NL8300692A - METHOD FOR ATTACHING A CRIMPING SOCKET ON THE ENDS OF THE INSULATING COAT OF A THERMALLY INSULATED PIPE. - Google Patents

Abstract

Method for interconnecting a shrink sleeve (12) upon the outer ends of the insulating jacket (4, 5) of a thermally insulated conduit (1, 2) by inserting an electric conductor (10) into the clearance (9) between the sleeve (12) and the jacket (4, 5) prior to activating the shrinkage of the sleeve (12) whilst after having performed the shrinkage a permanent melt connection is obtained between the sleeve and the jacket by electric heating with the use of said wires.

Description

p NO 31596 #w „x * ~

Method for attaching a crimp sleeve to the ends of the insulating jacket of a thermally insulated pipe.

The invention relates to a method for attaching a crimp sleeve to the ends of the thermoplastic plastic insulating jacket of a thermally insulated pipe / which crimp sleeve serves to bridge the attached ends of the pipe tube and between this pipe and the crimp sleeve. as well as insulating materials 10 between the spaced ends of the jacket.

Such a method is known from practice. With the crimp sleeve it is possible to close the connection point between two pipe ends fastened together and the insulating material to be applied around it in an impeccable manner with respect to the environment. The crimp sleeve can be placed with great play on one end of an insulating jacket before making the splice joint / can then ever be placed on the spaced ends of the insulating jackets of the joined pipes and then shrinked / either with a burner or a hot air appliance or with an oven consisting of two halves to be placed around it. When shrinking, the sleeve tightly connects to the ends of the insulating jacket, so that a tight connection is obtained.

A drawback of this known method is that the initially protruding connection loses quality over time because the tension with which the crimp sleeve engages the insulating jacket is gradually lost due to shrinkage. The initially good connection then becomes a bad connection, through which moisture penetrates Iran into the insulating material applied in the welded joint, whereby the pipe can rust there and the insulating material can be damaged.

The object of the invention is to provide a method in which this drawback can no longer occur.

According to the invention, this object is achieved in that an electric conductor is placed between the outer surface of the insulating jacket and the not yet crimped sleeve, which optionally is itself given by a thermoplastic plastic with essentially similar softening and melting properties as the plastic of the insulating jacket After the crimp nub, then the crimp nub is brought to shrink, and after this crimp has been completed, the sleeve and jacket are welded together by electrical heating with the aid of the applied wires.

Thus, the invention creates a fusion connection shortly after the shrinkage connection is established, which permanently bonds the sleeve and the insulating sheath, so that it no longer matters whether the clamping stress obtained by the shrinking qp duration 5 is lost. Before being crimped, the shrink sleeve has sufficient leeway to apply the electric wire. This can be wrapped around the jacket, after which the shrink sleeve is slid over it, of course leaving ends that can be connected to a source of power. After the crimping has been effected, the electrical wire is firmly clamped. When it is then electrically heated to a temperature at which the jacket of the wire melts, as well as the adjacent surfaces of the sleeve and of the tube, an excellent melting connection is created partly under the influence of the clamping voltage. Thus, according to the invention, use is made of the properties of the shrink sleeve and these are combined with the creation of a weld, which is known elsewhere, by means of electric or inductive heating. No extra facilities are required at the sleeve. Thus, the invention makes it possible to create a permanent connection at the non-crimped sleeve, using the play that is nevertheless present, without requiring more investments than an electric wire and a current source.

The method according to the invention can be further simplified by taking a wire for the electric wire, which has two cores, which are connected to each other at the SSn end. Such a wire then only has to be made bare at one end so that the two conductors can be twisted together, after which the wire is wrapped in the jacket in at least one turn, after which the sleeve is slid over it.

The invention will now be further elucidated with reference to the drawing.

This shows in cross section the connection point of two thermally insulated pipe pieces.

The drawing shows two pipe pieces 1 and 2, which are fastened together by means of a V-weld 3, for example. These pipes 1 and 2 are angled over most of their length by an insulating jacket 4 and 5, respectively, consisting of a plastic. The space between the pipes 1 and 2 and the jackets 4 and 5, respectively, is filled with an insulating material, for example a foam plastic 6 and 7, respectively.

40 Before, for example, weld 3 is made, a shrink sleeve consisting of a thermoplastic plastic consisting of a thermoplastic synthetic material is slid over SSn of the 83 0 0 69 2 -3 as indicated by broken lines at 8. This crimp nafis is stretched such that it has a wide clearance relative to the mantle. At each end of the sheath 4, respectively, a two-core electrical conductor 10 is now wound in the form 5 of at least one winding. At the end the two wires are connected to each other and at the other end connection can be made to the schematically indicated power source 11. The crimp sleeve can now easily be slid over both windings 10 as indicated by broken lines at 12.

The space 13 around the weld 3 and between the ends of the insulating jackets 4, 6 and 5, 7, respectively, can be filled with insulating material before the sleeve 12 is placed, but this can also be done later by injecting a foaming plastic .

After the sleeve has been shifted into the position indicated by 12, it is heated in a manner known per se, so that the sleeve shrinks and takes the form indicated in the bottom half of the drawing, this sleeve, as indicated in the left-hand section at 14 clamping voltage lies around the electrical conductor 10.

If thereafter sufficient current is passed through the conductor 10, its casing 15 melts and it fuses with the plastic material of the jacket 5 and the plastic material of the sleeve, so that the melting connection is made as indicated at 16.

8300 69 2

Claims (2)

1. Method for attaching a crimp sleeve to the ends of the thermoplastic plastic insulating jacket of a thermally insulated pipe # which crimp sleeve serves to bridge the welded ends of the inner pipe and between this pipe and the crimp sleeve as well as between the spaced ends of the jacket contain insulating material, characterized in that an electrical conductor is placed between the outer surface of the insulating jacket and the not yet crimped sleeve, which may itself be angled by a thermoplastic plastic with essentially similar softening and melting properties as the plastic of the insulating jacket and of the crimp sleeve, then the crimp sleeve is brought to shrinkage and after this crimp is completed, the sleeve and jacket are welded together by electric heating using the applied wires. Method according to claim 1, characterized in that an electrical wire is used with two wires, which are connected to each other at the SSn end. ***** 83 0 0 69 2