The subject of he invention is an indicator of alternating-current (AC) voltage in conductors and/or conducting components of medium or high voltage transmission and distribution systems, whose basic AC voltage detecting and indicating element is a liquid crystal display (LCD). The indicator is attached to the surface of the tested conductor or conducting component or is placed close to them.
There are known various types of indicators of voltage presence provided with LCDs, which are not supplied from an external current source. Such indicators contain at least one current-collecting electrode which typically has the shape of a flat plate. An indicator of this type is placed on the tested conductor in such way that the current-collecting electrode is positioned basically parallel to the equipotential surfaces of the electric field generated around the tested conductor. The surface area of the current-collecting electrode is adjusted so as to ensure that the capacitive current flowing from it to the earthed environment of the tested conductor or, in the case of three-phase systems, to another phase conductor, is sufficient to cause a change the optical state of the display and to display a pattern, sign, inscription, or to change its color. Such capacitive current has a very small value, for example, if the indicator is installed on a conducting element of a typical air-insulated equipment, then the capacitive current is not more than 10-100 nA/cm2 per unit of the current-collecting electrode area. Therefore the indicator must have a very high impedance, so that with such low capacitive current values a voltage drop sufficient to change the state of the optical indicator can be obtained.
An indicator for indicating live conductors which incorporates an LCD is known from patent description U.S. Pat. No. 5,274,324. This indicator consists of a closed, cuboidal housing made of an insulating material, whose front wall is provided with a transparent window in which a high-impedance display is placed, for instance a liquid crystal display, for indicating the presence of voltage. A conducting element in the form of a probe for testing voltage in conductors by connecting the probe to the conductor is attached to the back housing wall. A coupling element in the form of a metal plate which is electrically connected to one of the LCD electrodes is placed in the housing. The coupling element has the function of the capacitive-current collecting electrode. The other display electrode is connected to the probe through a resistive element. Both display electrodes are coupled with one another by means of a resistive element used to discharge the display. The indicator can also be furnished with an electric circuit for testing the indicator functionality.
A published application WO 2004/023151 describes a voltage indicator that uses a liquid-crystal, electrophoretic or electrochromic display. The indicator according to this solution consists of electrodes in the form of two external conducting layers of which at least on layer is transparent, an intermediate layer of a structure showing electro-optical properties placed between the electrodes, and a dielectric layer placed between the surface of one of the electrodes and the intermediate layer from which it is separated by an additional conducting layer. The electrodes are electrically connected with one another by means of a diode. The transparent electrode of the indicator is its current-collecting electrode. One of exemplary embodiments of the invention reveals a solution in which the additional conducting layer is connected with one of the other conducting layers by means of a resistive element. The purpose of this element is the regulation of the mutual proportion of the real and the imaginary parts of the impedances of the intermediate and the dielectric layers, which enables a suitable division of the DC and the AC voltage components among these layers and allows to obtain the maximum sensitivity of the indicator.
A liquid crystal display for detecting live conductors by using the threshold voltage of the LCD is know from a Japanese patent application No. 61-003069. A known two-electrode LCD is provided with two additional electrodes of which one is attached to the front wall of the display and the other to its back wall. Both electrodes of the LCD are electrically connected with the additional electrodes, so that each additional electrode is connected with a different electrode of the LCD. In this solution the additional electrode attached to the front wall of the display is the current-collecting electrode.
Another LCD for indicating voltage is known from a published Japanese description No. 63-044173. Like the device presented in description JP 61-003069, this device incorporates a liquid crystal display and two additional electrodes of which one is galvanically connected with one sign electrode of the display and the other, which is transparent, is placed directly on the display surface and thus it is capacitively coupled with the other, common electrode of the display. In this solution, the transparent additional electrode is the current-collecting electrode of the indicator.
A high reliability and adequate durability are required from a voltage indicator used to indicate voltage in medium and high voltage conductors and equipment, especially ones located outdoors and exposed to harmful action of diverse weather conditions. Air-insulated electric equipment often operates for periods of 20 to 30 years. Such equipment operates usually maintenance free. For that reason, voltage indicators in such equipment or its components are required not only to be highly durable but also to ensure fault-free operation for an adequately long time.
Known indicators incorporating liquid crystal displays are fairly durable. However, during their operation in various climatic conditions and when they are located outdoors, their durability may turn out to be insufficient for their commercial use. Adverse climatic conditions, such as high humidity, precipitation or brine mist, can cause dampness of the indicator surface, which in turn reduces the resistance of the indicator to external short-cuts. A reduction in such resistance, with high impedance of the LCD required to obtain a satisfactory sensitivity of the indicator, can lead to the loss of its functionality.
Another cause of reduced durability of an indicator incorporating an LCD is its comparatively small resistance to the accumulation of static charges on its external elements. Such charges, gathering uncontrollably on the surfaces of medium and high voltage transmission and distribution equipment, can produce DC component of voltage in the liquid crystal elements of the indicator, which considerably reduces their life.
The essence of the indicator of presence of AC voltage, according to the invention, comprising a liquid crystal display in an insulating housing, the indications of which display are read in a window in the front wall of the housing, and which display is electrically connected with a conducting element used to couple the display with the examined object, is that the housing of the indicator has the shape of a frame and it is made of a material with strongly hydrophobic surface, which frame on the front side is closed by a transparent plate placed in the frame window, and on the back side it is closed by a conducting element, while at least one row of circumferential ribs is positioned around the frame window, and the liquid crystal display is hermetically placed between the transparent plate of the frame window and the conducting element, and it has electrodes in the form of conducting segments, where one of the conducting segments with the largest surface area is the current-collecting electrode of the indicator, and to another of the conducting segments there is connected a conducting terminal which is connected to the conducting element of the indicator by means of a connector and which is connected through a resistive element to a terminal attached to the current-collecting electrode.
In another variant of the invention, the liquid crystal display is placed hermetically between the transparent plate of the frame window and a dielectric plate adjacent to the conducting element which closes the housing frame on its back part.
The dielectric plate is preferably made of glass.
Alternatively the dielectric plate is made of a thermoplastic polymer.
In both variants of the invention the transparent plate is preferably made of glass.
In both variants of the invention the circumferential ribs preferably stand out above the housing window level.
In both variants of the invention the housing frame is preferably made of a silicone elastomer with permanently hydrophobic surface.
In both variants of the invention the housing frame is alternatively made of a thermoplastic polymer coated by a thin layer of hydrophobic surface properties.
In both variants of the invention the resistive element is preferably made of a thermoplastic polymer having anti-electrostatic properties.
In both variants of the invention the resistive element is alternatively deposited on one of the substrate plates of the liquid crystal display between its terminals in the form of a resistive paint.
In both variants of the invention the resistive element has alternatively the form of a plate with a resistive layer applied onto it.
In both variants of the invention the resistive element is alternatively a layer of resistive material glued to the indicator terminals with a conductive glue.
In both variants of the invention the resistive element is preferably made of resistive paper, fabric or foil.
In both variants of the invention the conductive element is preferably made of a thermoplastic polymer with a conductive admixture in the form of carbon particles, conducting polymer or metallic fibers.
In both variants of the invention the conductive element is alternatively made of a silicone elastomer with a conductive admixture.
In both variants of the invention the conductive element is alternatively made of a silicone elastomer with a metallic or polymer core.
An advantage of the indicator according to the invention is its simple design and comparatively small dimensions. The indicator can be used for indicating voltage presence in medium voltage unscreened wires or equipment after attaching it to insulated or non insulated wires. Indication is done by displaying a sign, which can be read on the indicator display with unaided eye from a considerable distance. The indicator is suitable for operation in diverse ambient conditions, can be manufactured using simple manufacturing methods and is very durable and reliable.
The subject of the invention is shown as an embodiment example on the drawing where
FIG. 2—the front view of the indicator according to the invention,
FIG. 3—a side-section D-D of the indicator according to the invention,
FIG. 8—an embodiment of the invention comprising a dielectric plate, in a side-section D-D.
The Polish patent application No. P-362 262, filed by the applicant, presents a liquid crystal voltage indicator (
The indicator according to the invention (
The indicator according to the invention uses a liquid crystal display 1 of a design as shown in
The LCD 1 is placed hermetically in the housing 8. Between the external substrate layer of the LCD 1 and the internal surface of the transparent plate 9 there is a seal 22 which is positioned along the whole circumference of the connection of the LCD 1 with the transparent plate 9. The purpose of this seal is to prevent pollution of the front surface of the LCD 1 and the back surface of the transparent plate 9 of the housing 8 window during overmolding or pouring-over of the LCD 1 together with the transparent plate 9 and the conducting element 10 by the material of the housing 8. During the operation of the indicator, the seal 22 protects also the front polarizing plate (not shown in the drawing) against excessive penetration of water vapor.
The conducting element 10 is electrically connected with the terminal 7 by means of a conducting connector 23 made of an electrically conducting silicone elastomer. An element (not shown in the drawing) for fixing the indicator to the tested conductor or equipment is attached to the element 10.
The conducting element 10 is made of a thermoplastic polymer with a conducting admixture of carbon particles, conducting polymer or metallic fibers. In another form of the invention embodiment, the conducting element 10 is made of silicone elastomer with a conductive admixture. In still another form of the invention embodiment the conducting element 10 is made of silicone elastomer with a metallic or polymeric core.
In another form of the invention embodiment, shown in
The dielectric plate 24 is made of glass or a thermoplastic polymer, e.g. high-density polyethylene.
Number | Date | Country | Kind |
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P 369639 | Aug 2004 | PL | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/PL05/00046 | 8/4/2005 | WO | 00 | 10/22/2007 |