DE3636612A1 - RESISTANCE ARRANGEMENT FOR CATHODICALLY CORROSION PROTECTED CONTAINERS FOR LIQUIDS - Google Patents

Description

The invention relates to a resistor arrangement for cathodic corrosion-protected, enamelled containers for liquids, especially water heater, using magnesium sacrificial anode or inert current - fed inert anode according to the generic term of Claim 1.

Enameled tanks of water heaters are used to protect metallic defects, such as. B. pores, active by galvanic Anodes, preferably by sacrificial magnesium anodes or protected by inert current-fed inert anodes. The task of cathodic protection with such anodes consists in Avoid corrosion damage to enamel imperfections. The allowable Total area of all defects is z. B. according to DIN 4753 only 0.07%, so that very low protective current densities are sufficient.

Metallic installation parts, such as. B. electric tubular radiators or Thermostatic protection tubes must therefore be compared to the enamelled Containers can be installed electrically insulated. This electrical Separation can, however, lead to the fact that especially when there are imperfections in the vicinity of such metallic built-in components are the anode current flows through these built-in parts to the fault and itself, for. B. at high-alloy tubular heaters, a so-called Electricity leakage corrosion occurs that can fail in the short term such built-in parts can lead.

It has been found that this current leakage corrosion without Impairment of the cathodic protection of an enamelled Container can be prevented when such fittings over a resistance of 550 to 650 Ω, preferably 600 Ω, with the enamelled containers are electrically connected. Here is this connection z. B. isolated by wiring the built-in metallic installation part with the enamelled  Container made with an intermediate resistor. Such an implementation is both due to the number of required components and fasteners, as well as by the corresponding assembly time is expensive.

Such a type of connection shows the US-PS 27 23 340, at which tablet-shaped coal resistance on the one hand in a Recess of the flange plate of the tubular heater is applied, whereby a conductive connection to the container is established, and on the other hand via a compression spring on the flange plate insulated support plate of the tubular heater, so that a conductive connection to the tubular heater is established. To one To make good contact are the contact surfaces of the Coal resistance coated with copper. This structure is also complicated and complicated to assemble.

The object of the invention is to create a simple, inexpensive and quick to assemble and disassemble Resistor arrangement for the above purpose.

This task is accomplished through the measures of the characteristic part of claim 1 solved.

Further features and details of the invention are set out below based on preferred embodiments with the help of the drawing described.

Show it

Fig. 1 shows a first example of a resistor arrangement according to the invention in the form of a two sided printed circuit board in an enlarged view in elevation,

Fig. 2, the circuit board of FIG. 1 in plan view,

Fig. 3 is a bottom view of the printed circuit board of Fig. 1,

Fig. 4 shows the mounting position of the circuit board of FIG. 1 in a tubular heater, partly in cross-section,

Fig. 5 is a bottom view of the installation position according to Fig. 4,

Fig. 6 to 8, a second example of a resistor arrangement according to the invention in a similar view as in Fig. 1 to 3, and

FIGS. 9 and 10 a third embodiment of a resistor assembly according to the invention in a similar view as in Fig. 1 and 2.

In Fig. 1, 1 designates a double-sided circuit board having a bore 2. At a distance from the edge of the bore, an annular concentric contact surface 3 and 4 is provided on the top and bottom. A conductor track 5 leads from the upper contact surface 3 to a soldering point for a connection end of a resistor 6 , which can be designed as a wire-layer mass resistance or the like ( FIG. 2). From the other end or soldering point of the resistor 6 , a conductor 7 leads to a soldering point, from which a wire 8 leads through the circuit board 1 to a soldering point on the underside of the circuit board 1 , which is connected to the lower contact surface 4 via a short conductor 9 ( Fig. 3). Instead of the wire 8 , a hollow rivet can be provided, or the circuit board 1 is plated through at this point.

Fig. 4 shows the mounting position of the circuit board 1 is in a tubular heater 10th A support plate 11 bears against the flange 12 of the container via an insulating seal 13 and carries a threaded bolt 14 , which is led out isolated by a flange 12 , and the two ends 15 and 16 of the tubular heater 10, which are also run out in an isolated manner. The insulation of the threaded bolt 14 for drilling in the flange 12 takes place, for. B. by an insulating tube 17 , while the ends 15 and 16 of the tubular heater 10 , z. B. are isolated by insulating sleeves 18 in the corresponding holes in the flange 12 . The threaded bolt 14 carries a first toothed washer 19 which rests on the one hand at the edge of the through hole in the flange 12 and on the other hand on the upper contact surface 3 of the printed circuit board 1 , the threaded bolt 14 being guided through the bore 2 of the printed circuit board 1 . A second toothed washer 20 rests on the one hand on the lower contact surface 4 of the printed circuit board 1 and on the other hand on the pressure surface of a nut 21 which is screwed onto the threaded bolt 14 . In order to prevent the first toothed washer 19 from touching the threaded bolt 14 , the insulating tube 17 is at least longer by the thickness of the first toothed washer 19 . The current path of the protective current accordingly runs from the tubular heater 10 via the threaded bolt 14 , the second toothed lock washer 20 , the circuit board 1 with the resistor 6 and the first toothed lock washer 19 to the flange 12 , which is conductively connected to the container 24 via a screw 22 and nut 23 .

In the second embodiment according to FIGS. 6 to 8, the resistor 6 ' between the conductor tracks 5' and 7 'is arranged on the top of the circuit board 1 and is formed, for example, as a thin film resistor. From the conductor 7 ' again a wire 8' or the like. Through the circuit board 1 through to the conductor 9 ' on the underside of the circuit board 1 . The conductor tracks 5 ' and 9' are connected as in Fig. 1 to 3 with the corresponding circular contact surfaces 3 and 4 . Installation takes place in the same way as in the first example.

By attaching the two toothed disks 19 and 20 to the contact surfaces 3 and 4 , there is good permanent contact between these parts.

Finally, there is the possibility that the resistor 6 ' is itself formed by a correspondingly small and sufficiently long cross-section, which is applied on the top or bottom or on both sides of the circuit board 1 in a meandering shape. The circuit board 1 can in all cases be covered with a protective lacquer layer, the teeth of the toothed disks 19, 20 penetrating the protective lacquer layer during the assembly of the printed circuit board 1 and establishing the conductive contact. Since the resistor 6, 6 'is outside the pressure range of the nut 21 , there is no influence on the electrical resistance when tightening the same.

Another embodiment of FIGS. 9 and 10 shows a particularly simple resistor arrangement in the form of an insulating washer 1 ' with a central bore 2' . The insulating washer 1 ' has on the top and bottom of each a cross-sectionally semicircular groove to accommodate the wire ends of the resistor 6 bent into an eyelet. The assembly is carried out in the same way as in FIG. 4.

Claims (5)

1. Resistor arrangement for cathodically corrosion-protected, enamelled containers for liquids, in particular water heaters, by means of a magnesium sacrificial anode or externally powered inert anode, consisting of a resistor which is electrically conductive on the one hand with the container, container part, such as flange or the like, and on the other hand with an insulator metallic built-in part, such as tubular heater, thermostat, or the like, is connected in the container, the built-in part being fastened to the container, container part, such as flange or the like by means of at least one screw connection led out of the container, characterized in that the screw connection consists of a threaded bolt ( 14 ) extending from the built-in part ( 10 ), which is led out isolated from the container and carries a fastening nut ( 21 ), and that an insulating plate, insulating washer, or the like is inserted between the fastening nut and the container, which outside the pressure range of the bee Stigungsmutter ( 21 ) carries the resistance ( 6, 6 ' ). 2. Resistor arrangement according to claim 1, characterized in that the insulating plate is designed as a printed circuit board ( 1 ) printed on both sides, which has a bore ( 2 ) for the passage of the threaded bolt ( 14 ), the distance from the edge of the bore on the top and bottom the circuit board ( 1 ) each has an annular concentric contact surface ( 3, 4 ), from which conductor tracks for the connection of the resistor ( 6 ) start, the contact surfaces ( 3, 4 ) on the one hand the container, container part, such as flange or the like and on the other hand touch the mother ( 21 ). 3. Resistor arrangement according to claim 2, characterized in that from the upper contact surface ( 3 ) a conductor track ( 5; 5 ' ) leads to one end of the resistor ( 6; 6' ), and that from the other end of the resistor ( 6; 6 ' ) A conductor track ( 7; 7' ) leads to a conductive cross-connection ( 8; 8 ' ) with a conductor track ( 9; 9' ) on the underside, which is connected to the lower contact surface ( 4 ) ( Fig. 1 to 3 ; Figs. 6 to 8). 4. Resistor arrangement according to claim 2, characterized in that between the upper contact surface ( 3 ) and the container, container part, such as flange or the like. ( 12 ) on the one hand and the lower contact surface ( 4 ) and the nut ( 21 ) on the other one Toothed washer ( 19, 20 ) is arranged on the threaded bolt ( 14 ). 5. Resistor arrangement according to claim 4, characterized in that the insulation of the threaded bolt ( 14 ) by an insulating tube ( 17 ), which also the area of the toothed disc ( 19 ) between the upper contact surface ( 3 ) and the container, container part, such as flange ( 12 ) or the like.