PL69612Y1 - Unipolar voltage transformer - Google Patents

Description

Pattern description

The subject of the utility model is a single-pole MV voltage transformer in resin insulation. The voltage transformer is used in measuring and protection medium voltage power systems and as a power supply element in medium voltage disconnecting points.

There is a known single-pole voltage transformer of the TJO 7 type manufactured by ABB Sp. z o.o. This transformer is closed in a tight casing made in the form of a cast resin, consisting of a central element integrated with the base and adjacent side elements. The transformer housing is fixed on the plate. The central element is equipped with a truncated cone-shaped projection and equipped with a complete high voltage clamp. The high voltage bushing is removably attached to the outlet. The complete high voltage terminal is galvanically connected inside the housing with the beginning of the high voltage winding. The end of the high voltage winding is galvanically connected inside the casing with the earthing terminal located in the box fixed to the base. This transformer has at least one secondary winding. The output of the secondary winding / windings is located on the transformer casting and is protected by a tight cover. Additionally, in the plate attached to the transformer base, there are four handles for easy transport of the transformer. In the presented solution, the height of the culvert is large enough to ensure the required creepage distance. The creepage distance of the TJO 7 transformer is equal to the distance between the bushing terminal and the nearest earthed metallic part, i.e. a terminal box or earthed plate attached to the base, measured along the bushing surface and the transformer housing surface. Increasing the creepage distance requires the use of a longer bushing, which leads to an increase in the bending moment at the mechanical connection point of the bushing with the transformer body due to the extension of the arm of the loading force applied to the bushing clamp during operation.

The essence of the utility model is that the single-pole voltage transformer is closed in a sealed housing made of cast resin, consisting of a central element integrated with the base and side elements of the casting, and the central element is equipped with a projection in the form of a truncated cone to which it is attached detachably high voltage bushing, characterized by the fact that the central element has the form of a circular cylinder located horizontally on the base plane with the side wall, the point of contact of the central element with the base plane is covered by peripheral lower lenses, above which the side elements of the casting are placed covers, which are integrated with the front surfaces of the central element, and above the side covers, there is a peripheral upper cover, surrounding a part of the side surface of the central element. The side walls of the base, located along the side walls of the central element, are equipped with longitudinal seats in the form of semicircular longitudinal recesses. The circumferential lower lenses, side lenses and the circumferential upper lenses are situated parallel to each other and in planes parallel to the base surface and have a constant inter-lampshade scale and alternately variable projection between adjacent lenses. The high-voltage bushing has a centrally located, frusto-conical recess in its lower part, conforming to the projection of the central element. The longitudinal axis of the bushing after its installation on the transformer. coincides with the longitudinal axis of the tongue, The contact surface of the tongue with the groove is sealed with an insulating and sealing compound.

The advantage of a single-pole voltage transformer according to the utility model is obtaining an elongated leakage path of the transformer while maintaining the external dimensions of the transformer, which eliminates the need to use longer bushings, minimizes the bending force in the place of the mechanical connection of the bushing with the transformer body and eliminates the risk of damage to the transformer in the place of the mechanical connection bushing with the transformer body.

The advantage of a single-pole voltage transformer according to the utility model is the equipment of the transformer housing with sockets for mounting the transformer in the mounting bracket, with the use of which it is possible to rotate the transformer in order to set it so that the projection is facing down and that when screwing the connection into the terminal the transformer outlet, the sealing compound was evenly distributed over the contact surface of the groove in the bushing and the outlet.

The object of the utility model is shown in an exemplary embodiment in the drawing, where: Fig. 1 - shows the front view of the transformer in isometric projection,

Fig. 2 - shows the transformer after removing the terminal box in the side view,

Fig. 3 - shows the transformer from Fig. 2, section A-A,

Fig. 4 - shows the transformer in a bottom view,

Fig. 5 - shows the bushing of the transformer of Fig. 2 in A-A section.

The single-pole voltage transformer 1 comprises a sealed casing 2 made of cast resin with a central housing element 2a and a housing base 2b and side housing elements 2c.

The housing element 2a is in the form of a circular cylinder arranged horizontally on the base 2b. The base 2b is in the form of a cuboid with rounded edges. Adjacent to the base 2b, to one of its side walls, is a rectangular side element 2d integrated with the base.

A terminal box 3 is attached to the side wall of the element 2d of the housing 2. Inside the box 3, in the side wall of the element 2d, there are two complete LV terminals 4, 5 and the earthing terminal 6. Terminals 4 and 5 are galvanically connected inside the housing 2 with the LV low voltage winding 7. The LV winding 7 is wound on an insulating pipe 8 mounted on a core 9 fastened in a yoke 10 placed in the housing 2. The earthing terminal 6 is galvanically connected inside the housing 2 with the yoke 10 and the core 9.

On the lower surface 11 of the housing 2b elements 2b there are mounting elements 12 in the form of threaded conductive inserts, which serve to fasten the transformer 1 to a support structure in the form of a plate or rails, not shown in the drawing. The elements 12 are galvanically connected inside the casing 2 with the ground terminal 6, which is not shown in the drawing.

On the upper surface of the central element 2a of the housing 2, there is a projection 13 which is frusto-conical. In the projection 13 there is a complete HV terminal 14 equipped with a threaded hole 15. Terminal 14 is galvanically connected inside the housing 2 with the beginning of the HV winding 16. The end of the HV winding 16 is galvanically connected inside the housing 2 with the ground terminal 6, which is not shown in the drawing . The HV winding 16 is coiled concentrically on the insulating pipe 8 on the LV winding 7, while the LV winding 7 and the HV winding 16 are separated by an insulating tape 17.

WN 18 bushing is detachably attached to the outlet. The WN 18 bushing is made as a resin casting, equipped with peripheral lampshades 19. In the base of the bushing 18 there is a recess 20 in the shape of a truncated cone, located coaxially to the longitudinal axis of the bushing 18, after its installation, and in shape corresponding to the projection 13. A conductive rod 21 is placed in the longitudinal axis of the bushing 18, the ends of which extend beyond the resin casting of the bushing 18 and form a first port 22 and a second port 23. The ports 22, 23 are provided with a thread not shown. The bushing 18 is attached to the tongue 13 by screwing the connection 22 located in the recess 20 into the clamp 14. The tongue 13 fills the recess 20, and the contact surface between the outer walls of the tongue 13 and the surface of the recess 20 is sealed with an insulating-sealing compound 24. The longitudinal axis of the passage 18 coincides with the longitudinal axis of the projection 13 and is situated in a plane perpendicular to the lower surface 11 of the element 2d.

The point of contact of the side surface of the element 2a with the base 2b is covered by lower circumferential shades 25. Above the shades 25, there are side elements of the cast 2c on both sides of the front surfaces of the element 2a, forming semicircular side shades 26, above which, in the upper part of the housing 2, below the projection 13, the upper peripheral lampshade 27 is located. The lampshades 25, 26 and 27 are arranged parallel to each other and in planes parallel to the lower surface 11 of the base 2b of the transformer 1, maintaining a constant inter-lampshade pitch S, lamp inclination angle a and alternating projection P1, P2, whereby P1> P2.

On the front and rear walls of the base 2b, below the front surfaces of the element 2a covered with peripheral covers 25, there are slots 28 for a mounting holder not shown in the drawing. The seats 28 have the form of semicircular longitudinal recesses. The diameter of the seats 28 is selected such that it corresponds to the diameter of the pipes of the mounting fixture, not shown in the drawing. The mounting bracket is equipped with a plate to which four tubular arms are attached. The mounting holder allows the transformer 1 to be rotated in a plane perpendicular to the longitudinal axis of the sockets 28 in order to set the transformer so that the protrusion 13 points downwards. This position of the transformer is necessary for the proper distribution of the mastic 24 when screwing the connection 22 onto the terminal 14, so that the mass 24 does not spill out of the recess 20 and is evenly distributed over the contact surfaces of the recess 20 and the tongue 13.

Claims (6)

Protective reservations 1. A single-pole voltage transformer enclosed in a tight housing made in the form of a cast resin, consisting of a central element integrated with the base and side elements of the casting, and the central element is equipped with a truncated cone to which the high voltage bushing is separately attached, characterized by in that the central element (2a) has the form of a circular cylinder located horizontally on the base plane (2b) with the side wall (2a), the contact point of the central element (2a) with the base plane (2b) is covered by peripheral lower lenses (25) over which side elements of the casting (2c) are located, constituting side shades (26), which are integrated with the front surfaces of the central element (2a), and above the side shades (26) there is a peripheral upper shade (27) surrounding a fragment of the side surface of the central element (2a). 2. Transformer according to claim A method according to claim 1, characterized in that the side walls of the base (2b), located along the side walls of the central element (2a), are provided with elongated seats (28) in the form of semicircular longitudinal recesses. 3. Transformer according to claim 3. A method according to claim 1, characterized in that the lower circumferential covers (25), the side covers (26) and the circumferential upper cover (27) are arranged parallel to each other and in planes parallel to the surface (11) of the base (2b) and have a constant inter-lampshade scale (S) and alternately variable extension (P1, P2) between adjacent lenses. 4. Transformer according to claim A device as claimed in claim 1, characterized in that the high-voltage bushing (18) has in its lower part a centrally located, frustoconical recess (20) which conforms to the projection (13) of the central element (2a). 5. Transformer according to claim The method according to claim 4, characterized in that the longitudinal axis of the bushing (18), when mounted on the transformer (1), coincides with the longitudinal axis of the bushing (13). 6. Transformer according to claim 5. A method according to claim 5, characterized in that the contact surface of the tongue (13) with the recess (20) of the bushing (18) is sealed with an insulating-sealing compound (24).