EP1447499A2 - Double cylinder lock - Google Patents

Abstract

Lock cylinder, especially a double lock cylinder (1), comprises a lock element (27) arranged coaxially between two cylinder cores (9, 10), and a coupling (14) consisting of two coupling elements (16, 17), each having a spring element (18, 19) for rotating connection of the cylinder cores and lock element. A pressure spring (15) arranged between the two coupling elements has a lower spring force than the spring force of the spring elements. Independent claims are also included for alternative lock cylinders. Preferred Features: When no key is inserted, the coupling elements are arranged a distance apart by the pressure spring so that the lock element can freely rotate.

Description

The invention relates to a double locking cylinder with a coaxial between the two closing cores arranged closing member and with one two coupling elements each having a spring element Coupling for the rotational connection of the cylinder core and locking element, one inserted into the key channel of the one cylinder core Key with its tip the spring element of this cylinder core rotatably assigned coupling element.

Double locking cylinders of the type in question are known per se. The German utility model 19 929 05 describes such a double locking cylinder, the structure of the double locking cylinder described there essentially corresponds to the state of the art. The essential to the invention Thought of this utility model is there on the design and arrangement of the coupling members turned off to the closing member. The latter spring-loaded coupling elements occur with a keyless one State of the double locking cylinder locking in a positive connection with the locking member so that the latter is not in the keyless state is freely rotatable. One of the two cylinder cores is fitted with a key the key tip shifts the one assigned to the cylinder core with one Spring element equipped, coupling member such that this is associated with the Opposing spring-loaded other coupling member other than positive locking brings with the locking member, what a free rotation of the locking member when the key is turned.

The invention is based, the generic double lock cylinder the task to improve.

The task is solved by a between the two coupling elements arranged compression spring, the spring force is less than the spring force of the Spring elements. As a result of such a configuration, the two coupling elements are only in indirect attachment to each other. This makes them more advantageous Way the coupling elements with the key not inserted in such a way spaced from the compression spring that the closing member is freely rotatable. This proves itself in particular when mounting the double locking cylinder in a lock arranged in a door leaf is an advantage. The user can do this easily turn the freely rotatable locking element by hand, so that its outer contour matches the outer contour of the cylinder housing escapes to then the well-known installation of such a double locking cylinder make. It is also a security Advantage of this invention of great importance such that when through a unauthorized users use violent shear forces on either of the two locked Cylinder cores are exercised, for example by means of one in the Key channel of a screwdriver blade driven into the cylinder cores, after overcoming the shear force of the cylinder core together with this in the form-fitting coupling member is freely rotatable, but not that Closing member. Around the freely rotatable locking element with one of the two coupling elements to bring it into a positive connection, a suitable key must be inserted, the key tip being assigned to the respective cylinder core spring-loaded coupling element with the locking member in one Form fit brings to control the latter properly. For this purpose, in advantageously the coupling elements in a non-circular through opening of the closing member to form a positive connection in the axial direction insertable, the positive engagement by engagement of a radial extension of the Coupling element can be achieved in a radial recess of the closing member. It is further preferably provided that the radial recess is in the out of alignment position lying radial extension the key tip of the inserted key the spring element tensions such that after a relative rotation in the cylinder core and the closing element when the escape position is reached, the coupling element shifted to the clutch position. On the one hand, the spring element can be used as a leaf spring be trained. On the other hand, it is provided that the spring element is a Foam body is, the training as a foam body has the advantage possesses that with long-term use of the double locking cylinder counteracted the mechanical signs of wear at the tip of the key is. For a firm hold of the spring elements, it is proposed that the spring elements each lie in a pocket of the coupling element, the pocket for the foam body advantageously has an undercut Reveal has the same for the positive reception. This is Insofar as advantageous that there are no further ones for the firm hold of the foam body Holding means, such as an adhesive medium, are used have to. The compression spring preferably lies in a cup-shaped recess, the recess of the one coupling element forming an edge collar, which can enter a recess in the other coupling element. There is also the possibility of varying the length of the locking cylinder Coupling elements of different lengths can be used. Thus the Lock cylinder with key inserted in one of the two cylinder cores by inserting a second key in the other cylinder core too Can be operated by the other key.

A second aspect of the invention also relates to a double lock cylinder with a koxial arranged between the two closing cores Closing member and with a coupling consisting of two coupling elements for rotary connection between cylinder core and locking element. The Coupling elements are cushioned against each other by a compression spring. This Compression spring is compressed when a key is inserted into the key channel becomes. The coupling element is from the top of the key brought into a coupling position with the locking member. This shift takes place against the restoring force between the coupling elements arranged compression spring.

For the advantageous development of such a locking cylinder provided that the arranged between the two coupling elements Spring is designed as a foam body. As a result of this configuration used a new material for a compression spring previously made of spring steel. Among other things, this brings price advantages.

Another aspect of the invention relates to a locking cylinder with an in a cylinder housing rotatably mounted cylinder core, the rotatability of at least one tumbler spring-loaded against a tumbler spring is secured against rotation. Such a tumbler usually consists of a core pin, which is slidably mounted in a bore of the cylinder core and from a housing pin, which is slidably mounted in a housing bore. The The core bore and the housing bore are aligned in the locked position of the The lock cylinder. In this locked position, the housing pin crosses the parting line between the cylinder core and the housing cavity for the cylinder core. A spring supported against the bottom of the housing bore holds the housing pin in the locked position.

For the advantageous development of such a locking cylinder The invention provides that the tumbler spring is designed as a foam body is.

Finally, the invention relates to a double lock cylinder according to the generic term of claim 1, wherein the inserted key with its Tip applied to a spring element of a coupling element.

According to the invention, it is proposed that this be a coupling element associated spring element is a foam body.

Fig. 1

eine vergrößerte Darstellung eines schlüssellosen Doppel-Schließzylinders mit einem Teilausschnitt im Kupplungsbereich des Schließgliedes;

Fig. 2

eine Darstellung gemäß Fig. 1, jedoch mit einem in einen Zylinderkern eingesteckten Schlüssel, wobei die Schlüsselspitze über ein Federelement ein Kupplungselement in Formschluß zum Schließglied bringt;

Fig. 3

eine Darstellung gemäß Fig. 2, wobei in den anderen Zylinderkern ebenfalls ein Schlüssel eingesteckt ist und drehbetätigt wurde;

Fig. 4

eine Darstellung gemäß Fig. 3, wobei hier jedoch beide Kupplungselemente über die Schlüsselbetätigung in Formschluß mit dem Schließglied stehen;

Fig. 5

eine perspektivische Einzeldarstellung eines Kupplungsteiles;

Fig. 6

eine Ansicht gegen das Kupplungselement gemäß Fig. 5;

Fig. 7

den Schnitt gemäß der Linie VII - VII in Fig. 6;

Fig. 8

die Ansicht auf das Kupplungselement gemäß Fig. 5;

Fig. 9

eine perspektivische Einzeldarstellung des anderen Kupplungselements;

Fig. 10

eine Darstellung gemäß Fig. 6, jedoch das andere Kupplungselement betreffend;

Fig. 11

den Schnitt gemäß der Linie XI - XI in Fig. 10;

Fig. 12

eine der Fig. 8 entsprechende Darstellung, jedoch das andere Kupplungselement betreffend;

Fig. 13

ein weiteres Ausführungsbeispiel eines Doppel-Schließzylinders gemäß der Darstellung in Fig. 2, wobei hier jedoch die Federelemente als Blattfedern ausgebildet sind;

Fig. 14

eine weitere Darstellung des zweiten Ausführungsbeispieles gemäß einer Stellung in Fig. 4;

Fig. 15

einen Schließzylinder in einer Darstellung gemäß Fig. 1, bei dem auch das zwischen den beiden Kupplungselementen angeordnete Federelement aus einem Schaumstoff sowie eine Zuhaltungsfeder aus Schaumstoff besteht; und

Fig. 16

einen Querschnitt durch einen Schließzylinder eines weiteren Ausführungsbeispieles der Erfindung.

Two exemplary embodiments of the invention are explained below with reference to FIGS. 1 to 15. Show it:

Fig. 1

an enlarged view of a keyless double locking cylinder with a partial section in the coupling area of the locking member;

Fig. 2

a representation of Figure 1, but with a key inserted into a cylinder core, the key tip brings a coupling element in positive engagement to the locking member via a spring element.

Fig. 3

a representation of Figure 2, wherein a key is also inserted in the other cylinder core and was rotated.

Fig. 4

a representation of FIG 3, but here both coupling elements are in positive engagement with the locking member via the key actuation.

Fig. 5

an individual perspective view of a coupling part;

Fig. 6

a view against the coupling element of FIG. 5;

Fig. 7

the section along the line VII - VII in Fig. 6;

Fig. 8

the view of the coupling element of FIG. 5;

Fig. 9

an individual perspective view of the other coupling element;

Fig. 10

a representation of FIG 6, but regarding the other coupling element.

Fig. 11

the section along the line XI - XI in Fig. 10;

Fig. 12

an illustration corresponding to FIG. 8, but relating to the other coupling element;

Fig. 13

a further embodiment of a double locking cylinder as shown in Figure 2, but here the spring elements are designed as leaf springs;

Fig. 14

a further representation of the second embodiment according to a position in Fig. 4;

Fig. 15

a lock cylinder in a representation of Figure 1, in which the spring element arranged between the two coupling elements consists of a foam and a tumbler spring made of foam. and

Fig. 16

a cross section through a lock cylinder of a further embodiment of the invention.

Regarding the double locking cylinder 1, it is a profile double cylinder. The latter has a cylinder housing 2 in which a central one Cutout 3 is incorporated into the flange-like section of the cylinder housing 2 reaches into it. Below the section 3 is one Threaded hole 4 for a cylinder screw. Be through the cutout 3 two housing halves 5 and 6 created.

In the circular cylindrical section of each housing half 5 and 6 is a longitudinal bore 7 and 8 for mounting a cylinder core 9 and 10. Die Axial position securing of the cylinder cores 9 and 10 takes place in itself known way. The arrangement and positioning of the for the cylinder core fuse necessary core pins and corresponding holes correspond the prior art and are here for the sake of clarity in the exemplary embodiments not shown.

The facing ends of the cylinder cores 9 and 10 are with a Provide open-edge recess, the wall of which is in the plane of a key channel 13 is broken. Between the inner, from the bottom of the edge open Recess 11 and 12 formed end faces 11 'and 12' of the cylinder cores 9 and 10, a coupling member 14 of a coupling device extends. The coupling member 14 has two means on a central axis a a compression spring 15 spring-loaded coupling elements 16 and 17, the latter coupling elements 16 and 17 carriers of spring elements 18th and are 19.

In the first embodiment shown in FIGS. 1 to 12 the spring elements 18 and 19 formed as a foam body. In the in the Fig. 13 to Fig. 14 illustrated second embodiment form leaf springs the spring elements 18 and 19 from.

Regarding the material properties of all in the exemplary embodiments as Foam body formed spring elements 18 and 19 and 15 and 40 in 15 is made to the published patent application DE 197 50 725 A1.

The spring elements 18 and 19 of the coupling elements 16 and 17 are vertical pockets 20 and 21 of the coupling elements introduced to the central axis a 16 and 17 introduced. For the spring elements made of foam 18 and 19 are the pockets 20 in the first embodiment and 21 with undercut reveals 22 and 23 so that the pockets 20 and 21 have a T-shaped cross-section and thus for positively receiving the foam body.

The coupling elements 16 and 17 have on their facing end faces axially introduced cup-shaped recesses 24 and 25, being on the end face of the coupling element 16 around the opening of the cup-shaped recess 24 a frustoconical rim collar 26 is formed. The cup-shaped recess 25 of the coupling element 17 corresponds to that in its dimensions Equivalent to the collar 26.

The compression spring 15 already mentioned is supported with its winding ends on the bottoms of the pot-shaped recesses 24 and 25, whereby both Coupling elements 16 and 17 are cushioned from one another. Here is the spring force the compression spring 15 dimensioned less than the spring force of each spring element 18 or 19.

Furthermore, the double locking cylinder 1 has a central cutout 3 mounted locking member 27, which has a central locking member hub wall 28 has. Are each on both sides of the locking member hub center wall 28 Openings 29 are provided in which the opposite ends of the cylinder cores Immerse 9 and 10. In addition, the closing member hub center wall 28 pierced by a non-circular through opening 30, wherein the non-circular through opening 30 has a radial recess 31. Furthermore, the through opening 30 are in the keyless state through the Compression spring 15 axially spaced apart coupling elements 16 and 17 upstream, as a result of which the closing member 27 is freely rotatable (cf. in particular the representation in Fig. 1).

The coupling elements 16 and 17 already described have below of the pockets 20 and 21 arranged projecting radial extensions 32. Above in addition, the outer contour of the coupling elements 16 and 17 essentially follows the inner contour of the through opening 30 of the closing member 27 the inner contour of the through opening 30 is dimensioned somewhat larger than that Outer contour of the coupling elements 16 and 17.

The operation of the double locking cylinder is described in more detail below.

The illustration in Fig. 1 shows the keyless state of the double locking cylinder. The with the cylinder cores 9 and 10 in a positive connection standing coupling elements 16 and 17 are due to this operating situation spaced from the spring force of the compression spring 15 Through opening 30 of the closing member 27. The closing member 27 is thus free rotatable, which facilitates assembly in a lock arranged in a door leaf. In the representation of the door leaf with a lock was in the exemplary embodiments in FIGS. 1 to 14 have been omitted for the sake of clarity, the same arrangement corresponds to the prior art.

To via the double lock cylinder 1 a closed position of the not shown Lock with the help of a reversible key shown in dash-dot lines 33, the user must insert the same key 33 into one insert the key channels 13. 2 is the key channel 13 of the Cylinder core 10 equipped with said key 33. Along with that Inserting the key 33 in the cylinder core 10 also shift spring-loaded core pins in a manner known per se, which is why here a detailed description has been omitted. Regarding the key design was arranged on a reversible key on the broad sides Hollows resorted to. Of course, the key can too have hollows on its narrow sides. In addition, a conventional one Beard keys are used, of course the arrangement the core pins, not shown, would have to be taken into account.

If the key 33 is fully inserted into the key channel 13 of the cylinder core 10, shifts the key tip under the action of the spring element 18 the associated coupling element 16 against the spring force of the compression spring 10 axially in the direction of the closing member 27. As a result, the spring element occurs 16 in the through opening 30 of the closing member 27 in a form-fitting manner. The Form-fit between the coupling element 16 and the closing member 27 is achieved in that the radial extension 32 of the coupling element 16 in the Radial recess 31 of the closing member 27 retracts. Thus, by means of Key actuation via the cylinder core 10, which with the cylinder core 10 in Form-fitting coupling element 16 and that with the coupling element 16 positive locking member 27 a closed position of the not shown lock can be brought about. This is only possible because that the spring force of the compression spring 10 is less than the spring force of the spring element 18.

Is the double lock cylinder 1 or the cylinder core 10 in a closed position continues to be equipped with the key 33 and then turns one An emergency situation arises, the design essential to the invention comes to carry.

For this purpose, the user inserts another key 33 in the keyless one Key channel 13 of the opposite cylinder core 9. Since already previously the locking member 27 by key actuation about the central axis a was rotatably pivoted, it is the coupling element 17 under the Spring force applied to the spring element 19 by means of the key tip of the subsequently inserted key 33 is not possible, an axial displacement to make in the direction of the through opening 30 of the closing member 27, to thus establish a positive connection with the closing member 27. As the Representation in Fig. 3 shows, which is supported by the opening of the cup-shaped Recess 25 perforated end face of the coupling element 17 flat on the end face of the closing member hub center wall 28, that is, one Axial displacement of the coupling element 17 is not in this state possible. Through this support, the key tip is applied to spring element 19 consisting of the foam material the same compressed in a force-storing manner (cf. in particular the illustration in FIG. 3). Around the coupling element 17 with the closing member 27 in a positive connection to bring, by a relative rotation of the second key 33 of the cylinder core 9 together with the coupling element mounted positively therein 17 are rotated about the central axis a. Is after the relative rotation of the Radial extension 32 of the coupling element is congruent with the radial recess 31 of the closing member hub center wall 28, causes the preloaded Spring element 19 an axial displacement of the coupling element 17 in the through opening 30 of the closing member hub center wall 28 Spring element 17 axially displaceable against the spring force of the compression spring 10 is shiftable, the spring force of the compression spring 10 must be dimensioned lower than the spring force of the spring element 19. After entering the through hole 30 support the opposite end faces of the coupling elements 16 and 17 flat against each other. The truncated cone occurs Edge collar 26 of the coupling element 16 in the equivalent shape Pot-shaped recess 25 of the coupling element 17. accompanying there is a balance of forces between the two spring elements 18 and 19 produced, the coupling element 17, the coupling element 16 in the axial direction slightly shifted, which is accompanied by minor compression of the spring element 18 draws. Thus both cylinder cores are standing 9, 10 via the coupling elements 16 upstream of the cylinder core ends, 17 in positive engagement with the locking member 27 (cf. in particular the illustration in Fig. 4).

The shown in Figs. 13 and 14, i. W. the embodiment described above corresponding second embodiment also has spring elements 18 and 19, the latter, however, being designed as leaf springs. Behaviour corresponds to the spring elements 18 and 19 designed as a leaf spring essentially the foam design previously described. The one end of the spring elements 18 and 19 lies on one side in one Pocket 34 of the coupling elements 18 and 19. To achieve a balance of forces is also the spring force of the in this embodiment Compression spring 10 dimensioned less than the spring force of the leaf spring Spring elements 18 and 19.

In the embodiment shown in FIG. 15, not only are the respective ones Coupling elements 16, 17 associated spring elements 18, 19 made of a foam body. In this embodiment too the spring element designated by the reference number 15, with which the two Coupling elements 16, 17 are cushioned against each other, made of foam manufactured. The spring element 15 is formed by a foam body.

In Fig. 15 is also an example of a two-pin Pen tumbler drawn. Located in a core bore of the cylinder core 9 a core pin 41. The core bore is aligned with a housing bore. A housing pin 42 is seated in this housing bore. The two pins 41 are supported by a spring element supported on the bottom of the housing bore 40 spring-loaded in the direction of the cylinder core 9. According to the invention is this spring element 40, which forms the tumbler spring, formed as a foam body.

16 shows a further exemplary embodiment of the invention. As with The embodiment shown in FIG. 15 is the two here Pin tumblers, which consist of housing pin 41 and core pin 42, of spring elements 40 applied, which are formed by a foam body. In addition to the embodiment shown in FIG. 15, the Core supplementary tumblers 44. These supplementary tumblers 44 are also cushioned by foam bodies 43. The foam body lies there 43 into openings in the jacket wall surrounding the core bore. This Openings are closed by plugs 45. The plugs 45 form in the direction of the core facing recesses in which those of foam bodies insert formed spring elements. The core pins 42 act with notch cuts, which are cut into the key chest of a key. The supplementary tumbler pins 44 each feel ribs on the key broadside from. You will of the foam body 43 towards your Release position applied. Accordingly, the foam body 43 a material thickness that corresponds approximately to the wall thickness of the housing section, in which the spring elements 43 lie. The on the tumbler pins 44 facing end surface of the spring elements 43 is almost flush with the inner wall the core hole. The end face is only slightly out of alignment set back so as not to impair free rotation of the cylinder core 9. The supplementary tumblers 44 are of broadside ribs of an inappropriate key is controlled in its locked position in which it is the spring element 43 compressively enter the blocking opening 46.

All of the features disclosed are (in themselves) essential to the invention. In the revelation the disclosure also hereby includes the disclosure content of the associated / attached Priority documents (copy of the pre-registration) in full included, also for the purpose, characteristics of these documents in To include claims of the present application.

Claims (17)

Lock cylinder, in particular double lock cylinder (1) with a lock member (27) arranged coaxially between the two cylinder cores (9, 10) and with a clutch (14) consisting of two clutch elements (16, 17) each having a spring element (18, 19) ) for the rotationally driving connection of the cylinder core (9, 10) and locking element (27), a key (33) inserted into the key channel (13) of the one cylinder core (9, 10) with its tip the spring element (18, 19) of the latter Cylinder core (9, 10) is applied to the coupling element (16, 17) which is assigned to it in a rotationally fixed manner, characterized by a compression spring (10) arranged between the two coupling elements (16, 17), the spring force of which is less than the spring force of the spring elements (18, 19). Lock cylinder according to claim 1 or in particular according thereto, characterized in that the coupling elements (16, 17) are spaced apart from the compression spring (10) when the key (33) is not inserted in such a way that the locking member (27) is freely rotatable. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the coupling elements (16, 17) can be pushed into an out-of-round through opening (30) of the locking member (27) to form a positive connection in the axial direction. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the positive connection can be achieved by engagement of a radial extension (32) of the coupling element (16, 17) in a radial recess (31) of the locking member (27). Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that when the radial extension (32) is out of alignment with the radial recess (31), the key tip of the inserted key (33) tensions the spring element (18, 19) in such a way that it rests a relative rotation in the cylinder core (9, 10) and closing element (27) when the escape position is reached, the coupling element (16, 17) is shifted into the coupling position. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the spring element (18, 19) is a leaf spring. Lock cylinder, in particular double lock cylinder with a locking member (27) arranged coaxially between the two cylinder cores (9, 10) and a coupling (14) consisting of two coupling elements (16, 17) each having a spring element (18, 19) for the rotationally driving connection of the cylinder core (9, 10) and locking member (27), a key (33) inserted into the key channel (13) of the one cylinder core (9, 10) with its tip the spring element (18, 19) of this cylinder core (9, 10) Torque-fixed assigned coupling element, characterized in that the spring element (18,19) is a foam body. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the spring elements (18, 19) each lie in a pocket (20, 21) of the coupling element (16, 17). Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the pocket (20, 21) has an undercut reveal (22, 23) for the positive reception of the foam body. Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the compression spring (10) lies in a cup-shaped recess (24, 25), the recess (24) of the one coupling element (16) forming an edge collar (26) that can enter the recess (25) of the other coupling element (17). Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that coupling elements (16, 17) of different lengths can be used to vary the length of the lock cylinder (1). Lock cylinder according to one or more of the preceding claims or in particular according thereto, characterized in that the lock cylinder (1) when a key (13) is inserted in one of the two cylinder cores (9, 10) by inserting a second key (13) in the other cylinder core ( 9, 10) can also be actuated by the other key (13). Locking cylinder, in particular double locking cylinder (1) with a locking member arranged coaxially between the two cylinder cores (9, 10) and with a coupling (14) consisting of two coupling elements (16, 17) for the rotational connection of the cylinder core (9, 10) and Locking element (27), a key (33) inserted into the key channel (13) of the one cylinder core (9, 10) with its tip the coupling element (16, 17) assigned to this cylinder core (9, 10) against a compression spring (15) acts on which compression spring is located between the two coupling elements (16, 17), characterized in that the compression spring (15) is formed by a foam body. Locking cylinder (1) with a cylinder core (9, 10) rotatably mounted in a cylinder housing (2), the rotatability of which is rotationally locked by at least one tumbler (41, 42, 43) sprung against a tumbler spring (40, 43), characterized in that the tumbler spring (40) is formed by a foam body. Lock cylinder according to claim 14 or in particular according thereto, characterized in that the tumbler has a core pin (41) which is mounted in a core bore of the cylinder core (9, 10) and a housing pin (42) which is in a bore of the cylinder housing (2) is stored. Lock cylinder according to claim 14 or in particular according thereto, characterized in that the spring elements (43) are arranged in housing bores (46) which are introduced into the jacket wall of the housing section forming the core bore. Lock cylinder according to claim 14 or in particular according thereto, characterized in that the bores (46) are closed by plugs (45) to which the foam bodies (43) are fastened in such a way that the end face (43 ') of the foam bodies (43) slightly recesses lie in the mouth area of the bore (46).

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