DE19612789C1 - Pipe fixing device for heating system pipes on bare floor - Google Patents

Abstract

The fixing device includes at least one holding element (14) through which a pipe passes, and a thermal insulating device (10) to insulate the pipe thermally from the floor. The insulating device is in the form of a strip layer, which has a number of annular zones (16) enclosing annular slits (18,20). The holding element is assembled in such a manner as to compress the insulating material within an enclosed zone against the floor. There may be several concentric slits in one zone. The holding element may consist of a pressure plate (22) to press the insulation to the floor.

Description

The purpose of this application is an additional patent for Pa tent 195 30 367 by the applicant and concerns an improvement tion or further training of the in this patent application tion described device for setting Rohrlei exercises.

Figs. 57 and 58 of this patent discloses an insulation strip for use with mounting clamps or the like fasteners, wherein suitable strip in such insulating formed, central openings, or side A notching the horizontal bending of the insulating strip -.. The purpose according to the history of a correspondingly curved , follow the insulating strip on the pipe - allow.

As part of production (or in the case of manufacturing the breakthroughs or notches in the field) leads however the Isolierma to be removed accordingly material for a not inconsiderable waste load. The Dispose of this insulation material that is no longer required ticke therefore increases the total cost of attachment.

The present invention therefore aims at further ver improvement of the described fastening devices for Pipes on an underlying raw floor or Like., The improvements or further training in particular an association according to the present application fold the manufacture of a fastening device for a pipeline or waste avoidance when laying are intended without the laying properties  or the manageability of such a device or order would be adversely affected.

This task is accomplished through the teaching of the patentee Proof 1 of the additional patent application resolved.

This advantageously allows the provision of the annular Slits in the insulating material that there is a holding element used to guide or hold a pipeline or can be attached without ent ent speaking insulating material (waste-prone) removed that must; rather, it only becomes selective (limited to the annular area) compressed and provides advantageous thermal and impact sound insulation in this area.

In this context it is called "ring-shaped" in the claims every closed slot con to understand the structure that is suitable to a certain Be fully or extensively enclose; especially others also rectangular, elliptical or other slit courses in the surface of the strip-shaped slots are considered to be included in the invention.

Advantageous, further developments of the invention are in described the subclaims.

Thus, the enclosed areas are particularly preferred along the course of the stripe-shaped layer - the The course of a pipeline to be laid follows - in con constant distances provided. By simply counting the enclosed areas and multiplication by (Known) constant distance is therefore the simple Er Averaging a required pipe length is possible without that a separate measurement must take place.

The annular slot is also particularly advantageous circular; this makes it easier, especially  men of the slot in the insulating material by z. B. a rotating tool.

Another is preferred in each enclosed area A plurality of concentric, circular slots are formed det. This measure makes the horizontal one in particular Bending the strip-like layer (in the laying plane) simplified, because the circular slots correspond to de facilitate the deformation of the insulating material or to steer.

This also preferably has for holding a pipeline provided holding element on a bottom-side pressure plate, the egg with its bottom surface on the enclosed area exerts pressure and in this way the compression of the insulating material in this area. The printing plate is then particularly preferred in printing position (i.e. in the inserted state) via a screw or a shooting bolt in the underlying raw floor, through the compressed insulating material, ver anchored.

The floor plan of the printing plate po is also more preferred lygonal, especially hexagonal. Through those so educated Corners will in particular be the insertion or insertion of the Holding elements in the insulating, strip-shaped layer facilitated. By taking that the largest diameter the polygonal printing plate slightly larger than the ma ximal diameter of the annular slot becomes too a bottom-side, lateral penetration of the pressure plate allows in the surrounding insulating material, thereby the anchorage is also improved. In this To context is "slightly larger" that measure understand with which the pressure plate laterally into the vice bene insulating material outside the annular Slot can reach into it without substantial deformity to bring about the overall arrangement.  

Correspondingly tapered edges of the pressure plate facilitate this insertion.

Alternatively, it is provided to design the pressure plate in such a way that an assembly by turning into the through the annular slot predetermined area of the strip shaped, insulating layer is possible.

Finally, the film layer advantageously prevents the assembly that to fill the area of the pipeline gene above or on the strip-shaped layer during granular filling material used during the assembly is inconsistent trolled distributed.

Further advantages, features and details of the present the improvement and further training of the invention result from the following description of exec Rungsbeispiele based on the drawing; this shows in:

Figure 1 is a sectional side view of the insulating strip according to the invention in the direction of the course with an inserted, shown laterally clamping element.

FIG. 2 shows a top view of the clamping element according to FIG. 1;

Fig. 3 is a bottom view of the clamping element of Fig. 2;

FIG. 4 shows a side view of the clamping element according to FIG. 2;

FIG. 5 shows a horizontal front view of the clamping element according to FIG. 2;

FIG. 6 shows a plan view of the insulating strip according to FIG. 1 without the clamping element inserted;

Fig. 7 is a sectional view of the arrangement according to the invention from insulating strips and clamping element in the inserted state between the underlying tube sheet and overlying screed according to a preferred development;

Fig. 8 shows an alternative embodiment of the inventive clamping element in Seitenan view, used in an insulating strip;

FIG. 9 shows a side view of the clamping element from FIG. 8;

FIG. 10 shows a horizontal front view of the clamping element from FIG. 8; and

Fig. 11 is a plan view of the clamping element shown in Figs. 9 and 10.

The sectional side view of FIG. 1 and the top view of FIG. 6 show a made of PE or PU foam, approximately 60 mm wide and 20 mm high solid foam insulating strip 10 , which rests on a raw floor 12 according to further training and, in particular together with the pipe clamp (clamping element) 14 shown in FIG. 1, he realizes the advantages according to the invention.

The insulating strip has a plurality of ring slot arrangements 16 , which extend iw at constant intervals - 100 mm in the illustrated embodiment - in the longitudinal direction of the insulating strip 10 and each have an outer ring slot 18 , which concentrically encloses an inner ring slot 20 . As shown in the Seitenan view of Fig. 1, the ring slots extend from the bare floor 12 opposite surface of the insulating strip 10 a predetermined distance a of be preferably 15 mm into the insulating material.

. As shown in the left portion of Figure 1, now allows the ring slot arrangement 16 advantageously the insertion, (longitude) positioning and holding of pipe clamps 14 with which at the same time a set of the entire arrangement on the underlying structural floor 12 is possible: in FIGS. pipe clamp 14 shown in detail 2 to 4 namely comprising a bottom, hexagonal pressure or Bo denplatte 22, the means of two lateral vertical ribs 24 and a central vertical web 26 that connects the seitli chen vertical webs 24, a predetermined from stand of preferably 13 mm is held parallel to a base plate 28 . The tube periphery of a following-held tube 31 - - are realized as circular arc, an upper insertion opening having clamping jaws 32 of the base plate 28, a pair of jaw assemblies 30, each of which extends back around on the pressure plate 22 opposite surface.

Preferably, such a pipe clip 14 from the pressure plate 22, vertical webs 24,26, the base plate 28 and is properly Klemmbackenan 30 integrally made of glass fiber reinforced plastic, more preferably polyamide, is realized.

The hexagonal shape of the pressure plate 22 with tapering the end sections 34 in the front and rear area allows the simple insertion of the pipe clamp 14 in an annular slot arrangement 16 , the distance between the end sections 34 being chosen so that it is slightly larger than the diameter is the outer ring slot 18 so that the tapered end portion 34 , in the inserted state, can penetrate a predetermined distance into the foam material of the insulating strip 10 (see. Fig. 1, left).

The foam material of the insulating strip 10 lying within the outer ring slot 18 is compressed in the inserted position of the pipe clamp 14 ( FIG. 1, left) and is - compressed to a thickness of approximately 5 mm - below the pressure plate 22 used .

With the help of a screw 36 (alternatively: a Schießbol zens), the pipe clamp 14 is firmly anchored in the underlying raw floor 12 , with the action of the pressure plate 22 at the same time determining the insulating strip 10 it follows.

As shown in FIGS. 2 and 3, a circular aperture 38 is provided for passing the screw 36 and a firing pin in the pressure plate 22, whereby to simplify the piecing of a screwdriver or of a corresponding pin shooting means during mounting on the pressure plate 22 parallel to this lying base plate 28 has an obtuse-angled V-neck 40 which is open towards the opening 38 .

Fig. 7 shows the ge in connection with FIGS. 1 to 6 showed the arrangement in the installed state with finished laid screed, wherein according to FIG. 7 the insulating strip 10 according to the invention is further developed in that an insulating film strip 42 , for example made of PVC or aluminum, located on the bottom side along the Isolierstrei fen 10 extends and projects on both sides beyond the width of the Iso lierstreifens 10 by an amount that allows a publishing as shown in FIG 7 type:. on both sides of the assembly of insulating strip 10 or pipe clamp 14, he namely stretches the film strip 42 up to the height of a lateral, on-site insulation 44 (which can be 50 mm, for example, based on the underlying bare floor 12 ) and a predetermined distance in the horizontal direction between this insulation 44 and a rest on the insulation layer 46 Impact sound insulation.

A further protective film 48 or the screed 50 formed thereon then lies on this insulation layer 46 .

The cavity between the base plate 28 and the insulating layer 46 is filled with coarse-grained granules 52 , the film strip 42 drawn up on both sides advantageously preventing the granules 52 from unintentionally entering the intermediate spaces between the insulating strip 10 and the surrounding area that inevitably arise during assembly. on-site insulation 44 slips and could cause adverse insulation gaps.

Fig. 8 shows an alternative embodiment shows the pipe clamp for fixing a pair of (heating) tubes on the inventive insulation strip 10 and the subject to the unfinished floor 12.:. As in the lateral assembly view of FIG 8 or the individual views in Figures 9 11 to 11 shows, according to this alternative embodiment, the base plate 28 is not connected to the pressure or base plate 22 via fixed, rigid webs, but rather via an elastic web 54 . In this way, the adaptation to different thicknesses of the insulating strip 10 is advantageously possible (the design of the pipe clamp according to FIGS. 2 to 5, on the other hand, defines the vertical distance between base plate 28 and lower pressure plate 22 constantly).

While the pressure plate 22 continues to be a screw 36 (or a bolt) which reaches through the opening 38 in the pressure plate 22 , can be firmly connected to the raw floor 12 , in this embodiment there is a (necessary) separate fixing of the base plate 28 over a plurality of hooks 56 provided at an acute angle and on the base side on the base plate 28 . As shown in FIG. 8 and FIG. 9, these hooks 56 extend from the rear end region of the base plate 28 in the direction of the elastic web 54 and are provided with barbs at the end. In addition, the base plate 28 has a further opening 58 for (additional or alternative) screw mounting in the rearward region.

As indicated in Fig. 8, the base plate 28 with the jaw assembly 30 provided thereon is hooked over the barbed hooks 56 in the upper region of the insulating strip 10 , while the pressure or base plate 22 in the manner described (cf. Fig. 1) is firmly connected to the raw floor 12 by compression of the underlying insulating foam. Depending on the height of the insulating strip 10 , the elastic web connecting the base plate 22 to the base plate 28 is more or less inclined ( FIG. 8 describes the maximum vertical distance between base plate 22 and base plate 28 ).

All of the above-described embodiments have the advantage in common that the insulating strip 10 made of foamed material allows the (releasable) insertion of the respective pipe clamp 14 , and the corresponding space (interior of the outer ring slot 18 ) does not have to be broken down to cause waste, but by action the pressure plate 22 is compressed on the bottom side. According to the invention, the compressed layer of insulation material in the assembled state not only provides advantageous thermal insulation, but also has an optimal impact sound absorption.

The periodic arrangement of the ring slot combinations 16 also advantageously allows a simple dimensioning or lengthening of pipes to be laid: the installer has the total Ge (pipe -) Determine length.

The advantageous in periodic intervals - for example, 100 cm se - with pre-populated insulating strips 14 pipe clips according to the invention is easy to roll due to its elastic properties and thereby facilitates transport to the site. Depending on the intended use, the fitter then inserts these insulating strips accordingly to the desired pipe run, whereby additional pipe clamps - for example in the area of bends - may be used, or preassembled pipe clamps can be removed.

It has been found to be particularly advantageous that the Ring consisting of two concentric ring slots slot arrangement also controlled, horizontal bending of the insulating strip lying on a raw floor Condition relieved as in the area of the concentric ring then slit the matter caused by a bend alkompression or expansion occurs and partially balanced  Chen without - as with solid material - for There is kinking or wave formation.

According to alternative versions of the one described above NEN further developments of the invention, it is also possible Ring slot arrangement on only one ring slot (alternatively: oval or polygonal in plan view), or but a plurality of nested slots to provide arrangements, depending on the type of Isoliermate rials and the slot shape, such a slot formation for example mechanically (i.e. by milling or the like) or approximately thermally (by local melting).

Alternatively or in addition, it is possible to provide an annular slot arrangement (cf. FIG. 6, middle), in which only a part, for. B. the central area of the insulating material is removed, while an outer ring slot remains. The optimal design of a respective ring slot arrangement will result from the type, thickness or the planned course of the insulating strip.

It is also possible to design the pressure or bottom plate 22 of the pipe clamp 14 according to the further development accordingly in order to simplify the insertion: While in the exemplary embodiment described above (see FIG. 1) the pressure plate 22 has a hexagonal contour and has an edge on the side (for Simplification of the penetration into the insulating material has a tapering shape, it is alternatively also possible to implement the pressure plate 22 as a combination of two or more, separate wings, which may have an inclination or incline, sharp-edged engagement (Cutting edge) have edges and in the manner of a screw or the like. In the insulating material in the loading area of the ring slot arrangement 16 can be inserted.

In addition, it is also possible to form a pipe clamp 14 according to the invention - for example in the types described in accordance with the German patent 195 30 367 of the applicant - in several parts, if necessary to design a modular plug-in or the clamping jaw arrangement 30 in cross-section trapezoidal or to realize dovetail-shaped in the open beard way. Furthermore, it is possible to additionally support the present pressure plate 22 via floor-side spacers (for example in accordance with the type disclosed in FIGS . 40 or 43 of patent 195 30 367) against the underlying bare floor.

Claims (10)

1. Device for setting pipes, in particular the pipes of a heating system, on a raw floor ( 12 ), a floor or the like. Furnishings, with at least one of a pipe ( 31 ) enforceable holding element ( 14 ) and the pipe Line ( 31 ) to the raw floor ( 12 ) thermally insulating strip-shaped layer of insulating material ( 10 ) according to Patent 195 30 367, characterized in that the layer of insulating material ( 10 ) in its surface opposite the raw floor ( 12 ) a plurality of having a predetermined depth (a) penetrating into the insulating material, annular slot ( 18 , 20 ) enclosed areas ( 16 ) and the holding element ( 14 ) for compressing the insulating material within an enclosed area ( 16 ) against the raw floor ( 12 ) is formed in the assembled state. 2. Device according to claim 1, characterized in that the plurality of enclosed areas ( 16 ) along the strip-shaped layer ( 10 ) is formed substantially at constant intervals. 3. Apparatus according to claim 1 or 2, characterized in that the annular slot ( 18 , 20 ) is essentially circular. 4. Device according to one of claims 1 to 3, characterized in that at least one of the enclosed areas ( 16 ) has a plurality of mutually concentric, annular slots ( 18 , 20 ). 5. Device according to one of claims 1 to 4, characterized in that the holding element ( 14 ) has a bottom-side, in the assembled state, the insulating materi al compressing pressure plate ( 22 ). 6. The device according to claim 5, characterized in that the pressure plate ( 22 ) has an opening ( 38 ) for passing a screw ( 36 ) or the like. Fastening supply element for the raw floor ( 12 ). 7. Apparatus according to claim 5 or 6, characterized in that the pressure plate ( 22 ) has a wesentli Chen hexagonal plan, the largest diameter of which is slightly larger than the maximum diameter of the annular slot ( 18 , 20 ). 8. Device according to one of claims 5 to 7, characterized in that the pressure plate ( 22 ) has at least one edge tapering edge. 9. Apparatus according to claim 5 or 6, characterized in that the pressure plate ( 22 ) has a plurality of helically inclined surface pieces which are designed to penetrate into the insulating material. 10. Device according to one of claims 1 to 9, characterized in that the strip-shaped layer ( 10 ) is provided on the unfinished floor with a film layer ( 42 ) which has a width extending on both sides beyond the width of the strip-shaped layer ( 10 ).