CN202058554U - Dry-type distribution transformer with amorphous alloy iron core - Google Patents

Abstract

The utility model relates to a dry-type distribution transformer with an amorphous alloy iron core, belonging to the technical field of transformers. The amorphous alloy iron core of the transformer provided by the utility model is directly supported by a clamping piece; a layer of insulating cement is coated on an epoxy resin coating of the amorphous alloy iron core; the lower end of the insulating cement is fixed on a lower clamping piece; and the lower clamping piece supports the iron core by the insulating cement. A pulling plate of the iron core is designed directly according to a pulling plate structure of a common transformer, therefore, the design time is reduced, the requirements on the material and manufacturing process are reduced, and the noise produced when the transformer works is lowered.

Description

A kind of amorphous alloy iron core dry distribution transformer

Technical field

The utility model relates to a kind of amorphous alloy iron core dry distribution transformer, can be used in the electric power system, belongs to the transformer technology field.

Background technology

The amorphous alloy iron core dry distribution transformer noload losses is little, is a kind of energy-economic transformer that is widely used in the distribution field.The amorphous alloy iron core dry distribution transformer that uses mainly is made up of parts such as iron core, coil, the insulation of device body, lead-in wire, general assemblies at present; The amorphous alloy iron core dry distribution transformer generally is divided into three-phase five-limb structure and three-phase three-limb, and the three-phase three-limb structure now all is that arm-tie supports core structure.

Be illustrated in figure 1 as amorphous alloy iron core dry distribution transformer core structural representation in the prior art, this transformer mainly is to adopt arm-tie to support the structure of iron core, and it is by amorphous alloy iron core 1, arm-tie bracing frame 2, and insulating cement 3, folder 4 draws screw rod 5 to form.Fig. 2, Fig. 3 are pulling plate structure figure, and the available technology adopting arm-tie supports amorphous alloy iron core, and arm-tie supports iron core; When lifting by crane transformer simultaneously, arm-tie connects upper clamping piece, lower clamping piece, and the material that uses when therefore making arm-tie is many, and to the requirement of strength height of arm-tie.

Prior art has the following disadvantages: 1. the transformer pulling plate size design time is long; 2. transformer pulling plate is made by the monoblock steel plate, and waste of material is more serious; When 3. transformer pulling plate was pieced together making by steel plate, technology was difficult to guarantee the accurate of size, and produces bigger noise.

Summary of the invention

The purpose of this utility model provides a kind of dry-type distribution transformer that directly supports amorphous alloy iron core with folder, can reduce design time, reduces material and manufacture craft requirement, and can reduce the noise that produces when transformer is worked.

For realizing above purpose, the technical solution of the utility model provides a kind of amorphous alloy dry-type transformer that supports iron core with folder, comprise upper clamping piece, lower clamping piece, arm-tie, insulating cement, draw screw rod, amorphous alloy iron core is installed between upper clamping piece and the lower clamping piece, arm-tie connects upper clamping piece and lower clamping piece, at the amorphous alloy core outer surface one deck epoxy coating is arranged, it is characterized in that, on epoxy coating, be coated with one deck insulating cement again, the insulating cement lower end is fixed on the lower clamping piece, and lower clamping piece supports amorphous alloy iron core by insulating cement.

Described insulating cement is the 3M insulating cement, and 3M glue is a kind of insulating resin that solidifies at normal temperatures, the insulation property height, and the bonding strength height, coefficient of thermal expansion and contraction is little.

Scribble the trapezoidal insulating cement of one deck on the epoxy coating surface.

Described lower clamping piece supports amorphous alloy iron core by insulating cement, and this iron core stress surface is big, be floated structure, exceeds lower clamping piece at the upper surface position of lower clamping piece insulating cement and follows amorphous alloy iron core contact-making surface 10mm～15mm.

Described amorphous alloy iron core is a three-phase three-column open coil iron core structure, and the cross section is a rectangle.

Described folder processes with channel-section steel, is welded with band steel as support level, and opens corresponding fixing hole on upper clamping piece, lower clamping piece.

The described screw rod that draws is a full flight screw.

The utility model has the advantages that: owing to adopt folder to support transformer core, arm-tie is pressed the design of common transformer pulling plate structure, therefore can reduce the design and the Production Time of amorphous alloy dry-type transformer in large quantities, the noise when having effectively reduced simultaneously the transformer operation to a certain extent.

Description of drawings

Fig. 1 is an amorphous alloy iron core dry distribution transformer core structural representation in the prior art;

Fig. 2 is that Figure 1A-A is to cut-away view;

Fig. 3 is Fig. 1 arm-tie bracing frame schematic diagram;

Fig. 4 is the utility model non-crystaline amorphous metal distribution dry-type transformer iron core structural representation;

Fig. 5 is that Fig. 4 B-B is to cut-away view;

Fig. 6 is the left diagrammatic sketch of Fig. 4;

Fig. 7 is the local enlarged diagram of Fig. 6.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples.

Embodiment

As shown in Figure 4, comprise upper clamping piece 6, arm-tie 7, insulating cement 8, lower clamping piece 10, wherein arm-tie 7 connects upper clamping piece 6 and lower clamping piece 10, transformer can be sling by arm-tie 7, upper clamping piece 6, lower clamping piece 10, the convenient installation and transportation, insulating cement 8 is because insulating cement has very strong fixed effect, iron core gravity is delivered on the lower clamping piece 10 by insulating cement 8, therefore can play the effect of supporting iron core well by insulating cement 8 lower clamping pieces 10.

The preferred 3M glue of insulating cement, 3M glue are a kind of insulating resins that solidifies at normal temperatures, the insulation property height, and the bonding strength height, coefficient of thermal expansion and contraction is little.

Folder processes with channel-section steel, is welded with band steel as support level, and opens corresponding fixing hole 13 on this folder, and fixing hole is used for installation and draws screw rod 11.

Utilize lower clamping piece 10 to support amorphous alloy iron core 9, can save the manufacturing materials of arm-tie, adopt the technical program that the intensity of arm-tie 7 is not had very high requirement simultaneously, arm-tie 7 can adopt common dry-type distribution transformer pulling plate structure, therefore can reduce the design and the Production Time of transformer.

As shown in Figure 5, described amorphous alloy iron core 9 is a three-phase three-column open coil iron core structure, and the cross section is a rectangle.

As shown in Figure 6, amorphous alloy iron core 9 epoxy coatings 14 surfaces scribble one deck insulating cement, lower clamping piece upper surface position insulating cement exceeds folder with iron core contact-making surface 10mm～15mm, the insulating cement thickness that the iron core upper surface is coated with is thinner than lower surface, in echelon, amorphous alloy iron core 9 upper surfaces can better be dispelled the heat, and the thickness of lower surface insulating cement is big, can play fixedly amorphous alloy iron core 9 better.

Insulating cement 8 adhesive surfaces are as the supporting surface of amorphous alloy iron core 9, and lifting surface area is big, because insulating cement is a kind of solid gum, are coated in the noise in the time of reducing the transformer operation on the epoxy coating 14 effectively.

Draw screw rod 11 to be full flight screw, purpose is to guarantee the designed distance between two folders, because of distance is too small iron core is not produced pressure, and this distance can not change in processes such as assembling, transportation, operation.

Be illustrated in figure 7 as the local enlarged diagram of amorphous alloy iron core, in core exterior surface one deck epoxy coating arranged, scribble one deck insulating cement 8 on the epoxy coating, insulating cement is fixed on the lower clamping piece 10.

Claims (7)

1. amorphous alloy iron core dry distribution transformer, comprise upper clamping piece (6), lower clamping piece (10), arm-tie (7), insulating cement (8), draw screw rod (11), amorphous alloy iron core (9) is installed between upper clamping piece (6) and the lower clamping piece (10), arm-tie (7) connects upper clamping piece (6) and lower clamping piece (10), it is characterized in that being coated with one deck insulating cement (8) at amorphous alloy iron core (9) outer surface, insulating cement (8) lower end is fixed on the lower clamping piece (10), and lower clamping piece (10) supports amorphous alloy iron core by insulating cement (8).

2. amorphous alloy dry-type distribution transformer according to claim 1 is characterized in that described insulating cement (8) is a 3M glue.

3. amorphous alloy iron core dry distribution transformer according to claim 1 is characterized in that described iron core epoxy coating (14) surface scribbles the trapezoidal insulating cement of one deck.

4. amorphous alloy iron core dry distribution transformer according to claim 1 is characterized in that the upper surface position insulating cement (8) of described lower clamping piece (10) exceeds lower clamping piece (10) with amorphous alloy iron core (9) contact-making surface 10～15mm.

5. amorphous alloy iron core dry distribution transformer according to claim 1 is characterized in that described amorphous alloy iron core (9) is three-phase three-column open coil iron core structure, and the cross section is a rectangle.

6. amorphous alloy iron core dry distribution transformer according to claim 1 is characterized in that opening corresponding fixing hole (13) on described upper clamping piece (6) and the lower clamping piece (10).

7. amorphous alloy iron core dry distribution transformer according to claim 1 is characterized in that the described screw rod (11) that draws is a full flight screw.

Images