Oil-oil bushing and oil transformer

Abstract

An oil-oil bushing is disclosed which can include a rotationally symmetrical, paraboloid-like, hollow bushing element of a solid insulating material, along the axial extent of which there is formed radially toward the inside a tubular bushing channel, the wall thickness of which is tapered conically toward at least one of its two ends. An electrical bushing conductor can be fitted into the bushing channel with a form fit and protrude from it on both sides. At at least one of the two axial ends of the bushing channel there is arranged a hollow-cylindrical shielding element of a conductive material, which is thick-walled at least in certain regions, which element can enclose on one side a respective end of the bushing channel, and on another side, electrically contact a connecting conductor.

Claims

1. An oil-oil bushing, comprising: a rotationally symmetrical, paraboloid-like, hollow bushing element of a solid insulating material, along an axial extent of which there is formed radially toward an inside a tubular bushing channel, a wall thickness of which is tapered conically toward at least one of its two ends; an electrical bushing conductor fitted into the bushing channel with a form fit and protruding from it on both sides; a respective hollow-cylindrical shielding element of a conductive material positioned at one of the two axial ends of the bushing channel, which element is thick-walled at least in certain regions, which element encloses on its one side a respective end of the bushing channel with the bushing conductor protruding from it, and another side of the shielding element being configured for receiving and electrically contacting a respective connecting conductor, axial ends of the shielding element being of a round design; and contacting means provided in the shielding element for its electrical contacting with the protruding bushing conductor or with a received connecting conductor, wherein the contacting means include at least one thread running radially through a wall of the shielding element, and a screw arranged therein for fixing the protruding bushing conductor or a received connecting conductor.

2. The oil-oil bushing according to claim 1, wherein the shielding element is coated at least on its outer surface with an insulating material.

3. The oil-oil bushing according to claim 1, wherein a widened open end of the paraboloid-like bushing element goes over into a radially outwardly adjoining terminating region running perpendicularly in relation to an axis of rotation.

4. The oil-oil bushing according to claim 1, wherein the electrical bushing conductor fitted into the bushing channel has at both of its protruding ends a respective form that is suitable for form-fitting electrical contacting of a respective connecting conductor with a correspondingly complementary form.

5. The oil-oil bushing according to claim 1, wherein the contacting means of the shielding element comprise: at least one annular element of an electrically conductive material, which is configured for enclosing the protruding bushing conductor or a received connecting conductor in a contacting manner.

6. The oil-oil bushing according to claim 1, wherein at least three threads of a shielding element are arranged in the form of a star.

7. The oil-oil bushing according to claim 1, wherein a shielding element both for the protruding bushing conductor and for a received connecting conductor comprises: respective contacting means.

8. The oil-oil bushing according to claim 1, wherein a shielding element comprises: internal cavities for reducing its wall thickness.

9. An oil transformer, comprising: an oil tank with a first oil-filled internal space area, in which a transformer is arranged; and a second oil-filled internal space area that is separated from the first area by a wall, the wall having at least one bushing, by which an electrical connection of a first electrical connecting conductor in the first internal space to a second electrical connecting conductor in the second internal space is formed, wherein the at least one bushing is an oil-oil bushing according to claim 1.

10. The oil-oil bushing according to claim 1, wherein the shielding element is coated at least on its outer surface with an epoxy resin as an insulating material.

11. The oil-oil bushing according to claim 2, wherein a widened open end of the paraboloid-like bushing element goes over into a radially outwardly adjoining terminating region running perpendicularly in relation to an axis of rotation.

12. The oil-oil bushing according to claim 11, wherein the electrical bushing conductor fitted into the bushing channel has at both of its protruding ends a respective form that is suitable for form-fitting electrical contacting of a respective connecting conductor with a correspondingly complementary form.

13. The oil-oil bushing according to claim 12, wherein the contacting means of the shielding element comprise: at least one annular element of an electrically conductive material, which is intended for enclosing the protruding bushing conductor or a received connecting conductor in a contacting manner.

14. The oil-oil bushing according to claim 13, wherein at least three threads of a shielding element are arranged in the form of a star.

15. The oil-oil bushing according to claim 14, wherein a shielding element both for the protruding bushing conductor and for a received connecting conductor comprises: respective contacting means.

16. The oil-oil bushing according to claim 15, wherein a shielding element comprises: internal cavities for reducing its wall thickness.

17. An oil transformer, comprising: an oil tank with a first oil-filled internal space area, in which a transformer is arranged; and a second oil-filled internal space area that is separated from the first area by a wall, the wall having at least one bushing, by which an electrical connection of a first electrical connecting conductor in the first internal space to a second electrical connecting conductor in the second internal space is formed, wherein the at least one bushing is an oil-oil bushing according to claim 16.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Exemplary features and advantages are explained in more detail on the basis of exemplary embodiments represented in the drawings, in which:

(2) FIG. 1 shows an exemplary bushing element with a bushing conductor;

(3) FIG. 2 shows an exemplary first shielding element;

(4) FIG. 3 shows an exemplary second shielding element with electrical conductors; and

(5) FIG. 4 shows an exemplary oil-oil bushing.

DETAILED DESCRIPTION

(6) Exemplary embodiments disclosed herein can dispense with need for a paper insulation or barriers, such as where the bushing is installed on site, because there is no possibility for drying there to counteract this effect.

(7) An exemplary oil-oil bushing disclosed herein can be based on a standardized vacuum termination, can be particularly easy to handle and manage without additional barriers or additional insulating means. A corresponding oil transformer is also disclosed therein.

(8) As disclosed herein, an oil-oil bushing can include an arrangement wherein at least one of the two axial ends of the bushing channel includes a respective hollow-cylindrical shielding element of a conductive material, which is thick-walled at least in certain regions, which element encloses on its one side the respective end of the bushing channel and the bushing conductor protruding from it. Its other side, respectively, is intended for receiving and electrically contacting a respective connecting conductor, the axial ends of the shielding element being of a round design.

(9) Exemplary embodiments provide on both sides at the ends of the bushing channel of a known bushing element a respective dome-like shielding element of an electrically conductive material that influences the potential distribution during the operation of the oil-oil bushing in such a way that no additional barriers and no additional insulating means are required.

(10) In order to achieve a desired shielding effect, one of the measures taken is to provide an axial overlapping of the bushing channel with a respective shielding element. Therefore, the inside diameter of such a hollow-cylindrical shielding element is chosen such that it is in any event greater than the outside diameter of the respective end of the bushing channel tapering conically outward in the axial direction at both its ends. An increased overlapping region is made possible by the conical tapering. Another measure taken is to provide a sufficient axial length of the dome-like shielding elements in order inter alia also by an increased distance from the wall through which the bushing is led to ensure a corresponding distribution of the field strength.

(11) A known vacuum termination or a known rotationally symmetrical, paraboloid-like, hollow bushing element has for example an outside radius of the widened (output) side of about 30 cm, the axial length being about 26 cm. The exemplary inside diameter of the bushing channel is constantly about 4 cm, its axial length being about 22 cm. The length of an exemplary bushing conductor is about 43 cm, resulting in a projection of the bushing conductor of about 10 cm for each side. From the base of the rotationally symmetrical, paraboloid-like hollow bushing element, the bushing channel extends about 14 cm in the axial direction toward the widened (output) side, has an outside diameter there of about 4.5 cm and is axially about 4 cm away from the widened end. In the opposite direction, the bushing channel extends about a further 8 cm to the rear and has at its end there an outside diameter of about 8.2 cm.

(12) The inside diameter of a matching shielding element, which is arranged away from the widened (output) side, is for example about 9 cm, and is consequently about 0.8 cm greater than the corresponding outside diameter of the end there of the bushing channel of about 8.2 cm. As a result, corresponding overlapping is made possible. A corresponding outside diameter of the shielding element, which is for example produced from a metal such as aluminium, is about 15 cm, whereby an exemplary wall thickness of 30 mm is obtained. By making the wall thick in this way, and thereby increasing the outside diameter of such a shielding element, the radially outwardly occurring field strength can be advantageously reduced, the transitional region being designed as uncritical in terms of field strength as a result of the axial overlapping of the bushing channel and the shielding element. For further reduction of the field strength occurring, the axial ends of the hollow-cylindrical shielding element can be of a decidedly round form. A suitable axial length of such a shielding element is for example about 15 cm or more.

(13) The inside diameter of a matching shielding element, which is facing the widened (output) side, is for example about 6 cm, and is consequently about 1.5 cm greater than the corresponding outside diameter of the end there of the bushing channel of about 4.5 cm. A suitable outside diameter of the shielding element is about 12 cm, whereby in turn an exemplary wall thickness of 30 mm is obtained. A suitable axial length of such a shielding element is for example about 20 cm or more. The numerical values mentioned should be regarded as examples within a considerable range of tolerance.

(14) Arranging a corresponding dome-like shielding element on both sides of the bushing channel forms an oil-oil bushing, which can be installed easily without additional barriers or additional insulating means and which is distinguished by its robustness and compactness.

(15) According to an exemplary design of the oil-oil bushing, the shielding element is coated at least on its outer surface with an insulating material, such as with an epoxy resin. As a result, an insulation of the shielding element at conductor potential can be advantageously obtained.

(16) In correspondence with an exemplary design of the oil-oil bushing, the widened open end of the paraboloid-like bushing element goes over into a radially outwardly adjoining terminating region running perpendicularly in relation to the axis of rotation. This advantageously makes it possible to flange-mount the terminating region of the bushing element onto a broken-through wall, through which the oil-oil bushing is to be led.

(17) According to an exemplary variant of the oil-oil bushing, the electrical bushing conductor fitted into the bushing channel has at both of its protruding ends a respective form that is suitable for the form-fitting electrical contacting of a respective connecting conductor with a correspondingly complementary form. Such a form is distinguished an example by an increased contact area between conductors to be connected. A tongue-and-groove form is an example of a suitable form. The conductor ends can be advantageously screwed at their respectively complementary form, in order in this way to ensure a reliable contact.

(18) In an exemplary variant, contacting means are provided in the shielding element for its electrical contacting with the protruding bushing conductor or with a received connecting conductor. This can ensure that the shielding element is certain to have been connected to the electrical potential of the conductor led through. Therefore, an internal potential difference cannot occur and, as a result of the increased radius of the shielding element with respect to the diameter of the conductor, the field strength on the outer surface of the shielding element during operation is correspondingly reduced.

(19) According to an exemplary variant, the contacting means of the shielding element can include at least one annular, and for example resilient, element of an electrically conductive material, the element being intended for enclosing the protruding bushing conductor or a received connecting conductor in a contacting manner. The increased contact area of the annular element in relation to the conductor led through has the effect of ensuring a reliable electrical contact, the annular element also serving for the further contacting of the shielding element.

(20) In an exemplary design of the oil-oil bushing, the contacting means can include at least one thread running radially through the wall of the shielding element and also a screw arranged therein for fixing the protruding bushing conductor or a received connecting conductor. If an annular element is provided, it can likewise be fixed by a screw or a number of screws, and consequently also a conductor led through this element.

(21) By such a screw connection, the shielding element can be fastened from outside in a particularly easy way, whereby its installation can be advantageously simplified, and moreover a compact type of construction is achieved.

(22) According to an exemplary arrangement, at least three threads of a shielding element are arranged in the form of a star, such as in a common plane perpendicular to the axial extent of the conductor to be fixed. This makes particularly secure fixing possible along the entire circumference of the conductor.

(23) According to an exemplary design variant, a shielding element can include respective contacting means both for the protruding bushing conductor and for a received connecting conductor. These means may be for example two groups of three threads each, arranged in the form of a star and having corresponding fixing screws. In this way, the fixing and contacting of the shielding element to the conductors led through is improved further.

(24) According to an exemplary variant of the oil-oil bushing, a shielding element has internal cavities, by which a reduction of its wall thickness in certain portions is brought about. Since the outer form of the shielding element is uninfluenced by this, a saving of material and weight, and consequently also easier handling, are made possible in this way without restricting the functionality.

(25) An oil transformer is also disclosed which can include an oil tank with a first oil-filled internal space area, in which a transformer is arranged, and with a second oil-filled internal space area that is separated from the first area by a wall, the wall having at least one bushing, by means of which an electrical connection of a first electrical connecting conductor in the first internal space to a second electrical connecting conductor in the second internal space is formed, the at least one bushing being an oil-oil bushing as disclosed herein. Exemplary advantages have already been explained with respect to the oil-oil bushing.

(26) FIG. 1 shows an exemplary bushing element 12 with a bushing conductor 18 in a sectional view 10. The bushing element, produced from a solid insulating material, is designed such that it is rotationally symmetrical about an axis of rotation 14, paraboloid-like and hollow. Provided radially midway along the bushing element 12 along its axial extent is a bushing channel 16, which has a constant inside diameter and a wall thickness tapering conically toward both its axial ends. Fitted in the bushing channel with a form fit is a bushing conductor 18, which protrudes from the two ends of the bushing channel 16 and is produced for example from aluminium or copper.

(27) The widened open end of the paraboloid-like bushing element 12 goes over into a radially outwardly adjoining terminating region 22, which runs perpendicularly in relation to the axis of rotation 14 and is intended for flange-mounting the bushing element onto a wall.

(28) The two axial end regions of the bushing conductor have a stepped form 22 for form-fitting contacting, thereby obtaining an increased contact area with a conductor to be connected that has a complementary form.

(29) FIG. 2 shows an exemplary first shielding element 30 in a sectional view. This element is intended for being connected to the input side of a bushing element. The basic element 48 is a hollow-cylindrical body of aluminium in this example, which extends along and around an axis of rotation 32. The axial ends 34 of the basic element 48 are of a round design, in order to avoid sharp edges, with a correspondingly increased field strength during operation. Provided along the axial extent of the basic element 48 are three internal cavities 42, which leave the outer form of the basic element 48 unaffected and lead to a weight saving. In the region of the internal cavities 42, the wall thickness is reduced, as indicated by the region depicted by dashed lines with the reference numeral 46, whereas a great wall thickness of for example 3 cm is provided in the other regions, as indicated by the region depicted by dashed lines with the reference numeral 44.

(30) In regions with a great wall thickness 44, radially arranged threads 36 are provided, arranged in which are screws 38. With the screws it is possible to exert a pressure on annular elements 40, within which a conductor that is not shown can be fixed as a result.

(31) FIG. 3 shows an exemplary second shielding element 52 with electrical conductors 56, 58 in a sectional view 50. The shielding element 52 is intended for being connected to the output side of a bushing element. The basic element is a hollow-cylindrical body of aluminium in this example. By means of annular elements 54 and using screws, a first conductor 56 and a second conductor 58 are fastened in the interior of the shielding element 52. The conductors 56, 58 have a form that is stepped in a respectively complementary manner of one of their respective ends, so that as a result form-fitting contacting 60 is obtained.

(32) FIG. 4 shows an exemplary oil-oil bushing 70 in a three-dimensional sectional view. A bushing conductor 76 has been fitted into the bushing channel of a bushing element 72. This conductor is connected at its end on the output side to a first connecting conductor 74 and at its end on the input side to a second conducting connector 78. A first shielding element 80 is arranged around the connecting point on the output side, in an overlapping manner with the corresponding one axial end of the bushing channel, and a second shielding element 82 is arranged around the connecting point on the input side, in an overlapping manner with the corresponding other axial end of the bushing channel. The simple and robust construction of the oil-oil bushing assembled in such a way is readily evident.

(33) Thus, it will be appreciated by those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The presently disclosed exemplary embodiments are therefore considered in all respects to be illustrative and not restricted. The scope of the invention is indicated by the appended claims rather than the foregoing description and all changes that come within the meaning and range and equivalence thereof are intended to be embraced therein.

LIST OF DESIGNATIONS

(34) 10 exemplary bushing element with bushing conductor 12 bushing element 14 axis of rotation 16 bushing channel 18 bushing conductor 20 form for form-fitting contacting 22 terminating region 30 exemplary first shielding element 32 axis of rotation 34 round design of the axial end of the first shielding element 36 thread 38 screw 40 annular element 42 internal cavity 44 region with great wall thickness 46 region with reduced wall thickness 48 basic body 50 exemplary second shielding element with electrical conductors 52 second shielding element 54 annular element 56 first conductor 58 second conductor 60 form-fitting electrical contacting 70 exemplary oil-oil bushing 72 exemplary bushing element 74 first connecting conductor 76 bushing conductor 78 second connecting conductor 80 first shielding element 82 second shielding element