NL8201068A - HEATING ELEMENT, IN PARTICULAR AS FLOOR OR FLOOR ELEMENT AND METHOD FOR MANUFACTURING SUCH ELEMENT. - Google Patents

Description

-1- YO 3189

Heating element, in particular as a floor or floor element and method for manufacturing such an element.

The invention relates to a heating element, in particular as a floor or floor element, which is further described in the preamble of claim 1. The invention furthermore relates to a method for manufacturing a heating element according to claim 1.

It is considered to be advantageous to install so-called heating loops in the floor. To this end, hitherto generally reciprocating metal pipes have been laid in the concrete floor, which are cast around the metal pipes acting as heating loops.

This prior art has a number of drawbacks. First of all, in practice one is bound to a concrete floor and is hereby forced to pour the floor around the loops. If leakage or other defects occur, the floor must be broken open in whole or in part, which entails great costs and problems. Furthermore, such loops must heat the entire floor, i.e. a very large mass, the temperature increase and decrease of which require a long time. Effective temperature control during short periods of time is completely excluded here.

In view of these known drawbacks, according to DE 29 08 5 ^ 3 and EP 25 959, a flat heating element has been proposed, which is provided with channels 20 for receiving heating loops. While the principle of such a heating element or the like is advantageous, the manufacture and in particular the laying of such a floor present major problems, in particular of a practical nature, and the heat transfer also poses a problem when it is taken into account that it is desirable to design underfloor heating flexibly in various respects, in order to be able to meet the most diverse wishes.

The object of the invention is in particular to obviate the above-mentioned drawbacks and to provide a new heating element, in particular as a floor or floor element, which can be manufactured easily, quickly and simply and in a cost-saving manner and can be applied to any surface, and whereby such a heating element can also be laid by non-professionals without any problem.

These and other objects are achieved according to the invention in that a heating element of the above-mentioned type is essentially designed as described in the characterizing part of claim 1, respectively 8201068 J * -2. in that the method of manufacturing such an element is carried out as indicated in the method claims.

Further features and advantages of the invention "appear from the description with reference to the appended drawings. In these drawings: figure 1 shows the corner part of an efficient embodiment of a heating element according to the invention, figure 2 the element according to figure 1 after the application of 10 the heating pipes and the application of a cover plate, however before the final assembly of the element, and figure 3 the element according to figure 2 in the position of use after the final assembly.

In the drawing 1 shows a base plate, which it preferably consists of extruded plastic, which can be manufactured to desired standard widths. This base plate is provided with mutually, preferably parallel, grooves 2, the depth of which can be 15, eg about 2/3, of the plate thickness. The groove profile is preferably such that the groove walls 3 diverge at least on the infeed side of the grooves towards the growth base k at the same time. In the illustrated exemplary embodiment, the grooves have a trapezoidal or dovetail-shaped profile, the groove walls on the open groove side and on the bottom U being somewhat rounded or finished, so that a substantially z- or s-shaped appearance is obtained.

Heating pipes 6 of known type and in known manner are placed in the grooves 2, ie it may now be plastic or metal pipes, optionally plastic-coated metal pipes, wherein the plastic polyethylene can be HD with an outer diameter of 8 mm and a inner diameter of 6 mm, and in which the loops can either run back and forth through a heating element or through the entire floor or in which known per se distributors are arranged at desired locations, so that the heating medium can flow in neighboring pipes in the same direction, with the result of lower pressure drops and faster and even heating or drop in temperature where desired. The heating pipes can have any profile, however. in practice, only round profiles are eligible, the diameter of which in an effective embodiment is slightly greater than the width of the groove neck 8201068 **% -3- 16 as a result of a certain snapping action, whereby the heating pipes and / or the floor plate when the pipes are laid, they are elastically slightly deformed, whereby a slight expansion can occur in the interior of the grooves, so that the pipes can be held in the grooves without additional aids.

As can be seen from Figure 2, the inlaid tubes extend slightly above the plane of the plate 1, which is formed by the edges 5 between the grooves 2, which means that an overlaid cover plate 2. will initially rest on the tubes 6 which create a distance 12 between the bottom of the cover plate and the top of the base plate. The cover plate or the cover plates are suitable for receiving anchoring pins 8 and / or screws 9, which are to be inserted into dowel holes 13 and 10 respectively. screw holes 14 are provided in the base plate 1, such a bandage being possible for contraction or tensioning and reducing or preferably wiping out the distance 12 according to figure 3. If dives are used, they are preferably fixedly connected to the cover plate 7 and have annular projections or other known snap-in means in the shaft section, with adapted hole walls being provided, so that pressure is exerted on the cover plate in the shaft. The range of the dives is that they automatically penetrate the existing holes and hold the cover plates in the pressed down position.

In an effective embodiment, the heating pipes 6 and / or the base plate 1 are made of deformable material, so that e.g.

Round pipes in the trapezoidal grooves are deformed positively in the profile in an unloaded state, as can be seen from Figure 3. The tubes hereby fill the grooves and, in addition to a line contact with the cover plate, a considerable flat contact is achieved, and in this way an excellent and efficient heat transfer between tubes and the plate is obtained.

Said heat transfer and / or the retention of the pipes in the grooves can be improved in that a filling mass 10 is introduced into the grooves, which is liquid or semi-liquid, optionally first of all rigid and solid, and after heating it becomes fluid or semi-fluid, So that in the intermediate stage according to figure 2 a lateral displacement of said filling mass is effected, which in the final stage can be pressed upwards to fill any 8201068 -h-hollow spaces present, directly under the cover plate 7. The filling mass 10 can adhesive and / or other mass with effective thermal conductivity. It is of course also possible to introduce such a filling compound into the spaces between them and the groove of the neck after the housing has been introduced.

If the masaa is an adhesive, it may possibly serve to obtain a durable relationship between the cover plate and the pipes and / or the base plate.

This deformation of pipes and / or the base plate and said action of the filling mass can be favored by allowing warm or strongly heated water to flow through the pipes in the intermediate space according to figure 2, so that the pipe material and / or the material of the base plate becomes soft, so that in a short time an easily effective form closure according to figure 3 is obtained. If strongly heated water is sent through the pipes, a cover plate material may optionally be considered, in particular with laminated cover plates, which become soft and thereby absorb a part of the heating pipes, which are thus somewhat embedded in the cover plate.

The entire top side of the base plate 1 with the groove walls and bottom and / or the bottom side of the base plate can optionally be provided with a heat-reflecting layer, for instance by anodizing. Furthermore, the filling mass over the entire base plate surface can contribute to filling any unevenness and / or for working as an adhesive with regard to the entire cover plate underside.

As noted, the cover sheet may be a laminate, at least one top layer being dimensionally stable to obtain a flat floor. The cover plate can consist of metal and / or plastic and / or another material and this and / or the base plate can have a stiffening function, so that a heating element according to the invention can be applied to any surface.

Preferably, a pasted insulating plate 11 of known construction is arranged under the base plate,

The heating tubes can, as noted, be laid as an endless tube or module systems of suitable couplings between adjacent elements can be used. Furthermore, it is possible to supply fully or partially prepared heating elements, for example with heating pipes laid in the grooves 2, which are alternatively attached to the underside of the cover plate.

8201068% -5-

In all cases, small heating mass 5a is obtained, which means "that a considerable temperature increase or decrease can take place in the shortest possible time. The substrate can be arbitrary and a concrete floor can now easily and quickly enlarge 5 without the hassle manually inserting heating pipes according to a specific pattern in each case separately. In addition, the height can be kept small and heating elements can also be applied efficiently on existing floors in existing houses.

. The heating elements according to the invention are of course also suitable for wall and ceiling mounting. Due to the small heating mass and the large contact range, the temperature of the transport medium in the heating pipes can be kept as low as possible, in order nevertheless to obtain a fast efficient and reliable heating. This makes the heating elements according to the invention very suitable, eg for heat pump systems and the like.

It is also possible to apply relatively heavy cover plates. of additional anchoring means, such as screws and dives and possibly also gluing. The aforementioned deformation of the heating pipes and / or the base plate expediently exists in addition to a certain permanent elasticity and / or the medium pressure of the heating medium in the pipes, so that they are always pressed against the underside of the cover plate for good contact, which guarantees an efficient and permanent heat transfer.

The embodiments described above and shown in the drawing cannot be taken as limiting examples, which can be arbitrarily changed and supplemented within the scope of the inventive idea. For instance, instead of screws or dives, anchoring elements, such as rivets and the like, can be provided running through both the cover plate and the base plate.

30 8201068

Claims (9)

1. Heating element, in particular al® floor or floor element, with a base plate (1], which it preferably consists of extruded plastic, and which is provided with mutually parallel grooves 5 (2) for receiving heating pipes or extinguishers. (61 for a heating medium, e.g. water, next to which there is a cover plate (7I for covering the grooves (2) and for the heat transport between the pipes and a space to be heated, characterized in that the groove profile is such that the groove walls (31 at least connect to the groove neck in the direction towards the growth base (^ 1), preferably in the form of a trapezoid or a dovetail and on the groove neck and base are slightly rounded or fully worked to obtain an approximately z- or s-shaped profile sides, that the heating pipes and / or the base plate are somewhat elastic, and that the diameter of the in profile is preferably round heating pipes (6) _ no s is greater than the width of the groove neck (361, so that the heating pipes * snap into the grooves (2) without additional aids and that they can be held. 2. Heating element according to claim 3, characterized in that the heating pipes (6} consist in known manner of plastic or metal, optionally of metal-coated metal, in the case of plastic preferably polyethylene HD with an outer diameter of eg .8 mm and an inner diameter of 6 mm is used and in which the loops run either back and forth through a heating element or an entire floor or in which known distributors are arranged in suitable places, so that the heating medium in neighboring pipes can go in the same direction flow. Heating element according to claim 3 or 2, characterized in that the inserted heating pipes protrude slightly above the top side (5l 3Q of the base plate (3), so that the applied cover plate (7l initially contacts the heating pipes (6) , which are provided for providing a distance (32J) between the bottom of the cover plate and the top of the base plate. The heating element according to claim 3, characterized in that the cover plate or the cover plates (7) are be able to reduce or eliminate the distance (32] between the top of the base plate and the bottom of the cover plate and / or by means of anchoring docks (8) fitted in the cover plate or cover plates. and / or screws (9i 8201068 -7 ^. Which are available for insertion into dowel holes (13) or screw holes (14) in the base plate (1), with such a hinge for tightening or compression and in the case of they dived at v are preferably fixedly connected to the cover plate (7) in the shaft section, and others have annular projections or other known snap-in members, which correspond to existing hole walls, so that pressure is exerted on the cover plate in the area of the dives, that they automatically penetrate the existing holes and hold the cover plate in the pressed down position. Heating element according to claim 1-U, characterized in that the heating pipes (6) and / or the base plate (1) consist of deformable material, so that, for example, round pipes are deformed in section in an unloaded state for a positive fit in trapezoidal shape grooves, wherein the tubes fill the grooves and, moreover, a substantial flat contact with the cover plate is obtained and in this way an effective heat transfer between the tubes and the cover plate. Heating element according to claims 1-5, characterized in that a filling mass (10) is introduced into the grooves (2), which is liquid or semi-liquid and optionally initially rigid or solid and, after heating, flowing or semi-liquid. becomes fluid so that at an intermediate stage said filling mass can be displaced laterally, which in the final stage can be pressed upwards to fill any remaining cavities directly below the cover plate (7), the filling mass (10) preferably is an adhesive and / or other mass having an effective thermal conductivity, and that the mass in the embodiment. the adhesive serves to provide a durable relationship between the cover plate and the pipes and / or the base plate and / or that the filling mass is applied over the entire surface of the base plate to fill in any irregularities and / or as an adhesive for the entire bottom plate -30. working. Heating element according to claims 1-6, characterized in that the top side of the base plate, preferably with the groove walls and bottom, and / or the bottom plate bottom side of a heat-reflecting layer. is provided, e.g. by anodizing. Heating element according to claims 1-7, characterized in that the cover plate (7). consists of a laminate, in which at least the top layer is dimensionally stable for obtaining a flat floor or the like, and that the cover plate consists of metal and / or plastic and / or other material, and that this and / or the base plate has a stiffening function, so that a heating element according to the invention can be mounted on any surface, whereby an insulating plate known per se (1) 1 is known beneath the base plate. and / or that the cover plate consists, for example, of a layer thereof of heat-softening material for receiving a part of the heating pipes, which are thus slightly embedded in the cover plate. 9- Heating element according to claims 1- 8, characterized in that the deformability of the heating pipes and / or the base plate exists in addition to a certain permanent elasticity and / or the medium density in the pipes, so that they always abut against the parts r side of the cover plate are pressed for permanent good heat transfer, Method for manufacturing a heating element according to claim 1, wherein a base plate (1), preferably consisting of extruded plastic and provided with mutually preferably parallel grooves, is provided with heating pipes or loops (6 'for a heating medium, e.g. water, on which a cover plate (71 20 is applied on top of the base plate to the grooves (2i and to the heating loops (6) to obtain a heat transfer between the pipes and a space to be heated, characterized by that in cross-section preferably round and with a slightly larger diameter 'than the width of the heating pipes (16) having heating pipes (61 in grooves 25 (2}) are laid with a profile such that the groove walls' (3X at least in connection diverge from the groove neck to the growth bottom (^ 1, preferably in the form of a trapezoid or dovetail and with rounded or finished groove neck and bottom to obtain after enough z- or s-shaped profile sides, so that the heating pipes snap into the groove, whereby the heating pipes and / or the base plate are slightly deformed elastically, and where a small expansion occurs in the wider interior of the grooves, so that the pipes without additional tools are held in the grooves. 11. A method according to claim 1, characterized in that in the unloaded state in the profile, for example, round tubes are deformed for the form-locking in, for example, trapezoidal grooves, for filling them up and achieving a large flat contact with the cover plate. 8201068 -9- Heating element according to claims 10 or 11, characterized in that the heat transfer and / or the retention of the housings in the grooves is improved by introducing a filling mass (10) into the grooves, which can be displaced to fill the 5 cavities, and / or that the filling mass (10.) is introduced into the grooves in the wedge-shaped spaces between them and the groove neck and / or over the entire surface of the base plate after the pipes have been placed. Method according to claims 10-11, characterized in that the deformation of the pipes (6) and / or of the base plate (1) and possible incorporation of the filling mass is favored, because in an intermediate stage warm or heated water is sent through the tubes so that the tube material and / or the base plate material softens and a form-fit connection is obtained quickly and easily. 8201068