DE4123129C2 - Device for heating a container - Google Patents

Description

The invention relates to a device for heating a loading ratio, especially for heating a laboratory vessel a housing having an opening for the container, ei nem arranged in the housing electrical heating conductor and egg ner acting between the housing and the heating conductor thermi insulation.

The present invention is based on the prior art, the arises from GB-PS 939 665. From this publication a device for heating a container is known, wel che a metallic housing with an opening for the container nis and an electrical heater arranged in the housing has head. The heating conductor is in the opening facing surface of one between the housing and the heater embedded thermal insulation. To warmth transfer from the heating conductor to a container to be heated is the surface of the opening with a metal mesh dresses, which by means of metallic threads in thermal con clock with the embedded heating conductor. In this way form the thermal insulation, the metal braid and the Heating conductor is a firmly connected unit. An out change the heating conductor and / or the metal mesh in the case Damage to these components is not possible.

From GB-OS 2 155 290 A is also a device for Heating a container is known, the device being a Housing with an opening for the container, one in the Ge arranged electrical heating conductor and a between thermal insulation acting on the housing and the heating conductor having. The heating conductor is embedded in woven yarn and on the surface of the opening formed by the insulation arranged. Possibly. can be ball-shaped to ground the device metallic shield can be provided in the opening. The Housing is encased in plastic, the Umman  telung extends to the edge of the opening and thereby the incised heating conductor and, if necessary, the metallic screen permanently attached to the housing.

From the registered documents of DE-GM 87 13 700.3 is one Device for heating vessels with a spherical bottom known. The device has a metal, in closed heating surface in the form of an open top Hemisphere shell, one on the outside of the hemisphere shell arranged resistance heater and one the heater towards outside thermal insulation. At the be Known device is essential that the inner surface of the Hemispherical shell is absolutely liquid-tight. For improvement the heat transfer between the metallic hemisphere shell and a container to be heated is in the hemisphere shell a plastically deformable metallic hollow body can be inserted. A replacement of the heating device is in the known before direction not possible.

Finally, GB-OS 2 124 859 A is an electrical one Heating jacket known. The heating jacket shows you a garnarti material embedded heating conductor. The one so immersed tete heating conductor is with a bpsw. from a glass fiber fabric existing insulating element connected.

Based on the state of the art according to GB-PS 939 665 the invention is therefore based on the object of a device for Heating a container of the type mentioned in the beginning to design and develop that simple exchange selectability of the heating conductor and / or the metal mesh at Be damage is possible.

The device according to the invention achieves the above object by the features of claim 1. Then the one  so-called device designed and further developed det that the heating conductor on a removable from the housing, consist of a metal ring and several fastening straps the carrying basket, preferably spiral shape of the container nisses at least largely adapted, arranged, the tra basket is covered with a removable metal braid and that Metal basket in the area of the metal ring least slightly overlapped and between the carrier and the Housing, operable from outside the housing, clamped is.

In the manner according to the invention, it has been recognized that, on the one hand the arrangement of the heating conductor on one of the housing baren, from a metal ring and several fastening straps existing and covered with a removable metal braid Carrying basket and on the other hand the betä from outside the housing tigable clamping of both the basket and the metal braids the above task to surprisingly simple Way solves.

The metal braid overlaps the carrier of the heating conductor in the Area of the metal ring used to fix the basket at least slightly. The heating conductor is preferred spirally at least largely to the shape of the container fit.

The metal braid cannot slip due to the clamping fixed on the heating conductor inside the housing. A sepa guessing evil of the metal mesh can be done simply by loosening it of the basket from the housing.

Consequently, with the device according to the invention is a front direction for heating a container realized in the  a simple replacement of both the heating conductor and the metal mesh arranged on the heating conductor is possible.

With a view to particularly easy handling, the Tra basket by means of preferably designed as knurled screws Screws fixed to the housing.

In a further advantageous manner is directly under the heating conductor a film reflecting heat radiation is provided. So is the heating conductor sandwiched between the foil and the metal arranged braid. This film causes radiant heat is reflected towards the container to be heated, that is do not penetrate into the interior of the housing and thus into the insulation can, whereby the efficiency of the Vorrich invention tion is significantly improved.

At this point it should be emphasized that the Kombina tion of metal mesh and foil overall to an increase the efficiency of the device on the one hand by directed Radiant heat, on the other hand through increased contact heat between leads to the metal grid and container. This in turn does overall better heat distribution within the device tion, which also means the heating-up times required for maintenance specified temperatures can be significantly reduced.

The film previously discussed is advantageous executed as a metal foil. For example, here comes an aluminum mini foil in question.

Furthermore, it is particularly advantageous if the metal fo lie and / or the metal braid has a protective conductor function or have what increases the operational safety of the device Lich improved.  

With regard to adequate operational security, it is of Another advantage if temperature sensors for example, so-called capillary tube sensors are provided and if the capillary tube sensor is in the lower area of the heating cable ters are arranged between the turns. The capillary Pipe sensors can limit the temperature on the one hand a maximum value, on the other hand for temperature control. The capillary tube sensors then lead from inside the housing to the outside of the housing and flow into it, for example a particularly insulated or shielded switch box or the like

There are now several ways to teach the present the present invention in an advantageous manner and white to train. For this purpose, on the one hand, to claim 1 subordinate claims, on the other hand to the subsequent Er purification of an embodiment of the invention based on the Reference drawing. In connection with the explanation of the preferred embodiment of the invention based on the Drawing are also generally preferred configurations and further training in teaching explained. Zei in the drawing gene.

Fig. 1 in a schematic representation, section, he inventive device for heating a container and NISS

Fig. 2 in a schematic representation, enlarged and partially, the object of Fig. 1st

Figs. 1 and 2 together show a device for heating a container, not shown in the figures, particularly for the heating of a laboratory vessel, not shown in the figures.

The device has a housing 1 which is equipped with an opening 2 for the container. An electrical heating conductor 3 is arranged in the housing 1 . A thermal insulation 4 , which preferably consists of mineral wool or the like, acts between the housing 1 and the heating conductor 3 . Furthermore, it is indicated in the figures that the heating conductor 3 on a carrier basket 5 is at least largely adapted to the shape of the container not shown in the figures in a spiral shape. The carrier basket 5 consists of a serving for fixing the carrier basket 5 metal ring 7 , fastening straps 11 and a connecting element 13 of the fastening straps 11 .

According to the invention, the heating conductor 3 is covered with a metal braid 6 . The metal braid 6 serves for direct contact on the one hand with the heating conductor 3 and on the other hand with the container (not shown).

The figures further show that the metal mesh 6 overlaps the heating conductor 3 or the carrying basket 5 at least slightly at the upper edge region or on the metal ring 7 . By fixing the heating conductor 3 or the carrying basket 5 on the housing 1 , the metal mesh 6 between the heating conductor 3 or the carrying basket 5 and the housing 1 is clamped.

Fig. 2 shows particularly clearly that the carrying basket 5 or the sen metal ring 7 is fixed using knurled screws 8 on the housing 1 . The knurled screws 8 can be actuated from outside the housing 1 - either from above the housing or from below the housing through corresponding openings and through the insulation 4 . The figures further show that a heat radiation reflective foil 9 is formed directly under the heat conductor 3 , so that the heat conductor 3 is sand wich between the film 9 and the metal braid 6 is arranged. The film 9 is executed in the present case as Metallfo lie. Both the film 9 and the metal braid 6 can have a protective conductor function.

The figures show that capillary tube sensors 10 for temperature measurement are arranged in the lower region of the heating conductor 3 between its turns. The Kapillarrohrfü ler 10 serve on the one hand to limit the temperature to a Ma ximalwert, on the other hand for temperature control.

The following is based on the embodiment chosen in the figures Example of the assembly of such a device briefly explained.

The temperature-resistant heating conductor 3 - it can be an Ex heating conductor 3 (explosion-proof heating conductor) made of PTFE - is immovably mounted on the preassembled carrier basket 5 with the fastening strap 11 , for example a metal tensioning strap 11 , and kept evenly at a distance . In the lower third of the heating conductor 3 , ie where the warmest point of the device is located, the capillary tube sensors 10 are each mounted between two heating conductor windings - preferably with PTFE tape. At the ends of the Ex heating conductor 3 , then not shown in the figures Ex-Ver connecting sleeves are connected and boxed with cold ends to the Ex connection box 12 . The carrier 5 is fastened with the heating conductor 3 attached to it by means of knurled screws 8 on the housing 1 , the metal braid 6 being placed on the heating conductor 3 and clamped between the housing 1 and the metal ring 7 of the carrier basket 5 when the heating conductor 3 is fastened becomes.

After mounting the carrier basket 5 on the housing 1 , the inside of the heating conductor 3 is clad with a heat-reflecting film 9 for better heat distribution or for heat reflection. The film 9 or the heating conductor 3 is then fed with insulation, more precisely with mineral wool, or the housing 1 is stuffed so that the area behind the film 9 is thermally insulated. Outside the hous ses 1 is the junction box 12 , which is a plastic-coated metal housing. There who provided all the connections of the heating conductor 3 and the capillary tube sensor 10 . In the case of the use of a capillary tube limiter, this is preferably located within the connection box 12 . In the case of the capillary tube regulator, a corresponding setting wheel or the like is guided outwards through a bore so that the temperature can be set.

In any case, it is essential that for the explosion-proof configuration of the device according to the invention, all connection lines are mounted in the explosion-proof connection box 12 , including the connection line for the network. After all assemblies have been carried out within the connection box 12 , the latter is securely closed with a cover plate.

Claims (7)

1. Device for heating a container, in particular for heating a laboratory vessel, with a housing ( 1 ) having an opening ( 2 ) for the container, an electrical heating conductor ( 3 ) arranged in the housing ( 1 ) and one between the housing ( 1 ) and the heating conductor (3) acting thermal insulation (4), characterized in that the heating conductor (3) removable in one of the housing (1), from a metal ring (7) and a plurality of fastening straps (11) pass the carrying basket ( 5 ), preferably spirally adapted to the shape of the loading at least largely, is arranged, the carrying basket ( 5 ) is covered with a removable metal braid ( 6 ) and the metal braid ( 6 ) the carrying basket ( 5 ) in the region of the metal ring ( 7 ) at least is slightly overlapped and operable clamped between the support basket (5) and the housing (1), from outside the Gehäu ses (1). 2. Apparatus according to claim 1, characterized in that the carrying basket ( 5 ) is fixed to the housing ( 1 ) by means of screws, preferably designed as knurled screws ( 8 ). 3. Apparatus according to claim 1 or 2, characterized in that a heat radiation reflecting film ( 9 ) is formed directly under the heat conductor ( 3 ). 4. The device according to claim 3, characterized in that the film ( 9 ) is a metal foil. 5. The device according to claim 4, characterized in that the metal foil ( 9 ) and / or the metal braid ( 6 ) has a protective conductor function. 6. Device according to one of claims 1 to 5, characterized in that capillary tube sensors ( 10 ) are provided for temperature measurement and that the capillary tube sensors ( 10 ) are preferably arranged in the lower region of the heating conductor ( 3 ) between the turns thereof. 7. The device according to claim 6, characterized in that the capillary tube sensor ( 10 ) on the one hand to limit the temperature to a maximum value, on the other hand to regulate the temperature.