DE102005036465A1 - Steep bath warmer, has heating unit with ceramic isolated heat conductor that is arranged in dipper tube, is rolled up on heat conducting carrier and is designed from elongated resistance wire - Google Patents

Abstract

The warmer has a heating unit with a ceramic isolated heat conductor (12) arranged in a dipper tube, which is filled with inert gas. The heat conductor is rolled up on a heat conducting carrier (11) and is designed from an elongated resistance wire. The heat conducting carrier has a slot-like admission (14) on its external surface. An external surface of the dipper tube shows a surface extension.

Description

The The invention relates to a Tauchbadwärmer with one in a dip tube arranged electric heating insert.

Such Tauchbadwärmer is for example from the DE 100 53 656 C1 is known and is used in particular for heating galvanic baths. The bath or small bath warmer comprises a dip tube with a heating insert arranged therein, which is made of ceramic grooved bodies with high electrical insulation values and good mechanical strength. A heat-resistant Heizleiterdraht is installed as a helix such that the highest possible heat dissipation through the dip tube is given to the liquid to be heated.

Of the Heating insert usually shows a heated and an unheated longitudinal area on, at the end a connection to a nip is arranged. The heating insert enveloping Immersion tube is constructed such that an access to be heated liquid is reliably prevented on the heating insert. A close contact of the Heating insert to the inner surface the immersion tube provides a reliable heat dissipation over the Immersion tube to the surrounding liquid for sure.

at the well-known Tauchbadwärmer the heating element is constructed of an electrically insulated Heizleiterträger, e.g. an oxide ceramic, in the electrically non-insulated Heizleiterdrähte than Heating coils are introduced. By heating the heating coils up to the annealing temperature The heat energy is transferred via heat conduction and heat radiation to the Heizleiterträger and that enveloping it Submerged dip tube.

Of the Invention is the object of a Tauchbadwärmer with specify a particularly suitable heating insert.

These The object is achieved by The features of claim 1. For this purpose, the Tauchbadwärmer one arranged in a dip tube heating insert with a on a metallic Heizleiterträger arranged on ceramic insulated heating conductor. The Heizleiterträger is with a groove-like receptacle for provided the heating conductor, the Heizleiterträger particular as wound aluminum or extruded profile is designed with an insertion groove for the heating element. The heating insert or cartridge heater is particularly used provided in immersion tubes for heating liquids.

Of the metallic Heizleitertragkörper can be outside be provided with a groove-like recording. This extends then conveniently turn or helically over the mantle surface the Heizleitertragkörpers. In this embodiment the heating element is wound on the Heizleiterträger.

alternative is the Heizleiterträger a wound or coiled extruded profile, preferably a Aluminum profile, with an insertion groove for the heating conductor. The depth the insertion groove is at the outer diameter of the heating conductor adapted, wherein the groove depth to the outer diameter of the heating conductor corresponds or preferably at least slightly larger than the outside or Conductor diameter of the heating conductor. In this embodiment the heating element is practically wrapped in the extruded heating element carrier or wound with the profile-like Heizleiterträger or wound up, wherein its supporting function by the wound or coiled extruded profile given is.

In Advantageous development of this alternative is on the insertion opposite profile side the extruded profile provided a bead or groove-like profile survey. The profile elevation is adapted to the outer contour of the heating element. With wound extruded profile with in its insertion or profile groove inlaid or inserted heating conductor protrudes the profile survey one or each Wi ckel- or helical layer of the extruded profile in the opposing Insertion of an adjacent winding or helical layer at least partially into it. The respective profile survey closes the insertion of an adjacent helical or winding layer of the extruded profile such that the heating conductor positive and / or force fit in the insertion groove and thereby at least approximately completely or included.

Of the Heating conductor itself is preferably made of a stretched resistance wire and built this surrounding ceramic insulation. Also can the heating conductor of a ceramic core and a surrounding this coiled resistance wire and a surrounding this in turn Ceramic insulation be constructed. By applying an electrically insulating, thermally stable and firmly cladding the Heizleiterdrahtes is a heat dissipation to the Heizleiterträger or carrying body with only a very small amount of heat radiation reached.

The insulation behavior of the ceramic jacket of the heat conductor is so high even under defined operating temperature or continuous temperature that can be used as Heizleitertragkörper an electrically conductive material. This is also a good thermal conductivity of the Heizleiterträ Ensures gers that lies well above the previously used electrically insulating, thermally resistant materials. Due to the good thermal conductivity of a metallic Heizleitertragkörpers, for example in the form of an aluminum alloy, a reduction of the Heizleitertemperatur and thus the use of less expensive materials is possible.

Of the Ceramic-insulated heating conductor can be so flexible manufacturing technology be that easy insertion even into a circumferential groove the Heizleitertragkörpers allows is. The total heat output of the heating insert results the number of turns and the diameter of the Heizleitertragkörpers.

By the use of special insulating materials and / or the application special sheathing method can be exceeded if a defined Temperature the insulation ability the Heizleiterummantelung be reduced so that a significant Leakage occurs, which then flows to the electrically conductive Heizleiterträger when a electrical contact between the insulated heating conductor and the electrically conductive heating conductor consists. The heating conductor carrier is therefore preferably permanently earthed and thus leads to the derivation of Electricity over Earth (PE). The fault current can then with a conventional residual current circuit breaker detected and exceeded a limit value for permanently switching off the operating temperature the heating can be used. Thus, if the heater is overheating, e.g. through a partial or complete drying of the Tauchbadwärmers safe shutdown guaranteed.

by virtue of the use of an electrically conductive Heizleiterträgers or Heizleitertragkörpers can such metals as aluminum are used, the additional to a good thermal conductivity as well as a good temperature and corrosion resistance simply mechanical are editable. Thus, you can preferably made virtually any length Heizleiterträger and by cutting to length the Heizleitertragkörpers (with production lengths from e.g. 6 m) the actual, heated carrier length can be defined.

following Be exemplary embodiments of Invention explained in more detail with reference to a drawing. Show:

1 partly in a longitudinal section a Tauchbadwärmer with a heating insert according to the invention and a terminal housing and a dip tube,

2 the heating insert according to the invention with a clamping plate with connecting bolts,

3 in a section and on an enlarged scale the heating insert with wound on a Heizleiterträger heating element,

4 and 5 alternative embodiments of a ceramic-insulated heating conductor wire,

6 an extruded coil conductor carrier with inlaid heating conductor,

7 and 8th the Heizleiterträger according to 6 in a sectional perspective view or in a section along the line VIII-VIII in 6 .

9 in an enlarged sectional view of the extruded profile of the Heizleiterträgers after 6 .

10 in a sectional view of two adjacent winding layers of the extruded profile with inlaid heating conductor, and

11 a section XI 10 on a larger scale with in the extruded profile positively fitting heating conductor.

each other corresponding parts are in all figures with the same reference numerals Mistake.

According to the 1 and 2 includes the Tauchbadwärmer 1 an electric heater 2 , which has connection cables 3 with connection contacts 3a . 3b is connected, with which this can be connected to an external power supply, for example in a single-phase connection to the neutral conductor N and the phase conductor L1. The heating insert 2 is located in a preferably metallic dip tube 4 ,

As in particular from 2 is apparent, is the heating insert 2 at the end of a rigid handrail 5 arranged at its other end in a through hole of a clamping plate 6 is axially displaceable and resiliently mounted. For resilient mounting is a compression spring 7 intended. The clamping plate 6 and the connection contacts 3a . 3b are from a terminal box 8th surround.

At the holding end of the handrail 5 is a ceramic disc 9 , in particular provided for strain relief, to which the effectively heated zone of the Tauchbadwärmers 1 followed. While the longitudinal extent of the heating insert 2 The effectively heated zone represents this along with the longitudinal direction 10 extending longitudinal extent of the ceramic disc 9 the minimum immersion depth of the Tauchbadwärmers 1 dar. The Area between the clamping plate 6 and the ceramic disc 9 represents the unheated zone of the dipping bath warmer 1 represents.

As in particular from 3 is apparent, is the heating insert 2 constructed of a metallic Heizleiterträger or Heizleitertragkörper 11 and a helically applied or wound ceramic insulated heating conductor 12 , whose construction variants in the 4 and 5 are shown. The heating conductor carrier 11 is preferably with a central bore 13 for returning the cold end of the heating conductor 12 Mistake. The heating conductor 12 itself lies in a single or multi-start outside on the support body 11 provided receiving groove 14 one.

The structure of the ceramic fiber insulated heating conductor 12 is in the 4 and 5 illustrated. According to 4 points the heating conductor 11 a stretched resistance wire 15 on top of a first ceramic fiber insulation 16 and a surrounding this further ceramic fiber insulation 17 is surrounded. The layer thickness of the insulation is 17 in particular together with the ceramic fiber insulation 16 much larger than the diameter of the resistance wire 15 ,

In the embodiment according to 5 is the heating conductor 12 built from a central ceramic fiber core 18 with a helically surrounding resistance wire 19 and a surrounding ceramic fiber insulation 20 ,

The diameter d ( 3 ) of the heating conductor 12 is preferably 0.2 mm to 1.2 mm. The insulation strength of ceramic fiber insulation 16 and 17 respectively. 20 of the heating conductor 12 is greater than or equal to 1250 V (DC). The temperature resistance of the ceramic insulation of the heating conductor 11 is less than or equal to 700 ° C. The heating power of the heating conductor 12 is less than or equal to 400 W / m, in particular less than or equal to 300 W / m.

Preferably, the dip tube 4 the Tauchbadwärmers 1 filled with a protective gas to avoid oxidation. For improved energy or heat output has the outer surface 21 of the dip tube 4 For example, a wavy, beaded or knobbed structure for surface enlargement.

The ceramic-insulated heating conductor 12 with the stretched resistance wire 15 according to the embodiment according to 4 or with the on the ceramic core 18 helically arranged resistance wire 19 and in particular nonwoven, yarn or fibrous ceramic insulation 16 . 17 . 20 in the form of preferably a textile ceramic, glass fiber or ceramic fibers alone is inventive. This ceramic-insulated heating conductor 12 is also suitable for other applications.

An alternative embodiment of the Heizleiterträgers 11 is in the 6 to 8th shown. The 9 to 11 show details of this alternative Heizleiterträger 11 , In this embodiment, the Heizleiterträger 11 a preferably made of aluminum, hereinafter referred to as aluminum profile extruded profile 25 , The aluminum profile 25 is - like from the 6 to 8th apparent - helical winding or spiraling. The aluminum profile 25 has a loading slot throughout 26 for receiving the ceramic insulated heating conductor 12 on. The dimensions B, T ( 9 ) of the insertion groove 26 , in particular the groove depth T, are at the outer dimensions D ( 11 ) of the heating conductor 12 fitted so that this is preferably completely in the insertion 26 rests.

On the insertion groove 26 opposite profile side 27 of the aluminum profile 25 is a groove or bead-like profile elevation, referred to below as a closure bead 28 formed. The closing contour of this closing bead 28 is also to the conductor contour of the heat conductor 12 adjusted so that in the wound or coiled state of the aluminum profile 25 with in its insertion groove 26 enclosed heating conductor 12 this form-fitting in the insertion groove 26 rests. In other words: the insertion groove 26 one or each winding or helical layer L _n , where n = 1, ... m, is of the Verschließsicke 28 each be adjacent coil or wound layer L _n closed. The respective closing bead protrudes 28 into the corresponding insertion groove 26 partially into, as this particular from the 10 and 11 is apparent.

The cross-sectional shape of the aluminum profile 25 is in 9 illustrated on a larger scale. It is obvious that the insertion groove 26 Profile outside opposite Verschließsicke 28 in the form of two vaults 29 . 30 executed, the opposite bead edges 31 respectively. 32 arcuate into one another to form a clamping bead or clamping groove.

In conjunction with the illustration according to 11 is both the groove depth T of the insertion 26 as well as the groove width B as precisely as possible to the outer diameter D of the circular cross-section heating conductor 12 customized. By through the Verschließsicke 28 closed insertion groove 26 thus lies the heating conductor 12 positive and / or non-positive in the insertion 26 one. This ensures that the largest possible circumferential area of the heating element 12 in direct contact with the inner walls of the insertion groove 26 or the closing bead 28 is. As a result, a correspondingly good or effective heat transfer from the heating conductor 12 on the aluminum profile 25 and thus on the Heizlei terträger 11 reached.

With this construction of the Heizleiterträgers 11 in the form of the aluminum profile 25 It has been found that the good thermal conductivity even with a coarseness of the aluminum structure of the extruded profile 25 by continuous temperature loads, in particular up to about 450 ° C, do not change. Furthermore, it has been found that the wound dressing from the aluminum profile 25 and the heating conductor inserted therein and wound therewith 12 remains sufficiently stable during operation.

The winding of the bandage from the aluminum profile 25 and the heating conductor 12 expediently takes place via a circular mandrel winding mandrel.

This ensures that a very uniform winding association for the production of the Heizleiterträgers 11 with wrapped heating conductor 12 is made.

1

immersion heaters

2

heater

3

connecting cables

3a, 3b

terminals

4

dip tube

5

Handrail

6

clamp

7

compression spring

8th

terminal housing

9

disc

10

longitudinal direction

11

heating conductor

12

heating conductor

13

drilling

14

receiving groove

15

resistance wire

16.17

Ceramic fiber insulation

18

Ceramic fiber core

19

resistance wire

20

Ceramic fiber insulation

21

outer surface

25

Strand / aluminum profile

26

insertion groove

27

profile page

28

Profilerhebeung / Verchließsicke

29.30

bulge

L _n

winding or helical layer

B

groove width

D

diameter

T

groove depth

Claims (21)

Dipping bath warmer ( 1 ) with one in a dip tube ( 4 ) arranged heating insert ( 2 ) with one on a metallic Heizleiterträger ( 11 ) arranged ceramic insulated heating conductor ( 12 ). Dipping bath warmer ( 1 ) according to claim 1, wherein the Heizleiterträger ( 11 ) outside a groove-like receptacle ( 14 ) having. Dipping bath warmer ( 1 ) according to claim 1 or 2, with an on the outer surface of the Heizleiterträgers ( 11 ) helically or helically extending receiving groove ( 14 ). Tauchbadwärmer according to claim 1, wherein the Heizleiterträger ( 11 ) a wound or coiled extruded profile ( 25 ) with an insertion groove ( 26 ) for the heating conductor ( 12 ). Dipping bath warmer ( 1 ) according to claim 4, in which on the insertion groove ( 26 ) opposite profile side ( 27 ) of the extruded profile ( 25 ) a bead-like profile survey ( 28 ) is provided. Dipping bath warmer ( 1 ) according to claim 5, wherein the profiling ( 28 ) a winding or helical layer (L _n ) of the extruded profile ( 25 ) in the insertion groove ( 26 ) of an adjacent winding or helical layer (L _n ) at least partially protrudes. Dipping bath warmer ( 1 ) according to claim 5 or 6, wherein the profile elevation ( 28 ) a winding or helical layer (L _n ) of the extruded profile ( 25 ) the insertion groove ( 26 ) of an adjacent helical or winding layer (L _n ) ver closes such that in the insertion ( 26 ) heating conductor ( 12 ) is at least approximately completely enclosed. Dipping bath warmer ( 1 ) according to one of claims 4 to 7, in which the extruded profile ( 25 ) consists of aluminum. Dipping bath warmer ( 1 ) according to one of claims 1 to 8, in which the heating conductor ( 12 ) from a stretched resistance wire ( 15 ) and a surrounding ceramic insulation ( 16 . 17 . 20 ), in particular a ceramic fiber insulation, is constructed. Dipping bath warmer ( 1 ) according to one of claims 1 to 9, in which the heating conductor ( 12 ) of a ceramic core ( 18 ), in particular a ceramic fiber core, and a surrounding coiled resistance wire ( 19 ) and a surrounding ceramic insulation ( 16 . 17 . 20 ), in particular a ceramic fiber insulation, is constructed. Dipping bath warmer ( 1 ) according to one of claims 1 to 10, in which the layer thickness of the ceramic insulation ( 16 . 17 . 20 ) the wire diameter (d) of the heating conductor ( 12 ) or the resistance wire ( 15 . 19 ), preferably by a multiple or multiple, exceeds. Dipping bath warmer ( 1 ) according to one of claims 1 to 11, in which the wire or conductor diameter (d) of the heating conductor ( 12 ) or the resistance wire ( 15 . 19 ) Is 0.2 mm to 1.2 mm. Dipping bath warmer ( 1 ) according to one of claims 1 to 12, in which the insulation strength of the ceramic insulation ( 16 . 17 . 20 ) of the heating conductor ( 12 ) is greater than or equal to 1250V (DC). Dipping bath warmer ( 1 ) according to one of claims 1 to 13, wherein the temperature resistance of the ceramic insulation ( 16 . 17 . 20 ) of the heating conductor ( 12 ) is less than or equal to 700 ° C. Dipping bath warmer ( 1 ) according to one of claims 1 to 14, wherein the heating power is less than or equal to 300 W / m. Dipping bath warmer ( 1 ) according to one of Claims 1 to 15, in which the heating insert ( 2 ) on the connection side into a terminal housing ( 8th ) is guided. Dipping bath warmer ( 1 ) according to claim 16, wherein in the terminal housing ( 8th ) a clamping plate ( 6 ) with connecting bolts ( 3a . 3b ) is provided, to which with the ceramic insulated heating conductor ( 12 ) electrically conductively connected connection lines are guided. Dipping bath warmer ( 1 ) according to claim 17, in which in the connection plate ( 6 ) a handrail ( 5 ), at the free end of the heating insert ( 2 ) is arranged. Dipping bath warmer ( 1 ) according to one of claims 1 to 18, in which the dip tube ( 4 ) is metallic. Dipping bath warmer ( 1 ) according to one of claims 1 to 19, in which the dip tube ( 4 ) is filled with a protective gas. Dipping bath warmer ( 1 ) according to one of claims 1 to 20, in which the outer surface ( 21 ) of the dip tube ( 4 ) has a surface enlargement.