DE202009017880U1 - Lock cylinder with automatic return of the closing member - Google Patents

Abstract

The cylinder has a flange section (3) comprising a housing (1). A cylinder core (4) is rotatably supported in a bearing section (2) and rotatably connected with a closing member (5). A return spring i.e. pressure spring, is fastened to the housing, and engaged at an eccentric pin, which is arranged eccentric to rotational axis of the cylinder core, to rotate the cylinder core to a neutral position. An end of the return spring is engaged at a fastening pin that is arranged in a chamber of the flange section, where another end is engaged at the eccentric pin of the cylinder core.

Description

The The invention relates to a lock cylinder, wherein the cylinder core turned back to a neutral position with a return spring is and in which the return spring in such a way on the cylinder core attacks that he is in an approximately 180 ° twisted position to Neutral position assumes a dead center position.

Such a lock cylinder is for example from the DE 10 2006 020 614 A1 previously known. There sits on the cylinder core a helical compression spring which cooperates with a slider which rides on the cylinder core, but is rotatably coupled to the housing. The slider has a control cam which cooperates with a control projection of the closure member such that rotation of the cylinder core from a neutral position results in a return torque which is capable of rotating the rotated lock cylinder back to the neutral position.

A similar lock cylinder describes the DE 10 2004 048 231 A1 , Again, the return spring of the provision of the twisted cylinder core is used in a neutral position in which the closing member is located substantially in an alignment with the flange portion of the housing.

In the from the DE 695 05 725 T2 Her known lock cylinder is provided a leg spring, which is attached on the one hand to a mounting pin and on the other hand engages an eccentric of the lock cylinder. Unlike the locking cylinders discussed above, here the angle of rotation of the cylinder core is limited, so that no dead center position can arise.

From the DE 103 16 522 B3 For example, a lock cylinder is known in which a compression spring acts on an eccentric sleeve to apply a return torque to the cylinder core when it is rotated from the neutral position. This return spring engages the cylinder core so that it assumes a dead center position in an approximately 180 ° twisted position to the neutral position.

The DE 102 43 615 A1 describes an electronic cylinder system for panic locks. The electronic cylinder system described there has an external rotary knob with axis, which is guided through a cylinder adapter with closing element to the inside of the door. There is a disk rotatably mounted on the axis. This disc carries an eccentric pin on which a tension spring acts. The other side of the tension spring is anchored against a door-mounted mounting plate. The tension spring ensures that the closing element is turned back after being twisted.

The previously described lock cylinder or the last described Cylinder adapter is used on panic locks. panic locks Make the request to the lock cylinder that the closure member of the lock cylinder always in a lower neutral position must stand, otherwise it hinder the panic function of the castle could.

to closing technical development of this lock cylinder a supplementary spring is proposed which is only in the area the dead center comes into effect. It forces near the dead center the cylinder core on a supplementary torque, which away from the dead center works. The spring forces of the return spring and the supplement spring add up in the area near the Dead center position such that there around the dead center around the Gesamtfederkennlinie steeper runs and only in the dead center one Spit ze possesses. The supplementary spring can be a bow spring which consists of a bent wire, wherein the wire is preferred to a ring is bent. The ring may have the shape of an onion. The top of the ring spring, which is sloping straight Connecting strap sections can with a stop interact, in diametrically opposed to the eccentric pin attached to the cylinder core. The opposite of the pen tip Attachment section of the supplementary spring can be attached to a Wall of the chamber to be fixed, located in the flange section of the housing is located. There is a spring holder provided in which the attachment end is tied up with movement play. A Fixing screw can in the ring clearance of the bow spring intervention. In a further development of the invention, it is provided that the eccentric stop carries a roll. The summit The supplementary spring acts with the outer Mantle wall of this role together. Since the role of the stop pin can turn, the dead center has taken its stability.

In a variant of the invention it is provided that the return spring is not formed by a tension spring, but by a compression spring. The two facing away from each other ends of the compression spring in this variant also engage an eccentric pin or on a mounting pin. In the neutral position, the compression spring is relaxed or slightly biased. The eccentric pin is in this position in its farthest position to the mounting pin. If the cylinder core is rotated by 180 ° into a position in which the eccentric pin is closest to the fastening pin, the helical spring is almost completely in the chamber. Unlike the previously discussed variant, in which the helical turns of the spring in the neutral position are completely in the chamber, lie in the compression spring variant the spiral turns of the spring in the maximum position to the neutral position completely in the chamber. The compression spring is supported with their ends from each coupling elements. The coupling elements can be formed by eyes or bearing shells. Preferably, the coupling elements are formed by a piston and a cylinder, wherein the piston is inserted in the cylinder. Preferably, the piston or cylinder has an eye through which one of the pins, preferably the attachment pin protrudes, which is preferably formed by a fastening screw. On the lateral surface of the cylinder, in which the piston engages, sits the helical gear spring. The piston preferably has a cross-shaped cross-section. The opening of the cylinder has a corresponding counter-profile. The cylinder has a bearing shell which can be clipped onto the Exzerterzapfen. The length of the piston or the cylinder is dimensioned so that the piston is guided in each rotational position of the cylinder core in the cylinder.

embodiments The invention will be described below with reference to the accompanying drawings explained. Show it:

1 in perspective view the housing of a lock cylinder according to the invention,

2 the broadside view of the case,

3 an enlarged view of the section III-III in the neutral position,

4 a representation according to 3 in a dead center,

5 a representation according to 4 , wherein the cylinder core 4 is slightly rotated out of the dead center,

6 a section along the line VI-VI in 4 .

7 an exploded view of the housing elements 14 . 15 and their components,

8th a representation according to 6 a second embodiment,

9 a section along the line IX-IX in 8th .

10 a section of line XX in 8th .

11 an exploded view of the housing elements 14 . 15 and their components,

12 a representation according to 10 , wherein the cylinder core 4 is slightly unscrewed from the dead center.

13 a representation according to 6 a third embodiment in which the return spring is designed as a compression spring,

14 a section according to the line XIV-XIV in 13 in their neutral position,

15 a representation according to 14 with a cylinder core rotated by 180 ° from the neutral position,

16 the spring element of the third embodiment in a perspective view and

17 the spring element of the third embodiment in an exploded view.

The lock cylinders shown in the drawings are intended for installation in panic locks. Such panic locks have a lock housing with an insertion opening, which is the cross-sectional profile of the housing 1 equivalent. This opening has a portion corresponding to the bearing portion 2 corresponds and another section that the flange section 3 of the housing 1 equivalent. Within the housing of the panic lock are a latch and a latch. The trap is preconnected by a latch spring and can be withdrawn by pressing a pusher. The bolt can be preconnected by means of the lock cylinder. This is done by rotation of the closing member 5 , This occurs in a driving recess of the bolt tail. If the inner handle of the panic lock is actuated when the latch is locked, the latch also retracts at the same time as the latch retracts. So that's not the closing link 5 it must be blocked in the in the 2 shown neutral position are held.

The drive of the closing element 5 is done with a knob on a connection flange 17 on the cylinder core 4 is attached. The cylinder core 4 is about a pen 20 with a sleeve 19 of the closing member 5 rotatably connected. The cylinder core 4 has two sections 4 ' . 4 '' that has an eccentric pin 7 connected to each other. Under the liner of cans 16 is the cylinder core 4 in a bearing bore of the housing elements 14 . 15 rotatably ge stores. The housing elements 14 . 15 are located inside the door. On the outside of the door is also a cylinder core and a drill protection 18 which is formed by steel balls in a radial cavity of the flange portion 3 rests.

The housing element 14 forms a chamber 9 from that of the housing element 15 is closed. A fixing screw 8th and a retaining pin 26 hold the housing elements 14 . 15 at the central housing 1 , The fastening screw forms a fastening pin 8th out, the chamber 9 crosses. In which the chamber 9 crossing the shaft of the fastening screw is designed smooth-walled and is partially of a bearing sleeve 10 embraced The bearing sleeve 10 stores a hook end 16 a helical gear train spring 6 , The other end of the hook 6 ' the tension spring 6 also engages with the interposition of a bearing sleeve 10 on the eccentric pin 7 at.

The two bearing sleeves 10 are essentially the same design and can be made of metal or a plastic. The bearing sleeves 10 have an axial slot, allowing them on the mounting pin 8th or the eccentric pin 7 can be clipped on. The edges of the axial slot form radially projecting webs 11 . 12 , In front of the jetty 12 lies the free end of the hook 6 ' respectively. 6 '' , In front of the other jetty 11 is one turn of the spring 6 , On the outer shell of the bearing sleeve 10 There are two spaced apart axial ribs 13 with a depression provided in the center of the rib. In this depression lies the hook end 6 ' . 6 '' so the spring 6 rotatably and axially fixed to the bearing sleeve 19 connected is. The inner surface of the two bearing sleeves 10 slide on the outer walls of the eccentric pin 7 or the fastening pin 8th ,

The eccentric pin 7 has the same radial position as the closing element 5 , As a result, the spring forms 6 a return spring to the closing member 5 in the in the 2 and 3 to keep shown neutral position. In the neutral position are the helical turns of the return spring 6 essentially in the flange section 3 trained chamber 9 one. Will the cylinder core 4 in the in the 4 and 6 rotated position shown, so the return spring 6 curious; excited. In the 4 and 6 takes the cylinder core 4 a dead center position. He is held there in an unstable equilibrium. Will the cylinder core 4 slightly from this dead center, for example, in the in 5 shifted position shown, so generates the return spring 6 a torque on the cylinder core 4 and turns the cylinder core 4 automatically in the in the 2 and 3 shown neutral position back.

That in the 8th to 12 illustrated second embodiment additionally has a supplementary spring 22 on, which only comes into effect in the dead center. At the supplementary spring 22 it is a bow spring made of a bent into a ring spring steel wire. The outline contour of the ring resembles an onion shape and forms a point 22 ' out. The top 22 ' opposite portion, in which the free ends of the spring wire are close to each other, forms a fixing portion. This section lies between two jaws of a spring holder 21 that with a fixing screw 23 on a wall of the chamber 9 screwed on. The wall is from the closure part 15 educated. The fixing screw 23 passes through the interior of the bow spring 22 , The spring is located with lateral bending movement in the pen holder.

The summit 22 ' and get to the top 22 ' subsequent rectilinear sections 22 ' of the spring wire lie in the region of the cylinder core 4 Overlying cavity of the housing elements 14 . 15 , The eccentric pin 7 forms on the supplementary pen 22 associated side a ring land 27 out to the bearing sleeve 10 axially fix. In diametrically opposed to the eccentric pin 7 there is a stop pin 24 , which is formed by the end of a threaded screw or fixed force or positive locking axis, in the axial direction in the cylinder core 4 is pressed. The stop 24 carries a role 25 , The latter is around the stop 24 rotatable. The role 25 has an outer circumferential surface, which in the area of effect of the pointed 22 ' or the subsequent sections 22 '' located.

Will the cylinder core 4 turned from a neutral position, so the return spring 6 cocked until the eccentric pin 7 in the 8th . 9 and 10 idealized shown Totpunktstellung achieved. Shortly before reaching the dead center, the outer surface of the roller acts 25 the spring section 22 '' and bends the spring such that this torque on the stop 25 which is directed away from the dead center position. In the dead center position, the spring 22 that in the spring 10 assume theoretical position in which the tip 22 ' lies in the dead center line. Because of the movement of the complementary spring 22 but in reality this is not the case. In reality, the tip is 22 ' slightly offset to the dead center line, in order also in the dead center of the eccentric pin 7 a torque on the cylinder core 4 exercise. He reaches for the top 22 ' subsequent straight section 22 '' of the spring clip 22 on the roll 25 at.

The last discussed the dead center effect reducing supplementary spring can be provided not only on a lock cylinder, wherein the return spring is formed by a tension spring. The supplementary spring arrangement is also suitable for a lock cylinder, as it is known from the aforementioned prior art ago. A supplementary spring which only comes into effect in the area of the dead center position can, in particular, be connected to a closing cycle in accordance with DE 10 2004 048 231 B4 or on a lock cylinder according to DE 10 2006 020 614 be provided.

That in the 13 to 17 illustrated third embodiment differs from the two embodiments described above by the nature of the return spring. While in the embodiments described above, the return spring 6 is a tension spring, the return spring is in the in 13 to 17 illustrated third embodiment, a compression spring 6 , Also in this embodiment, the lock cylinder forms a chamber 9 out. The housing element 15 is by means of a fastening screw 8th , which forms a fastening pin, with the flange portion 3 connected to the lock cylinder. The fixing screw 8th reaches through a fastening eye 29 a piston 28 , The piston 28 protrudes from a support surface 33 and reaches into a hollow 32 a cylinder 30 one. The cylinder 30 also protrudes from a support surface 34 from. The support surface 34 is from a bearing shell 31 formed on the eccentric pin 7 is clipped on.

On the lateral surface of the cylinder 30 is the helical gear spring 6 , The end 6 ' the helical compression spring is supported on the support surface 33 of the eye 29 and the opposite end 6 '' the return spring 6 on the support surface 34 the bearing shell 31 from. The length of the piston 28 or of the cylinder 30 is dimensioned so that in the in 15 illustrated 180 ° twisted position from the neutral position of the piston 28 completely in the cylinder 30 plugged. In the in 14 shown neutral position is only the end portion of the piston 28 in the cavity 32 of the cylinder 30 ,

For non-torque-loaded closing member 5 ensures the pressure force of the preloaded return spring 6 for that the cylinder core 4 in the 14 shown assumes neutral position. In this neutral position has the eccentric pin 7 its maximum distance from the mounting pin 8th , The return spring 6 partially protrudes into the cross-sectional area of the cylinder core 4 ,

Is based on the in 14 illustrated neutral position of the cylinder core 4 turned 180 °, it reaches the in 15 illustrated position in which the compressed return spring 6 completely in the chamber 9 rests.

The piston 28 can be formed by a casting, in particular by a plastic injection molded part and with the interposition of a bearing sleeve 10 on the mounting pin 8th be stored. Also the cylinder 30 can be made of plastic. He can also with the interposition of a bearing sleeve on the eccentric pin 7 be stored. The bearing shell 31 surrounds the eccentric pin 7 around a circumferential area greater than 180 °, so that the diametral of the two arms of the bearing shell is included.

It is of course also possible that the Cylinder the eye and the piston forming the bearing shell.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102006020614 A1 [0002]
• DE 102004048231 A1 [0003]
• - DE 69505725 T2 [0004]
• - DE 10316522 B3 [0005]
• - DE 10243615 A1 [0006]
• - DE 102004048231 B4 [0036]
• - DE 102006020614 [0036]

Claims (6)

Lock cylinder with a bearing section ( 2 ) and a flange portion ( 3 ) housing ( 1 ), one in the storage section ( 2 ) rotatably mounted cylinder core ( 4 ), which with a closing member ( 5 ) is rotatably connected, and with a return spring ( 6 ) to the cylinder core twisted from a neutral position ( 4 ) to turn back to the neutral position, wherein the return spring ( 6 ) on the cylinder core ( 4 ) attacks that it assumes a dead center position in an approximately 180 ° twisted position to the neutral position, characterized by a torque acting in the direction of the dead center position, a torque acting in the direction away from the dead center position on the cylinder core ( 1 ) supplementary spring ( 22 ). Lock cylinder according to claim 1, characterized in that the supplementary spring ( 22 ) is a bow spring, which in particular has a substantially onion shape. Lock cylinder according to one of the preceding claims, characterized in that the supplementary spring ( 22 ) with an eccentric pin diametrically opposite stop ( 24 ) cooperates. Locking cylinder according to one of the preceding claims, characterized in that a tip ( 22 ' ) of the supplementary spring ( 22 ) with the peripheral surface of a rotatable on the stop ( 24 ) arranged roll ( 25 ) cooperates. Locking cylinder according to one of the preceding claims, characterized in that one of the tips ( 22 ' ) opposite mounting portion of the spring ( 22 ) with bending clearance by means of a spring holder ( 21 ) on the wall of a chamber ( 9 ) of the flange portion ( 3 ) is attached. Locking cylinder according to one of the preceding claims, characterized by a bracket interior of the spring ( 22 ) penetrating fixing screw ( 23 ).