DE4237565C2 - Lock cylinder and method for manufacturing the lock cylinder - Google Patents

Abstract

According to one exemplary embodiment of the invention, in a lock cylinder having pairs of tumbler pins (22) the respective outer end of the housing-pin bore (24b) receiving a housing pin (22b) is closed by means of a ball (30) which is located with its top (S) in the virtual continuation (V) of the surface region (14) cut into by a housing-pin bore (24b), that is to say in that part-face region which has been eliminated as a result of the drilling away of the surface region (14). <IMAGE>

Description

The invention relates to a lock cylinder comprising Lock cylinder housing with an outer surface and one Core location hole, one in this core location hole rotatable lock cylinder core with a key self-inserting slot to hold a key and mind least one tumbler pair, this tumbler pair one in a core pin bore of the lock cylinder core guided core pin and one in a housing pin bore of the lock cylinder housing includes housing pin, which pins in a basic position of the lock cylinder housing opposite the lock cylinder housing with each other align and with the closing secret inserted Keys are set by biasing means so that one end part of the core pin facing each other and housing pin separating point in the cylindrical Interface between the core mounting hole and the Lock cylinder core lies and where the housing pin bore a surface area of the outer surface of the lock cuts the cylinder housing and by a closure means is closed.

Such a locking cylinder is for example from the German patent 33 38 713 known. With this be Known embodiment are usually several Pairs of tumbler pins in the direction of the longitudinal axis of the lock cylinders arranged one behind the other, the housing pin bores in the web part of a so-called Hahn profile Lock cylinder housing are added. The closure with tel to close the housing pin holes are from Grooved pins formed in the outer ends of the Ge house pin bores, d. H. that in the area of the sack bottom ends of the housing pin bores of the profile web are pressed in. The ends of the grooved pins in the area of the Bag bottom surface are processed so that they the  cylindrical bag bottom surface according to its cylindrical shape complete completely.

It is in the manufacture of the known lock cylinder necessary when pressing the grooved pins into the housing pin holes the outer ends of the grooved pins at least outside the area of the apex line of the cylindrical Bag bottom surface protrude beyond this bag bottom surface leave and the side of this vertex line, over notch parts protruding from the bottom of the sack by machining to remove the smooth To obtain bag bottom area. Of course it is also possible the grooved pins a little further over the to allow cylindrical bag bottom surface to project ensure that when removing the over the cylindrical Sack bottom surface protruding notch pin parts with security a completely smooth and complete cylindrical bag bottom area is preserved. In any case, it is cutting Post processing required.

One could think of the post-machining for Achieving a smooth cylindrical bag bottom surface thereby avoiding having the grooved pins on each one end with a corresponding cylindrical end surface provides through this the cylindrical bag bottom surface then in each case in the area of the housing pin bores going to add. However, such a technique would in addition to the exact longitudinal positioning of the grooved pins also an exact angular positioning of the grooved pins require so that the manufacture of the lock cylinder would be very difficult overall.

It is a special construction from DE-OS 29 23 598 a lock cylinder known, in which in the housing  pin bores lining sleeves were used, which in turn the housing pins and those on the housing pins have acted preload springs. Doing one to be able to influence the closure, d. H. to the To be able to exchange tumbler pin pairs, the outer ends of the lining sleeves closed with screw plugs.

Except for this special case, the lock cylinder applied The manufacturing technology so far the rule that the housing pin holes are completely flush at their ends must be as described above with reference to the different manufacturing options in the closing cylinder according to DE-PS 33 38 713. This before position of the completely flush and smooth finish the housing pin bores were founded on the one hand that about the profile of the lock cylinder housing because of Need this lock cylinder housing subsequently in Mortice locks or other constructions with specified Being able to use the admission profile must not withstand anything. On the other hand, there was the construction of the lock cylinder but also generally the requirement that the closure do not place the housing pin holes opposite the Lock case outer surface recessed cavities may exist because these cavities such as impurities Could pick up chips or the like, which then Push the lock cylinder housing into the profile customized recordings of mortise locks or others Constructions could hinder. After all, that was too Idea spreads that a lock cylinder that with processors and also with end users to be offered as a precision element that Recognize its precision even in the outer finish should leave, so that for this reason too completely smooth surface of the locking cylinder profile  also in the area of the intersections with the Housing pin bores was required.

The invention has for its object in a lock cylinder of the type mentioned at the beginning and in a procedure its manufacture, shaping and positioning of the closure means indicating which post-processing the housing surface after the Closure means largely unnecessary and nevertheless for a smooth and in terms of Satisfactory surface design of the locking cylinder.

From this previous idea regarding the construction and the appearance of a locking cylinder becomes different proposed according to the invention that the closure means a rotational with respect to an axis of the housing pin bore symmetrical of the outside surrounding the outer surface seen in space, has a convex end face, the to Axis of the housing pin bore of orthogonal size cross-section over its entire circumference within the housing pin hole is located and the apex preferably in or with a small distance within one through the housing pin limited virtual sub-area of each Surface area lies, which one when the Bore removed part of the surface area corresponds.

In such an embodiment according to the invention achieved the following: reworking the housing surface after the closure means have been introduced, it is not necessary because surprisingly the convex surface of the ver closing means not the appearance of the locking cylinder adversely affected if the geo metric conditions are met, but, on the contrary, the impression of the high-precision technical instrument is increased.

This is especially true if - as usual - one Row of pin tumbler pairs in the longitudinal direction of the cylinder are arranged side by side and if the respective convex end faces in their longitudinal adjustment compared to the The outer surface of the lock cylinder housing is identical are positioned.  

The requirement that nothing be said about the outer surface of the Profile, will comply with the above geometric conditions easily achieved.

The remaining ring recesses from the apex area to the circumferential surface of the housing pin holes steadily in depth are so small that hanging to a greater extent do not remain from chips and similar contaminants fear.

Although the appearance is due to different depth of the Ring recesses is impaired when the waiter surface area is cylindrically curved, this disturbs Do not look, even if a plurality of Housing pin pairs are provided side by side, provided the same penetration depth of the closure means in all housing pin holes is guaranteed.

It feels when handled by the consumer Lock cylinder approximately designed according to the invention as smooth and touch-friendly as a clasp cylinder in which the closure means the respective Surface area are seamlessly adapted smoothly.

The end surface can be a spherical end surface with one Diameter, which is the diameter of the housing pin bore approximately corresponds.

The closure parts can be of such quality and produce in particular such hardness that they are at the on bring into the housing pin holes, however this Introduced, not damaged and therefore yours Appearance is not affected. The closure elements can be polished or otherwise at the ends, for example  be surface treated so that they fit well into the Surface appearance of conventional galvanized insert or lacquered lock cylinder, whereby by under different color, different gloss or other different surface design still interesting Effects can be achieved.

It should also not be excluded that the convex End faces slightly flattened in their apex area are, so that in the event of a press-in the closure medium lower surface pressures occur and thus a Surface damage is avoided. Of course must be used when dimensioning the size of such apex flats attention is always paid to the need for the Inserting a lock cylinder housing into the intended inclusion of a mortise lock or one other device over the profile surface are allowed to stand, which could lead to jamming. This but you can easily avoid that by flattened closure means these so deep in the Housing pin bores that presses in the entire apex flattening within the virtual area lie.

The fastening of the locking means in the housing pin Drilling is preferably done by pressing, the Closure means in their diameter on the through knife of the housing pin holes are matched that on the one hand, pressing in without visible deformation of the respective surface area is achieved, on the other hand but an immovable hold of the closure means in the Housing pin holes is guaranteed.  

While the lock cylinder housing usually consists of one Nonferrous metal can be produced as a closure Steel parts are used which are cheap in mass production are producible.

As already indicated in the introduction, the proposed invention is particularly applicable when the surface area in which the housing pin holes open, from a cylinder surface is formed, the surface lines parallel to the axis the core receiving holes run. This applies to both Round cylinders as well as the common locking cylinders with Hahn profile, in which the housing pin holes Sack bottom surface of the profile web of the Hahn profile cut.

According to a preferred embodiment of the invention Closure means formed by a ball. The advantage of this Embodiment is that the automatic feeding in a manufacturing machine using balls can be carried out without complicated orientation means can.

The use of balls as a closure means is therefore considered unusual to look at because when using Balls for the axial depth of the closure means Sphere has no freedom to adapt different cylinder shapes, different types clamping devices and different housing pin dimensions to be able to make. This has, however, surprisingly proven safe because there is a possibility that respective free length of the housing pin bore Introducing fillers into the housing pin bore vary, so that the pretensioning means then, if necessary can support such packing. Can be used as packing again balls or cylinder sections are used.  

Alternatively, it is also conceivable that the closure means of a rod is formed, which has at least one end, preferably on both, the rotationally symmetrical convex Possesses end face. The assembly technology is through such Measure in comparison to a sphere, however, more difficult so that you can only do this in special situations will take hold, for example, when special Profiles of the spherical end faces should be chosen. You might think that using stab shaped locking means at the transition from the rod to convex end surface also provides an annular shoulder. On this way the largest cross section of the convex end face be smaller than the cross section of the cylindrical Section of the rod-shaped closure means.

In the usual way, the biasing means of screws compression springs are formed. It is advantageous if the helical compression spring for positioning at least part of its length has an envelope surface, the Diameter at least approximately the inside diameter of the Housing pin hole corresponds. To avoid that the helical compression spring against a convex surface of the closure means in the between the peripheral surface of the Housing pin bore and convex end surface formed gap incorrectly set or jammed, it can be advantageous be when the helical compression spring at least on the with the Spherical surface in contact with one end of a diameter has tapered section.

The invention further relates to a method of manufacture a lock cylinder, this lock cylinder comprising a Lock cylinder housing with an outer surface and one Core location hole, one in this core location hole rotatable locking cylinder core with a  Key insertion slot for holding a key and at least one pair of tumbler pins, this tumbler pair of pins one in a core pin hole of the closing cylinder core core and one in a housing pin bore of the lock cylinder housing guided housing pin includes which pins in a basic position of the Lock cylinder core opposite the lock cylinder housing cursed with each other and with inserted, secret nisadapted key so inserted by biasing means are that an end facing each other divide the core pin and the housing pin in the cylindrical interface between the core holder bore and the lock cylinder core, and being the Housing pin bore an area of the outer surface of the Lock cylinder housing cuts and by closure is locked medium, this method comprising a Drilling operation starting from that through the casing pin drilling cut surface area to form the Housing pin hole and the subsequent insertion of the Closure means in the ang at this surface area limiting end of the housing pin bore.

For the implementation of this procedure, it is proposed that as a closure means in the housing pin bore Closure body is introduced, which at least on his in terms of trailing end in terms of one one axis of the housing pin bore is rotationally symmetrical, seen from the outer space surrounding the outer surface has convex end surface, the axis of the housing pin bore orthogonal largest cross section on his entire circumference enters the housing pin bore while the apex preferably inside or at a small distance half of a virtu delimited by the housing pin bore ellen sub-area of the respective surface area  which is taken away when the hole is drilled corresponds to that part of the surface area.

The closure body can be in the housing pin bore be fixed by a press fit.

The closure body can by an insertion surface Insert tool are introduced, which is against the the insertion depth by applying the respective surface area certainly. This insert area can have several at the same time Press in the closure means so that they are even Positioning is guaranteed.

It is possible that the closure body in the housing pin hole is inserted after through the the upper corresponding outer area of the housing pin bore of the housing pin and, if necessary, the preloading device and / or a packing has been introduced.

But it is also possible that the housing pin and possibly a packing and / or a pretensioner from the core pin bore inserted into the housing pin bore after the outer facing the surface area End of the housing pin bore by inserting the lock body has been closed. The decision which of the two options is chosen depends especially from the existing manufacturing facilities deductions.

When drilling the housing pin bore, the resulting one Hole preferably only up to the intersection with the Core pin bore executed so that the housing pin bore diametrically opposite area of the cylinder housing is not cut and therefore not must be closed again.  

After the closure body has been inserted, a further surface treatment in the surface area and usually not required on the closure body.

The accompanying figures explain the invention with reference to an embodiment; it represents:

Fig. 1 is a side view partly in section of a lock cylinder configured according to the invention with tap profile;

Fig. 2 is an end view in the direction of arrow 11 of Fig. 1, partially broken away;

Fig. 3 is a side view of a modified embodiment analogous to Fig. 1 and

Fig. 4 is an end view in the direction of arrow IV of Fig. 3, again partially broken.

In Fig. 1, the lock cylinder housing of a double lock cylinder is generally designated 10 . This lock cylinder housing has a so-called Hahn profile with a profile web 12 , the bag bottom surface of which is designated 14 . The lock cylinder 10 also has a core bore 16 which receives a lock cylinder core 18 with a key insertion slot 20 .

There are several tumbler pairs, of which only one will be described below, which is marked with 22 be. This tumbler pin pair 22 consists of a core pin 22 a and a housing pin 22 b. The core pin 22 a is received in a core pin bore 24 a of the lock cylinder core 18 , while the housing pin 22 b is received by a housing pin bore 24 b of the lock cylinder housing 10 . In the basic position of the locking cylinder, which is shown in Fig. 1 and in which the key sel plug and can be pulled, the core pin 22 a and the housing pin 22 b are aligned. The separation point 22 c a between the core pin 22 and housing pin 22 b is, when a closing secret matched key is inserted in the separation surface 28, which surface by the inner circumferential surface of the core hole 16 and the outer circumference of the lock cylinder core is defined 18th If the separation points of all pin cylinder pairs are in the separation surface 28 , the lock cylinder core can be rotated by means of the key.

The housing pin bore 24 b is drilled from the bag bottom surface 14 into the lock cylinder housing 10 until it intersects with the core bore 16 . The lower end of the housing pin bore 24 is closed by a closing ball 30 with an end surface 30 a b, which bore in the housing pin 24 b is press-fitted with a small excess. A press of the locking balls 30 of the individual housing pin pairs can be done by a common tool 32 , which is shown in FIG. 2. This housing has one of the sack bottom surface 14 precisely adapted thrust surface 34 which, when the tool 32 approaches the sack bottom surface 14 , bears against it and thereby brings the balls 30 into a position in which their apex regions S pointing downward are each in a virtual len Surface V lie, which complements the bag bottom surface 14 with a corresponding curvature.

A loosely inserted filling ball 36 adjoins the closure ball 30 , which serves as an abutment for a helical compression spring 38 . This helical compression spring 38 presses with its upper end against the housing pin 22 b and over this on the core pin 22 a, so that the latter is held in engagement with the serrated key face when the appropriate key is inserted, and the separation point 22 c simultaneously in the interface 28 lies.

The upper and lower ends of the helical compression spring 38 are wound closer than the middle section, so that these end sections find a defined contact with the filling ball 36 and at the lower end of the housing pin 22 b.

The housing pin pairs can have different shapes as indicated in the figure. It should also be noted that the separating point 22 c, which must be in the separating surface 28 when the key has been adapted to the secret, does not necessarily have to be formed by the facing ends of the pins 22 a and 22 b itself, but also by one of these pins and an intermediate plate can be formed, which can be used in varying thicknesses for the closure variation. Of course, the separation point can also be formed between two adjacent intermediate plates (not shown).

The manufacture is as follows: Lock cylinder core 18 and lock cylinder housing are manufactured separately. The lock cylinder core is provided with the holes 24 a. The housing pin bores are drilled from the sack bottom surface 14 until the respective drilling instrument enters the core bore 16 .

Then the lock cylinder core 18 is equipped with the core pins 22 a and inserted into the core bore 16 , wherein it is rotated relative to the basic position shown in FIG. 1. However, it is also possible to mount the lock cylinder core 18 in the basic position without the core pins 22 a, which can then be fed through the housing pin bore 24 b. Now from below through the Ge housing bore 24 b, the housing pin 22 b, the helical compression spring 38 , the filling ball 36 and the closure ball 30 can be inserted one after the other. When the locking cylinder core 18 is rotated for the first time into the basic position according to FIG. 1, the housing pin 22 b enters the core pin bore 24 a. Alternatively, it is also possible, before inserting the lock cylinder core 18 into the core bore 16, to press the closure ball 30 from below into the housing pin bore 24 b, then from the core bore 16 one after the other the filler ball 36 , the helical compression spring 38 and the housing pin 22 b to insert into the housing pin bore 24 b and, after carrying out these measures for all tumbler pairs 22, push the lock cylinder core 18 with the core pins 22 a contained therein into the core bore 16 .

The embodiment according to FIGS. 3 and 4 differs from that according to FIGS. 1 and 2 only in that 36 filler pins 136 are provided instead of the filler balls. In this embodiment, the length of the cylindrical filler pins can be predetermined in accordance with the respective space requirement.

Instead of the locking balls, locking pins can also be used are used (not shown in the drawing), which at least one end has a convex curvature, in particular have spherical end face. Such are preferred Locking pins on both ends with identical convex Areas to simplify automatic feeding.  

As can be seen from FIGS. 1 and 2, the largest cross section Q _{max of} the closure ball 30 lies completely within the housing pin bore 24 b, while the apex S according to FIG. 2 lies on the virtual cylindrical supplement V of the cylindrical bag bottom surface 14 .

Claims (21)

1. Locking cylinder comprising a locking cylinder housing ( 10 ) with an outer surface and a core receiving bore ( 16 ), a locking cylinder core ( 18 ) rotatably received in this core receiving bore ( 16 ) with a key insertion slot ( 20 ) for receiving a key and at least one pair of tumbler pins ( 22 ) , said Zuhaltestiftpaar (22) (a 24) of the lock cylinder core (22 a) and (b 24) of the lock cylinder housing (10) guided in the housing pin comprises a in a core pin bore (18) guided core pin a in a housing pin bore (22 b), which Pins ( 22 a, 22 b) in a basic position of the locking cylinder housing ( FIGS. 1 and 2) with respect to the locking cylinder housing ( 10 ) are aligned with one another and, when the locking secret key is inserted, are adjusted by pretensioning means ( 38 ) in such a way that a facing one another End parts of core pin ( 22 a) and housing pin ( 22 b) lying e separation point ( 22 c) in the cylindrical separating surface ( 28 ) between the core receiving bore ( 16 ) and the lock cylinder core ( 18 ) and wherein the housing pin bore ( 24 b) cuts a surface area ( 14 ) of the outer upper surface of the lock cylinder housing ( 10 ) and is closed by a closure means ( 30 ), characterized in that the closure means ( 30 ) has a convex end surface ( 30 a), which is rotationally symmetrical with respect to an axis of the housing pin bore ( 24 b), as seen from the outer space surrounding the outer surface whose the axis of the housing pin bore (24b) orthogonal lying largest cross section (Q _max) is at its full extent within the housing pin bore (24 b) and the apex (S), preferably in or at a short distance within one of the housing pin bore (24 b) limited virtual partial area (V) of the respective surface area ( 14 ), which is more virtual Partial area (V) corresponds to a partial area of the surface area ( 14 ) removed when the housing pin bore ( 24 b) is introduced. 2. Lock cylinder according to claim 1, characterized in that the end face ( 30 a) is a spherical end face with a diameter which approximately corresponds to the diameter of the housing pin bore ( 24 b). 3. Lock cylinder according to claim 1 or 2, characterized in that the end surface ( 30 a) has a surface treatment of the outer surface in terms of quality and appearance is fitted surface. 4. Lock cylinder according to claim 3, characterized in that the end face ( 30 a) has a surface hardness which allows the introduction of the closure means ( 30 ) without surface deformation of the spherical end face ( 30 a). 5. Lock cylinder according to one of claims 1 to 4, characterized in that the closure means ( 30 ) in the housing pin bore ( 24 b) is pressed. 6. Lock cylinder according to one of claims 1 to 5, characterized in that the surface area of a cylinder surface ( 14 ) belongs, the surface lines of which are parallel to the axis of the core receiving bore ( 16 ). 7. Lock cylinder according to claim 6, characterized in that the cylinder surface ( 14 ) from the sack bottom surface ( 14 ) of a sack-shaped profile web ( 12 ) is formed, which contains the housing pin bore ( 24 b). 8. Lock cylinder according to one of claims 1 to 7, characterized in that the closure means is formed by a ball ( 30 ). 9. Lock cylinder according to claim 8, characterized in that adjacent to the locking ball ( 30 ) within the housing pin bore ( 24 b) for supporting the biasing means ( 38 ) at least one filler ( 36 ), preferably loosely, is added. 10. Lock cylinder according to claim 9, characterized in that the filler body by a ball ( 36 ) or a cylinder section ( 136 ) is formed. 11. Lock cylinder according to one of claims 1 to 7, characterized, that the closure means is formed by a rod which a rota at at least one end, preferably at both ends has symmetrical convex end face. 12. Lock cylinder according to one of claims 1 to 11, characterized in that the biasing means is formed by a helical compression spring ( 38 ). 13. Lock cylinder according to claim 12, characterized in that the helical compression spring ( 38 ) on a main portion of its length has an envelope surface, the diameter of which corresponds at least approximately to the inside diameter of the housing pin bore ( 25 b). 14. Lock cylinder according to claim 13, characterized in that the helical compression spring ( 38 ) has at least at one end in contact with a spherical surface a diameter-tapered section. 15. A method for producing a locking cylinder, in particular a locking cylinder according to one of claims 1 to 14,
said lock cylinder comprising a lock cylinder housing ( 10 ) with an outer surface and a core receiving bore ( 16 ), a lock cylinder core ( 18 ) rotatably received in said core receiving bore ( 16 ) with a key insertion slot ( 20 ) for receiving a key and at least one pair of tumbler pins ( 22 ) , said Zuhaltestiftpaar (22) (a 24) of the lock cylinder core (22 a) and (b 24) of the lock cylinder housing (10) guided in the housing pin comprises a in a core pin bore (18) guided core pin a in a housing pin bore (22 b), which Pins ( 22 a, 22 b) in a basic position of the lock cylinder core (FIGS . 1 and 2) with respect to the lock cylinder housing ( 10 ) are aligned with one another and, with the lock key adjusted, inserted by pretensioning means ( 38 ) in such a way that a facing one another End parts of core pin ( 22 a) and housing pin ( 22 b) lying e separation point ( 22 c) in the cylindrical separating surface ( 28 ) between the core receiving bore ( 16 ) and the lock cylinder core ( 18 ), and wherein the housing pin bore ( 24 b) cuts an area ( 14 ) of the outer surface of the lock cylinder housing ( 10 ) and is closed by a closure means ( 30 ),
this method comprising a boring operation starting from the by the housing pin bore (24 b) truncated surface region to form the housing pin bore (24 b), and (b 24), the subsequent insertion of the closure means (30) in the adjoining this surface area (14) end of the housing pin bore ,
characterized in that (b 24) as a closure means in the housing pin bore is inserted a closure body (30) which at least at its trailing in the insertion end of one (24 b) rotationssym metric, with respect to an axis of the housing pin bore - of which the outer surface seen surrounding outer space ago - (a 30) has convex end surface is the the axis of the housing pin bore (24 b) orthogonal lying Größtquerschnitt (Q _max) on its entire extent (b 24) within the housing pin bore and the apex (S), preferably in or small distance within a by the housing pin bore (24 b) limited virtual partial area (V) of the respective surface area (14), which one corresponds to when introducing the bore (24 b) partial area (V) of the surface region away taken (14). 16. The method according to claim 15, characterized in that the closure body ( 30 ) in the housing pin bore ( 24 b) is fixed by a press fit. 17. The method according to any one of claims 15 and 16, characterized in that the closure body ( 30 ) is inserted through a push surface ( 34 ) of an insertion tool ( 32 ) which determines the insertion depth against the respective surface area ( 14 ). 18. A method as claimed in any one of claims 15 to 17, that the closure body (30) is introduced (24 b) in the housing pin bore after by the Oberflä pin bore chenbereich (14) associated outer end of the housing (24 b) of the Housing pin ( 22 b) and possibly the biasing means ( 38 ) and / or a filler ( 36 ) have been introduced. 19. The method according to any one of claims 15 to 17, characterized in that the housing pin ( 22 b) and possibly a filler ( 36 ) and / or a biasing means from the core bore ( 16 ) are inserted into the housing pin bore ( 24 b) after the surface area ( 14 ) facing the outer end of the Ge housing pin bore ( 24 b) has been closed by inserting the closure body ( 30 ). 20. The method according to any one of claims 15 to 19, characterized in that the housing pin bore ( 24 b) is carried out only up to the core pin bore ( 16 ) without drilling the diametrically opposite area of the lock cylinder housing ( 10 ) of the housing pin bore ( 24 b) . 21. The method according to any one of claims 15 to 20, characterized in that the closure body ( 30 ) in its diameter and in its surface quality is so matched to the shape and surface design of the lock cylinder housing ( 10 ) that after the insertion of the closure body Ver ( 30 ) a further surface treatment in the surface area ( 14 ) and on the closure body ( 30 ) is not required.