NO832063L - WALL STANDS AND CONNECTORS FOR SUCH STANDS - Google Patents

Description

Veqgstenders and connectors for such stands

The present invention relates to studs for use in the construction of walls and connectors for use in the manufacture of the studs.

It is well known to erect walls by lining both sides of a row of vertical, horizontally spaced laths with building boards. If it is necessary for the wall to have a large cavity, e.g. if it is to be used as an external wall in a building in a cold climate/the studs can have a cross-section of as much as 195mm x 4 5mm. A considerable amount of wood is used to build a wall of this type, and the price of such a wall is therefore high.

There is therefore a need for devices by means of which the amount of timber used in such a wall can be reduced without any significant reduction in the strength of the wall. This need is satisfied by the present invention. According to the invention, a stand as stated in claim 1 has been provided. The invention also provides a connector for use in such a stand as stated in claim 6.

The preferred embodiment of the stud and stud connector as well as a wall comprising such studs will now be described with reference to the drawing.

Fig. 1 is a perspective view of a piece of a stud i

according to the present invention.

Fig. 2 is a perspective view of one end of a stud connector according to the invention. Fig. 3 is a section of a ground plan of the stand below

the manufacture.

Fig. 4 is a section of a horizontal section through a wall

according to the invention comprising a number of posts.

Fig. 5 shows a pair of stud connectors during their manufacture. Fig. 6 is a perspective view of a piece of a stud according to the invention and shows a connection plate which can be used in addition to the stud connectors.

As shown in fig. 1, a strut 10 is made up of two parallel battens 12a, 12b lying at a distance from each other which have a mainly square or rectangular cross-section. The battens 12a, 12b are held in position relative to each other by means of a series of strut connectors 14, of which only one is shown in Fig. 1. The laths may have a dimension of 45 x 45 mm.

Each connector has two head parts 16a, 16b lying in the same plane which are connected by a leg 18. Each head part comprises in one piece pins 20 formed with the heads (see fig. 2) which are punched out from the material in the head parts 16a, 16b while leaving slots 22. The pins extend mainly perpendicular to the head parts 16a, 16b and have pointed ends 26.

The material at each edge of the leg is bent at right angles to form flanges 24. which extend over the entire length of the leg. The flanges increase the compression stiffness of the leg. A reinforcement can additionally or alternatively be obtained by pressing down a part of the leg to form a rib 28 along all or part of the length of the leg. At each end of. the leg has either one or both flanges one in one. with. the flange forms a knob 30, which lies in the same plane as the flange 24 to allow alignment and determination of the correct distance between the battens 12a,. 1.2b when making the stand 10, as shown in fig. 3. The battens 12a, 12b can be pushed towards each other until the opposite sides 32 of the battens come into contact, against the edges of the lugs 30, which ensures that the battens are at the correct distance from each other.

A force is now exerted on the head parts 16 to press the pins 20 into the battens until the head parts 16 lie flat against the flat surfaces 34 of the battens and pins.

20 is embedded in the battens. It will be clear that the connectors

can be used on any side of the studs or on both sides of these and have a mutual distance according to the strength that the resulting stud must have. Furthermore, the distance between the laths during manufacture, of. f orbinders n be determined in advance by the length of the leg 18. ' The leg lengths can be 80, 105, 130 or 155 mm to give stud widths of 170, 195, 220 and 245 mm. The stand can further comprise one or more connection plates 60, see fig. 6, each of which comprises pins formed in one piece with the plates in the same way as the pins 20, as the pins at each end of the plate are embedded in the laths so that the plate rests against the sides of both laths. The strut's folding resistance, i.e. the resistance to shear forces acting on the battens

12a and 12b in opposite directions as shown by arrows 62 and 64 are thus increased. Rectangular plates can also be used to provide a stand with increased resistance to point loading .. from above^e.g. if a stand is to be arranged under a wall on the floor above. In this case, further battens are arranged between the battens 12a, 12b. The laths are held together by means of a series of connecting plates with pins formed in one over the whole of one side, as the pins are embedded in the different laths. No stud connectors of the type shown in fig. 1 to 5, are used in a stand of this type, which only needs to be used when you expect to encounter exceptionally high point loads.

Studs of the type described can be used for erecting a wall as shown in fig. 4. A series of parallel, spaced uprights are clad with plates 36 in two parallel planes, the plates 36 being connected to the uprights 10, usually by means of pins 38, so that the connectors extend perpendicular to the plates. The cavity between the plates, including the cavity inside the stud, can be filled with insulating material. The narrow flanges 24 allow the insulation material to be introduced also between the connectors when these are used in opposite pairs, so that even small thermal bridges in the wall are avoided.

As shown in fig. 3, the row of staples 20 preferably extends close to the edge of the side 32 to avoid a zone prone to buckling under compression load.

A large number of connectors can be produced simultaneously in a manner indicated in fig. 5. Successive pre-biridé remnefni 4' are punched out from a metal strip and are interconnected by narrow bridges 40. A pressing operation bends the flanges 24 along lines 42 and punches out the pins 20 in the head portions of

to provide a series of finished connectors which are connected by the bridges 40. The bridges 40 are sufficiently flexible to permit.de. after

consecutive connectors to be coiled up for storage or transport before use. Such a coil constitutes a suitable supply of connectors for a machine for assembling studs, as the machine can break off connectors from the coil one by one when making the stud, as described above.

It will also be clear that very little waste occurs during the manufacturing process. Only a small part 44 of the material between two consecutive subjects is not included in the finished ones

connect.

Claims (10)

1. Wall stud (10), characterized in that it comprises two parallel battens (12a, 12b) which are kept at a distance from each other by means of a series of sheet metal connectors (14), each of which comprises two head parts (16a, 16b) lying in the same plane which are connected by a leg (18) and rest against the sides of the battens (12a, 12b) and have pins (20) formed together with the heads which are embedded in the battens (12a, 12b). 2. Stender (10) as stated in claim 1, characterized in that the leg (18) has flanges (24) which extend along the leg and are formed by bending material at the leg edges. 3. Stenders as stated in claim 2, characterized in that one or both flanges (24) at each end of the leg (18) have one in one with the flange formed .knast■ (30) which lies in the same plane as the flange to allow determination of the correct distance between the battens (12a, 12b) when making the upright (10) by placing the cam edges against the opposite sides of the battens (12a, 12b). 4. Stender (10) as stated in one of the preceding claims, characterized in that a part of the leg (18) is pressed to produce a reinforcing rib (28). 5. Stands (10) as stated in one of the preceding claims, characterized by a metal connection plate (60) which lies against one side of each batten (12a, 12b) and includes in one with the plate formed pins which are embedded in the battens (12a, 12b) y as the connecting plate (60) is such that it provides increased folding resistance. 6. Connector (14) for a wall bracket according to one of claims 1 to 5 and made of sheet metal, characterized in that it comprises two head parts (16a, 16b) lying in the same plane which are connected by a leg (18) and comprise in one with the heads formed pins (20). 7. Connector (14) as stated in claim 6, characterized in that the leg (18) has flanges (24) which extend along the leg and are formed by bending the material at the leg edges. 8. Connector (14) as stated in claim 7, characterized in that one or both flanges (24) at each end of the leg (18) have a knob (30) formed in one piece with the flange, which lies in the same plane as the flange (24). 9. Connects the sora specified in a .. of claims 6 to 8, characterized in that a part of the leg (18) is pressed down to obtain a reinforcement rib (28). 10. Use of a wall stud as stated in one of claims 1 to 5 for the production of a wall, characterized in that a number of parallel studs (10) standing at a distance from each other are covered with plates (36) in two parallel planes so that the connecting legs (18) is perpendicular to the plates (36).