DE19854521C1 - Insulated hose line for transporting gas or liquid, with spacing projections in form of pins, bolts etc. - Google Patents

Abstract

The hose line (1) has a hose (4) with an insulating hose (5) round it at a spacing and kept away from it by spacing projections in the form of pins, bolts etc., projecting from the hose towards the insulating hose, with different radial heights. The two hoses are connected to each other so that they cannot turn relative to each other.

Description

The invention relates to a hose line with the features of claim 1.

Hose lines usually have an elastic lei to a liquid or gaseous medium transport. It is for security reasons often of great importance that the medium by external tem temperature influences are not heated or cooled inadmissibly. The hose line is therefore insulated. For this it is e.g. B. known from DE-PS 934 210, an inner tube part in one insert the outer tube part of the inner tube part surrounds with radial distance. The ge by the radial distance formed air gap has a relatively low thermal conductivity ability and insulates the inner tube part. Around the air gap are maintained on the inner tube part or on the outer Ren hose part formed on axial ribs, which as a distance projections are effective and with their radial free end on adjacent hose part, d. H. on the outside or on the inside Support the hose part. These ribs have the disadvantage that There is constant great contact between the two hose parts surface is present, which is the insulating effect for the inner Hose part greatly reduced.

DE 30 21 045 A1 is a thermally insulated conduit with a Removable inner tube for transporting a liquid. The Thermal insulation is carried out by means of an inner tube with radial stood surrounding cladding tube, which on its inner jacket Corrugated pipe carries. The corrugated tube in turn has a hump-shaped front jumps up radially over the annular waves of the well  protrude pipe in the direction of the inner tube and its Tang the outer pipe jacket. With external mechanical stress Chungen the conduit, z. B. bending, buckling, or at However, high pressure of the liquid arises between the inner tube and the waves of the corrugated pipe reduce the insulating effect large-scale contacting.

The invention has for its object the isolation of a Improve hose line in a cost-effective way.

This task is achieved through the combination of features of the claim 1 solved.

According to the invention, individual pins are used as spacing projections, Spines, humps, knobs, warts or the like are provided, which according to hereinafter referred to briefly as "spacer pins". In the opposite sentence to the known distance projections z. B. in the form of ribs extending over the entire length of the tube between the radial pin free end of the spacer pin and the adjacent hose jacket, d. H. the outer sheath of the Cable hose or the insulating inner jacket of the insulating hose, from the outset only a slight contact stand. This is the undesirable effect of the distance jumps as heat or cold bridges advantageously reduced. The Spacer pins also save material and costs Production of the hose line.

In particular, the hose line is only spaced apart tap on as spacing projections, creating the total volume and the maximum possible contact surface of the distance Cracks in the sense of greater insulation are particularly small will hold.

The air or temperature exchange between cold and warm Contrary to side in the area of the insulating tube Cable hoses with rib-shaped spacing projections almost take place unhindered. By means of the spacer pin is thus  a particularly good heat or temperature balance within given the insulating gap.

The spacer pins are over the Lei outer sheath tion hose and / or over the insulating inner jacket of the Iso lierschlauches distributed. They are either either attached to the outer cable sheath or the insulating inner sheath and extend in the direction of the radially adjacent hose. There are at least two different radial heights provided for the spacer pins in order to be able to operate (e.g. movement on the one hand, if possible large distance or a minimum distance between lines maintain hose and insulating hose and others to keep the number of heat / cold bridges low. in the idle state of the hose line that is not mechanically stressed therefore at most contacts a part of the existing Ab the adjacent hose. Preferably, the radial heights dimensioned such that in the aforementioned At rest, none of the spacer pins adjoins the neighboring one Hose jacket contacted. In this case, all ab stand pin "inactive".

The different construction heights of the spacers have white terhin the advantage that even in the area of bends and Knic the hose line reliably an insulating gap, in particular an air gap is maintained between the two hoses becomes. This ensures adequate insulation of the Then guarantee hose line along its axial direction achieves when it saves space in confined spaces must be built. This promotes functional safety device interacting with the hose line since a Freeze or overheat the line hose or the medium to be passed through is reliably prevented.

An anti-twist device enables the two to be secured in position Hoses against each other. The anti-rotation device is special in the case of curved conduit hoses a structurally simple one  Measure to prevent a preset contour ver run of the two tubes to each other in the circumferential direction during Assembly work or changed unintentionally during operation becomes. Likewise, the ones desired at different positions Distances between the free ends of the spacer and the ra reliably maintain the adjacent hose jacket. For example, it is prevented that after mounting the Hose line certain unwanted spacing constantly Contact the adjacent hose jacket.

The insulating effect is in a preferred embodiment thereby improved that the outer cable sheath and / or Insulating inner jacket in the area of the insulating gap - apart from  from the spacer pins themselves - essentially smooth-walled is.

The insulation is preferably improved in that the Isolation gap between the two hoses along the axial direction tion is partially enlarged. This is without additional Components have adequate insulation even in areas with be particularly great need for insulation guaranteed.

In sections with high insulation requirements the conduit hose and / or the insulating hose in one partial embodiment on a larger wall thickness.

Due to the isolation by means of spacers, there is a double walled (conduit hose and insulating hose) design the hose line is sufficient. On additional insulating layer or sleeving can be dispensed with in a cost-saving manner. The space-saving hose line is therefore also for cramped installation and space conditions are suitable. By suitable The management is the medium or constructive design hose and the insulating hose connected to each other in such a way that the insulating gap is sealed.

Instead of a simple air gap as insulation, the insulating gap sealed to the outside with a suitable Shielding gas must be filled to know the cold or heat insulation ter to improve. The filling of the isolation gap can be done in egg ner assembly chamber with protective gas atmosphere and accordingly designed mounting devices directly in the protective gas.

The cable hose and / or the insulating hose are preferred wise elastic. In particular, both are hoses made elastic or as elastomer hoses. The two Hoses can be made of the same material or different be made of materials. Depending on the specific application If necessary, the materials for the two hoses are coordinated with each other. All processed by injection molding  edible elastomer materials are used to manufacture the two Suitable hoses. This can meet special requirements (e.g. extreme cold and additional flexibility required Hoses; extreme warmth and heat resistance of the slack che) to the hose line simply by an appropriate Selection of materials to be met.

The hose line can, for. B. in the motor vehicle as a fluid Connection between two units can be used. As with Effective insulated vent line by means of the spacer pins it contributes to engine safety, for example.

The teaching according to Claim 2 reduces the effect of the spacer pin as heat me- / cold bridge additionally, because its arched free end when approaching are only a narrow area on the respective hose jacket contact or line contact. The free is formed, for example, as a cylindrical or spherical segment.

Claim 3 proposes a further measure to reduce the Effect of the spacer pin as a heat / cold bridge. The wedge-like tapered cross-section of the spacer stirs for example from a conical or frustoconical distance tap out.

Claims 4 to 6 relate to advantageous arrangements of the Spacer. The exact arrangement of the distance journal with very specific installation heights in the axial direction and in Circumferential direction of the hose line selected such that the respective place of use and purpose (e.g. predetermined bending areas, at least the required radial distance between the two hoses ambient temperature) is taken into account. For this you can z. B. with a certain number of manufacturing tools different "spacer pin templates" who stocked the.

To contact points between the insulating hose and the conduit hose Avoid reliably in bends (e.g. when moving, Vi  brations), is preferably in these bending areas Spacer pins - several spacer pins can also be provided hen be - arranged.

The construction height and / or the number and / or arrangement of the Ab in a preferred embodiment, stand spigot is shown in Ab dependency of relevant physical parameters, such as indoor / Outside diameter of the hoses, hose thickness etc. determined.

In a further preferred embodiment, the position is Nation of the spacer pin selected such that the number the spacer along two of the same length, but in um axial sections offset axial direction is different.

According to claim 7, the spacer pin is an integral part the conduit hose or the insulating hose. The manufacturer then the spacer can be inexpensive during the Manufacture of the respective hose, preferably with the same tool (e.g. injection or mold, injection molding part). The spacer pin therefore preferably consists of the same material as the elastic hose carrying it. Because of its inherent elasticity and the one-piece connection is the spacer spigot over a long service life mechanically strong, without the desired function is impaired as a spacer. This in turn under supports the functional reliability of the insulation.

According to claim 8, all spacers are on the line hose attached, which makes the hose especially mon can be easily inserted into the insulating tube.

Claims 9 to 11 relate to advantageous embodiments men to absorb external forces with simple means and there by a defined axial relative position between the two To achieve hoses. Predefined axial sections of the lei tion hose are thus reliable during operation isolated.  

The measures of claim 12 also allow a La securing the two hoses against each other.

The subject of the invention is based on the Darge in the figures presented embodiments explained in more detail. Show it:

Fig. 1 is a perspective view of a hose line,

Fig. 2 is a sectional side view of a longitudinal section of the hose according to Fig. 1,

Fig. 3 is an enlarged view of detail III in Fig. 2,

Fig. 4 is an enlarged view of the detail IV in Fig. 1 and

Fig. 5 is a sectional side view along section line VV in Fig. 4.

The hose line 1 has a first axial hose end 2 and a second axial hose end 3 ( FIG. 1). Vorzugswei se both connection ends 2 , 3 are each connected to a device, not shown here, to produce a fluidic connec tion between these two devices. The two devices are e.g. B. an oil separator and an intake manifold in the engine compartment of a motor vehicle when the hose line 1 is used as a vent line. The oil separator is indirectly connected to the crankcase of the engine or directly to the cylinder head.

The first connection end 2 is an integral part of an elastic hose 4 and extends to the second closing end 3 axially oppositely directed heel-like ver. The second connection end 3 is part of an approximately right-angled section of the line hose 4 . Here, the second connection end 3 may be integral part of the conduit tube 4 or be applied as a separate component to träglich to the conduit tube. 4 The Lei hose 4 is from a central conduit 23 for passing a medium (z. B. gas, liquid) through.

The conduit 4 is cut along a larger Axialab between the two connection ends 2 , 3 surrounded by an elastic insulating sleeve 5 . In this axial section there is also a curved bending section 6 of the hose line 1 , which is necessary and must be maintained in particular because of the cramped installation conditions at the location of the hose line 1 . In Fig. 1 of the insulating tube 5 not enveloped, the second connection end 3 facing te axial portion of the conduit 4 is - if necessary - surrounded by other insulating means (z. B. external foam insulation).

Fig. 2 can be seen that the insulating tube 5 surrounds the line hose 4 with a radial distance. By this radial distance, an insulating air gap 7 is formed, in the Abstandsvor jumps in the form of spacer pins 8 , 8 ', 8 ''are arranged. In the present exemplary embodiment, the spacer pins 8 , 8 ', 8 ''are formed in one piece exclusively on the outer cable sheath 9 of the line hose 4 . Approximate shape in a further exporting at least some of the spacer pins 8 are attached to the Isolierinnenmantel 10 of the insulating tube. 5 In Fig. 2 it is indicated by means of the two dash-dotted dividing lines 24 running parallel to the radial direction 11 that the insulated conduit 1 can stretch axially as long as he likes.

The spacer pins 8 extend from which they tra constricting conduit tube 5 in the radial direction 11 to the insulating tube 5 out (Fig. 3). In the idle state shown, individual spacing pins 8 flank the insulating inner jacket 10 with different radial distances. For this purpose spacing pins 8 , 8 ', 8 ''with different radial heights h are provided ( Fig. 3). In Fig. 2, the construction heights h can be divided into large construction heights (for the spacer pins 8 ), medium construction heights (for the spacer journals 8 ') and small construction heights (for the spacer journals 8 ''), the three construction heights each representing a whole high range - z. B. can stand over several millimeters. For example, the small construction height covers the height range from 2 mm to 4 mm and the large construction height covers the height range from 7 mm to 10 mm.

The protruding in the direction of the insulating tube 5 peg free 12 of the spacer pegs 8 , 8 ', 8 ''is approximately circular arch-shaped ( Fig. 3). The convex side of the curvature faces the insulating jacket 10 . The cross section of the spacer pin 8 , 8 ', 8 ''is tapered in the direction of the pin-free end 12 in a wedge-like or conical manner and opens into the aforementioned circular cross-section.

In order to maintain the air gap 7 and thus the insulating effect, depending on the application of the hose line 1, a different number, arrangement and different construction heights of the spacer pins 8 , 8 ', 8 ''can be advantageous. In FIG. 2, extending parallel to the central longitudinal axis 13 is a distance Zvi rule axially adjacent spacer pins 8, 8 ', 8' 'partially un differently. The spacer pins 8 , 8 ', 8 ''with the same or approximately the same structural height h are axially differently positioned on both sides of the central longitudinal axis 13 . In a further example, not shown here, spacer pins 8 , 8 ', 8 ''with the same height h can also be distributed on the same circumferential line of the hose line - with regular or irregular circumferential spacing.

The line hose 4 and the insulating hose 5 are secured in position in the axial direction 14 relative to one another. To Axialsiche tion correspond to the insulating gap 7 axially adjacent fixing section 15 of the conduit 4 and a fixing section 15 enveloping counter-fixing section 16 of the insulating tube 5 with each other. On the insulating inner jacket 10 is in the area of the counter-fixing section 16, a ring-shaped, self-contained annular bead 17 is integrally formed, which engages in a corresponding ring groove 18 of the fixing section 15 flush. The fixing section 15 and the counter-fixing section 16 axially facing abge is provided such an axial lock, in which a fixing section 15 'of the conduit 4 contains an annular groove 18 and a counter-fixing section 16 ' of the Isolierschlau ches 5 carries an annular bead 17 . In further embodiments, the two axial locks can also be formed differently.

Two axial securing, which are arranged on both sides of the insulating gap 7, advantageously support the sealing of the air gap 7 against the ingress of moisture, gases or other harmful particles. The seal is additionally improved by the outer diameter of the fixing section 15 being larger than the inner diameter of the counter-fixing section 16 before the conduit hose 4 is assembled with the insulating hose 5 (= unmounted idle state). In this way, the elastic counter-fixing section 16 is additionally tensioned radially after the assembly and reinforces the sealing of the joint between the fixing section 15 and the counter-fixing section 16 .

The line hose 4 and the insulating hose 5 are securely connected to one another in a twisted manner. For this purpose, in the direction of the second connection end 3 frustoconically tapered transition section 19 of the conduit 4 has a fixing lug 20 ( Fig. 4). The fixing lug 20 is approximately triangular in cross section with an axially in the direction of the first connection end 2 facing the triangle tip. The fixing lug 20 engages approximately flush in a corresponding fixing recess 21 in the insulating tube 5 . The recess edge 22 of the fixing recess 21 touches the fixing lug 20 on both sides in the circumferential direction of the hose line 1 and thereby prevents the two hoses 4 , 5 from twisting relative to one another. Several anti-rotation devices can also be arranged on the hose line 1 if the security against rotation is to be increased. For example, at the transition area, distributed in the circumferential direction, a plurality of fixing lugs 20 can be arranged and cooperate with corresponding fixing recesses 21 . Also, the conduit tube 4 may be at least one fixing lug 20 or 21 Fixierausparung vorgese hen to the sequent the first Anschlu 2 facing fixing 15th

Claims (12)

1. Hose line ( 1 )

• 1. with a conduit ( 4 ) for passing a medium and
• 2. surround the insulating tube ( 5 ) with a radial distance between the conduit tube ( 4 ),

wherein in an insulating gap ( 7 ) formed by the radial distance to maintain the insulating gap ( 7 ) are arranged Abstandsvor jumps, each of which either attached to the outer sheath ( 9 ) of the conduit ( 4 ) or to the inner sheath ( 10 ) of the insulator ( 5 ) are characterized by

• 1. that the spacing projections ( 8 , 8 ', 8 '') in the manner of individual pins, thorns, bumps, knobs or the like. Formed over the tube ( 4 ) carrying them in the direction of the adjacent tube ( 5 ) and different have radial heights (h) and
• 2. that the two hoses ( 4 , 5 ) are connected to one another so that they cannot rotate.

2. Hose line according to claim 1, characterized in that in the direction of the adjacent hose ( 5 )RASSEN-free spigot end ( 12 ) of the spacer pin ( 8 , 8 ', 8 '') is arched with the adjacent hose ( 5 ) facing ter convex side. 3. Hose line according to claim 1, characterized in that the cross section of the spacer pin ( 8 , 8 ', 8 '') in the direction of its adjacent tube ( 5 ) facing pin-free of ( 12 ) is tapered. 4. Hose line according to claim 1, characterized in that along an axial line of the hoses ( 4 , 5 ) spacer pins ( 8 , 8 ', 8 '') are arranged with different heights (h). 5. Hose line according to claim 1, characterized in that the distance (a) between axially adjacent spacer pins ( 8 , 8 ', 8 '') of a hose ( 4 ) along an axial line is different. 6. Hose line according to claim 1, characterized in that along an axial section of the hose line ( 1 ) arranged on parallel axial lines spacer pins ( 8 , 8 ', 8 '') with the same height (h) are axially differently positioned. 7. Hose line according to claim 1, characterized in that the spacer pin ( 8 , 8 ', 8 '') on the outer cable jacket ( 9 ) or on the insulating inner jacket ( 10 ) is integrally formed. 8. Hose line according to claim 1, characterized in that the spacer pins ( 8 , 8 ', 8 '') are exclusively attached to the outer sheath of the line ( 9 ). 9. Hose line according to claim 1, characterized in that the two hoses ( 4 , 5 ) are axially secured together a related party. 10. Hose line according to claim 9, characterized in that an insulating gap ( 7 ) axially adjacent fixing section ( 15 , 15 ') of the line hose ( 4 ) and a fixing section ( 15 , 15 ') surrounding counter-fixing section ( 16 , 16 ') of Interlock the insulating hose ( 5 ) approximately radially. 11. Hose line according to claim 10, characterized in that the fixing section ( 15 , 15 ') and the counter-fixing section ( 16 , 16 ') by means of an in the circumferential direction of the hoses ( 4 , 5 ) self-contained annular groove ( 18 ) and a correspon interlocking annular bead ( 17 ). 12. Hose according to claim 1, characterized in that the conduit tube (4) and / or the insulating tube (5) carries at least one fixing lug (20) which engages in a korre spondierende locating recess (21) of the adjacent tube (4, 5) and is flanked on both sides in the circumferential direction of the hoses ( 4 , 5 ) by the edge ( 22 ) of the fixing recess ( 21 ).