DE2622932A1 - HEATING WINDOW WITH A HUMIDITY SENSOR INCREASED IMPEDANCE - Google Patents

Description

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Saint-Gobain Industries, 62, vol, Victor Hugo, F 92209 Neuilly-sur-Seine

Heating disc with a humidity sensor elevated

Impedance

The invention relates to a glazing with a printed Heating grid, which is switched on and off via a humidity sensor, which detects the presence to detect any precipitation impairing the transparency of the glazing.

Such glazings are well known and so is known that they have one or more sensors that are cleared in one of the boundary of the heating grid Appropriate distance from the heating grille and connected to a control circuit in such a way that the heating triggered when this area is misted, but interrupted again as soon as this area is free again. According to the current state of the art, which is quite satisfactory, the The sensor is screen-printed on the pane at the same time as the heating grid, and its electrodes are also attached like the hot grid reinforced by a layer of nickel and copper and thus protected.

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mine from two electrodes in the form of two interlocking combs and thus delimit an active zone on both sides of the Boundary of the heated area, with the teeth preferably running vertically «.

The two combs can each be connected to a free connection be; but it is advantageous both to reduce the cost and to reduce the size of the probe, the one To connect the electrode directly to the ground of the corresponding line of the heating grid or, even better, this electrode to one to connect the printed resistance tracks that form the heating grid, but not without a certain amount of precaution can take place in the structure of the electronic control circuit. This solution is arguably the cheapest solution when you have two different ones Sensor used, or if you z. B. the probe in the axis of the glazing on the upper part of the to be kept clear Area. In the latter case, the lower part of the electrode is in the immediate vicinity of the upper resistance " standing strip, which itself is advantageous as a supply line for one of the Combs can serve; the area of action of this drag strip covers a width of 15 to 20 mm on one side as well as on the other side and the upper part of the probe is located approx. 20 to 25 mm away from the resistance strip.

Although the electrodes are sparingly soluble, the scanning is preferably carried out by means of an alternating current signal and each sensor is decoupled by a capacitance. mounted in series with each free connection to direct voltages exclude, which can develop between the sensing circuit and the heating grid, because these voltages are an unpleasant Polarization and sometimes even a chemical reaction. Even with alternating current, the moisture determined by the change in resistance of the probe; however, there is interest in a very high sampling threshold

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to choose, which is between 10 and 10 ohms. Experience shows that this not only increases the stability of the mode of operation, but also that, aside from the earlier determination of damp precipitation, a saving in energy can be achieved

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In any case, the previous solutions were still not entirely satisfactory. After a certain ^B etriebszeit it could happen that the heating was turned on, even the viewing area nacbddem was already free. This phenomenon, which is especially noticeable in damp weather and with numerous vehicle occupants, leads to the growing formation of a thick layer of fogging in the unheated area. This conductive layer can, at least in certain types of vehicles, create a bridge between the surroundings of the sensor, various points on the heating grille and finally the frame of the glazing; this therefore generates short-circuit resistances, the value of which does not exceed 10 ohms, which leads to a blocking of the mode of operation if the control threshold is selected higher, but in any case allows unpleasant, if not damaging, new DC voltage components to appear.

The invention aims to eliminate such difficulties. She strives to avoid any ladder bridges between the free connections of the probe and other points such as the frame of the glazing. To this end is proposed according to the invention, the entirety of each sensor, including its terminals, inside to accommodate the smallest effective area of the heating conductor. Under these conditions the sensor is self-occuring of a thick deposit quickly surrounded by a non-conductive zone, which excludes any fault current in such a way that the heating switches off when the glazing in the visible area is sufficiently free of precipitation; False currents are so also suppressed.

There is therefore no disadvantage in choosing a high threshold impedance that would result in switching on the heating itself allowed even before the occurrence of a visible precipitate in the active zone formed by the ridges, so that in the case of weak condensation, the limit of the visibility area remains outside this active zone despite approach.

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According to a distributive formation of the invention is that Limitation of this active zone, which is as far away as possible from the heating conductors, in the immediate vicinity of the relocated corresponding outer edge of the sensor, d. H. thus also the limitation of the minimum effective area; through this one avoids a dangerous reduction in the width of the visibility.

A first embodiment relates to the case where the The sensor is attached to the upper band of the heating grille and the distance between this and the edge of the glazing is sufficient is small to make direct connection with a connecting cable acceptable. It consists in the height of the probe to reduce it, avoiding increasing its width, so that the comb arrangement including its connection veilig located inside the effectively affected area of the resistance strip.

In the course of the initial phase of heating, there is a parasitic current ₃ inside the sensor which does not actually interfere, as sr is only temporarily present *

According to a second embodiment, the insulation of the sensor is completed by a cutoff which is on a. The potential is kept very close to that of the connections of the heating grid, and which surrounds the electrode connected to the free connection. The shielding is preferably close enough to this ¹ electrode to form part of the second electrode In particular, sensors are simply inserted between two strips of the heating grid at a suitable location within the heated area; this solution excludes DC components from the start.

A particularly interesting change is to have one outside the actual visibility area at the edge of the glazing To generate heating area, which is connected to the interior of that in which the sensor is located, preferably between two Heating conductors whose cross-section and spacing are chosen so that

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the heating conditions best the heating conditions within the Reproduce the visibility area. In fact, it is of course possible to use more than one probe; but it is enough in principle, and it is preferable to use just one and in this case to provide it in the upper part of the glazing. But now there are numerous vehicle rear windows recently a great height; the drag strips that form the upper and lower limit of the heating grille, so they are quite far from the corresponding edge of the glazing, because it is impossible to keep the entire surface fog-free without increasing the power consumption too much. In this case it is neither desirable »the free connection to the measuring sensor by means of a printed one over the entire moist area Wire, nor to arrange it at a considerable distance from the edge of the glazing with the difficulty of to have to supply the sensor through a connecting cable of the appropriate length, which is visible with respect to the view would be uncomfortable and also vulnerable

In well-known catfish it is possible to move the upper edge of the To give the sensor the shape of a channel that allows condensate drops, if necessary, from the formed by the electrodes active zone to expire. It is also preferable to protect the active area with an independent gutter,

Various embodiments of the invention are exemplified described in more detail below with reference to the drawings. The drawings show in

Fig. 1 shows the view of a heated rear window less

Height dimensions equipped with a humidity sensor;

Fig. 2 shows a detail of a sensor according to the invention, How it can be used in glazing according to FIG.

3 and 4 show two advantageous modifications of the sensor;

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Fig. 5 shows a detail of one between two resistance strips the sensor used in the heating grid;

6 shows a heated rear window with large height dimensions, which is provided with a measuring sensor according to the invention is equipped; and in

Fig. 7 shows a sensor on the glazing according to

Fig. 6 can be used.

In all of the sensors shown in the drawings, a portion of one of the resistance heating conductors serves as part of an electrode for one of the combs. This feature is not essential, but is beneficial because it is a reduction in size the height of the probe. It also improves the way it works in very cold weather by giving it the ability which excludes ice formation.

The heated rear window 1 according to FIG. 1 is provided with a grid 2 of printed horizontal heating conductors connected to two busbars 3, 3 '. This grid is preferably produced from an electrically conductive frit using screen printing, burnt into the glass and finally galvanically reinforced and protected. It covers the majority of the glazing 1 and the external heating conductors 4, 4 ¹ are located at a fairly small distance from the corresponding edge 5, 5 'of the glazing 1. When the heating is switched on, the free areas around each heating conductor and the unite gradually The area that can be cleared by the grid comes ^{to a standstill along the two lines A, A r} , the distance of which from the upper or lower heating conductor 4, 4 'can be approximately 20 to 25 mm, depending on the atmospheric conditions. If there is automatic control and the detector, e.g. B. in the form of a moisture sensor at 6, is arranged on the axis of symmetry of the glazing above the upper heating conductor, the heating switches off as soon as at least on

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approaching the upper limit of the area that has become free, which increases from the upper heating conductor 4 due to the effect of the heating upwards, the active zone formed by the electrodes by z. B. has reached the two lines BB ¹ , the position of which depends on the shape of the sensor and the control of the device, has cleared.

In addition, the detector can consist of "several moisture sensors, for example those at 6 ¹ under the lower heating conductor at 7 on the busbar connected to ground or at 7 'on the busbar connected to the positive battery terminal the battery is supplied, is connected with the interposition of a capacitor 9 to the free terminal 10 so that the signal transmitted by the detector either closes the contact s for controlling the heating via a relay S depending on the presence of a fitting on the inner surface of the glazing or open.

2 shows the internal structure of a measuring sensor which can be used for installation at 6 according to the invention. This probe is approximately 15 mm high and contains two electrodes 11 and 12 in the form of two interlocking combs, the first of which, vertical teeth directly connected to the heating conductor 4 and the second also has vertical teeth, which by means of a Above them busbar 13 are connected to an electrically conductive surface 14 to which the terminal 1Q is attached can be. This surface 14 lies under the busbar 13 in such a way that the part 15 furthest away from the heating conductor the active zone only through the thickness of the busbar 13, that is, a few tenths of a millimeter, from the one furthest from the heating conductor distant outer edge of the probe is separated. It follows that the border of the cleared area, the is formed by the line B, located about one millimeter from the probe such that a zone 15 'with a above the internal resistance of the sensor between the latter and the mass formed by the body along the length of the upper edge 5 forms before the heater turns off. Of the

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The heating conductor also has a second electrically conductive surface 16 in the middle part of the sensor, which for simplification is used for electroplating: The electroplating electrode connected to the upper surface 14 can be used in the same way In a manner associated with the lower surface 16, which allows the reinforcement of the metallic deposit on the teeth of the lower ridge. Take this precaution not, the current density during electroplating has a tendency to be proportionate in the corresponding zone as a result of the large surface area of the printed grid near the probe and due to the voltage drop between the two To remove combs,

In the embodiment shown in FIG. 3, the structure of the sensor is analogous, but the two are electrical conductive surfaces 14 and 16 one above the other, resulting in a reduction in size the width of the probe without unduly increasing its height. In addition, it is connected to the free terminal 10 Electrode 11 completely enclosed by a conductor 17 belonging to electrode 12. This conductor provides a shield represents that the electrode 11 of the through the body along the Disk surround formed mass isolated. Since the electrode 11 itself is decoupled by the capacitor 9, inside there must be no noticeable DC voltage present on the probe. The external fault current is in turn not disturbing for the Kessung and remains negligible because of the sensitivity of the sensor is appropriately set because the limit of the range of transparency is renewed above the outer edge. The conductor 17 also keeps any drops of condensation away from the active zone 15, However, it is advantageous to place a channel 18 on it, which can also penetrate into the damp area without disadvantage. The teeth of the electrode 11 cease a few millimeters in front of the heating conductor 4 with the exception of the two outer teeth that are a few tenths of a millimeter longer.

• The sensor according to Fig. 4 has a similar structure, but the Position of the connection 10 reversed; the busbar 13 - runs

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at a distance of a few tenths of a millimeter from the heating conductor 4.

Fig. 5 shows the internal structure of a measuring sensor, which is placed laterally between two heating conductors, for example at 7 '(Fig. 1) is arranged on one of the sides of the glazing 1. The one formed by the electrode 12 and connected to the heating grid Comb is doubled and contains a series of vertical teeth, one of which is attached to the upper heating conductor 19 and the others are connected to the lower heating conductor 20. The associated electrode 11 consists of teeth, which by means of a middle busbar 13 are connected to a conductive surface 14, which serves to accommodate the connection 10. the conductive auxiliary surface is through the busbar 3 of the heating grid self educated. The heating switches off when the cleared area reaches a line which is essentially line C. is equivalent to. The sensor is therefore completely in a dry zone and is also through on three sides Surround conductors that are at the potential of electrode 12 »Ks is possible, but not very useful, to provide a shielding conductor on the fourth side.

6 shows a high rear window, the upper heating conductor 22 of which is located at a considerable distance from the upper edge 23. This distance can be up to 200 mm and more In accordance with the invention, the middle part 23 of the heating conductor 22 is in the vicinity of the upper edge 25 of the glazing in the central one Zone relocated to a length that can reach a few tens of centimeters and is divided into two arms 23a, 23b in the middle area, so that a second transparency area 27 is created, in the interior of which the moisture sensor is arranged. This is shown in Fig. 7 and has one of the embodiments according to Fig, 5 analog form. The two branches 23a and 23b of the heating conductor 22 are separated by two auxiliary surfaces 26, 26 tied together. These have a rounded shape that allows water to run off over the sides in the upper part of the probe outside the active zone 28 facilitated. The complementary electrode has a similar structure, but with double symmetry

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Arrangement on. It is connected to a conductive surface 24 which is used to fasten the connection 30.

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Claims (8)

262: - 32 ΑΛ Claims 1Heating panel with printed germination grid and moisture detector with at least one measuring sensor for the automatic control of the heating, characterized in that each measuring sensor as a whole including its connections (10) is arranged inside the minimum effective area (B, B ^! ) Of the germination grid (2), 2. The heated window as claimed in claim 1, characterized in that the remote of the heating conductors furthest boundary of the active zone (15) of the probe of the active part is located in un _T indirect vicinity of the respective outer edge of the sensor and the boundary (B). 3. Heating disc according to claim 1 and / or 2, characterized in that a portion of one of the heating conductors serves as an electrode for one of the two sensor parts (combs), 4. Heating disk according to one or more of the preceding Claims, characterized in that a measuring sensor (5) along the upper heating conductor (4) of the printed Heating grid and is arranged below this heating conductor. 5. heating disc according to claim 4, characterized in that the sensor is connected to a free terminal (10) connected electrode (11) and the second electrode (12) is connected to the heating grid and one is the first Enclosed shielding line (17) surrounding the electrode. 6. heating panel according to one or more of the preceding claims, characterized in that a channel (18) is placed on the upper edge of the measuring sensor. 609851/0732 - 12 - ORIGINAL INSPECTED 7. Heating disc according to claims 1 and 2, characterized in that the sensor is arranged along a busbar (3 ¹ ) between two heating conductors (19, 20) of the heating grid. 8. heating disc according to claims 1 and 2, characterized in that the sensor along the edge (5) of the disk is arranged between two branches (23a, 23b) of a connected heating conductor (23). OBSQIHÄL INSPECTED 609851/0732 Blank page