NO750163L - - Google Patents

Description

The invention relates to a ring mechanism for holding together papers and the like, of the type used in so-called ring binders. The ring mechanism has two pairs of half rings, which are affected by a joint mechanism for opening and closing.

Until now, such ring mechanisms have mostly been made entirely of metal. A typical construction includes a pair of flat metal plates to which one or more curved elements are attached. The two metal plates are in contact with each other along an edge and a C-shaped f in cross section presses the two metal plates against each other so that they act as a joint mechanism with two stable positions. It is also known to replace the metal plates with the help of a steel rod which with its ends forms curved elements and with its intermediate part forms part of the joint mechanism. When two such rods are placed in cooperation with each other and provided with a spring as mentioned above, a ring mechanism is obtained.

In some cases, such ring mechanisms can be dangerous, especially for children, as it is easy to get a finger in between when closing the rings. It would therefore be an advantage to use plastic materials, at least for the ring parts in the mechanism.

The purpose of the invention is therefore to provide

a ring mechanism in which at least the rings are made of plastic material, and where the main part, if desired, is made of plastic material.

According to the invention, there is therefore provided - a ring mechanism which is stated in claim 1. Further features of the mechanism are stated in the sub-claims.

The advantages of the invention will be explained in more detail

in connection with the description of some embodiments shown in the drawings, where

Fig. 1 shows an embodiment of a ring mechanism in plan view from below, Fig. 2 shows a section through fig. 1, with the ring closed, Fig. 3 shows, a section as in fig. 2, with the ring open, Fig. 4 shows a plan view from below of an alternative embodiment, and Fig. 5 shows a plan view from below of a

ring mechanism with a single spring wire.

In fig. 1, 2 and 3, a ring mechanism is shown with a folding member in the form of a housing 10... The housing 10 has holes 11 for fastening means with which the housing can be attached to e.g. the wall in an archive folder. The housing 10 also has openings 12 for the ring halves,

in the form of curved elements 13 and 14 which are made of plastic, such as make up the two parts in each ring. The free ends of each of the curved elements 13 have a central projection 15 which, when the ring is closed, cooperates with a corresponding hollow in the free end of the associated curved elements 14. The other ends of the curved elements 13 and 14 are made in one with each of two parts 16 and 17 in an associated joint mechanism.

The outer end of the joint mechanism part 16 has a bore 20 in which an end part 21 of a spring wire 22 is inserted. The inner end of the joint mechanism part 16 has a convex surface and cooperates with the inner end of the second joint mechanism part 17, which has a concave design. The outer end of the joint mechanism part 17 is attached to the end part of a spring wire 19 in a similar manner. The intermediate parts of the spring wire 19 and 22 are arranged between the inside of the housing 10 and inwardly directed projections 23. The spring wires are in a tensioned state in fig. 1. The arrangement of the middle parts of the spring wires 19 and 20 prevents a transverse movement of the wire upwards, or downwards or outwards, but allows the spring wire to perform a turning movement about its longitudinal axis. The two joint mechanism parts 16 and 17 are resiliently pressed against each other by means of the spring wires and have two stable positions. In one position, see fig. 2,

the ring 13, 14 is closed and in the second position, fig. 3, the ring 13, 14 is open.. In the position where the ring is open, further opening of the rings will be prevented by the link mechanism part 16 and 17 abutting against the underside of the housing 10. -In the position where the rings are closed-, a further movement is prevented by the ring half-

the parts or the curved elements 13, 14 support each other.

The spring threads 19 and 22 have two functions. Primarily, the spring threads provide a necessary force that presses the joint mechanism parts 16 and 17 against each other. The secondary function is that they connect the two joint mechanisms with each other, so that when one performs a turning movement, this will be transmitted through the spring threads 19 and 22 and cause the other joint mechanism to also come into effect.

The spring wires 19 and 22 have a curved shape in their relaxed state and when they are placed in the housing, they will be stressed by the holding part, in this case the housing 10.

If the house 10 is made of a cheap plastic material, then

there may be a tendency to deformation. of the sides of the house in the outward direction. For. to counteract this, the sides of the house can therefore be strengthened by making them thicker approximately midway between the ends, and in addition transverse bracing in the form of ribs 24" can also be arranged.

From fig. 1, it will appear that the reaction force from the spring wires acts against the house wall between the two protrusions 23-

As the ring mechanism is symmetrical about the longitudinal center line through the housing.10, there will thus be no imbalance in the housing. While a relatively strong and hard plastic material is required for the ring and joint mechanism, the housing can be made from a flexible and therefore cheap plastic material.

Fig. 4 shows a simplified construction of the ring mechanism. The center parts of the spring wires 25 and 26 are held in place by means of a rigid retaining clip 27 • The retaining clip 27 -may be provided with fastening means for attaching the ring mechanism to the back

in a file folder. Alternatively, the embodiment in fig. 4 is also provided with a house. Since this housing does not need to be in contact with the spring wires 25 and 26, its construction can be simplified.

If you want a ring mechanism with more than two. rings, then you can connect the individual mechanisms together as shown in fig. 4* This is indicated by the additional spring wires 29 which act on the joint mechanism 28. At the not shown end, the spring wires 29 have contact with a new joint mechanism. and you can continue like this, depending on the number of calls you want.

It is also possible to provide the ring mechanism with an operating arm or operating arms, so that an influence of the arm or arms will cause a movement of the joint mechanisms from one position to another. Such arms can advantageously be connected to the ring/joint mechanism at one end of a complete ring mechanism. Operation of an articulated mechanism .with the arm will propagate to the other articulated mechanisms through the spring wires connecting the articulated mechanisms and the rings to each other.

In fig. 5 shows an embodiment where a single spring wire is used. As in the design example in fig. 1 here is a housing 2P with holes 31 for attaching the housing to the back of an archive folder. The housing 30 also has openings 32 for the rings 33, 34-

le curved elements or ring halves 33 and.34

are connected to the respective parts J, 6 and 37 in the joint mechanism. The part 37 has an end 38 with a convex shape, and this end goes in

in a concave socket formed in a projection 39 for the inside of the housing 30*The other end of the part 37 is also concave and cooperates with a convex plate or the inner end of the second part 36. The outer end of the second joint mechanism part 36 has a bore 40 in which a end part 41 of a spring wire engages. The intermediate part 42 of the spring wire is centrally arranged in a cavity formed in the projection 43 on the inside of the housing 40* The embodiment in fig. 5 works in principle in the same way as the ring mechanism in fig. 1.

As there is only one spring wire in the ring mechanism in fig. 5, the housing 30 must, in order to avoid possible deformation thereof, either be made of a sufficiently strong plastic material, or of metal.

The rings do not of course need to be circular, but can have any suitable shape, as long as they only form a "closed" whole in the "closed" position.

Claims (5)

1. Rigid mechanism for holding together papers and the like, including two ring units arranged at a distance from each other and each includes two curved elements or ring halves which are connected to each part in a two-part joint mechanism, characterized in that a spring wire (22) extends between the ring units and with its ends (21) is connected to a part (16)(17) ) of each of the joint mechanisms, and by a holding member (10) which cooperates with the spring wire (22) and holds this in a tensioned position so that the spring exerts a spring force on the joint mechanisms. 2. Ring mechanism according to claim 1, where the needle member is in the form of a housing which partially surrounds the ring units, characterized in that each ring unit (13,14)(16,17) is made of a plastic material and has two spring wires (19 and 22) an< 5rdnet at mutual distances and next to each other between the ring units (13,14jl6,17), a spring wire (19) being connected with its ends to a part in each joint mechanism, while the other spring trough (22) with its ends is connected to the other parts in the joint mechanisms, and the housing (10) cooperates with central parts of the spring wires (19 and 22). 3. Ring mechanism according to claim 1 or 2, characterized in that each ring half part (13, 14) and the corresponding part (16, 17) of the joint mechanism is made as a uniform plastic part. 4. Ring mechanism according to claim 2 or 3> characterized in that the housing (10) is made of plastic. 5. Ring mechanism according to one of the preceding claims, characterized in that each part of each iedd mechanism is intended to be connected to one end of each of two spring wires (25 and 29) so that these extend from the joint mechanism parts in opposite directions.