PL230031B1 - Spring assembly for a flap closure - Google Patents

Description

Description of the invention

The subject of the invention is a set of springs of a flap closure, which performs the function of supporting the lifting of the leaf of the closure during its opening and balancing the weight of the leaf of the flap closure when it is closed. The spring assembly is intended in particular for an openable window installed in a flat roof.

State of the art. It is known, from the Polish patent specification No. PL 185 795, a roof window equipped with sets of springs facilitating the lifting of the window sash, shown in the cited description, in particular in figures: 1, 3, 4 and 5 of the drawing and in the fragments of the description of the invention corresponding to these figures. These spring assemblies consist of a main spring [27] and an auxiliary spring [28]. The main spring [27] may be a gas spring with a cylinder [19] or a compression coil spring housed in a housing [19] which is equivalent to a gas spring cylinder. The additional spring [28] is a compression coil spring and if it cooperates with a gas spring, it surrounds with its coils the piston rod [23] of the main spring [27] - gas spring. One of the front surfaces of the additional spring [28] rests against the front surface [33] of the cylinder [19] of the gas spring, and the other front surface of the additional spring [28] cooperates with an adjustable stopper [32], mounted on the gas spring piston rod. The main spring [27] acts over the full stroke of the spring assembly and the secondary spring [28] only over a part of this stroke of the spring assembly. In the travel range where only the main spring [27] is active, there is play between the face of the accessory spring [28] and the stop [32]. The disadvantage of the known solution is that the mounting of the additional spring on the piston rod of the gas spring limits the stroke of this spring, or in order to use the full stroke, it requires the use of an extended piston rod to accommodate the additional spring,

THE ESSENCE OF THE SOLUTION. In a spring assembly according to the invention, comprising a gas spring which acts over the entire range of the working stroke of the spring assembly and at least one additional spring, other than the gas type, acting only on a part of this stroke; the additional spring is a compression coil spring which surrounds the gas spring cylinder at least with part of its coils. The set of springs used in the flap closure, especially in the roof window for flat roofs, performs the function of supporting the lifting of the sash when opening the flap closure and balancing the weight of the sash when closing it.

One face of the compression coil spring, acting as an additional element in the spring assembly, rests on a base element located near the bottom of the gas spring cylinder. The other face of the coil spring cooperates with a stop, which moves with the piston rod of the gas spring. Preferably, the stopper is a sleeve with an inside diameter greater than the maximum diameter of the gas spring cylinder. In the range of the stroke of the spring assembly, in which only the gas spring is active, there is play between the stop and the face of the coil spring. This range of stroke of the spring assembly in which only the gas spring operates corresponds to the range of the maximum length of the spring assembly and in the roof window in which the spring assembly is mounted corresponds to the position of the sash in the fully open window. In this position, the sash is approximately vertical and therefore requires a lower support force than when opening or closing - and hence in this range only the force of the gas spring is sufficient. Moreover, the lower force of the spring assembly in this range of its stroke facilitates the actuation of the sash from the fully open position and the commencement of closing the window, during which operation, with the required delay, the auxiliary spring engages.

The sleeve-buffer is mounted on the piston rod of the gas spring by means of two folded half-rings placed on the piston rod, on which the sleeve is slipped. Preferably, the half rings rest on the head of the gas spring piston rod, and also have a common flange on which rests the face of the bumper sleeve, slid over the cylindrical surface of both half rings put together.

In a first variant of the spring assembly according to the invention, the base element for supporting the helical spring is a U-section shaped piece with an opening in its web for a gas spring ear. The shaped piece has concentric openings in both side walls for the bolt passing through the eye of the gas spring. Preferably, a washer with an opening for the gas spring ear is placed between the U-section and the face of the helical spring.

In the second variant of the spring assembly according to the invention, the base element for supporting the helical spring is a piece, identical to the first variant, with the cross-section between this piece being

PL 230 031 B1, and a distance sleeve is placed at the front of the coil spring. This variant of the spring assembly can be supplemented with a washer with an opening for a gas spring ear, known from the first variant, which is placed between the U-section and the face of the spacer sleeve.

In a third variant of a spring assembly according to the invention, the base element for supporting the helical spring is a stop ring which is seated on the outer surface of the gas spring cylinder.

Beneficial Effects of Using the Invention. The effect of shaping the additional coil spring so that its coils surround the cylinder of the gas spring is a compact structure of the spring assembly and the full use of the stroke of the gas spring. As a result, the spring assembly is shorter, which, among other things, protects it against buckling.

Embodiments of the Invention. The subject of the invention is illustrated in the examples of implementation in the drawing, the figures of which are shown:

Fig. 1 - Spring assembly according to the first embodiment - in an axonometric exploded view;

Fig. 2 - The spring assembly of figure 1 is an axonometric view;

Fig. 3 - Detail of the connection of the buffer sleeve with the half rings and the piston rod of the gas spring of the unit of figure 1 - in longitudinal section;

Fig. 4 - Detail of the connection of the shaped piece with the eye of the cylinder of the gas spring of the unit of figure 1 - in an axonometric, exploded view;

Fig. 5 - The spring assembly of figure 1 in maximum and minimum length positions, together with the characteristics of the springs;

Fig. 6 - Spring assembly according to the second embodiment - axonometric view;

Fig. 7 - Spring assembly according to the third embodiment - axonometric view;

Fig. 8 - Spring assembly according to fourth embodiment - axonometric view;

Fig. 9 - Use of a spring assembly in a flat roof window;

Fig. 10 - Use of a duplicate spring assembly in a flat roof window.

Example 1. The set of springs shown in Figures 1 to 4 has a gas spring 1 and an additional helical spring 2, which surrounds the gas spring cylinder at least with part of its coils. A stopper is mounted on the piston rod of the gas spring 1, which moves together with the piston rod of the gas spring, the stopper being a sleeve 3, with an internal diameter greater than the maximum diameter of the gas spring cylinder. The sleeve 3 is connected to the piston rod of the gas spring by means of two half-rings 4 having a flange against which the end face of the sleeve 3 rests. On the cylindrical surface of the half-rings 4, on which the sleeve 3 sits, there is a circumferential groove, and in the sleeve 3, when applied on the half-rings 4, an embossing is made entering this groove, which fixes the half-rings and the sleeve longitudinally to each other.

One face of the helical spring rests on a base element located near the bottom of the gas spring cylinder 1, which is a U-section shaped piece 5 with a hole in its web for a gas spring ear, and in both side walls, concentric holes for a pin 7 passing through the spring eye gas. A washer 6 is provided between the shaped body 5 and the coil spring 2. For the range of the spring unit stroke in which only the gas spring 1 is active, between the face of the coil spring 2 and the buffer - sleeve 3, there is a play L (Fig. 5).

During operation of the spring assembly, starting from its greatest length, the gas spring 1 is the first to be loaded, the deflection characteristics of which are shown by line G in the diagram in FIG. 5 of the drawing. During the operation of this spring only, the play L between the bumper - sleeve 3 and the face of the coil spring 2 decreases. When the deflection of the gas spring 1 reaches the limit value Xgr, the play L is canceled and the coil spring 2 starts working. 5 of the drawing, its deflection characteristics are represented by the line S, while the total characteristics of both springs of the assembly are represented by the line G + S.

Example 2. The set of springs shown in the drawing - FIG. 6 has a gas spring 1 and an additional helical spring 2, which surrounds the gas spring cylinder at least with part of its coils. A bumper is mounted on the piston rod of the gas spring 1, which is a sleeve 3 connected to the piston rod of the gas spring by means of half rings 4 - identical to the first embodiment, moving with the piston rod of the gas spring. The base element, on which the face of the helical spring 2 rests, is a stop ring 8 mounted on the outer surface of the gas spring 1 cylinder.

Example 3. The set of springs shown in the drawing - figure 7 has an opposite position to that in the previous example, in the orientation of the compression spring 2. Base element for the spring

There is a short guide bushing 10, with a flange on which the front of the spring rests, mounted on the end section of the gas spring 1 piston rod. a stop ring 8, seated on the outer surface of the gas spring cylinder.

Example 4. The set of springs shown in the drawing - Figure 8 has a gas spring 1 and an additional helical spring 2, which surrounds the gas spring cylinder at least with part of its coils. A stopper is mounted on the piston rod of the gas spring 1, which moves together with the piston rod of the gas spring, which is the sleeve 3, with an internal diameter greater than the maximum diameter of the gas spring cylinder, connected to its piston rod via half-rings - identically as in the first embodiment. Near the bottom of the gas spring 1 cylinder, there is a base element, which is a U-shaped profile 5 - identical and identically connected as in the first embodiment. Between the molding 5 and the helical spring 2 there is a spacer sleeve 10 which can be supplemented with a washer adjoining the molding 5, as in the first embodiment.

The set of springs according to the invention is mounted in an opening window intended for flat roofs (drawing - fig. 9 and 10), which can act as a roof hatch. The set of springs is articulated with the stile of the frame 11 and the stile of the sash 12 - perpendicular to the stiles 15 connected with hinges. Preferably, the spring assemblies are mounted on both sides of the window. The position of the wing 12 as shown in the drawing corresponds to the limit deflection Xgr of the spring assembly. For an opening angle greater than that shown in the figure - figure 9 and 10 - only the gas spring 1 works, and for an opening angle smaller than that shown in the figure, the spiral spring 2 also works. In a closed window, the set of both springs 1, 2 is located in a recess in the rail frame 11. In windows with large and heavy sash 12, two sets of springs 1, 2 can be installed (drawing - fig. 10). It is also possible to assemble an assembly consisting of the gas spring itself and the spring assembly according to the invention.

Claims (7)

A set of springs of the flap closure, especially intended for a window in a flat roof, serving as support for lifting the sash when opening the flap closure and balancing the weight of the sash when closing it, which includes a gas spring and at least one additional spring of a non-gas type , the gas spring acting over the entire range of the working stroke of the spring assembly, and the additional spring only over a part of this stroke, characterized in that the additional spring is a helical spring (2), which surrounds the gas spring cylinder (1) at least with part of its coils . 2. A spring assembly as claimed in claim 1, Device according to claim 1, characterized in that one face of the helical spring (2) rests on the base element (5, 8) located near the bottom of the gas spring (1) cylinder, and the other face of the compression spring (2) cooperates with the sliding stopper together with the piston rod of the gas spring (1), where in the range of the stroke of the spring assembly, in which only the gas spring (1) is active, there is a play (L) between the stop and the face of the helical spring (2). 3. A spring assembly as claimed in claim 1, A buffer according to claim 1 or 2, characterized in that the bumper is a sleeve (3) with an inside diameter greater than the maximum diameter of the gas spring cylinder (1), the sleeve being mounted on the gas spring piston rod by means of half rings (4). 4. A spring assembly as claimed in claim 1, 1, 2, or 3, characterized in that the base element for supporting the coil spring (2) is a profile (5) with a U-section, with a hole in its web for a gas spring ear (1), and concentric openings in both side walls for a pin (7) passing through the eye of the gas spring. 5. A spring assembly as claimed in claim 1, A washer (6) with an opening for the ear of the gas spring (1) as claimed in claim 4, characterized in that between the U-section shaped piece (5) and the face of the helical spring (2) there is a washer (6). 6. A spring assembly as claimed in claim 1, The method as claimed in claim 4 or 5, characterized in that a distance sleeve (9) is provided between the U-section shaped piece (5) and the face of the helical spring (2). 7. A spring assembly as claimed in claim 1, The coil spring (2) is supported by a stop ring (8) mounted on the outer surface of the gas spring (1) cylinder.