EP0976896A2 - Locking system - Google Patents

Abstract

The inner rotary knob (120) is connected rotation proof with a sleeve (12), on which the locking element (30) is arranged rotation proof. The outer rotary knob (50) is connected rotation proof with a shaft (52) extending through the sleeve (12) of the inner rotary knob (10), and is connected rotation proof with a coupling unit (40) arranged in the inner rotary knob.

Description

The invention relates to a locking system for doors with a door inside assigned inner rotary knob with a closing element for Operation of a bolt is rotatably connected, and an external knob.

In such locking systems, the door can be viewed from the inside of the door without a key or other access authorization using the internal rotary knob locked or unlocked at any time.

It is an object of the invention, a locking system of the type mentioned To create a way that it is possible in economic construction allows simple actuation of the bolt via the external rotary knob to either enable or prevent.

This object is achieved by the features of claim 1 and in particular in that the inner knob with a sleeve is rotatably connected, on which the closing element is rotatably arranged is, and the outer knob is rotatably connected to a shaft that extends through the sleeve of the inner knob and with one in the inner knob arranged coupling unit is rotatably connected, the freely rotatable with respect to the internal rotary knob in a freewheeling state and rotatably coupled to the internal rotary knob in a driving state and that the clutch unit for switching between freewheel and take-along state with one arranged in the outer rotary knob Code entry unit via a through the shaft of the outer rotary knob extending electrical and / or optical signal path is connected.

Passing the shaft of the outer rotary knob according to the invention through the sleeve of the inner knob and the non-rotatable connection of this Shaft with the coupling unit provided in the inside knob creates a simple and space-saving option, a non-rotatable connection between the outer knob and the inner knob.

The rotatably connected to the shaft of the outer rotary knob according to the invention Coupling unit advantageously uses the inside of the Inner knob available space, which means in the outer knob Space for the code entry unit is created.

The exploitation of the wave according to the invention for the signal path is in particular then advantageous if connecting lines, e.g. B. cables or Optical fibers, can be used because the non-rotatable coupling between the Shaft and the clutch unit prevents it by pressing the Knobs the lines opposite the components in the knobs, with which the lines are connected, especially opposite the Coupling unit and the code entry unit, are rotated and torn off.

Furthermore, the coupling unit and the code input unit are according to the invention of the locking system integrated in the knobs so that existing doors with comparatively little effort and without change the visual appearance of the door on the invention Locking system can be converted.

According to a preferred embodiment of the invention, the coupling unit as part of a transponder unit and the code entry unit designed as a receiver unit of the transponder unit.

This makes a locking system that can be operated without a conventional key created that enables an authorized user to simply by transmitting a signal to the receiver unit via a portable transmitter - e.g. B. in the form of a check card - the outer knob non-rotatably connected to the inner knob and open to gain access this way.

According to a further preferred embodiment of the invention are the sleeve of the inner knob and the shaft of the outer knob axially displaceable against each other.

This enables a simple and, in particular, continuous adjustment of the Locking system on different door leaf thicknesses.

According to a further preferred embodiment of the invention, this is Closing element axially displaceable on the sleeve of the inner rotary knob.

In this way, the locking system can be moved simply by moving the Closing element on the sleeve to the axial position of the bolt in the door leaf be adjusted.

According to a further preferred embodiment of the invention the closing element with a rotatable relative to the closing element Cylinder adapter connected.

As a result, the locking system according to the invention can be used instead of a conventional one Lock cylinder can be inserted into the door lock so that the door easily converted to the locking system according to the invention can be.

According to a further preferred embodiment of the invention are a cylinder adapter and the locking element on a common, preferably made of plastic bearing sleeve inserted on the Sleeve of the inner knob is axially displaceable.

The cylinder adapter and the closing element are here by means of the bearing sleeve combined into a single unit in a particularly simple manner.

According to a further preferred embodiment of the invention, this is Closing element, preferably a common bearing sleeve of a cylinder adapter and the closing element, optionally with one or the other axial end plugged into the sleeve of the inner rotary knob.

Consequently, an adjustment can be made with an asymmetrical construction of the closing element to the axial position of the bolt in the door leaf simply by turning of the closing element or the unit consisting of cylinder adapter and Closing element can be achieved on the sleeve of the inner rotary knob. In particular it is possible to choose the closing element in immediate To be placed near the inside or outside of the door.

Further advantageous embodiments of the invention are in the description, the figures and the subclaims.

In the following the invention is exemplified with reference to the Described drawing, the only figure of a partial axial section Embodiment of an attached to a door leaf, according to the invention Locking system shows.

The locking system according to the invention shown in the figure comprises a inside knob arranged on an inside of a door leaf 80 10 and an external rotary knob 50. The rotary knobs 10, 50 each comprise an open housing on its side pointing away from the door leaf 80 11, 51 made of plastic, each of which also consists of plastic Cover cap 13, 53 is surrounded. The cover caps 13, 53 each extend to a rosette 15, 55 connected to the door leaf 80 approach.

The housing 11 of the inner rotary knob 10 is non-rotatable with one made of metal manufactured sleeve 12 connected by an arranged in the door leaf 80 Lock 90 extends through and within door leaf 80 ends. A non-rotatably connected to the housing 51 of the outer knob 50, Hollow shaft 52 also made of metal extends through the sleeve 12 of the inner knob 10 through to the inside of the housing 11 into it.

The axial fixation of the sleeve 12 and the shaft 52 - and thus the two Knobs 10, 50 - done by fixing springs 17, 57 of the rosettes 15, 55, the in a tool-releasable manner in on the sleeve 12 and the Shaft 52 formed fixing recesses 18, 58 engage. Regarding This fixation refers to the one registered on July 19, 1995 German utility model 295 11 547.

On the sleeve 12 of the inner knob 10 is a three-part, from one Cylinder adapter 34, a closing element 30 and a bearing sleeve 36 existing Adapter unit arranged.

The cylinder adapter 34 made of metal has parallel in one plane to the door leaf 80 a cross-sectional shape that that of a conventional, e.g. B. trained as a profile, round or oval cylinder Lock cylinder corresponds. The cylinder adapter 34 is in corresponding Openings of the door leaf 80 and the lock 90 inserted and opened arranged in a manner fixed against rotation in the lock 90.

The closing element 30, which is also made of metal, comprises a sleeve-shaped one Bearing section 31 to which a lock bit 33 for actuation a not shown bolt of the lock is formed. The lock beard 33 is flush with that in the arrangement according to the figure Inner rotary knob 10 facing the axial end of the sleeve-shaped bearing section 31 from. The closing element 30 consequently has an asymmetrical Construction.

On the bearing sleeve 36 made of plastic are the cylinder adapter 34 and the closing element 30 rotatable relative to one another in this way arranged that the closing element 30 with its bearing section 31st between two annular bearing sections 35 of the cylinder adapter 34 located. In the cylinder adapter 34 there is a recess 38 for the locking bit 33 provided, the rotation of the closing element 30 relative to the cylinder adapter 34 by 360 °. The cylinder adapter 34 is consequently also constructed asymmetrically.

The position of the axis of rotation of the clamping unit according to the invention - by which the knobs 10, 50, the sleeve 12, the shaft 52 and the closing element 30 can be rotated - is therefore due to the cylinder adapter 34 and the corresponding openings in the door leaf 80 and in the lock 90th fixed.

The sleeve 12 of the inner knob has one in the axial direction extending guide slot 19, as from the free end of the sleeve 12 outgoing incision of the sleeve wall is formed. The guide slot 19 acts with a guide and actuation rib 32 of the Closing element 30 together, on the opposite of the lock bit 33 Side to the inner wall of the sleeve-shaped bearing section 31 is formed and in the axial direction over the entire Length extends.

In the bearing sleeve 36, a slot 37 is formed, which is different from that in the Figure left axial end of the bearing sleeve 36 outgoing incision is. Consequently, the bearing sleeve 36 also has an asymmetrical Building on. The guiding and actuating rib 32 of the closing element 30 extends through the slot 37 of the bearing sleeve 36 so far into the with the slot 37 aligned guide slot 19 of the inner knob sleeve 12 into that the guide and operating rib 32 about flush with the inner wall of the inner knob sleeve 12.

Inside the housing 11 of the inner knob 10 is a cylindrical Coupling unit 40 arranged in which a guide channel 42 is formed is. The free end region of the shaft 52 of the outer rotary knob 50, with which the shaft 52 projects into the guide channel 42 is flattened and thus has a non-circular cross-section, which is the free cross-section of the guide channel 42 corresponds, so that the shaft 52 - and thus the outer rotary knob 50 - non-rotatably connected to the coupling unit 40 is.

By a stop 56 facing the outer rotary knob 50 The end of the flattened area is the maximum insertion depth the shaft 52 set in the guide channel 42.

A connecting element 24 designed as a plug is inside the guide channel 42 arranged axially displaceable and in a socket element 59 inserted that rotatably and axially immovable with the shaft 52 of the outer knob 50 is connected. The cross section of the connection element 24 corresponds to the non-circular cross section of the shaft 52 and thus the free cross section of the guide channel 42 in which the connecting element 24 consequently can not turn.

The guide channel 42 of the coupling unit 40 goes from the door leaf 80 facing end in a bore 25 of smaller diameter over that through a formed in the cap 13 bore 13a leads to the outside.

Via an electrical connection line extending through the hollow shaft 52 22, which comprises individual signal and supply lines, is the socket element 59 with an arranged in the outer knob 50, in the figure from its cover 53 concealed code input unit connected. The code entry unit is a receiver unit Transponder unit is formed and connected to the connecting element 24 a control and actuation unit of the transponder unit is connected, which is integrated in the coupling unit 40. That way it is Coupling unit 40 part of the transponder unit.

In the outer rotary knob 50 there is space for a battery unit or a rechargeable one Accumulator unit for the power supply of the locking system intended.

The control and actuation unit includes electronic components a motor with which a pin-shaped, not shown in the figure, driver extending parallel to the axis of rotation of the clamping unit can be actuated. The is used to supply power to the motor Connection line 22.

By means of the motor, the driver can choose between a driver and be moved back and forth in a free-running position, the driver engaged in its entrained position and in its freewheeling position disengaged from recesses 14.

The cutouts 14 are each in one piece in the form of a bore driving disk connected to the sleeve 12 of the inner rotary knob 10 16 provided. A plurality of such recesses 14 are distributed in the circumferential direction near the edge of the driving plate 16 arranged. The driving plate 16 forms an end face region of the Housing 11 and a contact surface for the clutch unit arranged therein 40.

As a result, the clutch unit 40 can be selectively operated by means of the engine be brought in or in a freewheeling state, wherein the coupling unit 40 protrudes into one of the recesses 14 Driver is in the driving state, which is a twisting of the Inner rotary knob 10 and thus the locking bit 33 by means of the outer rotary knob 50 allowed.

In the coupling unit 40 is a motion sensor, not shown arranged to detect a rotational movement of the clutch unit is formed and is used by providing a corresponding Signals an axial movement of the driver between its Locking the clutch and freewheeling state while the clutch unit is moving turns.

The locking system according to the invention works as follows:

The sleeve 12 of the inner rotary knob 10 is with the adapter unit attached in the openings provided for the door leaf 80 and Lock 90 inserted until the fixing spring 17 of the rosette 15 in the fixing recess 18 of the sleeve 12 snaps.

On the one hand, it allows the asymmetrical structure of the Cylinder adapter 34, the closing element 30 and the bearing sleeve 36 existing Adapter unit, this optional before insertion into the lock 90 either with the lock bit 33 or the opposite axial End of the closing element 30 ahead on the sleeve 12 of the inner rotary knob 10 stuck.

As a result, the locking system according to the invention can be used on doors be in which the lock 90 close to one of the side surfaces of the Door leaf 80 is arranged, regardless of whether it is is its inside or outside.

In the arrangement according to the figure, the door leaf 80 is on the inside knob 10 facing side of the lock 90 thinner than on the opposite Side so that the closing element 30 on the sleeve 12th is arranged such that it with its lock bit 33 the inside of the door is facing.

Then the adapter unit is in the desired axial position brought on the sleeve 12, in which the lock bit 33 the bolt of Can operate lock 90.

For this purpose, the adapter unit can simply be pushed back and forth on the sleeve 12 with the bearing sleeve 36 on the outer wall of the sleeve 12 slides along and the guide and actuating rib 32 of the Closing element 30 guided through the guide slot 19 of the sleeve 12 becomes.

Then the shaft 52 of the outer knob 50 passes through the sleeve 12 and with its free end in the guide channel 42 of the coupling unit 40 inserted until the fixing spring 57 of the rosette 55 in the fixing recess 58 of the shaft 52 snaps into place.

To the electrical connector between the at the free end of the Shaft 52 attached bushing element 59 and that in the guide channel 42 arranged connecting element 24 can produce the connecting element 24 are subjected to a counter-holding tool from the outside, through the bore 13a of the cap 13 and the bore 25th the coupling unit 40 can be inserted.

The correct relative alignment of the socket member 59 and the connector 24 is due to the non-circular cross sections Shaft 52, the guide channel 42 and the connecting element 24, that the insertion of the shaft 52 into the sleeve 12 only when correct allow relative angular orientation.

The stop 56 of the shaft 52 prevents the shaft 52 from being too small Door leaf thicknesses penetrate too far into the coupling unit 40 and the connecting element 24 for example against a circuit board or other electronic Presses components in the area that points away from the door leaf 80 Side of the coupling unit 40 are arranged.

The axial displacement of the adapter unit on the sleeve 12, the possibility the turning of the asymmetrically constructed adapter unit as well enable the telescopic insertion of the sleeve 12 and the shaft 52 thus an adaptation of the locking system according to the invention different door leaf thicknesses as well as different ones axial positions of the lock 90 within the door leaf 80.

This adjustment becomes easy in the manner described above when assembling the locking system during its installation made on the door leaf, whereby none of the components of the locking system for this adaptation must be structurally changed in any way.

By turning the inner rotary knob 10, the sleeve 12 trained guide slot 19 and the guide and actuating rib 32 of the closing element 30, the closing element 30 is carried along and in this way together with the also via the guide and actuation rib 32 bearing sleeve 36 taken opposite the cylinder adapter 34 twisted, the lock bit 33 can in this way Bolt of lock 90 actuated and the door at any time by means of the inner rotary knob 10 unlocked and locked.

The code input unit designed as the receiver unit of the transponder unit in the outer rotary knob 50 speaks to an authorization code for example in the form of a radio or induction signal to the Receiver unit is transmitted via a transmitter, which is basically can be formed in any way.

The transmitter can be an authorized person z. B. in the form of a Carry a credit card with you.

When the authorization code is received, the receiver unit sends a message the connecting line 22 of the motor of the clutch unit 40 is controlled, to change from the free-running state to the entrainment state, d. H. to actuate the bolt of the lock 90 via the external rotary knob 50 either to enable or to prevent.

The motion sensor designed to detect a rotary movement the coupling unit 40 ensures that the driver is transferred from taking it into the freewheeling position or vice versa, as long as the clutch unit 40 rotates.

This is advantageous, for example, if the locking system is equipped with a Automatic timer is provided after a predetermined period of time following the transfer of the clutch unit 40 into the driving position ensures that the driver automatically goes back in its freewheeling position is moved. This automatic decoupling from The outer knob 50 and the inner knob 10 can then be moved by the motion sensor be prevented when an authorized person turns the outside knob 50 actuated beyond the end of this period.

In the embodiment of the invention described above Locking system extends through the hollow shaft 52 of the outer knob 50 consequently an electrical signal path in the form of the connecting line 22. Alternatively, an optical signal path can also be used, for example be provided in the form of light guides.

Instead of the transponder unit described can in the invention Locking system basically any code entry unit, to convert a coded signal into electrical or optical signals is able to drive together with one by means of these signals and thereby between a driving state and a freewheeling state reversible clutch unit can be used. The code entry unit could, for example, distinguish fingerprints or other individualizing body features and only reverse the clutch unit if her fingerprint - or any other physical characteristic - is one authorized person is identified.

Reference list

10th

Inside knob

11

casing

12th

Sleeve

13

Cover cap

13a

drilling

14

Recesses

15

rosette

16

Driving plate

17th

Fixing spring

18th

Fixing recess

19th

Guide slot

22

Connecting line

24th

Connector

25th

drilling

30th

Closing element

31

Bearing section of the closing element

32

Guide and actuation rib

33

Lock bit

34

Cylinder adapter

35

Bearing sections of the cylinder adapter

36

Bearing sleeve

37

Slot of the bearing sleeve

38

Recess of the cylinder adapter

40

Clutch unit

42

Guide channel

50

External knob

51

casing

52

wave

53

Cover cap

54

Area of non-circular cross-section

55

rosette

56

attack

57

Fixing spring

58

Fixing recess

59

Socket element

80

Door leaf

90

Lock

Claims (10)

Locking system for doors with an inside knob (10) assigned to an inside of the door, which is connected in a rotationally fixed manner to a closing element (30) for actuating a bolt, and an outside knob (50), wherein the inner rotary knob (10) is connected in a rotationally fixed manner to a sleeve (12) on which the closing element (30) is arranged in a rotationally fixed manner, and the outer rotary knob (50) is connected in a rotationally fixed manner to a shaft (52) which extends through the sleeve (12) of the inner rotary knob (10) and rotatably connected to a clutch unit (40) arranged in the inner rotary knob (10), which is freely rotatable in a freewheeling state relative to the inner rotary knob (10) and rotatably coupled to the inner rotary knob (10) in a driving state, and in which the clutch unit (40) for switching between the freewheeling and driving state is connected to a code input unit arranged in the outer rotary knob (50) via an electrical and / or optical signal path (22) extending through the shaft (52) of the outer rotary knob (50). Locking system according to claim 1,
characterized, that the coupling unit (40) is designed as part of a transponder unit and the code input unit as the receiver unit of the transponder unit. Locking system according to claim 1 or 2,
characterized, that the shaft (52) of the outer rotary knob (50) has a non-circular cross section, at least in a region extending in a guide channel (42) of the coupling unit (40), which corresponds to the free cross section of the guide channel (42). Locking system according to at least one of the preceding claims,
characterized, that the sleeve (12) of the inner knob (10) and the shaft (52) of the outer knob (50) are axially displaceable. Locking system according to at least one of the preceding claims,
characterized, that a detachable, in particular electrical, plug-in connection can be produced between the free end of the shaft (52) of the external rotary knob (50) and a connecting element (24) arranged in a guide channel (42) of the coupling unit (40), the free end of the shaft ( 52) of the outer rotary knob (50) as a socket and the connecting element (24) as a plug, and / or that a connecting element (24) which can be coupled to the free end of the shaft (52) of the outer rotary knob (50) is arranged in an axially displaceable manner in a guide channel (42) of the coupling unit (40), the connecting element (24) preferably being different from that of the outer rotary knob (50 ) pioneering side of the inner rotary knob (10) can be acted upon by means of a counter-holding tool. Locking system according to at least one of the preceding claims,
characterized, that the code input unit is at least partially arranged in a housing (51), in particular made of plastic, connected to the shaft (52) of the outer rotary knob (50), and / or that the coupling unit (40) is approximately cylindrical and is at least partially arranged in a housing (11), in particular made of plastic, connected to the sleeve (12) of the inner rotary knob (10), the free cross section of which is preferably approximately the cross section of the coupling unit (40 ) corresponds. Locking system according to at least one of the preceding claims,
characterized, that the coupling unit (40) comprises at least one preferably pin-shaped driver which can be moved axially between a freewheeling position and a driving position, in particular by means of a motor of the coupling unit (40) which can be controlled by the code input unit, the driver in the driving position in a recess ( 14) of the inner rotary knob (10) engages, and / or that in a rotationally fixed, in particular in one piece with the sleeve (12) of the inner rotary knob (10) connected driving disk (16), which preferably forms an end face region of a cylindrical housing (11) for the coupling unit (40), at least one, preferably several, distributed in the circumferential direction arranged recesses (14) for a driver of the coupling unit (40) are formed. Locking system according to at least one of the preceding claims,
characterized, that the coupling unit (40) comprises a movement sensor which is designed to detect a rotational movement of the coupling unit (40) and to block an axial movement of a driver of the coupling unit (40) during such a rotational movement, and / or that a stop (56) is formed on the shaft (52) of the outer rotary knob (50), which interacts with the region of the coupling unit (40) delimiting an insertion opening of a guide channel (42), and / or that on the sleeve (12) of the inner rotary knob (10) and / or on the shaft (52) of the outer rotary knob (50) at least one preferably designed as a circumferential groove fixing recess (18, 58) is formed, which is used for axially fixing the inner rotary knob (10 ) or the outer rotary knob (50) with a striking plate or a rosette (15, 55) of the door, in particular with a fixing spring (17, 57) of the striking plate or rosette (15, 55) can be detachably engaged. Locking system according to at least one of the preceding claims,
characterized, that the closing element (30) on the sleeve (12) of the inner rotary knob (10) is axially displaceable, and / or that an axially extending guide slot (19) for a guide and actuating rib (32) of the closing element (30) is formed in the wall of the sleeve (12) of the inner rotary knob (10), and / or that the closing element (30) is connected to a cylinder adapter (34) rotatable relative to the closing element (30), and / or that the closing element (30) is arranged closer to the one axial end of a cylinder adapter (34) than to the other axial end. Locking system according to at least one of the preceding claims,
characterized, that a cylinder adapter (34) and the closing element (30) are placed on a common, preferably made of plastic bearing sleeve (36) which is axially displaceable on the sleeve (12) of the inner rotary knob (10), and / or that the closing element (30), preferably a common bearing sleeve (36) of a cylinder adapter (34) and the closing element (30), can optionally be plugged with one or the other axial end first onto the sleeve (12) of the internal rotary knob (10), and / or that a cylinder adapter (34) has two, in particular annular bearing sections (35), each of which is plugged onto an axial end of a bearing sleeve (36), between which a bearing section (31) of the closing element (30) plugged onto the bearing sleeve (36) is arranged is, and / or that a with a guide slot (19) of the sleeve (12) of the inner knob (10) cooperating guide and actuating rib (32) of the closing element (30), which is preferably formed on a bearing section (31) of the closing element (30) by a Slot (37) of a bearing sleeve (36) protrudes into the interior of the bearing sleeve (36).

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