DE2157158C3 - Electrically grounded filter unit to prevent galvanic corrosion for watercraft that are supplied by an alternating current source on the shore - Google Patents

Description

The invention is based on an electrically grounded filter unit to prevent galvanic Corrosion to boats, ships, and other watercraft powered by an AC power source Shores are powered, with power leads and an electrical grounding line providing the alternating current source with the boat, ship or watercraft and the filter unit in series with the Earth line is switched.

For boats, ships, and other watercraft that are on dock, it is easiest to use electrical ones Obtaining power from an AC source on the shore rather than one on board Generator set. The wiring provided on board for the AC source on the bank is often for one Excessive corrosion of the submerged metal body of the watercraft is responsible.

Corrosion can occur in a watercraft connected to an AC power source on shore if a third ground wire is used to ground the metal hull or metallic underwater parts, thereby creating a galvanic element through the watercraft and metallic equipment on the shore. If the hull of the watercraft is made of aluminum or is a fiberglass hull equipped with aluminum output units or outboard motors, these aluminum parts form the sacrificial anode, which corrodes away, whereby the aluminum is deposited on the iron structure on the bank. With a steel hull, the galvanic effect is not as destructive as with an aluminum hull, but the protection offered by cathodic protective devices with which the watercraft is equipped is considerably reduced by a discharge through the third earthing conductor.
ίο The resulting destruction causes high costs, as they cause structural weakening and surface unevenness of the hull or its submerged metal parts. Corrosion is very active in limited areas of the hull and can cause water gauges to leak. In addition, the unevenness of the surface increases the resistance of the watercraft to travel.

The invention is based on the object of creating a filter unit that eliminates galvanic damage Corrosion on boats, ships and other watercraft caused by an AC power source being supplied on the shore, and at the same time preventing the devices on board the watercraft protects against electric shocks.

This object is achieved by the features specified in claim 1.

Advantageous further developments of the invention are described in the subclaims.

The parallel connection of the capacitor device and the rectifier results in a small impedance under normal operating conditions, during low voltage direct current, which corrosion can cause is blocked.

An exemplary embodiment of the invention is explained below with reference to the drawing. It shows

Figure 1 is a schematic representation of an electrical system for a boat powered by an AC power source is supplied on the bank and is equipped with a filter unit;

F i g. 2 shows a diagram of the filter unit;

3 shows a graphic representation of the current-voltage characteristic each series-connected pair of the rectifying elements of the grounded filter assembly; 4 shows a graphic representation of the current-voltage characteristic of the combined rectifier pairs in parallel with a capacitive alternating current impedance and

Fig. 5 is a graphic representation of a composite Curve showing the current-voltage characteristic and the capacitive alternating current impedance shows the parallel connection of rectifier pairs and capacitors.

The boat 1 shown in Fig. I is supplied by an AC power source located on the bank, which comprises a transformer 2 with a primary winding 3 and a secondary winding 4. The transformer output is grounded by a grounding line 5 at one point on the bank. Power supply lines 6 and 7 and one so ground line 8 extend from the secondary winding of the transformer to a point on the boat 1, preferably via a detachable connection through a socket 9 and a plug 10 is formed. The power supply lines 6 and 7 can be connected to a not shown Socket on board the boat can be connected, while the ground wire 8 on the boat hull via a electrical grounded filter unit II. which is preferably provided on the boat 1, is grounded. That

The grounded filter unit is connected in series with the grounding line 8, as can best be seen from this F i g, 2 results. The filter unit is through a first Pair of rectifiers 12 and 13 connected to each other in Are connected in series and formed by a second pair of rectifiers 14 and 15 connected to each other in Are connected in series and with respect to the first pair of rectifiers of opposite polarity are, a capacitor device, for example, two capacitors 16 and 17 in series with one another and of opposite polarities, the first and second pairs of rectifiers and the Capacitor devices in line 8 are connected in parallel to one another.

The rectifiers are only shown schematically, because in practice the four rectifiers are manufactured as a one-piece semiconductor component can.

In order to prevent galvanic corrosion, the passage of low voltage direct current between the boat and the bank must be prevented. It is well known that the maximum voltage difference that is generated between two dissimilar metals (except when one metal is magnesium) immersed in an electrolyte of ordinary seawater is 1.1 volts. 3 shows that at this voltage a current of the order of magnitude of 100 amperes flows through a single rectifier (point A). If two such rectifiers are electrically connected in series and this combination, for example of rectifiers 12 and 13, is impressed with 1.1 volts, the voltage at each rectifier is approximately 0.55 volts. F i g. 3 shows that the current flowing at this voltage is less than 0.001 amperes (point SJL. If reversed polarity is applied to this rectifier combination, practically no current flows Depending on the metals used, rectifiers connected with both polarities must be used 14 and 15 of the other rectifier pair are connected in series with each other and the two pairs are connected electrically in parallel. The rectifier pairs are of opposite polarities with respect to each other. The current-voltage characteristic of the direct current of this arrangement is * n FIG Curves shown: With weak currents, the rectifier combination has a high resistance, e.g. 1.1 V. olt at 0.001 amps or an apparent resistance of 1100 ohms, while it is low in the case of strong currents, e.g. B. 1.8 volts at 40 amps or an apparent resistance of 0.045 ohms. The combination of both pairs of rectifiers fulfills the required function of a low-resistance fault current path, while at the same time preventing the passage of a direct current at the low voltages that are peculiar to the corrosion processes. To further improve the performance of the filter unit, a capacitor device is used, which consists, for example, of a single non-polar capacitor or of two polarized electrolytic capacitors 16 and 17 with opposite polarities in

ίο are connected in series. This with the rectifiers in the manner described interconnected capacitor device reduces the AC terminal resistance of the filter unit at Voltages that are below those at which the rectifiers are conductive. Such a capacitor device can be designed to have high capacitance at low voltages, for example 0.14 farads at 3 full at a mains atmospheric frequency of 60 Hertz, such a capacitor device has an impedance of 0.04 ohms, which is due to the full solid line is shown in Fig.4. This impedance is less than the impedance of the rectifier system consisting of rectifiers 12, 13, 14 and 15 for currents of less than 30 amperes Alternating current.

The parallel connection of capacitors and rectifiers results in a low impedance under all current conditions with low power dissipation. The composite current-voltage characteristic of the filter unit at a frequency of 60 Hertz is shown in FIG. 5 shown.

The grounding line 8 has the task of providing an electric shock to the user damaged electrical To prevent devices from shorting out or leaking their housings. The electric Integrity of the; · Earthing line 8 must be used in the case of strong short-circuit currents that can exceed 1000 amperes can be maintained. The used Rectifiers are designed so that they meet this requirement in the event of a high fault current will.

The rectifiers 12, 13, 14 and 15 described each consist of a p- and η-doped silicon semiconductor transition zone. These four transition zones can be produced on a single piece of semiconductor material and result in the current-voltage characteristic curve, which is shown in Figure 4 with a dashed line.

The filter unit described thus suppresses

so corrosive galvanic currents, is between two dissimilar metals that are in one common electrolytes are arranged, connected in series, has an impedance that is At 60 Hertz it is less than 0.1 ohm and at voltages up to 0.9 volts direct current at least 1000 ohms, and can conduct fault currents ion at least 1000 amperes.

For this purpose 3 sheets of drawings

Claims (5)

Claims; 1. Electrically earthed filter unit to prevent Galvanic corrosion for boats, ships, and other watercraft from an AC power source are supplied on the shore, with power lines and an electrical grounding line connect the AC power source to the boat, ship or watercraft and that The filter unit is connected in series with the grounding line, indicated by a first pair of rectifiers (12, 13) connected in series, a second pair of rectifiers connected in series Rectifiers (14,15) whose polarity is that of the first Pair of rectifiers (12, 13) opposite, and a capacitor device (16, 17), wherein the first (12, 13) and the second (14, 15) pair of rectifiers and the capacitor device (16, 57) are connected in parallel to each other. 2. Filter unit according to claim 1, characterized in that the capacitor device formed by two capacitors (16, 17) of opposite polarity connected in series will. 3. Filter unit according to claim 1 or 2, characterized in that the first (12,13) and the second (14, 15) A pair of rectifiers which form a one-piece semiconductor component. 4. Filter unit according to one of claims 1 to 3, characterized in that there is an impedance of less than 0.1 ohm for alternating currents of tO Hertz and an impedance of at least 1000 ohms with DC voltages up to 0.9 volts. 5. Filter unit after opening 4, characterized in that there are fault currents of at least Can conduct 1000 amps.