TR2023005593T2 - SHORT CIRCUIT DETECTOR FOR INTERNAL WINDINGS IN THREE-PHASE HERMETIC TYPE TRANSFORMERS - Google Patents

Abstract

This invention is related to a short circuit detector for the internal windings of three-phase hermetic type transformers that can detect internal faults according to the pressure increase changes that occur in three-phase hermetic type pole type transformers used in electricity distribution companies, and its feature is; The pressure relief valve (1), which allows the release of the pressurized gas formed due to the temperature increase in the oil during the normal operation of the transformer, is associated with the pressure relief valve (1), and the internal fault indicator (2), which is in the form of a pipe and protrudes out during the internal fault, is inside the chamber. The outer box (3), the mounting pipe (4) that allows the system to be mounted on the transformer, the elastic diaphragm (5) located inside the outer box (3) and associated with the internal fault indicator, are electrically interconnected with the triggering of the internal fault indicator (2). Communication contacts that can disconnect and change the communication signal, oil level and oil temperature contacts (6), the cover (7) associated with the pressure relief valve (1), the spring (7) located inside the outer box (3) and moving with the elastic diaphragm (5). 8) occurs.

Description

DESCRIPTION SHORT CIRCUIT DETECTOR FOR INTERNAL WINDINGS IN THREE-PHASE HERMETIC-TYPE TRANSFORMERS Technological Field: This invention is a short circuit for the internal windings in three-phase hermetic type transformers that can detect internal faults according to the pressure increase changes that occur in three-phase hermetic type pole type transformers used in electricity distribution companies. State of the Art: Electrical components such as transformers, capacitors and reactors are used in the electrical power distribution networks in the current system. Potentially hazardous conditions can be created in such devices when aging or operating stresses cause the insulation system to fail. A short circuit within such a device can release a large amount of energy within a second. In the worst case, the device may explode due to the rapid build-up of internal pressure resulting from the evaporation of the insulating oil and the decomposition of the oil vapor into flammable or volatile gases. An internal fault can occur in the transformer without leaving any visible clue that the fault has occurred in that device. If service personnel cannot tell that a particular device has failed, they may re-power the device without detecting that the transformer has failed, which can cause a catastrophic failure of the electrical device as mentioned above. "fault indicator" is explained. An internal fault indicator for transformers is triggered by a sudden increase in pressure that occurs when insulation fails or an electric arc occurs. The heat released in the arc is transferred to the surrounding volume, causing localized overheating, vaporization and decomposition of the insulating material. The resulting The pressure fluctuation moves a diaphragm. The movement of the diaphragm releases a spring-operated piston from a barrel extending through the housing of the electrical device. Prior to activation, the piston is held in the "cocked" position by a retaining pin to provide a visual signal of internal malfunction. It is pushed by the spring until it protrudes from the housing. The patent application discussed above mentions an internal fault detection system for single-phase transformers. This invention is placed inside the single-phase transformer and there is no communication infrastructure. Therefore, it requires physical observation in the field for internal fault detection. The invention mentioned cannot provide a suitable, practical and functional solution to the current problem. As a result, it can overcome the disadvantages mentioned above, detect internal faults in three-phase hermetic transformers, communicate with the user, be mounted outside the transformer, does not require physical observation in the field for internal fault detection, and can provide data both during and before the fault. A new technology is needed that extends the life of the transformer, reduces labor force and ensures occupational safety. Description of the Invention: This invention is a short circuit detector for the internal windings of three-phase hermetic three-phase hermetic type transformers, and its feature is; It can detect internal faults in transformers, communicate with the user, can be mounted outside the transformer, does not require physical observation in the field to detect internal faults, can provide data both during and before the fault, extends the life of the transformer, reduces labor force and provides occupational safety. It is a new technology. Invention to realize all the purposes mentioned above and which will emerge from the detailed explanation below; It is a device developed to obtain fault-related data from hermetic pole-type three-phase transformers used in electricity distribution companies. The device of the invention can detect internal malfunctions according to pressure increase changes occurring in the transformer. In case of a possible internal malfunction, the oil pressure inside the transformer rises rapidly. Due to this rapid pressure increase, a spring-loaded indicator in the device is activated, indicating that an internal malfunction has occurred. The invention can basically detect internal faults (short circuits) occurring in transformer windings and inform the user with its communication features. Since the invention has a communication feature, it can quickly warn the user about internal transformer malfunctions, transmit oil temperature and oil level information, and field personnel can have information about the cause of the problem before going to the transformer. In this way, both occupational health and safety and personnel productivity are increased. The main purpose of developing the invention is to protect field personnel from possible internal malfunctions occurring in transformer windings. With the information coming from the device, field personnel do not energize the faulty transformer and possible explosions and burns are prevented. In addition, oil level and temperature information in the transformer is also obtained with the optional features added to the device. This information allows preventive maintenance to be carried out before any malfunction occurs in the transformer. Thus, data will be provided both during and before the failure, and the lifespan and occupational safety of the transformer will be increased. All the advantages of the method subject to the invention will be more clearly understood thanks to the diagram given below and the detailed explanation written by making references to this diagram, and therefore the evaluation should be made by taking this diagram and detailed explanation into consideration. Description of Drawings: The invention will be described with reference to the accompanying drawings, so that the features of the invention will be more clearly understood and appreciated, but the purpose of this is not to limit the invention to these particular embodiments. On the contrary, it is intended to cover all alternatives, modifications and equivalences of the invention that may be included within the scope of the invention as defined by the appended claims. It should be understood that the details shown are for the sole purpose of illustrating preferred embodiments of the present invention and are presented for the purpose of providing the most useful and easily understandable description of both the embodiment of the methods and the rules and conceptual features of the invention. In these drawings; This is the cross-sectional view of the invention. It is the perspective view of the invention. It is the perspective view of communication contacts. It is a perspective view of the internal fault indicator. It is a perspective view of the pressure relief valve. Perspective and side view of the lower part of the outer box. Bottom and side view of the outer box bottom part. Perspective and side view of the upper part of the outer box. Side and top view of the outer box upper part. Perspective, side and top view of the internal fault indicator. It is a perspective and side view of the pressure relief valve. Perspective, side and top view of the valve cover. It is a perspective and side view of the elastic diaphragm. It is a perspective and side view of the diaphragm screw. Perspective side and top view of the diaphragm washer. It is the perspective view of the springs. The figures that will help understand this invention are numbered as indicated in the attached picture and are given below with their names. Disclosure of References: l. Pressure relief valve 1.1 O-ring 1.2 Valve Spring 1.3 Valve Cover 2. Internal fault indicator 2.1 Hole 2.2 Female Screw 2.3 Indicator Spring 3. Outer box 4. Mounting pipe. Elastic diaphragm .1 Diaphragm Screw .2 Diaphragm Washer 6. Communication contacts 7. Cover 7.1 Male Screw 8. Spring 9. Outer Box Lower Part. Outer Box Upper Part .1 Spring Housing Explanation of the Invention: The invention is in the form of a pipe and is associated with the pressure relief valve (1), which allows the release of pressurized gas formed due to the temperature increase in the oil during the normal operation of the transformer, and the pressure relief valve (1). internal fault indicator (2), which protrudes during operation, an outer box containing a reservoir (3), a mounting pipe (4) that allows the system to be mounted on the transformer, an elastic diaphragm (5) located inside the outer box (3) and associated with the internal fault indicator. , communication contacts that can electrically disconnect from each other and change the communication signal upon triggering of the internal malfunction indicator (2), oil level and oil temperature contacts (6), the cover (7) associated with the pressure relief valve (1), are inside the outer box (3). It consists of a spring (8) that moves with an elastic diaphragm (5). The invention has an o-ring (1.1) positioned on the pressure relief valve (l). The pressure relief valve (l) consists of the valve spring (1.2) positioned on it and the valve cover (1.3) associated with it in contact with the valve spring (1.2). The device of the invention has a hole (2.1), female screw (2.2) and indicator spring (2.3) positioned on the internal malfunction indicator (2). The internal fault indicator can preferably be red. The invention has a male screw (7.1) positioned on the cover (7). The invention includes an elastic diaphragm (5) that allows the spring (8) to be pushed and the malfunction indicator triggered in case of internal malfunction. The invention ensures that when an internal fault occurs in the transformer windings, the pressure passing through the mounting pipe (4) moves the elastic diaphragm (5) located in the outer box (3) and then the spring (8) and pushes the internal fault indicator (2) outwards. . The device of the invention has a female screw (2.2) and a male screw (7.1) that connect the internal malfunction indicator (2) and the cover (7). The invention includes communication contacts, oil level and oil temperature contacts (6), which are in contact with each other in normal condition and transmit the "l" value to the communication system, in case of malfunction, they transmit the "0" value when the system is activated and indicate to the user that there is an internal fault in the relevant transformer. The invention ensures that the elastic diaphragm (5) moves and the pressurized gas is released out of the transformer through the pressure relief valve (1) in case of pressure drops due to loading, without any internal malfunction. It consists of the elastic diaphragm (5), the diaphragm washer (5.2) and the diaphragm screw (5.1) that is associated to pass through the middle point of the diaphragm washer (5.2). It consists of the outer box (3), the outer box lower part (9) and the outer box upper part (10). The upper part of the outer box (10) has a spring slot (10.1) formed to fit the spring (8). The material of the parts in the product subject to the invention is polyamide. Thanks to the same material, all parts exposed to external conditions have been selected to be resistant to UV rays. Detailed Explanation of the Invention: The basic parts that make up the invention; pressure relief valve (l), internal malfunction indicator (2), outer box (3), mounting pipe (4), elastic diaphragm (5) and communication contacts, oil level and oil temperature contacts (6), and spring (8). is happening. The invention is basically a mechanical equipment in which all parts are interconnected. The mounting pipe (4) not only allows mounting to the transformer, but also allows the pressure used for fault detection to enter the equipment. When the pressure is low, this gas reaches the pressure relief valve (l) via the internal malfunction indicator (2) and is released from there. When the pressure is high, the elastic diaphragm (5) moves upwards and releases the internal malfunction indicator (2). Thus, the internal malfunction indicator (2) comes out and the communication contacts, oil level and oil temperature contacts (6) physically break contact with each other. It is known that when transformers suffer from an internal arc fault, there is a temporary pressure surge inside oil-filled electrical devices such as those in transformers. This is because arcing creates a significant temperature increase that evaporates some of the oil. It can detect internal malfunctions according to pressure increase changes occurring in the transformer. In case of a possible internal malfunction, the oil pressure inside the transformer rises rapidly. Due to this rapid pressure increase, a spring-loaded indicator in the device is activated, indicating that an internal malfunction has occurred. The pressure relief valve (l) ensures the release of pressurized gas formed due to the temperature increase in the oil during normal operation of the transformer. There is an o-ring (1.1) and valve spring (1.2) positioned on the pressure relief valve (l). The internal malfunction indicator (2), which is in the form of a pipe, is triggered by the spring (8) inside the spring mechanism in case of a possible internal malfunction and comes out. Thus, the contact of the communication contacts connected to the communication system, oil level and oil temperature (6) is interrupted both visually and the user is informed of the internal malfunction. There is a hole (2.1) positioned on the internal malfunction indicator (2). The outer box (3) provides a controlled volume for the correct operation of the device and the elastic diaphragm. There is a reservoir inside. The mounting pipe (4) is the place where the device is mounted on the transformer and through which the pressure passes. The elastic diaphragm (5) ensures that the spring (8) is pushed and the malfunction indicator is triggered in case of internal malfunction. The communication contacts, oil level and oil temperature contacts (6), when the internal fault indicator (2) is triggered, electrically disconnect from each other and change the communication signal. The invention has a cover (7) associated with an internal malfunction indicator (2). There is a male screw (7.1) on the cover (7). When an internal fault occurs in the transformer windings, the pressure passing through the mounting pipe (4) causes the elastic diaphragm (5) to move. With this moving part, the spring (8) located in the outer box (3) moves and the internal fault indicator (2) is pushed outwards. Thus, the red indicator becomes visible and the communication contacts, oil level and oil temperature contacts (6) eliminate contact with each other. Since these communication contacts, the oil level and oil temperature contacts (6), will be in contact with each other in normal condition, they send the value 1 to the communication system, but when the system is activated, they will send the value 0, indicating to the user that there is an internal fault in the relevant transformer. In pressure drops that occur due to loading without any internal malfunction, the elastic diaphragm (5) does not move and the pressurized gas is released out of the transformer via the discharge valve (1). Thanks to the pressure relief valve (BTV) feature of the invention, there is no need for an external hole in the transformer to be installed. For this reason, it can be easily mounted where the BTVa is installed in existing transformer designs. TR TR TR