SE517650C2 - Locking device for door or window lps - Google Patents

Abstract

In a door or window lock there is a rower which can be rotated with a handle and which is at least partially made of a somewhat elastic substance, for example plastic. In the rower 1 there is a substantially square hole 2, which is intended for the square pin 11 of the handle and is somewhat undersized in relation to the cross section of the square pin, and, close to this hole, an elastic region which springs out of the way when the square pin 11 is fitted. This elastic region comprises the limit surface of the hole 2 and at least one, preferably at least two, cavities 7, 8 situated close to the limit surface.

Description

15 20 25 30 «» a n | | v: n. n -n 517 650 2 3805878 shows a rudder construction with a rudder of metal, which is surrounded on both sides by cylindrical bearing parts of softer material. These bearing parts are provided with one or more radial slots, which make the bearing parts radially resilient. The bearing parts have a narrowly dimensioned hole for the square pin, so that the play between the rower and the square pin can be eliminated by dimensioning the bearing parts. However, the radial slits significantly weaken the bearing parts, so it can not be expected that this construction will last for long-term use.

The object of the invention is to provide a quality lock, in which the rower, due to its shape and dimensioning, is practically game-free connected to the square pin of the print. Another purpose is that the installation of the square pin should be simple and can be performed without tools. The construction must also be inexpensive to manufacture and assemble and be dimensionally suitable for use when needed together with reinforcing rudder supports of metal. Furthermore, a rower according to the invention without other measures than suitable dimensioning should be suitable for use in a number of modern locking models.

The object of the invention is achieved in the manner stated in claim 1.

By arranging according to the invention one or more cavities in the rower near the hole for the square stick, the rower can, without substantially weakening its general strength, be made so flexible that the hole for the square stick can be suitably undersized relative to the cross section of the square stick, so that the edge stick is held in the rower's hole practically without play. Since the hole in the rower gives way at the stage when the square pin forces the surface of the hole to resiliently spring away, the force transfer between the pressure and the locking mechanism will take place almost completely without play and the user feels that the lock corresponds precisely to the movement of the pressure. Of course, in order to achieve such an overall impression of good quality, the play between the pressure and the square pin must also be close to zero. The lock's internal mechanism must also be of good quality in other respects. 10 15 20 25 30 n Q I n n. 517 650 3 By arranging cavities near at least two adjacent sides of the hole in the rower, the most effective play-free connection between the square pin and the rower is obtained.

It has proven to be important that the contact between the square pin and the rower's hole is good at the corner of the hole. The corners should suitably abut continuously against the square pin as this is mounted in place. By arranging cavities near two adjacent sides of the rower's hole, such a suspension is obtained in the rower that especially the corner portions of the hole obtain a good abutment against the square pin. In the surface which limits the hole for the square stick in the rower, there should suitably be at least one, preferably at two of the sides of the hole located next to each other, approximately flat surfaces which have slightly inclined portions relative to the ficrant stick, between which there is a boundary area which is arranged to be in continuous contact with the square pin when it is mounted in place. This contributes to good and game-free contact between the square stick and the rower.

By dimensioning the rower's holes so that when mounting the square pin in place springs 0.03 1 mm, preferably 0.1 0.4 mm, the square pin can be put in place without special measures and still be the square pin's fastening support with a suitable choice of material and dimensioning very steady, but still not too narrow.

By designing the rower's hole so that at least one, preferably two of the side surfaces of the hole run completely or partially obliquely in relation to the center of the hole, the square pin gets a good fastening support, but can still be mounted relatively easily and without problems without special tools or other arrangements.

By designing the rower's holes at least over a certain section with a converging cross section, the square pin can wedge itself into place relatively easily and as a result an almost game-free power transmission construction is obtained. 10 15 20 25 30 ~ «o o u; 517 650 If the rudder's material is chosen so that the resilience and elasticity of the material can be used not only during the first assembly of the square pin but also during reassembly, no other resilient parts or structures are needed in the construction.

The manufacturing costs of the rower can then be kept low, without sacrificing the good properties of the locking structure.

The rower is suitably made of plastic. If the lock is subjected to great stress, it is recommended that the rower be fitted with reinforcing parts made of metal, preferably steel. It will then be possible to combine the best properties of plastic and metal in such sections that require special properties. The dimensional accuracy that can be achieved in conventional mass production does not present any obstacles to combining plastic and metal in the mentioned way.

It is also suitable to arrange in the rudder fixed plastic cylindrical guide surfaces, by means of which the rudder can be stored in the lock housing either directly or via reinforcing parts of metal. No special other storage devices are needed then, and yet the result is a simple and reliable and long-lasting bearing construction.

The rower can suitably be provided with bevelled surfaces at each end of the hole for the square pin. This facilitates the installation of the square pin.

The invention is described in the following with reference to the accompanying drawing, in which - Fig. 1 schematically shows a side view of a rower according to the invention, - Fig. 2 schematically shows the rower according to Fig. 1 in perspective, - Fig. 3 schematically shows the rower according to Fig. 1 in a plane parallel to the axis of rotation of the rower, Fig. 4 schematically shows a so-called exploded view of a rudder construction according to the invention, 10 15 20 25 30 a. . . .o o n | n n; | u o. - u no 517 650 s - Fig. 5 schematically shows the device according to Fig. 4 assembled and in section.

In the drawing, 1 denotes a rower which, for mounting a square pin 11, has an approximately square hole 2, at the outer edges of which there is a chamfer 3 for facilitating the mounting of the square pin. With the aid of a short cylindrical projection 4, the rower 1 is stored in a lock box (not shown) or fitted between later side pieces described later. The hole 2 has sections 5 and 6 where the sides of the hole bend inwards towards the center of the hole. In the drawing, this design has been exaggerated to achieve greater visibility, since the holes 5 and 6 of the hole in practice deviate from the corresponding straight design by only about 0.01 1.0 mm. The cross section of the square pin 11 is approximately square with a side length of nominally 8 mm. In practice, the side length is generally a few hundredths of a millimeter below 8 mm. The hole 2 is also formed substantially square, but at two sides 5 and 6, or at least at one of them, the dimension of the hole is less than 8 mm to achieve a suitable fit between the rower and the square pin.

Near the holes 2 and 6 of the hole 2 there are cavities 7 and 8. The side walls 5 and 6 of the hole 2 and that between these side walls and the cavity 7 resp. The rowing material located in the row 8 can be displaced towards the adjacent cavity, when the square pin is mounted in the hole 2. The cavities 7 and 8 may, if deemed necessary, be filled with some resilient material such as rubber, but they may be empty or for example be wholly or partly filled with any suitable lubricant. The rower 1 must be dimensioned so that the hole 2 can expand sufficiently when the square pin is mounted. The cavities 7 and 8 must be wide enough, but the structure must be durable. It is also conceivable to arrange cavities near one or preferably two of the 2 corners of the hole. In such a construction, one or more of the corners of the hole 2 could spring out and provide a virtually game-free power transmission between the rower and the square pin. It is suitable that at least two of the corners of the hole 2 continuously abut against the square pin as this is mounted in place. 10 15 20 25 30 517 sso 6 In Fig. 2 it is seen that the rower in the middle portion of the hole 2 has an interface 15, from which the hole 2 has an axially slightly diverging shape in the direction from the middle portion outwards to both sides. Fig. 2 also shows the cylindrical shape of the projection 4 and its relatively low height in comparison with the diameter.

In Fig. 3 it can be seen that the rower 1 has projections 4 on each side in order to obtain good support via these projections from the box or from the support elements described in the following paragraph.

In Fig. 4, metallic support elements 9 and 10 are mounted on each side of the rudder 1, in which pin-shaped projections 12 have been formed by partial punching which fit into recesses 13 in the rudder 1 and thereby prevent rotation between the support elements 9 and 10 and the rudder 1 Support elements are especially used when the lock is intended for use where it is subjected to heavy loads and when a plastic rower would not withstand hard wear and demanding use well enough.

The cylindrical side projections 4 of the rudder fit into the corresponding recesses 14 of the support elements 9 and 10, so that the support elements 9 and 10 and the rudder 1 in mounted position form an almost fixed and in all parts durable combination structure. The square pin 11 in the figures shown briefly) is inserted in the hole 2 of the rower 1 as well as through corresponding holes in the support elements 9 and 10, when the pressure is connected to the lock. If support elements are not used, the outer surfaces of the rower 1 are designed so that the rower as such inside the lock box gives the lock mechanism the necessary control and power transmission when the lock is operated via the pressure.

In Fig. 5 one can more clearly than in Fig. 2 see the position of the interface 15 and the slightly inclined sections 16 and 17 of the hole 2 as well as the chamfers 3. The cavity 7 has been slightly compressed, since the square pin 11 is mounted in place and the material has been displaced. due to the insertion of the square pin. The support elements 9 and 10 have outwardly directed cylindrical guide surfaces 18, which are stored in a corresponding opening in the box. The turning movement of the rower 1 will then take place in a controlled manner and without much friction. 517 650 7 The invention is not limited to the embodiments shown, but a number of variants and modifications are conceivable within the scope of the following patent claims.

Claims (9)

517 650 3 'PATENT CLAIMS Locking device for door or window lock with a rudder (1) rotatable with a pressure pin (11), which is made of a slightly elastic blank, preferably of plastic or similar blank, and which has a square pin (11) intended for and in relation to the cross section of the square pin slightly undersized substantially square hole (2) and in the vicinity of this hole an elastic area which springs away during the mounting of the square pin (11), characterized in that the elastic area comprises the limiting surface of the hole (2) and at least one, preferably at least two cavities located near the boundary surface (7, 8). Locking device according to Claim 1, characterized in that the cavities (7, 8) of the elastic region are arranged such that there is at least one cavity in the vicinity of two adjacent sides of the hole (2). Locking device according to claim 1 or 2, characterized in that in the surface delimiting the hole (2) of the rower there are at least one, preferably at two of the adjacent sides of the hole approximately flat hollow surfaces, at which the limiting surface of the hole is slightly inclined relative to the square pin. (1 1), so that between the inclined surfaces a boundary area (15) is formed which is arranged to be in continuous contact with the square pin (II) when this has been mounted in place. Locking device according to one of the preceding claims, characterized in that the limiting surface around the rudder hole (2) is arranged to spring away from the surface of the square pin (1 1) on site 0.03 1 mm, preferably 0.1 0.4 mm. 517 650 7 Locking device according to one of the preceding claims, characterized in that the limiting surface of the rower's hole (2) has a substantially square cross section, but in that at least one, preferably two of the side surfaces of the hole are inclined towards the central area of the hole (2). Locking device according to one of the preceding claims, characterized in that the limiting surface of the rower's hole (2) has a cross section converging at least over a limited section in the direction of mounting of the square pin (1 1). Locking device according to one of the preceding claims, characterized in that the rudder (1), in the case of sections which are subjected to high stresses, is reinforced with parts (9, 10) of metal, preferably of steel. Locking device according to one of the preceding claims, characterized in that the rudder (1) comprises fixed cylindrical projection surfaces (4), with which the rudder (1) is rotatably mounted in the lock housing either directly or by means of reinforcing parts (9, 10) of metal. Locking device according to one of the preceding claims, characterized in that in order to facilitate the mounting of the square pin (11), the outer edges of the rudder hole (2) have chamfers (3).