SE441694B - Device for anchoring of a heat insulated conduit - Google Patents

Abstract

A heat-insulated conduit comprised of an inner heating pipe (8), surrounded by an insulation (9). The insulation is surrounded by an outer protective pipe (14). The heating pipe (8) is supported by supporting sleeves (7) and between the mantel surface of the heating pipe (8) and each support sleeve (7) spacers (12) are arranged, that are firmly connected with the heating pipe (8) and the support sleeve (7) and which keep the heating pipe coaxial in the support sleeve. The sealed protective pipe (14) is connected on the mantel surface to each support sleeve.<IMAGE>

Description

s1o2e1a-s 7 Z Figure 1 simply shows a part of one on a ship weather deck.fitted steam line according to the finding, Figure 2 shows a radial section through a steam line and 4 shows a support sleeve according to FIG. 1 and support means for the support sleeve, which allow the support sleeve and the protective the tube to slide, 7 figure 3 shows a support sleeve seen from the side and its 7 support means and an axial cross-section of the heating pipes, insulation and protective pipes figure U shows an axial section through a telescopic protective pipe 0Ch Figure 5 shows an axial section through the end portions of _ two adjoining steam pipe sections.

A steam line according to figure 1 is attached to a ship weather deck 1 and consists of a plurality of line units 2, which can be prefabricated. Each part 2 has one end 3 of the heating tube fixed to the deck l and the other end H_is connected to one expansion box 5 of conventional type, which accommodates the axial ones the movements of the steam transmitting heat pipe. The wiring part 2 is supported along its entire length by the tire 1 welded or otherwise fixed pipe bends 6.

The pipe bends 6 support support sleeves 7, which are thus held on tuned vertical distances from the deck 1, but which can be moved relative to the bends in the longitudinal direction of the conduit.

Figures 2 and 3 show an embodiment of a support sleeve 7 according to the invention. The support sleeve 7 surrounds the heating tube 8 and has an outer diameter, which corresponds to the outer diameter of the insulation 9, which for example consists of pipe bowls made of mineral wool or similar materials, which do not melt at high temperatures.

The inner diameter of the support sleeve 7 is made as large as possible view of the forces transmitted from the bucks 6 and to largest possible annular space 13 shall be obtained between the jacket surface 10 of the heating tube and the inner cylindrical of the support ring 7 wall ll. This space is suitably filled with insulation materials to avoid heat loss via the support ring or the inner wall 11 of the support sleeve 7 is provided with spacers means 12, which in the example shown consists of four steel strips 3 8102818-s with a rectangular cross-section extending along the support the entire length of the sleeve 7 and which has its longitudinal edges welded at the support sleeve 7 and at the heating tube 8. The steel strips have the same height and the heating tube 8 will thus pass coaxially respective support sleeve 7. In the embodiment shown there is four evenly spaced spacer strips 12, but of course which can any appropriate number of spacer strips or comparable spacers are used provided that the heating tube 8 kept coaxially in the support sleeve 7. With a sufficiently tight placement of the short support sleeves 7 along the heating pipe 8 comes the insulation 13 completely to be relieved of the pressure from the heating pipe and any I compaction of the insulation material under the heating pipe respectively cavities in the material above the heating tube 8 need not be faras. The distance between the support sleeves is of course conditioned by the stiffness of the heating pipe. In normal cases, a distance of 3-5 should meters between the support sleeves to be completely sufficient.

As shown in Figure 3, it is cylindrical, waterproof protective tube hat at each support sleeve 7 divided and transferred over the support the sleeve and fastened to it by means of screws 15 or other suitable fasteners. Preferably, however, a continuous nuerligt protective tube lb, which extends undividedly over the support sleeve.

To hold the support sleeves 7 on the trestle 6 is a bracket 16 fitted around each support sleeve 7 and this bracket 16 has suitable a small play 17 against the casing surface 18 of the support sleeve 7 so that the support sleeve 7 and the protective plate can slide freely in the bracket 16.

The jumper 16 has threaded leg ends and these are passed through the heel in the respective bend 6. The bend 6 has an upper horizontal flange 19 with said hole and a vertical flange 20 which is welded at the deck l. The stirrup 16 is tightened by means of nuts 2l and 22 and to ensure a suitable play there are locknuts 23 and 24 on the legs, which abut against the upper side of the flange 19.

The jumper 16 and / or the mantle surface on the support ring 7 and the protective tube 14 can be provided with a layer of a friction-lowering material in order to obtain the best sliding properties. Likewise, anti-corrosion material is used between the flange 19 and the protective tube lH.

The protective tube lä is, as shown in figure H? suitably made as a telescopic tube consisting of two tube parts 25 and 26, which are interposed and between which there are 8102818-5 a sealing ring 27, which allows an axial movement between parts 25 and 26 without compromising the sealing function against water deteriorates. The ring 27 here shows consist of a continuous band of rubber, silicone or similar but the seal can also be made of one or more 0-rings. 4 '7 Figure 5 shows the connection between two to each other connecting steam line parts 2 and 2 '. The end of the respective heating tube 8,8 'is welded to an annular flange 28 and 29, respectively, provided with coaxial holes 30,31 for sealing contraction of the flanges by means of bolts (not shown). The protective part's 2 protective pipes 14 is fixedly connected to a short, cylindrical pipe section 32, which protrudes from the inner surface of the flange 28 and the conductor part 2 ' protective tube 14 'is fixedly connected to a short, cylindrical tube piece 33, which projects from the inner surface of the flange 29. Both the pipe sections 32 and 33 are coaxial with associated heating pipes 8 and 8 ', respectively. The two flanges 28,29 extend with theirs outer perimeters and bolt holes outside protective pipes and insulation and a tightening of the bolts is thus possible without intervention in the insulation if required. Flange connection of this type allows a quick and easy replacement of a damaged line part 2.

In the described embodiment it has been assumed that the protective the tube lä is fixedly mounted on each support ring 7 and that the tube thus must be telescopic, as described in connection to Figure 4, but it is also possible to leave one end slidably connected to a support sleeve 7, which is then done so long, that the pipe end cannot leave the support sleeve at maximum emerging axial movements. Suitably, one or several sealing rings between the support sleeve and the protective tube.

Claims (3)

5- os1o2s1s-is P A T E N T K R A V Device for a heat-insulated pipeline (2) of the kind comprising an inner, cylindrical heating pipe (8), intended to conduct a high-temperature medium, a cylindrical insulation (9) arranged around the heating pipe, a protective pipe (lu) ), a plurality of cylindrical support sleeves (7) arranged along the pipeline with an outer diameter corresponding to the outer diameter of the insulation and a plurality in an annular space (13) between the heating tube (8) and the internally arranged radially directed spacers (12) of the support sleeves, characterized therefrom , that each spacer (12) is fixedly connected to the heating tube and associated support sleeve and that each support sleeve is axially slidably mounted in a support member (16), arranged to be attached to a support (1). Device according to claim 1, characterized in that the spacer means consist of strips (12) which extend axially along the inner wall (11) of the support sleeve (7). Device according to claim 1 or 2, characterized in that the support member consists of a bracket (16) which encloses the support sleeve (7) with clearance (17) and a support flange (19) supporting the support sleeve and the protective tube. H. Device according to any one of claims 1-3, characterized in that the bracket (16) and / or the support surface (18) of the support sleeve (7) is coated with a friction-reducing material.