DE3701741C2 - Immersion bath device, namely immersion bath warmer and / or immersion bath temperature controller - Google Patents

Description

The invention relates to an immersion bath device, namely a Dip heater for electrical heating and / or one Immersion bath temperature controller for regulating the temperature electrically heated electroplating baths.

From the published patent application DE 34 05 003 A1 (VEB) is a Immersion heaters for heating liquid media are known, which besides the heating pipe at least one electrically has a conductive probe (sensor electrode). With the probe a control circuit is formed, which in the case of a low liquid level or when removing the Heater from the liquid interrupts the heating current. However, this device is a Safety immersion heater for domestic use that is not the requirements of immersion bath devices for industrial Electroplating baths fulfilled.

DE 79 15 882 U1 (Helios) describes a generic type Immersion heaters for industrial, especially galvanic Baths described with a dip tube and the one Immersion tube bearing connection head with at least one Connection line, in addition to the connection head at least one probe protruding into the bath as Dry heat protection is stored. The probe is is a liquid temperature sensor, which at The set maximum temperature is exceeded in known way switches off the heating current, but not from can turn on again. To the functionality to restore the device, the connection head of the Be opened, the limiter unlocked and that Device is switched on again.

The invention has for its object a Dip heater and / or a dip temperature controller for To create electroplating baths in which the probes or  Sensor electrodes are mounted so that the bearings the probes on the connection head with the bath liquid can come into contact.

This object is solved by the features of claim 1. As a result of that the probes on the side of the connection head and at a distance from the Bottom edge of the connection head are stored constructively ensured that the bearings of the The bath liquid does not touch the probes on the connection head or can only be wetted and the bath liquid Seals of the probe bushings, for example by capillary action.

Special configurations are given in the subclaims of the probe storage.

In the drawings, embodiments of the Invention reproduced. Show it:

Fig. 1 is an immersion heaters with a fixed directly on the connection head part-annular supporting body for three probes,

Fig. 2 is an immersion heaters with a connected through a pipe piece at the connection head probe head with three probes,

Fig. 3 is an immersion heaters with a fixed head at the terminal part of the annular support body for three probes and connected by a piece of pipe with the connecting rod head temperature controller,

Fig. 4 shows a rod with a temperature controller attached to the head slider part-annular supporting body for three probes,

Fig. 5 shows a connection head with a rod-shaped metal probe attached directly to the connection head

Fig. 5A an angled metal probe for direct attachment to a connecting head.

In Fig. 1 an immersion heater 1 is shown with a connection head 2 and an immersion tube 3 . On the connection head 2 , a partially ring-shaped support body 41 for three probes 51 , 52 , 53 is attached laterally. The support body 41 can be screwed, glued or preferably welded onto the connection head 2 . The probes 51 , 52 , 53 protrude vertically downward from the part-ring-shaped support body 41 . Depending on the corrosiveness of the bath liquid, the probes 51 , 52 , 53 consist either of a metal, in particular titanium, tantalum or stainless steel, or of an electrically conductive plastic, in particular polytetrafluoroethylene (PTFE), polyvinylidene fluoride (PVDF) or fluorinated ethylene propylene (FEP) . The probes 51 , 52 , 53 are preferably made of metal in round material with a bare metal surface. However, it is also possible to use a material with a square cross section for the probes 51 , 52 , 53 . The metal probes can be coated or overmolded with a plastic, for example the above-mentioned plastics PTFE, PVDF or FEP, over their length protruding from the supporting body 41 .

A bath warmer 1 with an immersion tube 3 made of metal requires the probe 52 for protection against dry heating, which is cut to the mark of the minimum immersion depth. The counter-contact is preferably formed by the metal dip tube 3 .

A bath warmer 1 with an immersion tube 3 made of an electrically non-conductive material, such as glass, porcelain or a plastic, requires two probes 51 , 52 for protection against dry heating, both probes being cut to the mark of the minimum immersion depth.

A bath heater 1 with an immersion tube 3 made of metal, which is protected against dry heating and in which the level of the bath level is to be regulated at the same time, requires two probes 52 , 53 . One probe 52 is cut to the minimum immersion depth and the other probe 53 to the maximum immersion depth. The metal dip tube 3 in turn forms the counter contact.

A bath warmer 1 with an immersion tube 3 made of an electrically non-conductive material, such as glass, porcelain or a plastic, which is protected against dry heating and in which the level of the bath level is to be regulated at the same time, requires three probes 51 , 52 , 53 . One probe 52 is cut to the minimum immersion depth and the other probe 53 to the maximum immersion depth. The third probe is cut to a length of approximately 20 mm below the minimum immersion depth and forms the counter contact to the bath.

In Fig. 2 an immersion heater 1 is shown, on the connection head 2, a probe head 42 is mounted. Connection head 2 and probe head 42 are preferably connected to one another by a pipe section 43 . The probe head 42 carries, for example, three probes 51 , 52 , 53 . The four possible combinations described with reference to FIG. 1 apply to the material of the immersion tube 31 and the three probes 51 , 52 , 53 .

In Fig. 3 is an immersion heaters 1 shown with an attached to the connecting head 2 partially annular support body 41 for the three probes 51, 52, 53 and a connected by a tube 64 with the connection head 2 rod temperature controller 61st The rod temperature controller 61 consists of the temperature sensor rod 62 and a manual rotary knob 63 for setting the desired bath temperature.

In FIG. 4, a rod temperature controller 6 is shown as a single device, at whose head portion 65, a part-annular supporting body 41 is fixed for the three probes 51, 52, 53.

In the above-described Fig. 1 to 4, the probes 51 , 52 '53 are each vertically downwardly mounted on a part-ring-shaped support body 41 , which in turn is connected to the head part 2 of an immersion bath heater 1 or to the head part 65 of a rod temperature controller 6 . This type of probe mounting is preferably suitable for probes 51 , 52 , 53 made of an electrically conductive plastic. Of course, metal probes can also be stored in this way.

However, if the use of a metallic probe is possible, it can be stored in a simpler manner, as shown in FIG. 5. For this purpose, the probe 54 is angled at a right angle so that a short fastening leg 541 and a long sensor leg 542 are formed. The length of the sensor leg 542 is determined in the same way from the requirements of the electroplating bath, as was done for the probes 51 , 52 , 53 .

The storage of the metal probe 54 is shown in FIG. 5A. A thread 543 is applied to the fastening leg 541 . A round nut 544 is screwed or welded onto this and bevelled on both sides, so that an approximately wedge-shaped body is produced. If you insert the fastening leg 541 with the thread 543 ahead through a hole that leads through the wall of the connection head 2 and tighten it within the connection head 2 by means of a nut 545 , the wedge-shaped body 544 is drawn into the plastic of the connection head 2 . As a result, the probe 54 is secured against rotation and at the same time liquid-tight with respect to the connection head 2 . The thread 543 then protrudes a little further into the interior of the connection head 2 and is used there for the power connection.

To ensure electrical safety, it is necessary that the electrical supply lines for the dry heating protection probe 51 or the level probes 52 , 53 are not combined together with the heating current supply in a multi-core cable. Rather, it is necessary to feed the probe leads 72 separately from the heating current lead 71 into the bathroom heater 1 or else the rod temperature controller 6 , since the heating current is supplied at the full mains voltage, while a low voltage, for example 24 volts, is supplied to the probes.

Claims (4)

1. Immersion bath device, namely immersion bath warmer for electrical heating and / or immersion bath temperature controller for regulating the temperature of electrically heated electroplating baths, with an immersion tube and a connecting head that stores the immersion tube with at least one connecting line, at least one probe being mounted on the connecting head as dry heating protection, characterized that the at least one probe (51, 52, 53, 54; 62) is formed as an electrically conductive rod which forms a circuit with the bath liquid, and the side of the connecting head (2; 6) and at a distance from the lower edge of the connection head ( 2 ; 6 ) is stored. 2. immersion bath device according to claim 1, characterized by a part-annular support body ( 41 ) mounted on the connection head ( 2 ) for the probes ( 51 , 52 , 53 ). 3. immersion bath device according to claim 1, characterized by a probe head ( 42 ; 61 ) mounted on the connection head ( 2 ; 6 ) for the probes ( 51 , 52 , 53 ; 62 ). 4. immersion bath device according to claim 1, characterized in that the angled probe ( 54 ) is inserted laterally directly into the connection head.