SE458455B - ELASTIC BODY AND WAY TO JOIN TWO ELEMENTS BY THIS BODY - Google Patents

Description

15 20 25 30 35 458 455 and is lowered into a channel which has an opening along its longitudinal direction. An airtight hose is then lowered into the duct and subjected to an internal overpressure, whereby the foils are pressed against the walls of the duct. The disadvantage of this sealing method is that an overpressure must be constantly maintained inside the hose, which can be difficult to achieve for a long time.

DESCRIPTION OF THE INVENTION The object of the present invention is to provide an elastic member and a method of joining two elements into a positive engagement with each other, the joined elements having a channel with open or closed cross-section, in which an elastic member is brought into inserted position. to exert forces perpendicular to the walls of the channel, which prevent the elements from being brought into engagement with each other. A tensile force is then applied in the longitudinal direction of the elastic member causing an increase in tension, whereby an elongation is produced in its longitudinal direction and a contraction is effected in its transverse direction, so that the cross-section of the elastic member becomes smaller than the cross-section of the channel.

The object has been achieved with a method which is characterized in that the elastic member is first applied with its front part in the direction of tension at one end of a channel by clamping against the walls of the channel, after which the tensile force is applied in the elastic member. The elastic member is then pulled stepwise through the channel, each tensioning step comprising an automatic stretching of the elastic member under tension until a sliding is effected against the walls of the channel, followed by a contraction of the elastic member to tensionlessness, whereby the elastic member is gradually inserted into the channel. In a preferred embodiment of the invention, a traction member is attached to the elastic member, the traction member being previously or thereafter passed through a channel of closed cross-section, after which the traction force is applied to the traction member. The elastic member according to the invention is characterized in that it has one or more parts or parts through which inner sliding surfaces are obtained at which the parts or parts of the elastic member can slide relative to each other when this is pulled through the channel. In an alternative embodiment of the invention, the elastic member may have a partially slotted cross-section with sliding surfaces extending from the inner portion of the member and a distance towards its outer surface.

The elastic member is preferably made of rubber which has a contraction of a maximum of 30% when stretched in its longitudinal direction. In this way a simple insertion of the elastic member into the channel is obtained at the same time as the fixing ability of the elastic member in the channel becomes sufficient.

DESCRIPTION OF FIGURES The invention is described below in the form of exemplary embodiments in connection with the accompanying figures.

Figure 1 shows the joining of two edge-profiled boards by means of the invention.

Figure 2 shows joining of two thin sheets or foils by means of the invention.

Figure 3 shows the joining of two panels where the joint is completely hidden from both sides.

Figure U shows a profile bar combined with an elastic member according to the invention, which together form a construction element.

Figure 1 shows two discs 1 and 2, which have different profiled edge profiles. When the boards are to be side-jointed, the two profiles are laid so that a channel 3 is formed. An elastically resilient elongate member Ä is pulled so much that its thickness decreases by contraction and enables insertion through the gap 5. This design presupposes a certain stability in the disc material, especially if one simultaneously desires a locking of the discs. tight connection. In Figure 2, a sheet or foil material 7 and 458 455 10 15 20 25 30 35 8 8 which does not have its own statute is fixed in an outer profile rail 6 which is also used as a counter-needle in the expansion of the member 9 after application or in from any of the details 7 or 8 to move out of the channel 10. In order to obtain a connection with high demands on strength, a profile rail 5 can also be used together with a disc 2 shown in figure 1. In this case an elastic member which generates a considerably greater transverse force or which has distinct sealing properties can be used depending on the requirements placed on the connection.

Figure 3 shows a further application of the invention, which can advantageously be used for joining disk modules which can be single or double-walled. Two modules 11 and 12 are provided with protruding recesses, which in the connecting position cooperate to form a closed channel 13. In the two outwardly directed boundary edges 11a, 11b and 12a, 12b of the modules, the protrusions in each module engage in recesses in the adjacent module to provide a lock against relative transverse movement between the modules. Instead of protruding lugs, the limiting edges can be provided with friction-increasing layers or the like. An elastic member 1fl must be connected for mounting to a special traction member, which is first placed in the channel 13, after which the contraction of the member 1ü takes place by stretching. Thereafter, the member 1H is inserted into the channel and allowed to expand during a longitudinal shrinkage phase to generate joining forces directed perpendicular to the longitudinal direction of the member. This slitting has been done to make it easier for the organ to retract the channel. During this expansion in its original form, the friction between the channel sides and the mantle surface of the organ will gradually increase.

The magnitude of the friction generated will depend on partial differences in and on the channel sides and on the circumferential surface of the member. The differences in turn can be caused by dirt, grease, different degrees of processing, etc. In order to reduce the risk of the body getting stuck during its longitudinal contraction, the body is partially slit in its cross section, which results in the body receiving an ability to pass by internal slides past such places where the friction turns out to be great.

Figure 4 shows a profile rod 15 together with an elastic member 16. By the two flanges 15a of the profile rod; 15b is inclined towards the center line of the rod, these will not tend to break, but instead strive to bend further inwards, which will take place during compression of the member 16. The load-bearing and resilience of the profile rod provided with the elastic member will be considerable. to be improved in comparison with a profile rod without the elastic member.

Alternatively, the profile bar may have flanges 150 and_15d which are directed in opposite directions in comparison with the flanges 15a and 15b. 'J: I

Claims (3)

458 455 10 15 20 25 30 35 PATENT REQUIREMENTS A method of joining two elements (1, 2; 11, 12) into a positive engagement with each other, wherein the elements (1, 2; 11, 12) joined together have a channel (3, 13) with open or closed cross section , in which an elastic member (4, 14) in the inserted position is caused to exert forces perpendicular to the walls of the channel (3, 13), which prevent the elements (1, 2; 11, 12) from being brought into engagement with each other, whereby a tensile force is applied in the longitudinal direction of the elastic member (Ä, 1ü) causing an increase in stress, whereby an elongation is produced in its longitudinal direction and a contraction is produced in its transverse direction, so that the cross section of the elastic member (4, 14) becomes smaller than that of the channel. (3, 13) cross-section, characterized in that the elastic member (U) is first applied with its front-facing portion at one end of a channel (3, 13) by clamping against the channel (3, 13) walls, after which the tensile force is applied in the elastic member (Ä, 1H), the elastic member (14) being pulled stepwise through the channel (13), each tensioning step comprising an automatic stretching of the elastic member (1Ä) under tension until a sliding is effected against the walls of the channel (13), followed by a contraction of the elastic member (1U) to tensionlessness the elastic member (4, (3, 13). 2. The method is suitably characterized in that a traction member is attached to the elastomer (1 fl), 1U) being gradually inserted into the channel in the member, that the traction member is previously or thereafter passed through a channel (13) of closed cross-section and that the traction force is subsequently applied. on the traction member. a An elastic member (1u), intended to be fitted in or removed from a channel (13) with a closed cross-section, wherein a traction force is fitted in the elastic member (1U) in its longitudinal direction causing a tension increase, whereby a elongation is achieved in its longitudinal direction and a contraction is achieved in its transverse direction, characterized in that it has one or more parts or parts through which inner sliding surfaces are obtained at which parts of the elastic member (1ü) or parties can slide relative to each other as this is drawn through the channel (13). Elastic member (1U) according to claim 3, characterized in that it has a partially slotted cross-section with sliding surfaces extending from the inner part of the member and a distance towards its outer surface. Jo Y