DE8423034U1 - PIPE RADIATOR - Google Patents

Description

The innovation relates to a tubular heater with a heating coil embedded in insulating material, the ends of which are each included are connected to a connection element.

From EP 0 010 275 B1 a tubular heater is known Geworbei in which a heating coil is embedded in insulating material in a jacket tube, each with a At 1 uUbolzen is connected, which has a liolent part with a larger diameter, which is embedded in the insulating material, and a bolt part with a smaller diameter, which is passed through an insulating bead inserted into the front end of the jacket tube and mechanically held by the jacket tube.

Such tubular heating elements can be easily produced because cie insulating bead with one or two indentations in the jacket tube and at the same time the connecting bolt guided through the inner bore of the insulating bead by producing an impression in the part of the protruding from the insulating bead Anschiußboizen can be fixed.

The innovation is now based on the task of improving the known training in such a way that the embedding of the Connection bolt formed so that it cannot rotate in the insulating material and that furthermore the introduction of a temperature monitoring element into the connecting end of the pipe radiator is made possible.

The solution to this problem results from the characteristic Features of the main claim. The subclaims describe preferred embodiments.

The tubular design of the connection element makes it possible So on the one hand the introduction of a temperature monitoring element, in a concentric arrangement in the connecting end. In general, the temperature monitoring element be a bead made of a resistance material, which the Resistance value changes with increasing temperature, namely both in a negative and in a positive sense. By changing the resistance value, an integrated Circuit influenced accordingly, which then controls further control processes, z. B. in the sense of a reduction or shutdown the power supply. In the case of tube heaters, which are used to heat the water serve, temperature sensors that are in the -Arranged in the water-immersed area of the pipe heating element-

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net are not proven. The temperature in the tubular heating element rises due to the build-up of lime. The temperature monitoring element must therefore be inactive over a relatively wide temperature range stay so that there is no premature power cut-off. However, on the one hand, this is a regulation of the F; liquid temperature and on the other hand a control of the Disconnection of the process in the event of dangerous situations, e.g. B. Burning out of the konrheizkorpers, problematic. If, as according to the invention suggested, however, the temperature monitoring essential is housed concentrically in the unheated connection end of the tubular heater, then there is an exact heat flow, since there is no more calcification in this area. When accommodating the temperature monitoring element in the tubular connecting element is thus ensured that on the one hand a constant heat flow from the heating coil acts concentrically on the monitoring element and that, on the other hand, there is a correspondingly constant flow of heat via the tubular heating element jacket tube. In order to can master processes that are accurate to within a few degrees be e.g. B. it can be ensured that the electricity

o Switching exactly at an outer jacket 1 temperature of 125 in

ο a tolerance range of + or - 1 is ensured.

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On the other hand, the tubular design of the connection element enables the connection element to be embedded in the insulating material in a manner secure against rotation. For this purpose is only required that the pipe is pressed out in the shape of a flag. One Machining a connecting bolt in a similar manner would mean that the connecting bolt is given a larger diameter from the outset and that the remaining material, in particular for the shaft guided through the insulating bead, is correspondingly turned off. However, this requires relatively high manufacturing costs.

The accompanying drawings serve to further explain the invention. Show it:

Fig. 1 is a section through the tube heizkörpercendes;

Fig. 2 is a perspective view of the tubular connector element;

3 shows a connection element according to a modified one Embodiment;

4 shows a partially sectioned view of an Iso-Ii per 1e;

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Fig. 5 is a plan view of the insulating bead.

In a jacket pipe 1, z. B. made of stainless steel, is one Heating coil 2 housed embedded in insulating material 3.

A tubular connecting element is pressed in such a way that it has a truncated conical end k, a pressed-flat flag 5, an unpeared central shaft 6 and pressed-out tabs 7. The heating coil 2 is welded onto the butt-conical end k , if necessary by means of a contact welding technique. The flattened flag 5 is embedded in the insulating material 3, so that the tubular connecting bolt is held in a torsion-proof manner. By pressing out the flag 5, a shoulder is created on which an insulating bead 8 is seated, whereby it is pressed onto the attachment by pressing out the tabs 7, possibly placing an annular disc 17 between them. The insulating bead 8 has a conical outer surface 9 which merges via a step 10 into a part 11 with a smaller diameter. The jacket tube 1 has an annular indentation at 12 on which the insulating bead 8 is seated. The jacket tube is pressed against the conical outer surface of the insulating bead 8 at 13. This results in an absolutely secure connection, both axially

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as well as in the radial direction as follows:

The insulating bead 8 is held between the groove 12 and the pressure 13 secured against axial displacement in the jacket tube 1. The tubular connecting bolt is still clamped between the attachment on the flag and the pressed flap 7 held axially immovable. Furthermore, the tubular connecting bolt is held in the insulating material 3 by the flag 5 so that it cannot rotate.

The tubular design of the connecting element has the advantage that the aforementioned press-outs without great effort can be produced. In addition, however, there is the advantage that a temperature monitoring element 14 can be inserted into the tube, which via one or more connecting wires 15, an integrated circuit, for. B. a washing machine controls. in the In the simplest case, the temperature monitoring element z. B. from a PTC bead, so a resistance material with a positive temperature gradient.

While temperature monitoring elements, which are arranged in the tubular heating element itself, have a very large -room, since the temperature in the

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The tubular heating element rises without initiating a shutdown process, or according to other proposals with bimetallic switches in which the heat flow is interrupted by air bridges, the solution shown has the advantage of a very precise heat flow, regardless of any rotation of the tube heating body s z. ß. beirr. Installation. The heat generated by the heating coil 2 flows over the truncated conical end k , the tab 5 radially over the insulating bead 8 to the jacket tube. Since the connecting end of the jacket pipe is no longer heated, no calcium deposits can form. The heat sensor located concentrically in the heat flow can thus be set very precisely to a certain temperature of the heating coil 2, so that the power supply is switched off when this temperature is exceeded.

While in the embodiment shown in Fig. 1 of Temperature sensor 14 is seated on the flag 5 is in accordance with In the modified embodiment shown in FIG. 3, an annular indentation 15 is provided which temperature sensor H is seated. This embodiment is used where -rotation-proof embedding of the connecting pipe in the insulating material 3 is not required is or is ensured in some other way.

In the figures ^ and 5 an insulating bead is shown, which is suitable for relatively short tubular heating elements. at the embodiment shown has the insulating bead three equally spaced from one another Tabs 16 by which it is held in the jacket tube. 1 so 1icrper1 s of this type can be inserted into the tubular heating element together with the heating coil before the insulating material 3 is filled. The insulating material is then filled through the space between the flaps 16.

A particular advantage is the interchangeability of the Temperature monitoring element 1 ^. Since this only after Completion of the tubular heating element is pushed into the tubular connecting element, damage is also possible, z. D. when pressing the pipe radiator, excluded. Uird dispensed with the interchangeability and a different fixation of the temperature monitoring element 1 * z. B. by If gluing is selected, then the constriction 15 or the flag 5 can be omitted.

Claims (5)

körn: ': ":' Patentanwälte Steinsdorfstr. 21-22 · D-8000 Munich 22 · Tel. 089/22 94 41 · Telex: 5 22208 TELEFAX: GR.3 89/2716063 · GR.3 + RAPIFAX + RICOH 89 / 2720430 GR.2 + INFOTEC 6000 89/2720481 11020 - SC / Li ELPAG AG CHUR Protection claims: 1. Tubular heater with an embedded in insulating material Heating coil, the ends of which are each connected to a connecting element are, characterized in that the Ansch1uße1emcnt consists of a pipe which is connected to on the Heizwende1 connection to a flag (5) pressed out is contained in the insulating material (3> is embedded secured against rotation. • ■ · • · 1 · · · I · ■ · ■ · I! · ■■■ 2 - 2. tubular heater according to claim I, characterized in that that in the tube a heat sensor (1 *) attached to connecting wires (15) for an integrated Circuit is inserted, which sits on the flag extrusion. 3. tubular heater according to claim 2, characterized in that instead of the flag one Tube embossing (15) is provided on which the heat sensor (14) rests. 4. tubular heater according to claims 1 to 3, characterized It is indicated that the flag (5) or a further expression serves as a seat for an insulating bead (8), as I clie the connection element concentrically in the tubular heater jacket (D holds. 5. tubular heater according to claims 1 to k, characterized in that at least one further lapo-shaped expression (7) of the connecting element is provided, through which the insulating bead (8) is fixed on its seat wi rd. 6 * tubular heater according to claims 1 to ^, thereby characterized in that the insulating bead (8) has a graduated diameter and is the largest • I f · t i * ^a * 3 _ ■ * ** Diameter having a part against the open Front end of the jacket tube tapered conical jacket surface possessed.