Lock for the secondary leaf of fire doors

Abstract

 Known locks for a secondary leaf of fire doors comprise a pair of rods which slide vertically, in opposite directions, between an extracted closing position and a retracted opening position, and which at their ends engage corresponding seats provided respectively in a door frame and in a floor, a first upper (8) and a second lower slide (9) which can be connected to the rods and guided in a sliding manner vertically in a casing (1) of the lock against respective return spring means (10) between a position of reciprocal withdrawal and a position of approach, corresponding respectively to the closing and the opening positions of the rods, a rocker return device (12) pivoted centrally on a first pivot (13) in the casing (1) and having at opposite ends pin articulation grooves (14) into which project pins (15) from the slides (8,9), for transmission of movement from the first slide (8) to the second slide (9), a second pivot (5) on the casing (1) on which an activating lever (4) pivots to act on the first slide (8) against second return spring means (7), such as to give rise to movement of the slides (8,9) into the position of reciprocal approach. In the present invention the first slide (8) is provided with an opening through which a projection (15) on the casing (1) extends, thus providing a further point of connection between the sides of the casing (1) and a guide for the slide (8) at an intermediate point along the length of the slide (8).

Description

[0001] The present invention concerns a lock for the secondary leaf of fire doors.

[0002] So-called fire doors of the two-leaf type are currently known, which are used for reasons of safety in public premises and the like. The secondary leaf of these fire doors is generally provided with a locking device which normally attaches it to the frame. In particular, this locking device usually consists of a lock which is provided with a pair of rods which slide vertically, in opposite directions, in the leaf, such that they can engage in ferrules in corresponding seats provided respectively in the door frame and in the floor. In use, when they are in a position retracted inside the leaf, the said rods enable the door to be opened fully, whereas in the extracted position they lock the secondary leaf.

[0003] The rods in question are generally slid into the extracted leaf-locking position by means of a mechanism which is actuated manually by a lever or handle. The said mechanism is preferably fitted in a seat provided in the profile of the secondary leaf. In the event of activation by means of a lever, the latter is accessible after the main leaf has been opened; in this case the activating lever is disposed in a housing which is delimited by the mechanism casing.

[0004] With particular reference to locks which are activated by means of a lever, and which specifically are used in fire doors, the said activating lever usually has a pair of transverse pins by means of which it engages the locking rods, such as to enable them to be moved into the said extracted closing position and the retracted opening position. Essentially, the leaf is both opened and closed manually, by rotating the activating lever angularly, for example by an angle of 180^º.

[0005] Locks of this type nevertheless have some disadvantages of both a structural and functional nature, which restrict optimum use thereof. In fact these locks generally have relatively high production costs, as well as dimensions which are often large. In addition, manual closing of the leaf constitutes an obvious limitation in the use of fire doors.

[0006] In addition, complaints have been made that the leaves of fire doors are not sufficiently secure as far as potential attempted break-ins are concerned.

[0007] The object of the present invention is to solve the aforementioned problem, by devising a small lock for the secondary leaf of fire doors, which enables the door to be closed automatically, and which also provides adequate protection against any attempted break-ins.

[0008] Within the context of this task, a further object of the present invention is to provide a lock for the secondary leaf of fire doors which has a simple design, functions securely and reliably, is versatile, and costs relatively little.

[0009] According to the present invention a lock for a secondary leaf of fire doors comprises a pair of rods which slide vertically, in opposite directions, between an extracted closing position and a retracted opening position, and which at their ends engage corresponding seats provided respectively in a door frame and in a floor, a first upper and a second lower slide which can be connected to the rods and guided in a sliding manner vertically in a casing of the lock against respective return spring means between a position of reciprocal withdrawal and a position of approach, corresponding respectively to the closing and the opening positions of the rods, a rocker return device pivoted centrally on a first pivot in the casing and having at opposite ends pin articulation grooves into which project pins from the slides, for transmission of movement from the first slide to the second slide, a second pivot on the casing on which an activating lever pivots to act on the first slide against second return spring means, such as to give rise to movement of the slides into the position of reciprocal approach, characterised in that the first slide is provided with an opening through which a projection on the casing extends.

[0010] The details of the invention will become more apparent from the following detailed description of a preferred embodiment of the lock for the secondary leaf of fire doors, which is illustrated by way of example only in the attached drawings, in which:

Figure 1 is a vertical cross-section of the lock in question, in the closing position;

Figure 2 is a corresponding front view thereof; and

Figures 3 and 4 are views in vertical cross-section of the lock, in successive opening stages.

[0011] With particular reference to these Figures, reference numeral 1 indicates the casing of the lock in question, which is destined to be fitted in a seat provided in the secondary leaf of a fire door. The casing 1 has a front 2 of a shape which is extended vertically, in which there is provided an aperture 3 for extraction of a lever 4 for activation of the lock.

[0012] The activating lever 4 is hinged at the top of the casing 1 on a transverse fulcrum 5, and has a lower folded portion 6 which enables it to be gripped. The lever 4 is stressed by a flexure spring 7, which is disposed at the fulcrum 5, and which acts against rotation of the lever in the opening position.

[0013] Inside the casing 1 there are guided vertically, first and second, respectively upper and lower slides 8, 9, which are connected to the casing by means of respective springs 10 which fulfil a return function along the axis of sliding of the slides; for the sake of greater clarity, in the drawing only the spring 10 relative to the upper slide 8 is shown.

[0014] The spring 10 relative to the slide 8 is located between a projection 20 extending perpendicularly from the slide 8 itself and an abutment surface 21.

[0015] The slides 8, 9 are advantageously made of flattened metal elements which are disposed such as to be coplanar on the vertical sliding plane. On the side facing longitudinally outwards, the slides 8, 9 have a slot 11 which is destined to be coupled with a coupling device of the respective leaf closing rods, not shown in the drawing.

[0016] The slides 8,9 slide longitudinally in opposite directions between a reciprocal withdrawal position and an approach position, which correspond respectively to the extracted closing position and the retracted opening position of the rods. On the top of the upper closing rod there is preferably associated a locking mechanism which can maintain the rod in the retracted position when the leaf is open, and which is preferably of the type illustrated in patent application M191A003046 in the name of the same applicants.

[0017] The slides 8, 9 are articulated to one another on the side facing the inside of the casing 1, by means of a rocker return device 12, which is hinged to a fulcrum 13 transverse to the casing. On opposite longitudinal ends the rocker 12 has grooves 14 destined for sliding coupling with respective pins 15 which project transversely from the slides 8, 9. The pins 15 are guided along respective slots 16 which are provided vertically in the casing 1.

[0018] It should be noted that in the position of the articulation groove 14 on the lower slide 9, the rocker 12 has a flattened portion 17. This flattened portion 17 enables the lower slide 9 to slide upwards independently of the upper slide 8.

[0019] On its top, the activating lever 4 has a tooth 18 with a suitably rounded profile, which during the opening stage can abut a roller pin 19 which projects transversely from the upper slide 8.

[0020] The slide 8 is provided with an extended opening or slot 23 through which a locating pin 22 extending between the sides of the casing passes. This has the advantage that the pin provides both a further point of connection between the sides of the casing and serves as a guide for the slide at an intermediate point along the length of the slide.

[0021] Additionally, the pin may serve to locate the abutment surface, as in the disclosed embodiment.

[0022] The functioning of the lock is easily understood from the above description.

[0023] In the closing position of the leaf, the slides 8, 9 are disposed in a position of maximum reciprocal withdrawal, corresponding to the extracted position of the closing rods of the leaf (Figure 1); the slides 8, 9 are stressed by the respective springs 10 which act longitudinally in opposite directions, and such as to draw the slides outwards.

[0024] In order to open the secondary leaf, the activating lever 4 is rotated angularly, such that by means of the tooth 18 it acts on the roller pin 19 of the upper slide 8. It should be noted that the lever 4 travels a limited unloaded path before engaging the pin 19 (Figure 3). This enables the lever 4 to be extracted partially from its seat without force, by means of the gripper portion 6, and thus allows the opening mechanism to be activated more easily.

[0025] Further rotation of the activating lever 4 gives rise to downward movement of the upper slide 8; the lower slide 9 in turn is moved symmetrically upwards by means of the rocker return 12 which acts as a movement transmission device (Figure 4). The slides 8, 9 therefore move into a position of mutual approach, corresponding to the retracted position of the closing rods which enables the leaf to be opened.

[0026] The locking mechanism which is associated with the upper closing rod maintains the rods in the retracted, opening position, until the leaf is reclosed. Vice versa when it is released, the activating lever 4 is returned elastically inside its seat, by the spring 7.

[0027] When the leaf is closed, the above-described locking device automatically releases the upper closing rod, enabling the slides 8, 9 to return to the withdrawn position of extraction of the closing rods, by means of the thrust exerted by the springs 10. In other words, the leaf is opened manually by means of the activating lever 4, whereas closing takes place automatically, with an obvious functional advantage.

[0028] The locking mechanism described has very small dimensions, in particular on the transverse plane, such that the possibility of fitting it in the door leaf is optimized. This is obtained in particular by production of the slides 8, 9 using flattened coplanar elements. The activating lever 4 and the rocker 12 in turn contribute to this reduction of size, since they are also made of flattened elements which are disposed on a vertical plane abutting that of the slides 8, 9.

[0029] The aforementioned embodiment of the slides 8, 9 as well as that of the lever 4 and rocker 12, also permits very low production costs to be obtained, since in practice the elements are obtained by means of simple cutting work or the like.

[0030] In particular it should be noted that the lock provides improved protection against any attempted break-ins, since the lower slide 9 can slide upwards independently of the upper slide 8. In fact if an attempt is made to release the closing mechanism from the bottom by means of the lower closing rod, only the slide 9 slides, which, owing to the flattened portion 17, does not make the rocker 12 pivot. Thus the upper slide 8 is not moved, and the corresponding closing rod ensures that the leaf remains locked.

[0031] The above-described possibility of independent sliding of the lower slide 9 is also advantageous in normal use of the door, in order to compensate for partial obstruction of the engagement seat of the lower closing rod ferrule, caused for example by the presence of dirt or the like. In fact in this case, the upper slide 8 can complete the full raising course of the corresponding closing rod, for engagement of the ferrule of this rod in the seat provided on the door jamb, whereas the lower slide 9 can remain partially raised, without causing stress on the lock mechanism.

[0032] In practical implementation of the invention, any materials, forms and dimensions can be used, according to requirements.

Claims

1) A lock for a secondary leaf of fire doors comprising a pair of rods which slide vertically, in opposite directions, between an extracted closing position and a retracted opening position, and which at their ends engage corresponding seats provided respectively in a door frame and in a floor, a first upper and a second lower slide (8,9) which can be connected to the rods and guided in a sliding manner vertically in a casing (1) of the lock against respective return spring means (10) between a position of reciprocal withdrawal and a position of approach, corresponding respectively to the closing and the opening positions of the rods, a rocker return device (12) pivoted centrally on a first pivot (13) in the casing and having at opposite ends pin articulation grooves (14) into which project pins (15) from the slides, for transmission of movement from the first slide (8) to the second slide (9), a second pivot (5) on the casing on which an activating lever (14) pivots to act on the first slide (8) against second return spring means (7), such as to give rise to movement of the slides into the position of reciprocal approach, characterised in that the first slide (8) is provided with an opening through which a projection on the casing extends.

2) A lock according to Claim 1, characterised in that in the position of the articulation groove (14) on the second, lower slide, the rocker return device (12) has a flattened portion which enables the second lower slide (9) to slide upwards independently of the first upper slide (8).

3) A lock according to Claim 1 or claim 2, characterised in that on its top, the activating level (4) has a tooth (18) with a suitably rounded profile, which during the opening stage can abut a roller pin (19) which projects transversely from the first slide (8).

4) A lock according to claim 3, characterised in that the activating lever (4) depending from the tooth is substantially L-shaped.

5) A lock according to claim 3 or claim 4, characterised in that a shank of the activating lever (4) is recessed from a front face (2) of the casing.

6) A lock according to any of claims 1 to 5, characterized in that the slides (8,9) are advantageously made of flattened metal elements which are disposed such as to be coplanar on the vertical sliding plane.

7) A lock according to any of claims 1 to 6, characterized in that the articulation pins (15) of the rocker return device (12) move along slots (16) provided vertically in the casing (1).

Drawing