It can be provided that several non-detachable connections are arranged axially in a line or distributed radially over the circumference.
It can be provided that the screws in the screw head have a tool holder which allows a force transmission between the tool and the screw only in one direction of rotation, in particular only in the fixed direction of rotation of the screw.
It can be provided that the profile part has a passage for receiving the lock cylinder unit and / or the insert rotor and / or the lock cylinder rotor and the passage is closed at the top, preferably is annular,whereby it is providedthat the components engaging in the passage are inextricably or not releasably connectable to the profile part in the area of the passage without destruction or hindrance.
It can be provided, in particular in conjunction with claim 4, that the cable receptacle is designed as a cable receiving space which is arranged on the outside or inside of the connecting bridge and / or the housing part and / or the extension part.
It can be provided that the cable receiving space is designed as a receiving groove which is open on one side in the transverse direction to its longitudinal extent or as a receiving channel which is closed on all sides in the transverse direction to its longitudinal extent.
[0041] It can be provided that the cable receiving space and / or the receiving groove are or is open at the ends of its or their longitudinal extent.
It can be provided that the cross section of the cable receiving space is circular or elliptical or polygonal.
It can be provided that the cable receptacle is arranged in the area of the radially protruding web part of the connecting bridge.
It can be provided that the cable receptacle connects the two sides of the connecting bridge and an opening of the cable receptacle is arranged in the area of the profile part and / or in the web part of the profile part or in front of the profile part and / or outside the profile part, preferably in the web part the connecting bridge is arranged.
It can be provided that the profile part and / or the housing part and / or the extension part and / or the mounting part has a receiving area for receiving an adjacent component, and that the cable receptacle runs in this receiving area and / or opens into this receiving area or runs and / or opens outside this receiving area.
It can be provided that the profile part and / or the housing part and / or the extension part and / or the mounting part has a receiving area for receiving an adjacent component, which is arranged in a first plane and that the mouth of the cable receptacle in a second plane is arranged, wherein the second plane is arranged at an angle or offset to the first plane.
It can be provided that the cable duct in the connecting bridge is designed to be open at the bottom and can be closed by a cover which can be detachably connected to the web part of the connecting bridge, preferably by screwing or locking.
It can be provided that a mounting receiving space for the cable is arranged in the region of the mouth of the cable receptacle, the mounting receiving space being formed in the profile part or in the housing part or in the extension part.
The object is also achieved with a production kit for producing a lock cylinder device according to one of the embodiments described above, comprising at least one housing part, at least one connecting bridge with two profile parts, a cam with a lock bit, at least one coupling and preferably at least one extension part and / or at least one rotor extension part and / or preferably a mounting part.
It can be provided that the production kit has a set consisting of several housing parts, the housing parts differing in their axial length from one another in a defined grid and / or having a set of extension parts, the extension parts being in a defined manner Differentiate grids from one another in their axial length and / or have a set of several rotor extensions, the rotor extensions differing from one another in a defined grid in their axial length.
It can be provided that the production kit has at least one digital cylinder and / or a rotary knob cylinder and / or a reading unit for an electronically coded key and / or a contactless transponder.
[0052] The object is also achieved by a method for assembling a lock cylinder device according to the invention, one of the above-mentioned embodiments, with the following steps:<tb> 1. <SEP> Connect the connecting bridge to the housing part by pushing the housing part with its rear receiving area from above (i.e. in the side facing away from the radially protruding web part) into the front receiving area of the profile part.<tb> 2. <SEP> Pushing the insert into the housing part and into the downstream profile part of the connecting bridge from the side.<tb> 3. <SEP> The insert is secured to the housing part with safety screws. Optionally, after the first step, the housing part can be fixed to the connecting bridge with screws. This step can also be carried out after the second or third step.
Furthermore, the object is achieved by a further method for assembling a lock cylinder device according to the invention, one of the above-mentioned embodiments, with the following steps:<tb> 1. <SEP> Connect the connecting bridge to the extension part by inserting the extension part with its rear receiving area from above (i.e. in the side facing away from the radially protruding web part) into the front receiving area of the profile part.<tb> 2. <SEP> Connect the extension part to the housing part by pushing the housing part with its rear receiving area from above (i.e. in the side facing away from the radially protruding web part) into the front receiving area of the extension part.<tb> 3. <SEP> Slide the rotor extension and the insert into the housing part, into the extension piece connected downstream and into the profile part of the connecting bridge connected downstream from the side.<tb> 4. <SEP> The insert is secured to the housing part with safety screws. Optionally, after the first step, the extension part can be fixed to the connecting bridge with screws and, after the second step, the housing part can be secured to the extension part with screws. This step can also be carried out after the second or third step. It is also possible to first connect the extension part to the housing part and, in a second step, to connect the two components together with the connecting bridge. It can also be provided that several extension parts are connected to one another after the first step and then, as a subsequent step, the housing part is connected to the extension parts.
The invention is described in more detail below with reference to figures.
[0055] Show:<tb> Fig. 1a <SEP> to 1c: front view, side view and top view of a lock cylinder device 1 according to the invention;<tb> <SEP> Fig. 1d: a schematic representation of the lock cylinder device 1 according to the invention;<tb> <SEP> Fig. 1e: exploded view of the lock cylinder device according to the invention from FIGS. 1a to 1d;<tb> Fig. 2a <SEP> to 2c: front view, side view and top view of a lock cylinder device 1 according to the invention with extension pieces;<tb> <SEP> Fig. 2d: a schematic representation of the lock cylinder device 1 according to the invention with extension pieces;<tb> <SEP> Fig. 2e: exploded view of the lock cylinder device according to the invention from FIGS. 2a to 2d with extension pieces;<tb> Fig. 3a <SEP> to 3c: front view, side view and top view of a connecting bridge 2 from FIGS. 1 or 2;<tb> <SEP> Fig. 3d: schematic representation of a connecting bridge 2 from FIGS. 1 or 2;<tb> Fig. 3e <SEP> to 3h: sectional planes and sectional views of a connecting bridge from FIGS. 3a to 3d;<tb> Fig. 4a <SEP> to 4g front view, side view and top view as well as schematic representations of a housing part from FIGS. 1 or 2;<tb> Fig. 4h <SEP> to 4o: sectional planes and sectional views of a housing part from FIGS. 4a to 4g;<tb> Fig. 5a <SEP> to 5d front view, side view and top view as well as schematic representations of an insert 4 from FIGS. 1 or 2;<tb> <SEP> Fig. 5e: exploded view of the insert 4 from FIGS. 5a to 5d;<tb> Fig. 6a <SEP> to 6f front view, side view and top view as well as schematic representations of a long extension part 5 from FIGS. 1 or 2;<tb> Fig. 6g <SEP> to 61: sectional planes and sectional views of a long extension part 5 from FIGS. 6a to 6f;<tb> Fig. 6m <SEP> to 6r front view, side view and top view as well as schematic representations of a short extension part 5 from FIGS. 1 or 2;<tb> Fig. 6s <SEP> to 6x: sectional planes and sectional views of a short extension part 5 from FIGS. 6m to 6r;<tb> Fig. 7a <SEP> to 7d and 7f to 7h: sectional planes and sectional representations of the lock cylinder device 1 from FIGS. 1;<tb> Fig. 7i <SEP> to 7k: sectional planes and sectional views of the lock cylinder device 1 with extension parts 5 from FIGS. 2;<tb> Fig. 8a <SEP> to 8c: front view and side view of a further exemplary embodiment of the connecting bridge 2 with an open central opening 2b;<tb> Fig. 8d <SEP> to 8g: sectional planes and sectional views of the connecting bridge 2 from FIGS. 8a to 8c;<tb> Fig. 9a <SEP> to 9c: front view and side view of a further exemplary embodiment of the connecting bridge 2 with a large central opening 2d;<tb> Fig. 9d <SEP> to 9g: sectional planes and sectional views of the connecting bridge 2 from FIGS. 9a to 9c;<tb> Fig. 10a <SEP> to 10c: front view and side view of a further exemplary embodiment of the connecting bridge 2 with an elongated opening 2d;<tb> Fig. 11a <SEP> to 11c: front view and side view of a further exemplary embodiment of the connecting bridge 2 with an upwardly open elongated opening 2d;<tb> Fig. 12a <SEP> to 12c: front view and side view of a further exemplary embodiment of the connecting bridge 2 with an octagonal opening 2d;<tb> Fig. 13a <SEP> to 13d: front view, side view, top view and schematic representation of a further exemplary embodiment of the connecting bridge 2 with an eccentric receptacle 2av;<tb> Fig. 13e <SEP> to 13f2: sectional planes and sectional views of the connecting bridge 2 from FIGS. 13a to 13d;<tb> Fig. 13g <SEP> and 13h: side view and schematic representation of a further exemplary embodiment of the connecting bridge 2 with a large eccentric receptacle 2av and a round opening 2d;<tb> Fig. 13i <SEP> and 13j: side view and schematic representation of a further exemplary embodiment of the connecting bridge 2 with an eccentric receptacle 2av and an elongated opening 2d;<tb> Fig. 13k <SEP> and 13l: side view and schematic representation of a further exemplary embodiment of the connecting bridge 2 with an eccentric receptacle 2av and an octagonal opening 2d;<tb> Fig. 14a <SEP> to 14f: front view, side view and top view as well as schematic representations of a housing part with eccentric receptacle 2av;<tb> Fig. 14h <SEP> to 14o: sectional planes and sectional views of a housing part from FIGS. 14a to 14g;<tb> Fig. 15a <SEP> to 15f front view, side view and top view as well as schematic representations of a short extension part 5 with an eccentric receptacle 2av;<tb> Fig. 15g <SEP> to 15l: sectional planes and sectional views of a short extension part 5 from FIGS. 15a to 15f;<tb> Fig. 16a <SEP> to 16f front view, side view and top view as well as schematic representations of a long extension part 5 with an eccentric receptacle 2av;<tb> Fig. 16g <SEP> to 16l: sectional planes and sectional views of a long extension part 5 from FIGS. 16a to 16f;<tb> Fig. 17a <SEP> to 17e: Schematic view of the steps for assembling the lock cylinder device 1 from FIGS. 1;<tb> Fig. 18a <SEP> to 18g: side view and sectional views of the steps for assembling the lock cylinder device 1 from FIGS. 1;<tb> Fig. 19a <SEP> to 19e: schematic view of the steps for assembling the lock cylinder device 1 from FIGS. 2 with extension part 5;<tb> Fig. 20a <SEP> to 20g: side view and sectional views of the steps for assembling the lock cylinder device 1 from FIGS. 2 with extension part 5;<tb> Fig. 21a <SEP> to 21e: front view, side view and top view as well as schematic representations of the safety screw;<tb> Fig. 22a <SEP> to 22e: front view and sectional views of a further exemplary embodiment of a mechatronic lock cylinder device 1;<tb> Fig. 23a <SEP> to 23c: front view, side view and top view of a mechatronic connecting bridge 2 from FIGS. 22;<tb> <SEP> Fig. 23d: a schematic representation of a mechatronic connecting bridge 2 from FIG. 22;<tb> Fig. 23e <SEP> and 23f: sectional planes and sectional representations of a mechatronic connecting bridge 2 from FIGS. 22;<tb> Fig. 24a <SEP> to 24f front view, side view and top view and schematic representations of a mechatronic housing part 3 from FIGS. 22;<tb> Fig. 24g <SEP> and 24h: sectional planes and sectional views of a mechatronic housing part 3 from FIGS. 22;<tb> Fig. 25a <SEP> to 25h front view, side view and top view as well as schematic representations of a mechatronic extension 5 from FIGS. 22;<tb> Fig. 25i <SEP> to 25j: sectional planes and sectional views of a mechatronic extension 5 from FIGS. 22;<tb> Fig. 26a <SEP> to 26l: steps for connecting two mechatronic extensions 5 with a lead-through of the cable;<tb> <SEP> FIGS. 27a to 27c: simplified representation of a mechatronic extension 5 with a cable with a flat contour and a vertical parting plane X;<tb> <SEP> FIGS. 27d to 27f: a further exemplary embodiment of a mechatronic extension 5 with a cable and a curved contour and a vertical parting plane X;<tb> <SEP> FIGS. 27g to 27i: a further exemplary embodiment of a mechatronic extension 5 with a cable and a flat contour and an angled parting plane X;<tb> <SEP> FIGS. 27j to 27l: a further exemplary embodiment of a mechatronic extension 5 with a cable and a flat, vertically arranged contour;<tb> <SEP> FIGS. 27m and 27n: a further exemplary embodiment of a mechatronic extension 5 with a cable and a planar contour and a horizontal connection direction;<tb> Fig. 28a <SEP> and 28b: front view and sectional views of a further exemplary embodiment of a mechatronic lock cylinder device 1 with an extended web part 2s, the cable duct not being passed through the profile part 2p;<tb> Fig. 28c <SEP> to 28g: bridge 2 of a mechatronic lock cylinder device 1 with an extended web part 2s from FIGS. 28a and 28b;<tb> Fig. 28h <SEP> and 28i: housing part 3 of a mechatronic lock cylinder device 1 with an extended web part 2s from FIGS. 28a and 28b;<tb> Fig. 28j <SEP> and 28k: extension part 5 of a mechatronic lock cylinder device 1 with extended web part 2s from FIGS. 28a and 28b;<tb> Fig. 29a <SEP> to 29i: Use of the lock cylinder device 1 from FIGS. 1 and 2 as a mechanical lock cylinder device 1;<tb> Fig. 30a <SEP> to 30i: Use of the lock cylinder device 1 as a one-sided mechatronic lock cylinder device 1;<tb> Fig. 31a <SEP> to 31i: Use of the lock cylinder device 1 as a mechatronic lock cylinder device 1 on both sides;<tb> Fig. 32a <SEP> to 32e: Use of the lock cylinder device 1 as a mechatronic lock cylinder device with a rotary knob;<tb> <SEP> Fig. 33: Use of the lock cylinder device 1 as a digital cylinder;
Centered arrangement of the seat to the outside diameter
FIGS. 1a to 1d show a lock cylinder device 1 according to the invention. The lock cylinder device 1 can be designed as a profile cylinder or as a round cylinder with a connecting bridge 2. The lock cylinder device 1 in FIG. 1 is composed of a connecting bridge 2 and two housing parts 3 and in each case a lock cylinder assembly 4 arranged therein. The lock cylinder assembly 4 is referred to below as an insert 4.
In the following, only one side of the lock cylinder device 1 is described, since the connecting bridge 2 and the arrangement of the housing parts 3 are symmetrical. The symmetry is illustrated in FIGS. 1a and 1c by the symmetry plane 2se. The description of one side also applies to the other side if no differences are explicitly listed. This also applies to the labels in the figures. In the following, each component is described with a front and a rear area. The rear area always relates to the part of the component which is formed towards the plane of symmetry 2se of the connecting bridge and the front area always to the part of the component which is formed on the side facing away from the plane of symmetry 2se of the connecting bridge.
As shown in Figures 1, the connecting bridge 2 is composed of a web part 2s and two profile parts 2p, which are formed symmetrically to the plane of symmetry 2se on the web part 2s. The web part 2s and the profile parts 2p are formed in one piece. Each profile part 2p has a front area, i. from the plane of symmetry 2se facing away from the area, which has a front receiving area 2av and a rear area which has a rear receiving area 2ah. The front receiving area 2av - referred to below as the front receiving area 2av - interacts with the housing part 3. The rear receiving area 2ah - hereinafter referred to as the rear receiving area 2ah - is designed in such a way that a cam 6 can be rotatably mounted between the two profile parts 2p.
The cam 6 has a lock bit 6s, the lock bit 6s being able to actuate a lock not shown in the figures when the lock cylinder device 1 is actuated.
The housing part 3 acts with its rear seat 3ah with the connecting bridge 2, i.e. with the front receptacle 2av in the profile part 2p of the connecting bridge 2 together. The housing part 3 also has a passage 3d, which is referred to below as an opening 3d. An insert 4 is arranged in the opening 3d. The opening 3d of the housing part 3 is eccentric to the housing part wall, i.e. the axis of the housing part wall Ag and the axis of the opening Ad do not lie one inside the other. The insert 4 can receive a key, not shown in FIG. 1, for actuating the lock cylinder device 1, the cam 6 being rotated by the rotary movement of the key for unlocking or locking a lock, not shown.
FIG. 1e shows an exploded view of the lock cylinder device 1 from FIGS. 1a to 1d. The insert 4 has a key channel 4sk on its front side for receiving a key (not shown in the figures) and on its rear side a coupling 4k of the rotor of the insert 4, through which the rotary movement of the key is transmitted to the cam 6. The coupling 4k is referred to below as the coupling of the insert. The insert 4 is arranged in the opening 3d of the housing part 3 and is fixed therein in a torsion-proof and tensile-proof manner by means of screws 3s or locking screws 3ss.
In the housing part 3, the opening 3d is formed such that the insert 4 can be inserted on the front side of the housing part 3. On the rear side of the housing part 3, the opening 3d has a smaller radius. This protruding wall serves as a stop 3w when inserting the insert 4. Only the coupling 4k of the insert 4 extends through the rear part of the opening 3d (see also FIG. 7). The rear part of the housing part also has the rear receptacle 3ah, which cooperates with the front receptacle 2av of the connecting bridge 2. The rear receptacle 3ah of the housing part 3 and the front receptacle 2av of the connecting bridge 2 in the profile part 2p are designed to be complementary to one another.
The connecting bridge 2 has the front receptacle 2av and a passage 2d in the profile part 2p. The passage 2d is referred to below as the opening 2d. In addition to the opening 3d of the housing part 3, the coupling 4k of the insert 4 also extends through the opening 2d of the connecting bridge 2 (see also FIG. 7). The coupling 4k can be designed in such a way that the coupling 4k is flush with the profile part 2p or that part of the coupling 4k extends through the opening 2d of the connecting bridge 2 in the rear receptacle 2ah of the connecting bridge 2. In both cases, the coupling 4k of the insert 4 interacts with a coupling 6k of the cam 6 in order to transmit the rotary movement of the key, not shown in the figures, to the cam 6.
Furthermore, threaded holes 3g are formed in the housing part 3 on the underside, into which screws or safety screws 3s for fastening the insert 4 can be screwed. Threaded holes 2g are formed in the connecting bridge 2 through which screws 3s penetrate in order to fix the housing part 3 in the connecting bridge.
A further exemplary embodiment of the lock cylinder device 1 according to the invention is shown in FIGS. 2a to 2e. In contrast to the lock cylinder device 1 shown in FIG. 1, the lock cylinder device 1 in FIG. 2 additionally has extension parts 5. The labels and descriptions from FIGS. 1 also apply to FIGS. 2, except for the extension parts 5 and the additional parts required thereby.
In Figures 2, the extension part 5 is formed shorter to the left than the extension part 5 to the right. The extension parts 5 differ only in length, i.e. the passages 5d and receptacles 5av and 5ah are of identical design in the short and long extension parts 5. There are also designs with two long or two short extension parts 5 possible or designs with several extension parts 5 in a row.
The extension part 5 has a rear receptacle 5ah, which cooperates with the front receptacle 2av of the profile part 2p. The extension part 5 furthermore has a front receptacle 5av which cooperates with the rear receptacle 3ah of the housing part 3. The extension part 5 can thus be arranged between the housing part 3 and the connecting bridge 2. The fixation of the extension part 5 takes place, as in FIG. 1, via lateral threaded holes through which screws 3s pass.
FIG. 2e differs from FIG. 1e in that the extension parts 5 are arranged between the housing parts 3 and the connecting bridge 2. Each extension part 5 has a passage 5d, which is referred to below as an opening 5d. The opening 5d can accommodate a rotor extension 5r. The outer diameter of the rotor extension 5r corresponds to the outer diameter of the coupling 4k of the insert 4. The rotor extension 5r in the extension part 5 reaches through the opening 2d of the connecting bridge and transmits the rotary movement of the key (not shown) in the insert 4 to the cam 6. Further is in the rotor extension 5r a cylinder pin arranged as a key extension 5s, which the axial thrust movement of the key from a housing part 3, for example the left housing part 3 transfers to the right housing part 3. Thus, when a key is inserted into the insert 4 on the left side, a key which is inserted into the insert 4 on the right side is pushed out a little and can therefore no longer operate the lock cylinder device 1. This ensures that the lock cylinder device 1 can only ever be actuated from one side.
The individual components of the lock cylinder device 1 of FIGS. 1 and 2 are further described below. These descriptions apply in addition to the preceding description of the individual components.
In the figures 3a to 3g the one-piece connecting bridge 2 consisting of the web part 2s and the profile parts 2p is shown. In addition, the symmetry plane 2se of the connecting bridge 2 is shown here. As shown in FIGS. 3a to 3g, the profile part 2p has a U-shaped receiving groove 2n. The front receptacle 2av of the profile part 2 is formed by the U-shaped receiving groove 2n. The receiving groove 2n forms the receiving surface 2f of the front receptacle 2av of the profile part 2p through the bottom of the receiving groove 2n and the upper surface of the groove edge.
As shown in FIG. 3b, the axis Aa of the semicircular area of the receiving groove 2n of the front receptacle 2av lies on the axis Ag of the outer wall of the profile part 2p. The outer wall of the profile part 2p corresponds to the outer wall of the housing part 3 and the extension part 5 (see Figures 1 and 2). As shown in FIGS. 3e to 3h, the axes of the semicircular receiving surface 2f of the groove bottom and the upper surface of the groove edge lie one inside the other and thus form the axis Aa of the receptacle 2av. The axis Ad of the opening 2d of the connecting bridge is, as shown in Figure 3b, offset upwards to the two axes described above.
The connecting bridge 2 in Figures 1 to 3 has a threaded hole 2g in the web part 2s, which is used to fasten the lock cylinder device 1 in a known manner in a door, not shown. It is a so-called faceplate fastening hole.
Figures 4 show the housing part 3 from Figures 1 and 2. The housing part 3, as already described above, has a rear receptacle 3ah. This is designed to be complementary to the front receptacle 2av of the profile part 2p and can thus engage in the receptacle 2av of the profile part 2p. The housing part 3 has an inwardly offset U-shaped receiving groove 3n, which forms the receiving surface 3f of the housing part 3 through the groove bottom and the surface of the groove wall parallel thereto. The receiving surfaces 3f, formed by the groove bottom and the parallel surface of the groove wall, are, as can be seen in FIG. 4, centered on the outer wall of the housing part 3.
FIG. 4b additionally shows that the opening 3d of the housing part 3 is designed eccentrically to the outer wall of the housing part 3. The axis Ad of the opening 3d of the housing part 3 is designed to be offset upwards from the axis Aa of the receptacle 2av. FIGS. 4e and 4h to 4o also show the rear stop 3w in the opening 3d, which has already been described with reference to FIG. 1e. The opening 3d has a smaller diameter on the rear side of the housing part 3, which is penetrated by the coupling 4k of the insert 4, but is designed as a stop 3w for the insert 4. FIG. 4f and FIG. 4i show the threaded holes 3g for fastening the insert 4.
FIGS. 5 show an insert 4 from FIGS. 1 and 2. The insert 4 is composed of a rotatably mounted insert rotor 4r, an insert stator 4s and a sleeve 4h. The insert rotor is referred to below as rotor 4r and the insert stator as stator 4s. The rotor 4r is rotatably arranged in the stator 4s. The stator 4s is fixedly arranged in the sleeve 4h. The sleeve 4h forms a housing of the insert 4 that is fixed to the stator 4s.
The rotor 4r has a key channel 4sk and the coupling 4k at its rear end. The rotor 4r also has bores 4b for receiving bolts 4g. The stator 4s also has bores 4b for receiving the bolts 4g as well as the counter bolts and the springs 4f. The spring 4f presses the counter bolts onto the bolts 4g, which are thereby pressed onto the key, which is not shown in the figures. Bolts 4g of different lengths require holes of different depths on the key so that the bolts 4g are exactly flush with the outer diameter of the rotor 4r when the correct key is inserted in the keyway 4sk. Then the rotor can be turned. If the key is not inserted or the key is incorrect, the bolts and counter bolts engage in the bores 4b of the rotor 4r and thus block the rotation of the rotor 4r.
The rotor 4r with the stator 4s are arranged in the sleeve 4h. The front area of the rotor 4r has a larger diameter than the opening of the sleeve 4h and protrudes as the front extended end beyond the sleeve 4h. In the rear area of the sleeve 4h, the rotor 4r and the stator 4s are secured in the sleeve 4h by a snap ring 4sr.
Figures 6 show long and short extension parts 5 from Figures 2. Figures 6a to 6l show long extension parts 5. Figures 6m to 6x show short extension parts 5 and only differ from the long extension parts 5 of Figures 6a to 6l in the smaller axial extent. Only FIGS. 6a to 6l are described below, this description applying analogously to the short extension parts 5 of FIGS. 6m to 6x. The extension parts 5 differ only in length, i.e. the openings 5d and receptacles 5av and 5ah are of identical design in the short and long extension parts 5.
In its front area, the extension part 5 has a front receptacle 5av which interacts with the rear receptacle 3ah of the housing part 3 or the rear receptacle 5ah of a further extension part 5. Furthermore, the extension part 5 has a rear receptacle 5a in its rear region, which cooperates with the front receptacle 2av of the profile part 2p or a front receptacle 5av of a further extension part 5. The front seats of all components are designed to be complementary to the rear seats of all components.
As shown in FIGS. 6, the extension part 5 has a U-shaped receiving groove 5nv in the front receptacle 5av. This receptacle 5av is identical to the front receptacle 2av of the profile part 2. I.e. the front receptacle 5av is formed from the U-shaped receiving groove 5nv. The receiving groove 5nv forms the front receiving surface 5fv of the front receiving means 5av through the bottom of the receiving groove 5nv and the upper surface of the groove edge. As shown in FIG. 6, the axis Aa of the front receptacle 5av lies on the axis Ag of the outer wall of the extension part 5. The outer wall of the extension part 5 also corresponds to the outer wall of the housing part 3. The axis Ad of the opening 5d is, as in FIG shown, formed offset upwards to the two axes described above.
The rear receptacle 5ah of the extension part 5 is designed identically to the rear receptacle 3ah of the housing part 3. I.e. the extension part 5 has an inwardly offset U-shaped receiving groove 5nh, which forms the receiving surface 5fh of the extension part 5 through the groove bottom and the surface of the groove wall parallel thereto. The receiving surfaces 5fh, formed by the groove bottom and the parallel surface of the groove wall, are, as shown in FIGS. 6, centered on the outer wall of the extension part 5. The axis Ad of the opening 5d is offset upwards from the axis Aa of the receptacle 5av.
Figures 7 show sectional views of the lock cylinder device 1 from Figures 1 and 2. Figures 7b and 7d show the sectional views through the sectional planes B-B and C-C of Figures 7a and 7c. The cuts BB and CC run once through the receiving groove 2n of the connecting bridge 2 and once through the receiving groove 3ah of the housing part 3. Figures 7 show the complementary design of the front receptacle 2av of the connecting bridge 2 and the rear receptacle 3ah of the housing part 3 and that the front The receptacle 2av of the connecting bridge 2 and the rear receptacle 3ah of the housing part 3 mutually engage in one another without a joint. Furthermore, the screws with hexagon socket for holding the housing part 3 in the connecting bridge 2 are shown in FIGS. The screws engage in the threaded holes 2g of the profile part 2 and further engage in blind holes in the housing part 3 (see FIG. 6, blind holes in the rear receptacle 5ah).
FIGS. 7g and 7h show sectional representations through the sectional plane E-E of FIG. 7f, the insert 4 not being shown in section here. In FIGS. 7f to 7h, the screws 3s or safety screws 3ss introduced into the housing part 3 from below are shown, which secure the insert 4 against being pulled out and rotating. The coupling 4k of the insert 4 engages in the opening 2d of the profile part 2p and interacts with the coupling 6k of the cam 6.
Figures 7j and 7k show sectional views through the section plane D-D of Figure 7i, the insert 4 is not shown in section here. In contrast to FIGS. 7f to 7h, in FIGS. 7i to 7k the extension parts 5 are additionally arranged on the left and right sides of the lock cylinder device 1. So that the rotary movement of the insert 4 can be transmitted to the cam 6 via the coupling 4k, a rotor extension 5r is arranged in the opening 5d of the extension part 5 between the coupling 4k and the coupling 6k of the cam 6. The rotor extension 5r reaches through the opening 2d of the profile part 2p. The length of the rotor extension 5r corresponds to the length of the extension part 5.
Figures 8 to 12 show different configurations of the connecting bridge 2 of Figures 1 to 3. The connecting bridges 2 of Figures 8 to 12 differ from the connecting bridges 2 of Figures 1 to 3 only in the different design of the opening 2b, 2d of the Profile part 2p.
In contrast to the opening 2d from Figures 1 to 3, the opening 2d in Figures 8 is designed as a U-shaped opening 2b, which cuts through the profile part 2p upwards. Furthermore, the axis Ad of the semicircular part of the opening 2b corresponds to the axis Aa of the receptacle 2av and the axis Ag of the housing part circumference or the outer circumference of the profile part 2p, i.e. In this embodiment, the opening 2b is additionally formed centrally to the front receptacle 2av of the profile part 2p and the outer circumference of the profile part 2p.
In contrast to the opening 2d from FIGS. 1 to 3, the opening 2d in FIGS. 9 is designed as a central circular opening 2d with a large diameter. The axis Ad of the round opening 2d corresponds to the axis Aa of the receptacle 2av and the axis Ag of the housing part circumference or the outer circumference of the profile part 2p, i.e. the opening 2d is formed centrally to the front receptacle 2av of the profile part 2, i.e. the opening 2d in this embodiment is additionally formed centrally to the front receptacle 2av of the profile part 2p and the outer circumference of the profile part 2p.
In contrast to the opening 2d from FIGS. 1 to 3, the opening 2d in FIGS. 10 is designed as an elongated hole. Both the axis Ad of the upper and the axis Ad of the lower semicircle lie outside the axes Aa of the receptacle 2av and outside the axis Ag of the partial circumference of the housing or of the partial circumference of the profile.
In contrast to the opening 2d from FIGS. 1 to 3, the opening 2d in FIGS. 11 is designed as an elongated hole that is open at the top, i.e. the slot-shaped opening 2d from FIGS. 10 is shifted upwards. The axis Ad of the lower semicircle of the opening 2d lies outside the axis Aa of the receptacle 2av and outside the axis Ag of the partial circumference of the housing or the partial circumference of the profile.
In contrast to the openings 2d from FIGS. 1 to 3, the opening 2d in FIGS. 12 is octagonal.
All of the embodiments described above have in common that the axis of the receptacles is identical to the axis of the outer circumference of the respective component. The semicircular area of the respective receptacles which is formed by the bearing surfaces counts. This applies both to the profile part 2p and to the extension part 5 and the housing part 3 and to both the front and the rear receptacles.
Eccentric mount
In FIGS. 13 to 16, further exemplary embodiments of the components of the lock cylinder device 1 from FIGS. 1 and 2 are shown. In contrast to the components: connecting bridge 2, housing part 3 and extension part 5 of FIGS. 1 and 2, the components: connecting bridge 2, housing part 3 and extension part 5 of FIGS. 13 to 16 have receptacles which are eccentric to the outer edge of the components. In the following exemplary embodiments in FIGS. 13 to 16, the axes Ag of the housing part no longer overlap with the axes Aa of the receptacles.
Figures 13 show a connecting bridge 2 with an eccentric receptacle 2av in the profile part 2 and different designs of the openings 2d.
In contrast to the connecting bridge 2 of Figures 1 to 3, the front receptacle 2av of the profile part 2p of Figures 13a to 13f2 has an eccentric axis Aa of the receptacle 2av in relation to the axis Ag of the housing part. The axis Aa of the receptacle 2av overlaps in the figure 13 with the axis Ad of the opening 2d. The design of the receiving groove 2n and the receiving surfaces 2f corresponds to the exemplary embodiments in FIGS. 1 to 3, these now having an axis Aa offset upwards.
In FIGS. 13g to 131, connecting bridges 2 with eccentric receptacles 2av are shown, the openings 2d of FIGS. 13g to 131 corresponding to the openings 2d of FIGS. 9, 10 and 12 in terms of shape and arrangement, i.e. In these exemplary embodiments, the openings 2d are designed as a large bore, an elongated hole and an octagonal shape.
14 show housing parts 3 with an eccentric receptacle 3ah.In contrast to the housing parts 3 of FIG. 6, the housing parts 3 of FIG. 14 have an eccentric rear receptacle 3ah, i.e. the axis Aa of the receptacle 3ah is offset from the axis Ag of the housing part. The eccentric receptacle 3ah in FIG. 14 is designed to be complementary to the eccentric receptacle 2av of the profile part 2p from FIG.
Figures 15 and 16 show short and long extension parts 5 with an eccentric front seat 5av and an eccentric rear seat 5ah, i.e. the axis Aa of the respective receptacle is offset from the axis Ag of the housing part. The eccentric front receptacle 5av is designed like the eccentric front receptacle 2av of the profile part from FIG. The eccentric rear receptacle 5ah is designed like the eccentric rear receptacle 3ah of the housing part 3.
Remodeling protection
Figures 17 and 18 show the individual steps for assembling the lock cylinder device 1 with conversion protection, i.e. after the lock cylinder device 1 has been assembled, it can no longer be converted non-destructively.
The lock cylinder device 1 can be designed like one of the embodiments of the lock cylinder device 1 from Figures 1 to 12, i.e. with central mounting of the components, with or without extension part 5 and with the various designs of the opening 2d. However, embodiments are also possible in which the lock cylinder device 1 is designed like a lock cylinder device 1 from Figures 13 to 16, i. with eccentric mounting of the components, with or without extension part 5 and with the various designs of the opening 2d.
17 show the steps 1a to 4a described below in a schematic view of the lock cylinder device 1. FIGS. 18 show the steps 1a to 4a in a sectional view of the lock cylinder device 1. FIGS. 17e and 18h to 18g show the assembled lock cylinder device 1 with conversion protection. In addition, FIGS. 18 to 18g show that the coupling 4k of the insert 4 extends through the opening 2d of the connecting bridge or is at least partially arranged within the opening 2d. As a result, the housing part 3 can no longer be pulled up out of the connecting bridge 2 when the insert 4 is firmly fixed in the housing part 3.
The lock cylinder device 1 in FIG. 17 corresponds to the lock cylinder device 1 from FIG. 1. However, embodiments of the lock cylinder device 1 from the components of FIGS. 13 to 16 are also possible. These are assembled in a similar way.
In order to assemble the lock cylinder device 1 with conversion protection from the individual components, the following steps are carried out:<tb> <SEP> 1a.) In the connecting bridge, with the cam 6 and coupling 6k arranged therein, the housing parts 3 are pushed from above with the receptacle 3ah of the housing part 3 into the receptacle 2av of the profile part 2 (FIGS. 17a, 18a and 18b ).<tb> <SEP> 2a.) The housing parts 3 are fixed in the connecting bridge 2 by screws 3s (FIGS. 17b and 18c). For this purpose, threaded holes 3g are formed in the profile parts 2p.<tb> <SEP> 3a.) One insert 4 is inserted into each housing part 3 from the front up to the stop 3w (FIGS. 17c and 18d).<tb> <SEP> 4a.) The inserts 4 are fixed in the housing part 3 by means of safety screws 3ss from below (FIGS. 17d and 18e). The safety screws 3ss are described in more detail in FIG.
FIGS. 19 and 20 show the individual steps for assembling the lock cylinder device 1 with extension 5 and conversion protection. As in the case of the lock cylinder device 1 in FIGS. 17 and 18, the lock cylinder device 1 in FIGS. 19 and 20 can no longer be dismantled or rebuilt without being destroyed after being assembled. Figures 19e (here cut along the plane of symmetry 2se) and 20f to 20g show the assembled lock cylinder device 1 with conversion protection. In addition, FIGS. 20e to 20g show that the coupling 5k of the rotor extension 5r extends through the opening 2d of the connecting bridge or is at least partially arranged in the opening 2d. As a result, the housing part 3 can no longer be pulled up out of the connecting bridge 2 when the insert 4 is firmly fixed in the housing part 3, whereby the rotor extension 5r is also secured against tension.
The lock cylinder device 1 in FIGS. 19 and 20 corresponds to the lock cylinder device 1 from FIGS. 2. However, designs of the lock cylinder device 1 from the components of FIGS. 13 to 16 are also possible. These are assembled in a similar way.
In order to assemble the lock cylinder device 1 with conversion protection from the individual components, the steps 1b to 4b described below are carried out. Figures 19 show only half of the lock cylinder device 1, which is shown cut along the plane of symmetry 2se. The descriptions for assembling the lock cylinder device 1 in FIGS. 19 and 20 also apply analogously to the right-hand side.<tb> <SEP> 1b.) In the connecting bridge 2, with the cam 6 and coupling 6k arranged therein (not shown in the figures), the housing part 3 together with the extension part 5 from above with the receptacle 5ah of the extension part 5 into the Insert 2av of the profile part 2p (Figure 19a, 20a and 20b). For this purpose, the extension part 5 can first be arranged in the profile part 2p and then the housing part 3 with the receptacle 3ah can be pushed into the front receptacle 5av of the extension part 5 from above. But it is also possible to first connect the housing part 3 to the extension part 5 and then push them together from above into the profile part 2.<tb> <SEP> 2b.) The housing part 3 and the extension part 5 are fixed by screws in the connecting bridge 2 or in the extension part 5 (FIGS. 19b and 20c). For this purpose, threaded holes 3g are formed in the profile parts 2p and in the extension part 5.<tb> <SEP> 3b.) For the extension part 5, a correspondingly long rotor extension 5r with a key extension 5s is inserted into the opening 5d of the extension part 5. An insert 4 is then inserted from the front into the housing part 3 up to the stop 3w (FIGS. 19c and 20d).<tb> <SEP> 4a.) The insert 4 is fixed in the housing part 3 by means of safety screws 3ss (FIGS. 19d and 20e). The safety screws 3ss are described in more detail in FIG.
Figures 21 show the safety screws 3ss. The security screw 3ss has a thick thread part which can be screwed into the thread of the housing part 3. Following the threaded part, a cylindrical part with a smaller diameter is formed on the safety screw 3ss, which can engage in a blind hole in the insert 4 in order to fix the insert 4 in the housing part 3.
The screw head is designed in such a way that a screwdriver works tightly with the screw head only in one direction of rotation. In the other direction of rotation, the screwdriver slips off the screw head through the oblique transition.
Alternatively, the insert 4 can also be soldered, welded or glued in the housing part 3. Furthermore, it is also possible not only to fix the insert 4 with safety screws 3ss, but also to fix the housing part 3 or the extension part 5 on the profile part 2p with safety screws 3ss. The housing part 3 in the extension part 5 can also be fixed with safety screws 3ss.
Mechatronic locking cylinder
FIGS. 22 show a mechatronic lock cylinder device 1. The modular system of the mechatronic lock cylinder device 1 is designed analogously to the lock cylinder device 1 of FIGS. 1 to 12 or FIGS. 13 to 16 with regard to the receptacles of the individual components, i.e. the mechatronic lock cylinder device 1 can be designed with a central mount as well as with an eccentric mount.
In the following, only the additional configuration with regard to the mechatronics is described. FIGS. 22a to 22e show a mechatronic lock cylinder device 1 with and without a cable 7. The special configuration for guiding a cable 7 is described in detail below for all components. As shown in FIGS. 22d and 22e, the cable is led out of the connecting bridge 2 on the lower side of the web part 2s and thus connects the mechatronic insert 4 to electronics or a battery in the door. The cable 7 is passed through the web part 2s and the profile part 2p through a cable duct in the extension part 5 into the housing part 3 and is connected to the insert 4 therein. Here, designs with or without extension parts 5 are possible, and as shown in FIGS. 22, designs with several extension parts 5 one behind the other are also possible.
Figures 23 show the mechatronic connecting bridge 2 in a first embodiment. The web part 2s of the connecting bridge 2 has a U-shaped cable duct 2kks in the web part 2 (see FIG. 23f). The arms of the U-shaped cable duct 2kks extend from bottom to top in the direction of the profile parts 2p but do not reach through the web part 2p. The cable duct 2kks is designed to be open at the bottom and is closed by a cover which is screwed to the web part 2s (see FIGS. 22b and 22c). The arms of the U-shaped cable duct 2kks each merge into a cable duct 2kkp of the profile part 2p and thus connect the receptacle 2av to the cable duct 2kks of the web part 2s. The cable duct 2kkp of the profile part 2p extends through the receptacle 2av of the profile part 2p when viewed from above and from the side.
In Figures 22 and 23 it is shown that in this first embodiment, the profile part 2p is longer compared to the profile part 2p from Figures 1 or 2. In the opening 2d of the profile part 2p, a rotor extension 2r is arranged around the to bridge additional length of the profile part 2p (see Figure 22d).
In the figures 24 the housing part 3 is shown for a mechatronic lock cylinder. In contrast to the housing part 3 shown in FIGS. 1 and 2 or 14, the housing part for the mechatronic lock cylinder 1 has a cable duct 3kk in the receptacle 3ah, which connects the receptacle 3ah and the opening 3d to one another in order to insert a cable 7 into the opening 3d guide. This can best be seen in Figure 24h.
In the figures 25 the connection part 5 for the mechatronic lock cylinder 1 from the figures 22 is shown. Below the opening 5d, a cable duct 5kk for a cable is formed in the connecting part 5. The cable duct 5kk runs parallel to the opening 5d and connects the front receptacle 5av with the rear receptacle 5ah and extends through the receptacles 5av and 5ah (see FIG. 25j). The cable duct 5kk does not lead into the opening 5d. This can best be seen in FIG. 25j.
Due to the special design of the cable duct 5kk in the connecting part 5, several connecting parts 5 can be coupled to one another during assembly via a special process sequence. The coupling of the connection parts 5 described below also applies analogously to a connection of a mechatronic housing part 3 with the profile part 2p or a mechatronic housing part 3 with a connection part 5 or a connection part 5 with the profile part 2p.
Figures 26 show the individual steps for coupling two mechatronic connecting parts 5 with cable 7. First, a cable 7 is passed through the cable duct 5kk of a first connecting part 5 (Figures 26a to 26c). As a second step, the cable 7 is passed through a second connection part 5, the two connection parts 5 not yet having to be coupled to one another (FIGS. 26d to 26f). Due to the special design of the cable ducts 5kk in the connecting parts 5, the connecting parts 5 can now be connected to one another by inserting the first connecting part 5 from above into the front receptacle 5av of the second connecting part 5 without jamming the cable between the connecting parts 5 (FIGS 26g to 261).
The cable is not clamped between the connecting parts 5, since the cable duct 5kk extends through the front and rear receptacles 5av and 5ah and does not end in the contact surface of the connecting parts 5. Jamming is prevented in the embodiment described above, since the opening of the cable duct 5kk is not in the same plane as the contact surface of the connecting parts 5. The plane of the opening of the cable duct 5kk in the upper embodiment of FIGS. 26 is defined by the rear and front receiving surfaces 5fh and 5fv of the extension part 5 is formed, which is at right angles to the contact surface of the two connecting parts 5.
To make this clear, reference is made here to FIGS. FIGS. 27 show further different exemplary embodiments of the connecting part 5 described above. The description below with reference to the planes X and Y also apply to the preceding exemplary embodiment of the connecting part 5 of FIG. 26. Furthermore, the explanations in FIGS here the special training of the recording is only shown as a contour. As described above, the receptacle in FIG. 27 can be configured with a central or eccentric receptacle.
In FIGS. 27, a parting plane X is shown, which corresponds to the contact surface of the connecting parts 5. The parting plane X also includes the direction of movement under which the connecting parts 5 are plugged together. A second plane Y is also shown, which corresponds to the front and rear contours 5kov and 5koh of the receptacles 5av and 5ah. In all exemplary embodiments of the mechatronics according to the invention, the planes X and Y are not parallel to one another in order to prevent the cable 7 from jamming (see FIGS. 27b and 27c). The connecting parts 5 are brought together from above. This corresponds to a movement in the X plane.
A further exemplary embodiment is shown in FIGS. 27d to 27f, this differing from the exemplary embodiment in FIGS. 27a to 27c only in that the plane Y is curved. The planes X and Y are not parallel here either.
Further exemplary embodiments are shown in FIGS. 27g to 27l, the planes X and Y here always being arranged at an angle to one another. In contrast to the preceding exemplary embodiments, the direction in which the connecting parts 5 are pushed together is no longer vertical from above, but within the X plane and thus inclined to the vertical plane.
FIGS. 27m and 27n show an exemplary embodiment in which the connecting movement can also be carried out laterally. Here, too, the planes X and Y are arranged at an angle to one another.
28 show a further exemplary embodiment of a mechatronic lock cylinder device 1. In contrast to the previously described mechatronic lock cylinder device 1 in FIGS. 22 to 27, the cable duct 2kks in the embodiments in FIGS. 28 extends through the web part 2s, i.e. the receptacle 2ah in the profile part 2p is not penetrated by the cable 7 in this exemplary embodiment. In this exemplary embodiment, the web part 2s is designed to be extended, which here also has a U-shaped cable duct 2kks. By extending the web part 2s, the cable duct 2kks can interact directly with the cable duct 3kk of the housing part 3 or with the cable duct 5kk of the extension part 5 without the cable reaching through the receptacle 2ah of the profile part 2p. In these exemplary embodiments, the cable duct runs in the connecting bridge exclusively in the radially protruding web part and not in the profile parts of the connecting bridge.
As shown in FIG. 28b, the component which is directly connected to the connecting bridge 2, compared to the embodiments described above, has a cable duct of modified design. The other components which are not connected to the connecting bridge 2 are designed analogously to one of the preceding exemplary embodiments, i.e. with unchanged course of the cable duct. In the exemplary embodiment in FIG. 28b, the left housing part 3 is directly connected to the left profile part of the connecting bridge and has the changed cable duct course. The same applies to the extension part 5 which is directly connected to the right profile part of the connecting bridge. There the cable duct is changed accordingly.
[0125] FIGS. 28c to 28g show the connecting bridge 2 with an extended web part 2s and a U-shaped cable duct 2kks. The arms of the U-shaped cable duct 2kks pass through the web part 2s offset upwards to the profile part 2p, i.e. the receptacle 2av is not penetrated by the cable duct 2kks.
FIGS. 28h and 28i show the housing part 3 for a connecting bridge 2 from FIGS. 28c to 28g. In the housing part 3, the cable duct 3kk is designed as a hole from below outside the receptacle 3ah of the housing part 3.
[0127] FIGS. 28j and 28k show the extension part 5 for a connecting bridge 2 from FIGS. 28c to 28g. In the extension part 5, the cable duct 5kk is formed on the rear side in such a way that the rear receptacle 5ah is not penetrated by the cable duct 5kk, but is formed offset thereto.
Application examples
In FIGS. 29 to 33, various application examples for purely mechanical and mechatronic lock cylinder devices 1 are shown.
In FIGS. 29, purely mechanical lock cylinder devices 1 from FIGS. 1 and 2 are shown with a key 7s. FIGS. 29f to 29i show a lock cylinder device 1 with an extension part 5, as shown in FIG.
Figures 30 show a one-sided mechatronic lock cylinder device 1 in which the digital authorization query is transmitted from the key via the electrical cable through the modular system to the electronics. The authorization chip can be embodied on the key, the key being queried in a contact-based or wireless manner. In the figures 30 the extension parts 5 are optional. In FIG. 30, the left side is designed as a mechatronic side and the right side as a purely mechanical lock cylinder.
Figures 31 show a double-sided mechatronic lock cylinder device 1, in which the digital authorization query is transmitted from the key via the electrical cable through the modular system to the electronics. The authorization chip can be embodied on the key, the key being queried in a contact-based or wireless manner. In the figures 31 the extension parts 5 are optional. In FIGS. 31, both sides are designed as mechatronic sides. A cable 7 is led out of the lock cylinder device 1 for each mechatronic side.
Figures 32 show a lock cylinder device 1 with a rotary knob. With the rotary knob cylinder, the electronics for the mechatronic half are placed on the opposite side in the rotating knob. Therefore, the cable must be routed through the entire modular system from the key contact (far left) to the electronics (far right) and in this case is not led out of the lock cylinder device 1.
[0133] Figures 33 show a digital cylinder. With the digital cylinder there is no key that has to be inserted, the query is carried out wirelessly with a chip (in the key or in the user card 12). In the construction kit, a cable 7 is routed to the outside for each side, e.g. for power supply.
The housing part 3 or the extension part 5 does not engage in the opening 2d of the profile part 2p. Only the rotating element, i.e. the coupling 4k of the insert 4 or the coupling of the rotor extension 5r pass through the opening 2d of the profile part 2p. The opening 2d in the profile part 2p can preferably be designed with a larger diameter than the coupling 4k and / or the coupling of the rotor extension 5r. As a result, the couplings do not come into contact with the inner wall of the opening 2d, i.e. the rotating components and the inner wall of the opening 2d are spaced apart. The lack of friction of the coupling on the inner wall of the opening 2d enables a smooth rotary movement of the key in the insert 4.
The lock cylinder device 1 is designed as a manufacturing kit, i.e. the lock cylinder device 1 is assembled, if necessary, from the individual components consisting of a connecting bridge 2, housing part 3, insert 4 and, if necessary, one or more extension parts 5. The components make it possible to assemble the lock cylinder device 1 according to the thickness of the door. Due to the possibility of designing the production kit according to the conditions of the door, it is also possible to design the left and right sides of the lock cylinder device 1 with different lengths or even with only one housing part 3 with insert 4.
The insert 4 can also be designed as a mechatronic insert. Both the mechanical components of the insert 4 described above are present, as well as additional electronic components, e.g. an electronic lock of the rotor and / or electronic components for querying an RFID transponder in the key as integration into electronic systems, e.g. into an alarm system. The insert 4 can also be designed as a purely electrical insert. Only electronic components are arranged in the insert, e.g. an electronic locking system or electronic components for querying an RFID transponder in the key or the authorization card.
The exemplary embodiments described above in connection with the figures are also provided in modified form in that the non-insert technology is used instead of the insert technology for the construction and assembly of a lock cylinder device with an insert rotor and insert stator, i.e. In the modified exemplary embodiments, it is provided that the housing part is designed as a lock cylinder stator in which a lock cylinder rotor is inserted.
List of reference symbols
1 locking cylinder device 2 connecting bridge 2b opening 2s web part 2p profile part 2av front receptacle in the profile part of the connecting bridge 2ah rear receptacle in the profile part of the connecting bridge 2n receiving groove in the receptacle 2av 2f receiving surface in the receptacle 2av 2w profile part wall 2d opening connecting bridge 2g threaded hole 2se symmetry -Level 2kks cable duct in the web part 2kkp cable duct in the profile part 2r rotor extension of the connecting bridge Ag axis housing part Aa axis receptacle Ad axis opening 3 housing part 3ah rear receptacle in housing part 3n receptacle groove in receptacle 3ah 3f receptacle surface in receptacle 3ah 3w stop 3d opening in housing part 3g threaded hole 3s screws 3ss safety screws 3kk cable duct in the housing part 4 insert 4h sleeve 4s stator 4r rotor 4b bore 4f spring 4g counter bolt 4k coupling insert 4sk key channel 4sr snap ring 5 extension part 5av front receptacle in extension part 5ah rear receptacle in extension tion part 5nv front receiving groove in the receptacle 5av 5nh rear receiving groove in the receptacle 5ah 5fv front receiving surface in the receptacle 5av 5fh rear receiving surface in the receptacle 5ah 5d opening in the extension part 5r rotor extension of the extension part 5s key extension 5k coupling 5kk cable duct in the extension part 5kov front contour 5kov Contour 6 cams 6s locking bit 6k coupling 7 cable 7s key 8 mechanical cylinder 9 mechatronic cylinder 10 rotary knob 11 digital cylinder 12 user card

权利要求:
Claims (42)
[1]
1. Lock cylinder device (1)comprising two housing parts (3) and an interposed connecting bridge (2) and preferably additionally an extension part (5) interposed between the housing part (3) and the connecting bridge (2), orcomprising a housing part (3), a mounting part and an interposed connecting bridge (2) and preferably additionally an extension part (2) interposed between the housing part (3) and the connecting bridge (2),each housing part (3) being assigned to a lock cylinder,(i) in that the housing part (3) is designed as an adapter housing in which a lock cylinder unit (4) comprising insert stator (4s) and insert rotor (4r) is detachably or non-detachably arranged or(ii) in that the housing part (3) is designed as a lock cylinder stator in which a lock cylinder rotor is detachably or non-detachably arranged,whereby it is providedthat the connecting bridge (2) has two profile parts (2p) and a radially protruding web part (2s) which connects the two profile parts (2p), the outer circumference of the profile parts (2p) being circular or essentially circular, andthat each housing part (3) has a receiving space for receiving the lock cylinder assembly, respectively. of the lock cylinder rotor, wherein the outer circumference of the housing part (3) is circular or substantially circular, and wherein the receiving space is arranged eccentrically or centrally relative to the outer circumference of the housing part (3), andthat the profile part (2p) has a circular, semicircular or non-circular receiving area for receiving the adjoining housing part (3) or extension part (5) or mounting part, the receiving area being arranged centrally or eccentrically relative to the outer circumference of the profile part (2p).
[2]
2. lock cylinder device (1) according to claim 1,characterized,that in the profile part (2p) a passage for engagement and / or for reaching through and / or for supporting and / or for mounting the lock cylinder unit and / or the insert rotor (4r) and / or the lock cylinder rotor and / or the housing part (3) and / or of the extension part (5) is designed in such a way that lifting these components out of the receiving area, preferably lifting these components out of receiving means of the receiving area, is prevented or at least hindered.
[3]
3. Lock cylinder device (1) according to one of the preceding claims,characterized,that the housing part (3) is inextricably connected to the locking cylinder assembly or the lock cylinder rotor, or is not detachably connected without destruction or damage, and / orthat the profile part (2p) of the connecting bridge (2) is inextricably connected to the housing part (3) and / or to the extension part (5) and / or to the assembly part or is not releasably connected without destruction or damage.
[4]
4. lock cylinder device (1) according to one of the preceding claims,characterized,that the connecting bridge (2) and / or the housing part (3) and / or the extension part (5) have or have a cable receptacle.
[5]
5. lock cylinder device (1) according to one of the preceding claims,characterized,that between the two profile parts (2p) of the connecting bridge (2) a cam (6) comprising a lock bit (6s) and / or a coupling (6k) to the insert rotor (4r) or lock cylinder rotor is arranged.
[6]
6. lock cylinder device (1) according to one of the preceding claims,characterized,that the length of the housing part (3) forming the adapter housing is the same as the length of the insert stator (4r).
[7]
7. lock cylinder device (1) according to one of the preceding claims,characterized,that the rear end of the insert rotor (4r) protrudes beyond the rear end of the insert stator (4s) and / or the housing part (3) designed as an adapter housing, orthat the lock cylinder rotor protrudes with its rear end over the rear end of the lock cylinder stator.
[8]
8. lock cylinder device (1) according to claim 7,characterized,that the protruding end of the insert rotor (4r) and / or the lock cylinder rotor can be coupled, preferably non-rotatably, to a rotor extension (5r) and / or a coupling (5k, 6k).
[9]
9. lock cylinder device (1) according to one of claims 2 to 8,characterized,that the passage formed in the profile part (2p) is closed at the top, and is preferably formed in a ring shape.
[10]
10. Lock cylinder device (1) according to one of the preceding claims,characterized,that the housing part (3) and / or the extension part (5) and / or the assembly part can be inserted from above into the receiving area formed in the profile part (2p) during assembly of the lock cylinder device (1).
[11]
11. Lock cylinder device (1) according to one of the preceding claims,characterized,that the receiving area formed in the profile part (2p) has at least one receiving groove (2n) as a receiving means, preferably for positive holding, the receiving groove (2n) preferably being arranged centrally or eccentrically relative to the outer circumference of the profile part (2p).
[12]
12. Lock cylinder device (1) according to claim 11,characterized,that the at least one receiving groove (2n) is designed to be open at the top, preferably with a semicircular contour; and / or that the at least one receiving groove (2n) is designed to be complementary to an associated receiving area of an adjacent housing part (3) or extension part (5) or mounting part.
[13]
13. Lock cylinder device (1) according to one of the preceding claims,characterized,that the receiving area formed in the profile part (2p) is open at the top, preferably with a semicircular contour; and orthat the receiving area formed in the profile part (2p) is designed to be complementary to an associated receiving area of an adjacent housing part (3) or extension part (5) or assembly part.
[14]
14. Lock cylinder device (1) according to one of the preceding claims,characterized,that the receiving areas formed in the housing part (3) or in the extension part (5) or in the mounting part are identical to one another.
[15]
15. Lock cylinder device (1) according to one of claims 2 to 14,characterized,that the passage formed in the profile part (2p) is circular or semicircular or polygonal, preferably symmetrically regularly polygonal and is arranged centrally or eccentrically relative to the outer circumference of the profile part (2p).
[16]
16. Lock cylinder device (1) according to one of claims 2 to 15,characterized,that the passage formed in the profile part (2p) has at least one radial opening, preferably to the side.
[17]
17. Lock cylinder device (1) according to one of claims 2 to 16,characterized,that the passage formed in the profile part (2p) is designed in such a way that the insert rotor (4r) or the lock cylinder rotor engages in the passage or passes through the passage, preferably is not supported there,whereby it is provided(A) that the housing part (3) does not engage in the passage or does not pass through the passage, and / or(b) that the housing part (3) is not supported in the passage.
[18]
18. Lock cylinder device (1) according to one of the preceding claims,characterized,that the lock cylinder assembly in the housing part (3) designed as an adapter housing or the lock cylinder rotor in the housing part (3) designed as a lock cylinder stator can be moved, preferably axially, during assembly of the lock cylinder device (1).
[19]
19. Lock cylinder device (1) according to one of claims 5 to 18,characterized,that the cam (6) provided with the locking bit (6s) has a passage which is formed coaxially with the passage formed in the profile part (2p).
[20]
20. Lock cylinder device (1) according to claim 19,characterized,that the coupling can be arranged in the passage formed in the cam.
[21]
21. Lock cylinder device (1) according to one of claims 7 to 20,characterized,that the protruding rear end of the lock cylinder rotor or the insert rotor (4r) engages in or passes through the passage formed in the profile part (2p).
[22]
22. Lock cylinder device (1) according to one of claims 8 to 21,characterized,that the protruding rear end of the lock cylinder rotor or the insert rotor (4r) engages in the extension part (5) and there interacts with the rotor extension (5r) and / or the coupling (5k, 6k).
[23]
23. Lock cylinder device (1) according to one of claims 8 to 22,characterized,that the rotor extension (5r) coupled to the rear end of the lock cylinder rotor or the inserter rotor (4r) engages in or passes through the passage formed in the profile part (2p).
[24]
24. Lock cylinder device (1) according to claim 3 or according to claim 3 and one of claims 4 to 23,characterized,that the non-detachable connection is designed as a screw connection and / or adhesive connection and / or solder connection and / or weld connection and / or rivet connection and / or snap-in connection.
[25]
25. Lock cylinder device (1) according to claim 3 or according to claim 3 and one of claims 4 to 24,characterized,that several non-releasable connections, of which at least one is the non-releasable connection from claim 3, are arranged at a distance from one another, next to one another, preferably in a row.
[26]
26. Lock cylinder device (1) according to claim 3 or according to claim 3 and one of claims 4 to 25,characterized,that several permanent connections, of which at least one is the permanent connection from claim 3, are arranged axially in a line or distributed radially over the circumference.
[27]
27. Lock cylinder device (1) according to one of claims 24 to 26,characterized,that the screws (3ss) of the non-detachable screw connection in the screw head have a tool holder which allows force to be transmitted between the tool and screw (3ss) only in one direction of rotation, in particular only in the tightening direction of the screw (3ss).
[28]
28. Lock cylinder device (1) according to one of claims 2 to 27,characterized,that the passage is closed at the top, preferably ring-shaped,wherein the components engaging in the passage are permanently and / or not releasably connected to the profile part (2p) in the region of the passage without being destroyed or hindered.
[29]
29. Lock cylinder device (1) according to claim 4 or according to claim 4 and one of claims 5 to 28,characterized,that the cable receptacle is designed as a cable receiving space which is arranged on the outside or inside of the connecting bridge (2) and / or the housing part (3) and / or the extension part (5).
[30]
30. Lock cylinder device (1) according to claim 29,characterized,that the cable receiving space is designed as a receiving groove that is open on one side in the transverse direction to its longitudinal extent or as a receiving channel (2kks, 2kkp, 3kk, 5kk) that is closed on all sides in the transverse direction of its longitudinal extent.
[31]
31. Lock cylinder device (1) according to claim 29 or 30,characterized,that the cable receiving space and / or the receiving groove are or is open at the ends of its or their longitudinal extension.
[32]
32. lock cylinder device (1) according to one of claims 29 to 31,characterized,that the cross-section of the cable receiving space is circular or elliptical or polygonal.
[33]
33. lock cylinder device (1) according to one of claims 4 to 32,characterized,that the cable receptacle is arranged in the area of the radially protruding web part (2s) of the connecting bridge (2).
[34]
34. lock cylinder device (1) according to one of claims 4 to 33,characterized,that the cable receptacle connects the two sides of the connecting bridge (2) and an opening of the cable receptacle is arranged in the area of the profile part (2p) and / or in the web part (2s) of the profile part (2p) or in front of the profile part (2p) and / or is arranged outside the profile part (2p), preferably in the web part (2s) of the connecting bridge (2).
[35]
35. lock cylinder device (1) according to one of claims 4 to 34,characterized,that the profile part (2p) and / or the housing part (3) and / or the extension part (5) and / or the mounting part has a receiving area for receiving an adjacent component, and that the cable receptacle runs in this receiving area and / or in this receiving area opens or runs outside this receiving area and / or opens.
[36]
36. lock cylinder device (1) according to claim 34 or 35,characterized,that the profile part (2p) and / or the housing part (3) and / or the extension part (5) and / or the mounting part has a receiving area for receiving an adjacent component, which is arranged in a first plane and that the opening of the cable receptacle in a second plane, wherein the second plane is arranged at an angle or offset to the first plane.
[37]
37. lock cylinder device (1) according to one of claims 4 to 36,characterized,that the cable receptacle in the connecting bridge (2) is designed to be open at the bottom and can be closed by a cover which can be releasably connected to the web part (2s) of the connecting bridge (2), preferably by screwing or locking.
[38]
38. lock cylinder device (1) according to one of claims 34 to 37,characterized,that in the region of the mouth of the cable receptacle a mounting space for the cable is arranged, the mounting space being formed in the profile part (2p) or in the housing part (3) or in the extension part (5).
[39]
39. Production kit for assembling a lock cylinder device (1) according to one of claims 5 to 38 comprising at least one housing part (3), at least one connecting bridge (2) with two profile parts (2p), one cam (6) with lock bit (6s), at least a coupling and preferably at least one extension part (5) and / or at least one rotor extension (5r) and / or preferably a mounting part.
[40]
40. Production kit according to claim 39,characterized,that the production kit has a set consisting of several housing parts (3), the housing parts (3) differing from one another in a defined grid in their axial length and / or has a set of extension parts (5), the extension parts (5 ) differ in their axial length from one another in a defined grid and / or have a set of several rotor extensions, the rotor extensions differing from one another in their axial length in a defined grid.
[41]
41. Production kit according to one of claims 39 or 40,characterized,that the production kit has at least one digital cylinder (11) and / or a rotary knob cylinder and / or a reading unit for an electronically coded key (7s) and / or a contactless transponder.
[42]
42. Production kit according to one of claims 39 to 41, comprising at least one insert (4) with an insert rotor (4r) and at least one lock cylinder rotor, the dimensions of the at least one insert rotor (4r) being identical to the dimensions of the at least one lock cylinder rotor.

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同族专利:

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公开号 | 公开日

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WO2020098977A1|2020-05-22|

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DE102018128765A1|2020-05-20|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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DE19627934C2|1996-07-11|1999-08-12|Dom Sicherheitstechnik|Lock cylinder housing with security cylinder head|

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FR2791380B1|1999-03-26|2001-06-22|Andre Merle|REINFORCED CYLINDER FOR LOCK|

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FR2791383B1|1999-03-26|2001-04-20|Andre Merle|MODULAR CYLINDER FOR LOCK|

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DE102005059383B4|2005-12-09|2019-05-09|Burg-Wächter Kg|System for compensating for differences in length between a cylinder lock to be inserted into an opening of a door leaf and the door leaf|

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ES2388500T3|2009-12-21|2012-10-16|Iloq Oy|Part of a modular lock cylinder|

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DE102011102159B4|2011-05-20|2019-12-12|ABUS Seccor GmbH|Modular lock cylinder|

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AT513192B1|2012-06-28|2017-07-15|Evva Sicherheitstechnologie|lock cylinder|

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CH708051B1|2013-05-14|2017-01-31|Kaba Ag|Locking cylinder.|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE102018128765.8A|DE102018128765A1|2018-11-15|2018-11-15|Lock cylinder device|

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PCT/EP2019/054124|WO2020098977A1|2018-11-15|2019-02-19|Lock cylinder device|

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