CZ17038U1 - Heating element - Google Patents

Abstract

The inlet (2) and outlet (3) manifolds have a tubular form within an aluminium support bar (4) and connected at the central point by a control valve (7). The horizontal flow tubes (5) are arranged in a ladder formation to provide heating for e.g. a bathroom with towel warming rails. Caps (8) close the upper ends of the manifolds and a joining channel (9) joins them at the upper extremity.

Description

The present invention relates to a heater, in particular a wall heater, with one supply channel and one return channel arranged substantially vertically and flowing therethrough, and with heating pipes arranged transversely with respect to the supply channel and the return channel on the heating element. rung method.

BACKGROUND OF THE INVENTION

Heating elements of this type are usually used in bathrooms and not only serve to heat the bathroom, but can also be used for drying and drying. These heating elements are usually connected to a heating system and flow through the heating medium or are electrically heatable. The heating pipes generally have the same shape and cross-section and are generally arranged in groups on top of one another in a plane. The distances between the individual heating pipes are preferably selected so that the groups are spaced apart from one another than the heating pipes in the individual groups between each other, see DE 44 38 572, DE 102 43 420.

The known wall heating element according to DE 44 38 572 has vertical collecting profiles through which the heating medium flows and heating pipes which connect the collecting profiles to one another and are arranged transversely to them across the crossbars. The collecting profiles are provided at both ends with connections, the lower connections for connecting the heating element to the heating water circuit and the upper connections containing a venting device. However, it is disadvantageous in this prior art that, due to the spacing between the supply and return ducts, predetermined by the length of the heating pipes, the connections, either in the wall or exposed, must be folded over to the collecting profiles, which entails either large installation and construction costs. or the aesthetic appearance of the heater is substantially impaired.

The essence of the technical solution

This technical solution is therefore based on the task of creating a heater of the kind described above, which can be inserted into the bathroom environment with a good degree of efficiency without any objection to the appearance and can be simply connected to standard connections without the need for Perform demanding installation work.

This technical solution solves this problem by the fact that the heating pipes are closed at one end and at the other end they open either into the supply duct or the return duct and are fixed thereon and project laterally from the supply duct or duct. from the return channel.

On the extruded profile, the heating tubes are arranged laterally so that they transversely project from the supply or discharge pipe. return channel. The heating of the heating pipes is realized in particular by convection of the heating medium in the heating element and by thermal conductivity between the supply duct or the heating element. return duct and heating pipes. The supply conduit, return conduit and heating pipes may be formed, for example, by steel pipes welded together, soldered or the like, thereby providing particularly simple and economical heating elements with an attractive external appearance.

Particularly advantageous design and assembly conditions are achieved when the inlet duct and the return duct comprise two parallel tubes arranged adjacent to each other and laterally extending heating tubes, the first tubes being connected to one another for flow by at least one connecting piece. The tubes forming the supply channel and the return channel are preferably arranged parallel to each other at a spacing which corresponds to the spacing of the standard connection.

A particularly high-quality heater with an increased degree of efficiency is obtained if both the inlet duct and the return duct are formed from a extruded profile, in particular a

And, if the heating pipes are fixed at one end to an extruded profile such that it flows into the supply duct and / or the return duct.

By providing both the inlet duct and the return duct from an extruded profile, it is ensured that the two ducts are already spaced apart, preferably at a distance of about 50 mm from the standard connection. As a result, the heater can be connected in a simple manner to the arranged standard connections, and can flow through the heating medium through the supply and return lines in the usual manner. On the extruded profile, the heating pipes are arranged laterally so that they transversely project from the supply duct or the conduit. from the return channel. The heating of the heating pipes is carried out in particular by convection of the heating medium in the heating element and the thermal conductivity between the extruded profile and the heating pipes. When the extruded profile and the heating tubes are made of aluminum material, a particularly good thermal conductive heater is obtained which has an excellent degree of efficiency.

Of course, the heating pipes could be inserted, in particular crimped or welded, into openings formed laterally on the extruded profile and opening into the inlet or outlet sections. return channel15 lu. However, it is particularly advantageous if the heating pipes are screwed into the extruded profile at one end, when the intermediate gasket is inserted, and at the same time flows into the supply duct and / or the return duct. Thanks to the screw connection arrangement, the heating element can be manufactured quickly and tightly, yet it is still possible to dismantle the heating element without any problems for maintenance purposes if necessary.

In order to be able to accommodate as few components as possible while avoiding disturbing the optical appearance of the heater, it is proposed that the inlet duct and the return duct are connected to each other by at least one opening whose axis of opening extends coaxially with the axis of a heating tube. The connection between the supply and return ducts can thus be realized in a simple manner during clamping and possibly by one tool. Such connections can be arranged along the length of the extruded profile, depending on the desired heating capacity and the amount of heat transfer medium, in the desired number and optionally with graduated diameters.

On the side of the heater carrying the return channel, the heat transfer from the heating medium to the heating pipes is ensured in particular by convection. In order to improve the heat transfer from the heating medium to the heating pipes on the side of the heating element belonging to the supply channel, it is proposed, for example, to arrange a smaller diameter pipe in at least one heating pipe so as to form a channel between the outer pipe jacket and the inner pipe for flow, wherein the pipe opens at one end through the flow channel to the return channel or feed channel and at the other end to the feed channel or return channel. As a result, it is possible to increase the heating capacity of the heating element due to the controlled flow of the heating pipes or the heating elements. to better adapt it to the required values.

A particularly simple design is obtained when the supply and return lines are connected at one end to a control valve and closed at the other end by means of shut-off caps, at least one of which comprises a conventional venting valve.

It has proved to be advantageous for the heating pipes to be made of aluminum rods with blind holes because of their favorable tightness.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be explained in more detail with the aid of schematic drawings of specific exemplary embodiments. In the drawings it represents:

FIG. 1 shows a sectional view along the line 11-11 in FIG. 1 on an enlarged scale, FIG. 3 shows a constructional variant of the heating element according to the invention, FIG. FIG. 3 is an enlarged cross-sectional view of FIG. 3; and FIG.

-2CZ 17038 Ul

Examples of technical solution

The heater 1, in particular the wall heater for use in the bathroom, comprises in each case one supply duct 2 and one return duct 3 which are directed substantially vertically through which the heating medium flows and which are optionally formed of steel profiles 18, see Fig. 1 and 2, or an extruded profile 4 of aluminum material. In order to improve heat output and to provide hanging rods for hanging towels or the like for drying or preheating, the heater is also provided with heating pipes 5 which are arranged perpendicularly to the inlet duct 2 and the return pipe channel 3 and which laterally protrude from the steel or canal. of the extruded profile 4 and opens into the supply channel 2 and / or the return channel 3.

In the embodiment according to FIGS. 1 and 2, the heating pipes 5 are soldered or welded at one end to steel profiles having a cross-sectional shape of the elongated opening, and in the remaining embodiments they are sealed screwed into the extruded profile 4. In order to prevent the heating pipe 5 from being accidentally released from the extruded profile 4, it is additionally possible to provide a thread-like adhesive or the like.

According to the illustrated embodiments, the inlet duct 2 and the return duct 3 in the lower region are each connected to one control valve 7, from which the heating medium flows through the inlet duct 2 and the return duct 3. In the upper region of the steel profiles 18 and 18 respectively. In the extrusion profile 4, the inlet duct 2 and the return duct 3 are closed by means of shut-off caps 8, at least one of which comprises a known venting valve, not shown in greater detail. To provide a flow connection between the supply duct 2 and the return duct 3, the supply duct 2 and the return duct 3 are connected to each other by a connecting piece 19 in the upper region of the steel studs 18 and 18, respectively. an opening 9 formed in a extruded profile 4, the axis of the opening extending coaxially with the axis 10 of one heating pipe 5. Depending on the need, the connecting pieces 19 can form a flow connection between the supply channel 2 and the return channel 3 or serve only as spacers supply duct 2 and return duct 3.

In order to improve the heat transfer from the heating medium to the heating pipes 5, as shown in FIG. 3, a smaller diameter pipe H may be arranged in the at least one heating pipe 5 such that between the outer jacket of the pipe 11 and the inner jacket of the heating pipe 5 forms a flow channel 12, the pipe Π. it opens at one end through the flow channel 12 to the return channel

3 or supply channel 2 and at the opposite end to supply channel 2 or return channel 3.

If necessary, it is of course also possible to pass the heating medium from, for example, the supply line through the flow duct 12, through the pipe 11 through the connection duct 13 (opening 9) to the next pipe 11 and through the other duct 12 to the return duct (indicated by dashed lines). The heater is also fastened to the wall by screw connections 14 and suitable brackets. In Fig. 3 it is indicated that the surface of the extruded profile 4 may be provided with any layer or varnished. On the visible side a cover profile 15 is inserted into the extruded profile 4, by means of which it is possible to change the optical appearance of the heating element 1 and which, if necessary, to change the optical appearance of the heating element. can form a plug for screwing etc.

It goes without saying that the design features of the exemplary embodiments can be freely combined with one another.

Claims (8)

A heater, in particular a wall heater, with one supply channel and a return channel each arranged substantially vertically and flowing therethrough, and with heating tubes arranged transversely with respect to the supply channel and the return channel in a manner 45 rungs, characterized in that the heating pipes (5) are closed at one end and at one end The other end opens into either the inlet duct (2) or the return duct (3), and are fixed thereto and protruding laterally from the inlet duct (2) respectively. from the return channel (3). Heating element according to claim 1, characterized in that the supply duct (2) and the return duct (3) comprise two parallel tubes arranged parallel to each other and therebetween. 5, with the heating pipes (5) projecting from one another, the latter being connected to one another for flow by means of at least one connecting piece (19). Heating element according to claim 1 or 2, characterized in that both the supply duct (2) and the return duct (3) are formed from a extruded profile (4), in particular of aluminum material, and that the heating pipes (5). are fixed at one end to the extruded profile (4) so that it opens into the supply duct (2) and / or the return duct (3). Heating element according to one of Claims 1 to 3, characterized in that the heating pipes ( 5) are screwed into the supply duct (2) and / or the return duct (3) and / or the return duct (3) respectively at one end when the intermediate gasket (6) is inserted. into the extruded profile (4), and at the same time flows into the supply channel (2) and / or the return channel (3). Heating element according to claim 3 or 4, characterized in that the inlet duct (2) and the return duct (3) of the extruded profile (4) are connected to each other by at least one opening (9) whose axis of opening extends coaxially with the axis heating pipes (5). Heating element according to claim 5, characterized in that a smaller diameter pipe (11) is arranged in the at least one heating pipe (5) so that between the outer jacket of the pipe 20 (11) and an inner jacket of the heating tube (5) forms a flow channel (12), the tube (11) opening at one end through the flow channel (12) to the return channel (3) or supply channel (2); at the opposite end to the supply duct (2) or the return duct (3). Heating element according to one of Claims 1 to 6, characterized in that the supply duct (2) and the return duct (3) are connected at one end to a control valve (7) and at the other The ends are closed by means of closing caps (8), at least one of which comprises a venting valve. Heating element according to one of Claims 1 to 7, characterized in that the heating pipes (5) consist of aluminum rods with blind holes.