LU82956A1 - TUBE CONSTRUCTED FROM A FLEXIBLE OR STIFF PLASTIC FOR TRANSPORTING A HEAT CARRIER - Google Patents

Description

D. 51,342

8 / Q TT fi GRAND-DUCHÉ DE LUXEMBOURG

......... "... y ........ yw du ..... 2.g ..... novembre -19ßo Monsieur le Ministre 0¾¾¾ de l'Éconoinie et des Classes Moyennes

Titre délivré ......................................... 0¾¾¾ Service de la Propriété Intellectuelle

"" ~ LUXEMBOURG

Demande de Breyet d'invention "I. Requête ......... Mon.sieur .... Ar.tus .... rEIS.T., ...... Weide.RWS.g. .... 9 / ..... à ..... 5.o..6.o ..... BEE! S.ISC.iB -... SMMâQS. / (1) —.Al & emagne .... E.édér.ale., ..... re.pxése.até ... par ..... Mo.n.si.eur ..... <J. &. Ç.gues ..... 4e ..... Muyser ......... agissant-en - .. qualitÊ .... âe .... maiidatair.e .......... .................................................. .................................................. ........ (2) I '..................................... .................................................. .................................................. .................................................. .................................................. .........................................

dépose (nt) ce vingt ^ six-novembre 19.oo .... quatrer.Yingt ... ........................... .... (3) à ......... 15 ........... .... heures, au Ministère de l'Économie et des Classes Moyennes, à Luxembourg: 1 . la présente requête pour l'obtention d'un brevet d'invention concernant: ......... "From a flexible or rigid — plastic.ff .... beat.eh.endes ...... ........ (4) .............. Pipe ........ for the transport.t ..... of a ..... carcase bearer. ". .................................................. ............................................

2. la délégation de pouvoir, datée de .... BERGISCH ..GLADBACH ... le .......... 2û ..... novembre ..... 19 J

3. la description en langue .............. allemande ..................... de l’invention en deux exemplaires; 4 ............ 2 ................. planches de dessin, en deux exemplaires; 5th la quittance des taxes versées au Bureau de l'Enregistrement à Luxembourg, le .......... 26 ..... novembre ..... 19.8a ......... .................................................. .................................................. .................................................. ................................

déclare (nt) en assumant la responsabilité de cette déclaration, que l '(es) inventeur (s) est (sont): .......... le .... dëposant __________________________________________________________ (5) revendiquent) pour la susdite demande de brevet la priorité d'une (des) demande (s) de (6) ------------------- brevet .......... ................................... déposée (s) en (7) ...... Allemagne ... "E ^ dë.rale _____________________________________ le —.1.2 — septembre ..... 198a .......... (No -..... E ..... 3.0 ... ..3.4 ..... 8.88, .. 0) .----------------------------------- --------------------------------------- (8) v au nom dai ... déposant __________________________________________________________________________________________________________________________________________________________________________________ (9) élit (élisent) pour lui (elle) et, si désigné, pour son mandataire, à Luxembourg_________________________ .......... 35 .., ..... bld. »..... -EQy.al .___________________________________________________________ ________ (io) sollicite (nt) la délivrance d'un brevet d'invention pour l'objet décrit et représenté dans les annekes susmentionnées, - avec ajournement de cette délivrance à ... ........... LL ................... ______________________mois. (11)

Uie y.Wai ^ ataire U Γν | II. Procès-verbal de Dépôt

La susdite demande de brevet d’invention a été déposée au Ministère de l’Économie et des Classes Moyennes, Service de la Propriété Intellectuelle à Luxembourg, en date du: _26 novembre 1980

Pr. Le iJLiistre à -.......... 15 ....... .. heures if ^ i \ de l'Économie et desJSÏasses Moyennes, I "V- './ I i A68007_J? / _i / _ D. 51.342

DEMANDING PRIORITY

♦ the patent ^ OW · / ”application

In: THE FEDERAL REPUBLIC OF GERMANY

Dated: September 12, 198o Χΰ3Ζΰΰ

PATENT APPLICATION

in

Luxembourg I i »

Applicant: Mr. Arthur FEIST

Concerning : "Made of a flexible or rigid plastic

Pipe for transporting a heat transfer medium ".

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r. ____________----- - 1 - " ! Applicant; Mr. Arthur Feist

Weidenweg 9 D-506O Bergisch Gladbach 3

Pipe made of a flexible or rigid plastic for transporting a heat transfer medium!

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The invention relates to a flexible or rigid plastic; existing pipe for transporting a heat transfer medium. This heat transfer medium is a liquid heating or cooling medium, generally water. ! |

Underfloor heating systems, also called surface heating systems, contain a pipe that is laid in the floor and held there for transporting the heat carrier. The pipes are laid according to a certain scheme with j strings lying parallel to each other, with bends, etc., in the floor and connected to the flow and return of a central heating system. The pipe should meet mechanical and thermal requirements. The mechanical requirements generally aim for sufficient strength of the pipe. The Festig-; speed increases with the wall thickness. The thermal requirements here! are aimed at high thermal conductivity. The thermal conductivity of the pipe now drops with increasing wall thickness. A high; '' Thermal conductivity is aimed at, however, since this reduces the losses in the transfer of heat and this allows the flow temperatures to be reduced. When designing the heating pipes, efforts are therefore made to find a compromise between these conflicting requirements.

*

In the prior art, tubes with a circular cross section are mainly used. They are easy to manufacture and also relatively easy to lay. Diameter and wall thickness can be changed. However, the fact that a circle is the geometrical figure that has the smallest circumference with the largest area stands in the way of an ideal fulfillment of the two requirements.

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The surface of the pipe and thus its thermal conductivity or the strength of the heat transfer to the surrounding floor are thus limited.

If for some reason the diameter of the pipe is increased, the construction height of the floor must be increased at the same time. This is necessary so that the floor maintains its static load capacity. With a higher floor, however, more floor mass must also be heated. This means a loss of heat, since it is not the heating of the floor but of the floor; this airspace is sought.

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If the pipe has a larger diameter, its wall thickness must also be increased. Otherwise its static strength would suffer. With a higher wall thickness one also tries to counteract the ovalization of the pipe feared in the installation arches. Plastic now has a relatively low thermal conductivity. If the wall thickness is increased, the thermal conductivity therefore drops further. The efforts to lower the flow temperature remain almost unsuccessful.

| Tubes with an oval cross section are also known. With the same cross-sectional area, a tube with an oval cross-section has a larger surface area than a tube with a circular cross-section. A pipe with! ^ Oval cross section, however, requires a larger floor height and / j or a higher wall thickness in order to achieve the necessary strength. This increases the height of the larger surface Here thermal conductivity almost destroyed. Another disadvantage is that a tube with an oval cross section is difficult to lay. The t continues to exist in the installation sheets

Danger of cross-sectional narrowing. The fittings are also difficult to connect and keep tight.

In summary, it can be said that the increase in diameter and wall thickness, as well as an oval cross-sectional shape, only bring advantages that are bought with disadvantages. However, the cost of materials and wages is high and is not offset by thermal advantages.

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Starting from this prior art, the invention is based on the object of creating a tube for transporting a heat transfer medium which has a larger surface area, without thereby affecting its static strength or other disadvantages mentioned above. The solution to this problem arises according to the invention in that it runs on its circumference in the longitudinal direction! fende radial depressions. With these depressions the surface can be increased by up to 20 to 30%. The heat emission increases with a larger pipe surface. This reduces energy losses. The flow temperatures can also be reduced.

t i O Another favorable factor is that the core ·

Wall thickness or the wall thickness of the tube can be reduced at its thinnest point to below the wall thickness of a tube with a circular cross section. The strength of the pipe at its intermediate; see the radial recesses is enough to keep the overall strength of the tube at a high value even with low core wall thickness. There is a so-called support effect. Pressure tests on pipes designed according to the invention have not produced any noticeably different values compared to pipes with a circular cross section, i

Even in the manufacture of the pipe according to the invention, Advantages. Due to the larger surface area in the calibration systems, its extrusion produces better thermal ratios

se one. This leads to increased dimensional accuracy. The tolerances can be set lower. This saves material.

Even when laying, the pipe according to the invention can be handled better than known pipes with a circular cross section. Almost no cross-sectional constrictions occur in the installation sheets.

This means a relative gain in heat.

In particular when laying the pipe according to the invention in screed, advantageous properties result. As a result of the larger pipe surface, the bond and adhesion between pipe and screed become better. As a result of the recesses provided according to the invention. _ _________________________________________________________________ - 4 - or the profiling according to the invention, there is also a positive connection between pipe and screed. The screed presses into the depressions according to the invention. A claw occurs between the screed and the pipe. As a result of the un--. different coefficients of thermal expansion of plastic and

Screed is of particular value. According to the state of the! Technically installed pipes with a circular cross-section, J does not produce screed properly due to the different! Coefficient of thermal expansion too little movement between screed and pipe. These constantly repeating relative movements between the screed and the pipe could lead to an inadvertent ß Q of the pipe. Such relative movements are switched off by the positive connection between pipe and screed possible according to the invention.

To fix them in their target position in the floor, the pipes are inserted into brackets or clips. These brackets are made of a weakly springy material. They have incisions into which the tubes are inserted. To fix the known tubes j with a circular cross section, the brackets have further projections and recesses. The pipes are pressed into these recesses. Due to the elasticity of the material of the bracket and tube, there is a certain snap effect when inserted into the bracket. This holds the pipes securely. The depressions provided according to the invention now themselves represent recesses into which a bracket | clicks into place. The brackets for fixing the tubes according to the invention can thus be produced without recesses. This makes it easier and cheaper to lay or fix the pipes according to the invention.

Tubes with a circular cross section tend to take the form of a roll le, which you receive when winding on a reel or a drum, even after unwinding. When laying pipes with a circular cross-section, this leads to a twist, which makes it difficult to lay them in the desired position. The pipes profiled according to the invention do not have this twist and can be laid more uniformly and much more precisely.

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In summary, it can be stated that the production of a pipe according to the invention only requires the one-time purchase of an expensive extrusion tool and otherwise there are only advantages in production, installation and operation.

The depressions according to the invention can be practically formed in any shape. It has been found to be expedient for the depressions to be troughs arranged at equal mutual distances in the circumferential direction. The troughs can be circular arc sections or have oval or any other usable geometric cross section. The troughs should in any case have a cross-section that does not cut into the material at an acute angle. This avoids notch stresses. j

It was stated that the depressions in an expedient embodiment - seen in the circumferential direction of the tube - have uniform distances from one another. In this embodiment, it is recommended that bulges which are complementary and convex to the outside are arranged between the wells. In this embodiment, the circumference of the tube can be described as a .wave line from uniformly successive wave crests and wave valleys.

♦

It is advisable in the shaping of these wave peaks and valleys to ensure that pipe fittings, for example clamping rings to be placed on the circumference, can adapt to the profile of the pipe according to the invention. So that the function of the clamping; ring ensured and the tightness of the valve on the circular | Guaranteed inner circumference of the tube.

The invention will now be further described using the example of the embodiment shown in the drawing. In the drawing is:

1 is a view of a portion of a tube designed according to the invention and u________ «*» _______________ ______________ - 6 -

FIG. 2 shows a cross section along the section line II-II in FIG. 1.

The figures show a tube 12 with a circular inner wall 14 and a profiled outer wall 16. This is made up of successive depressions or troughs 18 and bulges 20 together. These run parallel to the longitudinal direction of the pipe surface and merge smoothly along straight lines 22. In the example shown, both the troughs 18 and the bulges 20 have the shape of circular arc sections. As stated above, however, they can also have an oval or another geometric cross section.

Q

A tube designed according to the invention is determined by its inner diameter a, its smaller outer diameter b and its larger outer diameter c. As has already been stated, j applies here that the core wall thickness or (b minus a): 2 may lie below the j wall thickness of pipes with a circular cross section, oh-j ne that the compressive strength suffers as a result. i i] i j

A look at Figures 1 and 2 and simple considerations show that the sum of the surfaces of the troughs. 18 and the Auslöl-! Exercises 20 is above the surface of a tube which has a circular <circular outer circumference with the outer diameter c. Within the scope of the invention 1, the radii of the troughs 18 or the bulges 20 can fluctuate within a wide range. In general, this radius will be less than 50% of the difference c - a.

The pipe according to the invention was described with reference to a floor heating. The same applies to the use of the pipe according to the invention in a wall heater, in a system for absorbing heat from the environment or in facilities in which it is flowed through by a coolant instead of warm water.

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Claims (5)

1. From a flexible or rigid plastic tube for transporting a heat transfer medium (heating or cooling agent), characterized in that it has on its circumference (16) extending in the longitudinal direction radial depressions. i 2. Pipe according to claim 1, characterized in that the depressions are arranged in the circumferential direction at equal mutual distances Q troughs (18). 3. Pipe according to claim 1 and 2, characterized in that the troughs (18) are formed from circular arc sections. 4. Pipe according to claim 1 and 2, characterized in that the troughs (18) have an oval cross section. 5. Pipe according to claim 1 to 4, characterized in that between the troughs (18) complementary to them, outwardly convex bulges (20) are arranged. 0 AÄkXKW) iav