GR1009095B - Securing mechanism for sliding sashes - Google Patents

Abstract

The invention relates to a mechanism which is intended to secure sliding sashes and be adapted to new or existing profiles opening via an embedded lock or a handle 6. Said mechanism is provided with apertures 3 enabling the screwing of the sliding profile and composed of the guide case 1 having the configuration 8 into which the rod 9 is moving, conveying the movement of the securing means through the screw 5 to the moving pins 2 which pins secure the sliding profile on the casement-mounted strike plate 13.

Description

DESCRIPTION

"SLIDING FRAMES SECURITY MECHANISM"

THE FIELD OF TECHNOLOGY

The invention refers to the field of the technical locking of frames and more specifically to a locking mechanism for sliding door and window frames using a lock of one or more points.

THE HISTORY OF THE INVENTION

The sliding window locking mechanism disclosed in the present invention has not been disclosed in the prior art.

The window frames market is a market that presents many options and significant differences, depending on the choice. As is known, there are sliding and opening profiles, depending on each building and its particularities, while at the same time there are many series, with different characteristics in their profiles, depending on the dimensions, quality, safety, thermal insulation and the engenders protection that each offers. In addition, the means of locking the sliding profile can be different, having either a spagnolet or a recessed lock. It becomes obvious that there are many combinations and many options for the user, forcing the frame manufacturing companies to offer several product lines, having some general common features, but adapting each product to the customer's requirements. This difficulty extends beyond the aluminum frames to the corresponding locks and locking mechanisms used in each frame, requiring the adjustment of components to ensure proper fit. A consequence of the above is the unwanted configuration of aluminum frame installations, with components that cannot be used universally.

An additional disadvantage of the frame locking mechanisms used to date, is the limited and point locking they provide, as it is customary for the mechanism to lock in a single point, and not along the entire length of the frame. Furthermore, many manufacturers use cast locks, making them easier to apply pressure and break. Moreover, as soon as one penetrates the locking mechanism from the outside of the frame, one gains direct access to the movement mechanism, since there is no further protection for it. As a result, it becomes easy to breach and enter the interior of the building through the aluminum profile.

Another disadvantage of the window locking mechanisms used to date is that the locking pins are connected with a cord, without further protection, inside a case for example, with the result that even while the mechanism is locked someone can maliciously lift the entire slide profile, removing the pins from the corresponding counter parts. It is thus an object of the present invention to advantageously address the aforementioned disadvantages and shortcomings of the prior art by proposing a mechanism for locking sliding frames.

A further object of the present invention is to present a mechanism for locking sliding frames with one or more locking points of the slide on the frame.

A further object of the present invention is to provide a locking mechanism for sliding frames that is easily installed, both in existing and new aluminum profiles, without requiring interventions in the frames.

A further advantage of the invention is the construction of a locking mechanism for sliding door and window frames that has greater impact and tensile resistance, with greater weight and density, since its construction is made of solid aluminum and steel profiles.

A further object of the invention is the presentation of a locking mechanism for sliding door and window frames that applies both to frames with recessed locks and to frames with a spaniolette mechanism.

Another object of the invention is the presentation of a locking mechanism for sliding frames that can be installed on all sliding profiles, regardless of their size and thickness, and without requiring the use of different components to match the corresponding profile. The mechanism has spacers, the use of which extends the mechanism, so that in series of aluminum profiles with a greater thickness, it approaches the corresponding counters and can work seamlessly.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawings in which it is illustrated in an illustrative, but not restrictive, manner.

Figure 1 shows in development all the parts that make up the mechanism together with a spaniolet for its operation.

Figure 2 shows the mechanism with the components that make it up, as well as a mortise lock for its operation.

Figure 3 shows, in perspective view, a portion of the guide housing within which the locking pins of the mechanism move.

Figure 4 shows a perspective view of the locking pin used by the mechanism to lock the frame.

Figure 5 shows a perspective view of a mortise lock used to control the mechanism. Visible is the threaded screw that screws into the lock nut.

Figure 6 shows a corresponding spaniolette that can also be used to check the locking mechanism of sliding frames. Also visible here is the threaded screw that screws into the spaniolet nut.

Figure 7 shows a spacer that fits on both ends of the driver housing.

Figure 8 shows a perspective view of a countersink, which fits into the case of the sliding frame and to which the frame is locked by operation of the mechanism of the present invention.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawings we will describe the operation of the sliding aluminum frame locking mechanism of the present invention.

The locking mechanism for aluminum sliding frames of the invention consists of a guide case (1), Fig. 3, within which all the moving parts of the mechanism are located. The guide case (1) has a hollow cylindrical configuration, along its entire length, into which the locking pin (2) is inserted and moves, Fig. 4. The guide case (1) has at its ends holes (3) thanks in which it is screwed to the aluminum profile. Clearly, there may be more holes (3) along the entire length of the guide case (1), in order to ensure the solid connection of the mechanism with the aluminum profile. Furthermore, the guide case (1) has a configuration (8), inside which moves a cable (9), Fig. 1 , connected to one or more locking pins (2) provided by the mechanism. The string (9) is connected to the pins (2), thanks to screws (10) inserted into holes (11) provided by each pin (2).

In addition there is a screw (5), Fig. 2, which penetrates the guide case (1), the string (9) and is the structural element that transfers the movement of the locking device, whether it is the knob of the spaniolette (6), Fig. 6, or the recessed lock (7), Fig. 5, to lock and unlock the mechanism. The screw (5), regardless of the way of securing the aluminum profile that has been chosen, screws with a thread onto the nut of the lock (7) or the spaniolet (6), so that it moves following their own movement and, by extension, carries it and in the mechanism. It should be noted that the guide case (1) has a notch (4), Fig. 3, for the smooth movement of the screw (5).

In the guide case (1) there are notches (12), which, when closing the sliding aluminum profile, engage with the corresponding counter (13), Fig. 8, which is screwed into the case. This is another advantage of the mechanism of the present invention, since the existence of the notch (12) ensures that the entire sliding profile cannot be lifted and the locking pins (2) come out of the counters (13). The stop (13) can be made, for example, of steel, cast or machined, of aluminum profile or of cast zamak, a zinc-based alloy, which also contains aluminum, magnesium and copper. Thanks to the construction of the specific mechanism, regardless of the thickness of the aluminum, the counter (13) used remains the same. This is achieved by spacers (14), Fig. 7, which are placed either flush at the ends of the hollow cylindrical configuration provided by the guide holder (1), or externally between the guide holder (1) and the sliding profile. The spacers (14) can move the guide case (1) away from the sliding profile, essentially bringing the entire mechanism closer to the stop (13), so that during operation it allows the unhindered movement of the string (9) and by extension the pins (2) inside the corresponding counters (13). Each spacer (14) has further holes (15), which align with the holes (3) of the guide case (1) ensure the correct assembly of the entire mechanism on the sliding aluminum profile. It becomes obvious that the use of a spacer (14) is not required for the smaller sliding profiles. Finally, their construction is indicated as being made of polyvinyl chloride, aluminum, either cast or profiled, zamac, steel or polyamide.

The construction of the guide case (1) is made from an aluminum profile, while it can also be made from a polyamide profile or from polyvinyl chloride. Accordingly, the locking pins (2) are indicatively stated to be either steel or aluminum profile, while the cable (9) is made of aluminum, steel or polyamide.

It should be noted at this point that the description of the invention has been carried out with reference to illustrative examples of application, to which it is not limited. Consequently, any change or modification regarding the shape, dimensions, morphology, materials used and construction and assembly components, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the purposes and visions of the present invention.

Claims (3)

1. Mechanism for locking sliding frames, consisting of a guide case (1), with holes (3) to be screwed to the sliding frame, with a configuration (8) in which a cable (9) moves acting on pins (2), and further consisting by spacers (14), inserted at the two ends of the guide case (1) and by counters (13) on the casing, characterized by the fact that the string (9) is connected by a screw (5) to the corresponding means of securing the aluminum profile , transferring the movement to the pins (2) to which it is connected thanks to screws (10) and their holes (11), inserting them into the counters (13) and securing the sliding frame. 2. Locking mechanism for sliding frames, according to claim (1), characterized by the fact that a spaniel (6) is used as a means of locking the aluminum profile. 3. Mechanism for locking sliding frames, according to claim (1), characterized by the fact that a recessed lock (7) is used as a means of locking the aluminum profile.