RU2407089C2 - Clamping, sealing, lifting system for electric transformers and reactors - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: magnetic core (1) is equipped with clamps (2) of core plates stack supported in place with the help of anchor bolts. Transformer is lifted by means of mechanical connections between clamps (2.1, 2.2) of core plates stack and magnetic core (1). Mechanical connections consist of pins (4), protruding from internal part of clamp sections, which are inserted into according holes (5), drilled in magnetic core.

EFFECT: simplification and cheapening of design, improved heat exchange.

14 cl, 15 dwg

Description

The invention relates to a clamping, sealing and lifting system for electrical transformers and reactors, as claimed in claim 1.

It is known that magnetic core plates in electric transformers and reactors that form a magnetic core are pressed against each other by the compression force created by the “clamps of the stack of core plates” and applied to two horizontal yokes connecting the vertical columns in which they are concentrically placed coils.

Typically, the clamps of a stack of core plates consist of sections having the shape “C” or “L”, paired on both sides of the stack of core plates and held together by transverse anchor bolts.

In the technique for lifting transformers, two clamps of a stack of core plates, the upper or “head” clamp and the lower clamp or “base” clamp are connected by vertical rods, which are longitudinal metal grooves, equipped with protruding pins at each end, which are placed without a gap in the section housing and act like clamps of a stack of core plates.

The disadvantage that occurs in this interlocking system is not only the difficulty of creating gutters equipped with welded pins, but also the fact that during operation the gutters are raised higher than the clamps of the stack of core plates from the inside, so a gap is formed between the clamp of the stack and the core. These gaps must then be filled with additional sealing elements to ensure uniform and effective pressure on the magnetic plates of the core, it is obvious that this is a very time-consuming process.

Fixing systems for clamping a stack of core plates are described in European patent EP 0 477 423 B1 and Italian patent MI2001U000077, in which the clamp of a stack of core plates and metal connecting troughs are mutually aligned to allow direct contact between the clamp sections and the magnetic core.

Although this method eliminates the need for additional sealing elements, there is a need for metal connecting grooves, and since they must be limited in length corresponding to the height of the magnetic core, this leads to additional work of transformer designers, since it is necessary to manufacture and store a significant number of grooves for Meet the various requirements of the consumer.

In addition, there is an additional inconvenience in that when the metal connecting troughs are placed opposite the column of magnetic cores, this increases the winding section of the core itself.

Finally, an additional inconvenience of the above construction is that the engagement between the clamping bodies of the stack of core plates and the connecting troughs is rather difficult.

An alternative way to raise electrical transformers and reactors, but without connecting troughs, involves the use of cores in the form of connecting elements between the clamps of a stack of core plates with respectively insulated yoke anchor bolts that pass through the core.

However, this second method can only be used for small-sized mechanisms, because the weight of the magnetic core in medium-sized and large-sized mechanisms is held by anchor bolts with the risk of damage to the insulation layer on the bolts, leading to the formation of a “closed loop”, which could jeopardize the functioning of the equipment.

The present invention is the creation of a clamping, sealing and lifting system for electrical transformers and reactors, which does not contain the disadvantages of the known systems.

More specifically, an object of the present invention is to provide a clamping, sealing and lifting system for electrical transformers and reactors, which has a simpler design and is less expensive than known systems, and which can be used for a wide range of different widths of different magnetic cores.

An object of the present invention is to provide a system for electrical transformers and reactors, which is not limited in any way by the height of the magnetic core.

The present invention is also the creation of a clamping, sealing and lifting system for electrical transformers and reactors, which increases the open surface of the core, thereby making heat transfer much easier.

The problem is solved by creating a clamping, sealing and lifting system for electrical transformers and reactors, which does not have any connecting bolts between the two clamps of the stack of core plates and is characterized by the fact that the transformer is lifted through mechanical connections between the clamps of the stack of core plates and the magnetic core provided with short pins that are not through pins protruding from the inside of the clamp sections of the stack of core plates in order to To enter without a gap into the corresponding drilled holes in the magnetic core.

The invention is further explained in the description of specific embodiments (without limitation) with reference to the accompanying drawings, in which:

FIG. 1 shows a general view of a transformer according to the invention;

FIG. 2 and 3 are front and side views of a magnetic core provided with clamps of a stack of core plates according to the invention;

FIG. 4 and 5 show, respectively, a side view of a pin and a general view in a first embodiment of a joint for clamping a stack of core / magnetic core plates according to the invention;

FIG. 6 and 7 show, respectively, a general side view of the pin and a general view in the second embodiment of the joint connection of the stack of core / magnetic core plates of the invention;

FIG. 8 and 9 show, respectively, a side view of the pin and a general view in a third embodiment of the joint connection of the stack of core / magnetic core plates of the invention;

FIG. 10 and 11, respectively, are a side view of a pin and a general view in a fourth embodiment of a junction connection of a stack of core / magnetic core plates according to the invention;

FIG. 12 and 13 show, respectively, a side view of the pin and a general view in the fifth embodiment of the joint connection of the stack of core / magnetic core plates of the invention;

FIG. 14 and 15 are front and side views, respectively, of a sixth embodiment of a junction connection of a stack of core / magnetic core plates according to the invention.

As shown in FIG. 1-3, the electric transformer comprises a magnetic core 1 provided with clamps 2 of a stack of core plates supported in place by anchor bolts 3, all of which are made in accordance with a known method.

In FIG. 2 and 3 clamps of the stack of core plates, i.e. the upper clamp 2.1 and the lower clamp 2.2 are fixedly connected to the magnetic core 1 by means of pins 4 protruding from the inside of the clamps of the stack of core plates and inserted into the corresponding drilled holes 5 in the magnetic core, and more specifically, on yoke 1.1, and aligned with columns 1.2 so that the outermost section of column 1.2, and in particular the last core plates or the last step, acts as a connection system between two clamps of a stack of core plates, replacing a known anchor type connection bolts.

The pins 4, which pass through the magnetic core for a short distance, can be attached to the clamping section 10 of the stack of core plates by welding, or they can be removed, therefore, held in place by means of a connection, such as a bolt or a pinched end of the structure.

In FIG. 4 and 5, a first embodiment is shown in which the pin 4.1 is inserted into the hole 5 and fixedly attached to the clamping section 10 of the stack of core plates by welding on the flange 4.1.1 of the cap of said pin.

In FIG. 6 and 7 show a second embodiment, in which the pin 4.2 consists of two sections having different diameters, in which a section 4.2.1 with a larger diameter is inserted into the hole 5, while a section 4.2.2 with a smaller diameter is inserted without a gap in the corresponding recessed slot in section 10 so that when the clamp of the stack of core plates is closed, it creates a stop that prevents the pin from slipping out of the hole 5.

In FIG. 8 and 9 show a third embodiment in which the pin 4.3 is mounted with an intermediate collar 4.3.1, which, when the clamp of the stack of core plates is closed, remains locked between the section 10 and the magnetic core 1, thereby preventing the pin from slipping out of the hole 5.

In FIG. 10 and 11 show a fourth embodiment, in which the pin 4.4 is equipped with an end section 4.4.1 with a thread of a narrower diameter, which, when the clamp of the stack of core plates is closed, receives a lock nut 4.4.2, screwed onto the thread with an additional washer 4.4.3.

In FIG. 12 and 13, a fifth embodiment is shown in which an insulated anchor bolt T is inserted into a through hole in the magnetic core 1 and ends with a metal sleeve and sleeve 4.5, compressed by means of insulating washers 3.1 and nut 3.2.

In cases where specific design conditions, such as, in particular, the small section 10, do not allow the use of a pin 4 on the edge of the said section, the invention provides the use of the pin 4 on the end coupling 20 located externally, attached to and aligned with the said section .

The end sleeve 20 may be formed in a curved portion of the wing of the section 10 or plate welded under the section and aligned with the section.

Finally, as shown in FIG. 2, the invention provides a plurality of slots 30 drilled in sections 10 of the clamp of the stack of core plates for inserting the pins 4 to obtain different center dimensions using their combination, making it possible to use the same clamps of the stack of core plates for magnetic cores of different center sizes and lengths.

Other embodiments other than those described are also possible in accordance with the size of the magnetic core or the configuration of the jaws of the stack of core plates, which are within the scope of the following claims.

Claims (14)

1. A clamping sealing and lifting system for electrical transformers and reactors, in which the magnetic core (1) is provided with clamps (2) of a stack of core plates held in place by anchor bolts (3),
characterized in that
the transformer is lifted by mechanical connections between the clamps (2.1, 2.2) of the stack of core plates and the magnetic core (1), consisting of pins (4) that protrude from the inside of the sections (10) of the clamps of the stack of core plates, and which are inserted into the corresponding holes (5) drilled in the magnetic core. 2. The system according to claim 1, characterized in that the pins (4) pass into the hole (5) inside the magnetic core (1) for a short distance. 3. The system according to claim 1, characterized in that the pins (4) act on the yoke (1.1) on the columns (1.2), which also serve as a means of connection between the two clamps (2.1, 2.2) of the stack of core plates. 4. The system according to any one of claims 1 to 3, characterized in that the pins (4) are made in one piece with the clamps (2) of the stack of core plates. 5. The system according to any one of claims 1 to 3, characterized in that the pins (4) are removable from the clamps (2) of the stack of core plates. 6. The system according to claim 4, characterized in that the pin (4.1) inserted into the hole (5) is made integrally with the section (10) for clamping the stack by welding to the flange (4.1.1) of the pin head. 7. The system according to claim 1, characterized in that the pin (4.2) consists of two sections having different diameters, and the section (4.2.1) having a larger diameter is inserted into the hole (5), and the section (4.2.2) ), having a smaller diameter, is inserted into the corresponding slot drilled in section (10) so that when the clamp is closed, it creates a support that prevents the pin from slipping out of the hole. 8. The system according to claim 1, characterized in that the pin (4.3) is mounted with an intermediate collar (4.3.1) so that when the clamp is closed, it remains locked between the section (10) and the magnetic core (1) to prevent slipping the pin from the hole (5). 9. The system according to claim 1, characterized in that the pin (4.4) has an end section (4.4.1) with a thread having a smaller diameter, so that when the clamp of the stack is closed, it is possible to screw the lock nut (4.4.2) onto the thread with the introduction of the washer (4.4.3). 10. The system according to claim 1, characterized in that the insulated anchor bolt (T) is inserted into the through-hole in the magnetic core (1), completed with a metal sleeve with a sleeve (4.5), and the clamping action is realized by means of insulated washers (3.1) and nuts (3.2). 11. System according to any one of claims 1 to 3, 6-10, characterized in that the pin (4) acts on the end sleeve (20), on the outside, attached to the section (10) of the stack (2.1, 2.2) and aligned with her. 12. The system according to claim 11, characterized in that the end sleeve (20) is formed from a curved section of the wing section (10). 13. The system according to claim 11, characterized in that the end sleeve (20) consists of a plate welded under the section (10). 14. The system according to claim 1, characterized in that in the sections (10) of the stack clamps, a plurality of slots (30) are drilled for introducing the pins (4) in order to obtain different center dimensions by means of a combination thereof.

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