CN208584710U - Epoxy insulation vacuum pouring mold with cooling structure - Google Patents

Abstract

The utility model discloses a kind of epoxy insulation vacuum pouring mold with cooling structure, including casting mold ontology, the sprue gate of the casting mold ontology is located at the top of casting mold ontology, the casting mold ontology includes core model and external mold, the top of the external mold is equipped with annular boiled water slot, the annular boiled water slot position is in the outside at sprue gate, the height of the core model is higher than the height of external mold, the top of the casting mold ontology is equipped with cover board, the bottom of the cover board is equipped with groove, the width of the groove face core model and groove is slightly larger than the width with core model, the centre of the cover board is equipped at least two through slot, through slot face sprue gate.The utility model is equipped with annular boiled water slot at the top of external mold, i.e., annular boiled water slot is enclosed around sprue gate one, to ensure that film has the temperature at sprue gate lower than mold middle and lower part, final epoxy mixture is lower part → middle part → top in the curing reaction sequence of mold.

Description

Epoxy insulation vacuum pouring mold with cooling structure

Technical field

The utility model relates to a kind of high-tension power transmission and transformation equipments, especially the epoxy insulation vacuum pouring mould with cooling structure Tool.

Background technique

Epoxy insulation is the most important insulating products of high-voltage electrical apparatus, and there are mainly two types of production methods, i.e., vacuum pouring and APG pressure injection.But the epoxy insulator of 110KV above is directed to due to used epoxide resin material property (molecular weight and viscosity) is different, and uses vacuum pouring.

Vacuum pouring needs mixing, casting mold at a temperature of 130-140 DEG C to be firstly placed in 130 DEG C of baking oven and preheat, pour Mold is put into vacuum pouring tank when note, the mixture of high temperature by pouring can upper pipe by great ?pressure and self gravity make With flowing into mold, mold is sent into hot setting and is shared after continuing vacuum outgas 10-30 minutes after filling to be continued to solidify.

The mixture temperature of vacuum pouring is higher, therefore the energy first choice in curing reaction is the energy from mixture itself Amount, the reaction of mixture system is more fierce when reaction, and exothermic heat of reaction is very big.And it is general from vacuum pouring mold from baking oven is cured to It wants 2 hours that can just start sticky, gel, continue heat release after becoming rubber-elastic state material and shrinks, the receipts of entire pour mass Shrinkage reaches 2%-3% or so.

For casting mold in 130 DEG C of baking oven, sprue gate is that 130 DEG C of high temperature in open exposure, with baking oven are It directly contacts, therefore the curing rate at sprue gate is faster than the lower part of casting mold, and the temperature in baking oven is uneven It is even, lower part is partially higher than in the temperature in general baking oven, the epoxy at sprue gate mixes the gel that can take the lead in always, solidification.Cause Entirely it is gradually gradually gel solidification from top to bottom.The shrink defects for solidifying the 2-3% generated just appear in each portion of product Point, so that product outer surface forms irregular recess piebald.

Utility model content

A kind of ring with cooling structure is provided purpose of the utility model is to solve above-mentioned the deficiencies in the prior art Oxygen insulation vacuum pouring mold.

To achieve the goals above, the epoxy insulation vacuum pouring mold designed by the utility model with cooling structure, Including casting mold ontology, the sprue gate of the casting mold ontology is located at the top of casting mold ontology, the casting mold Ontology includes core model and external mold, and the top of the external mold is equipped with annular boiled water slot, and the annular boiled water slot position is in the outer of sprue gate Portion, the height of the core model are higher than the height of external mold, and the top of the casting mold ontology is equipped with cover board, the bottom of the cover board Portion is equipped with groove, and slightly larger than the width with core model, the centre of the cover board is equipped with the width of the groove face core model and groove At least two through slot, through slot face sprue gate.

In order to facilitate opening, the top of the cover board is equipped with hanging ring.

After casting mold ontology enters baking oven, water is filled in annular boiled water slot, since the boiling point of water is 100 DEG C, therefore The heat of die casting oral area position can be absorbed, so that the temperature of die casting mouth is lower than mold middle and lower part, final epoxy Mixture is lower part → middle part → top in the curing reaction sequence of mold, and is produced from the sprue gate that is contracted in of the 2-3% after solidifying It is raw, it only needs to fill sprue gate at this time, to ensure that the complete of product.

Water body splashes in order to prevent, therefore is equipped with cover board at the top of casting mold ontology, and the effect of the groove is limit Position, the effect of the through slot are heat dissipations.In the curing process, need to add once every 30min in the solidification process of 2 hours early periods Water.Solidifying after final 20 hours terminates, and is opened pickup.

The epoxy insulation vacuum pouring mold with cooling structure that the utility model obtains, its technical effect is that in external mold Top is equipped with annular boiled water slot, i.e., annular boiled water slot is enclosed around sprue gate one, to ensure that the temperature at film tool sprue gate is lower than Mold middle and lower part, final epoxy mixture are lower part → middle part → top in the curing reaction sequence of mold.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the epoxy insulation vacuum pouring mold with cooling structure of embodiment 1；

Fig. 2 is the structural schematic diagram of the epoxy insulation vacuum pouring mold cover plate with cooling structure of embodiment 1.

In figure: casting mold ontology 1, sprue gate 2, core model 3, external mold 4, annular boiled water slot 5, cover board 6, groove 7, through slot 8, Hanging ring 9, epoxy mixture 10.

Specific embodiment

The present invention will be further described with reference to the accompanying drawings and examples.

Embodiment 1:

As shown in Figs. 1-2, the epoxy insulation vacuum pouring mold provided in this embodiment with cooling structure, including casting moulds Has ontology 1, the sprue gate 2 of the casting mold ontology 1 is located at the top of casting mold ontology 1, and the casting mold ontology 1 wraps Core model 3 and external mold 4 are included, the top of the external mold 4 is equipped with annular boiled water slot 5, and the annular boiled water slot 5 is located at the outer of sprue gate 2 Portion, the height of the core model 3 are higher than the height of external mold 4, and the top of the casting mold ontology 1 is equipped with cover board 6, the cover board 6 bottom is equipped with groove 7, and the width of the 7 face core model 3 of groove and groove 7 is slightly larger than the width with core model 3, the cover board 6 Centre be equipped at least two through slot 8, the 8 face sprue gate 2 of through slot.

In order to facilitate opening, the top of the cover board 6 is equipped with hanging ring 9.

After casting mold ontology 1 enters baking oven, water is filled in annular boiled water slot 5, since the boiling point of water is 100 DEG C, Therefore the heat at 2 position of die casting mouth can be absorbed, so that the temperature at sprue gate 2 is lower than mold middle and lower part, final epoxy Mixture 10 is lower part → middle part → top in the curing reaction sequence of mold, and is produced from the sprue gate that is contracted in of the 2-3% after solidifying It is raw, it only needs to fill sprue gate 2 at this time, to ensure that the complete of product.In the curing process, consolidated early period 2 hours A water need to be added every 30min during change.Solidifying after final 20 hours terminates, and is opened pickup.

Claims (2)

1. a kind of epoxy insulation vacuum pouring mold with cooling structure, including casting mold ontology (1), it is characterised in that: institute The sprue gate (2) for stating casting mold ontology (1) is located at the top of casting mold ontology (1), and the casting mold ontology (1) includes Core model (3) and external mold (4), the top of the external mold (4) are equipped with annular boiled water slot (5), and the annular boiled water slot (5) is located at casting The outside of mouth (2), the height of the core model (3) are higher than the height of external mold (4), set at the top of the casting mold ontology (1) Have cover board (6), the bottom of the cover board (6) is equipped with groove (7), the width of groove (7) the face core model (3) and groove (7) Slightly larger than the width with core model (3), the centre of the cover board (6) is equipped at least two through slot (8), through slot (8) the face casting Mouth (2).

2. the epoxy insulation vacuum pouring mold according to claim 1 with cooling structure, it is characterised in that: the cover board (6) top is equipped with hanging ring (9).