CN113690000B - Dry-type sleeve paste injection process - Google Patents

Abstract

The invention discloses a dry-type sleeve paste injection process, which comprises the steps of sequentially carrying out compressed gas pressurization and pressure maintaining, leakage detection and leakage repair, vacuum pressurization and leakage detection and repair on an assembled dry-type sleeve, pressurizing mixed gas, covering, pressure maintaining, leakage detection and repair, vacuumizing the dry-type sleeve, and injecting paste. The paste injection process provided by the invention can obviously improve the quality control level of the dry-type casing pipe product and the qualification rate of the dry-type casing pipe product, reduce the paste injection cost, ensure the stable and reliable operation of the dry-type casing pipe and further reduce the product operation and maintenance cost.

Description

Dry-type sleeve paste injection process

Technical Field

The invention relates to a dry-type sleeve paste injection process, and belongs to the field of electricity.

Background

With the promotion and rapid development of power transmission and transformation technologies, the requirements of China on the quality, safety and reliability of high-voltage power equipment are increasingly promoted. The dry-type sleeve is continuously promoted to be applied to a power system by virtue of excellent fireproof and explosion-proof performances of the dry-type sleeve. The dry type sleeve is an oilless product, the inner core is made of flame-retardant insulating materials, the risk of combustion and explosion is avoided, the transformer fire cannot be caused when the sleeve fails, and the composite outer sleeve dry type sleeve is used, so that secondary damage to peripheral equipment cannot be caused when the sleeve fails; the fireproof and explosion-proof performance of the dry-type sleeve has important significance for reducing the fire of the transformer.

The insulation between the dry-type sleeve capacitor core and the hollow composite outer sleeve or the porcelain outer sleeve adopts a mode of filling power cable insulation paste. The quality of the process for filling the power cable insulation paste seriously affects the product quality of the dry-type sleeve, and a stable, safe and reliable insulation paste injection process is urgently needed to improve the product quality and the safe and reliable performance of the dry-type sleeve.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the dry-type sleeve paste injection process, which can obviously improve the control level of the quality of the dry-type sleeve product and the qualification rate of the dry-type sleeve product, reduce the paste injection cost, ensure the stable and reliable operation of the dry-type sleeve and further reduce the product operation and maintenance cost.

The technical scheme adopted by the invention is as follows:

a dry-type sleeve paste injection process comprises the following steps:

the method comprises the following steps: the integral assembly of the sleeve is completed as required;

step two: filling compressed air into the space between the dry capacitor core and the outer sleeve of the dry sleeve to reach the process requirement pressure value;

step three: maintaining the pressure of the compressed air in the dry-type sleeve and searching a leakage point; if no missing point exists, the next step is carried out; if the leakage points exist, the leakage points are subjected to leakage repairing, after the leakage repairing, if the casing pipe needs to be reassembled, the first step and the subsequent operation are returned, and if the casing pipe does not need to be reassembled, the second step and the subsequent operation are returned;

step four: vacuumizing the space between the dry capacitor core and the outer sleeve of the dry sleeve to the vacuum degree required by the process;

step five: maintaining the pressure of the vacuum in the dry sleeve and performing vacuum leakage detection; if no missing point exists, the next step is carried out; if the leakage point exists, the leakage point is repaired, if the casing pipe needs to be reassembled after the leakage is repaired, the first step and the subsequent operation are carried out, and if the casing pipe does not need to be reassembled, the second step and the subsequent operation are carried out;

step six: filling mixed gas into the space between the dry capacitor core and the outer sleeve of the dry sleeve to reach the technological requirement pressure value;

step seven: covering the outer sleeve of the dry-type sleeve, and after covering is finished, maintaining pressure of mixed gas in the dry-type sleeve and detecting leakage of the covered sleeve; if no missing point exists, the next step is carried out; if the leakage point exists, the leakage point is repaired, after the leakage is repaired, if the casing pipe needs to be reassembled, the operation in the step one and the subsequent operation are returned, and if the casing pipe does not need to be reassembled, the operation in the step two and the subsequent operation are returned;

step eight: vacuumizing the space between the dry capacitor core and the outer sleeve of the dry sleeve to the vacuum degree required by the process;

step nine: injecting power cable insulating paste into a space between a dry capacitor core and an outer sleeve of the dry sleeve;

step ten: and carrying out factory test on the dry-type sleeve.

Preferably, the outer sleeve is a hollow composite outer sleeve or a porcelain outer sleeve.

Further preferably, the mixed gas in the sixth step and the seventh step is formed by mixing nitrogen and hydrogen.

Further preferably, in the second step, the water content of the compressed air is measured before the compressed air is filled, so that the water content is within the process requirement range.

The invention has the beneficial effects that:

the paste injection process of the dry-type casing pipe can obviously improve the quality control level of the dry-type casing pipe product and the qualification rate of the dry-type casing pipe product, reduce the paste injection cost, ensure the stable and reliable operation of the dry-type casing pipe and further reduce the operation and maintenance cost of the product.

Detailed Description

The present invention will be specifically described with reference to examples.

The embodiment is a dry-type sleeve paste injection process, which comprises the following steps:

the method comprises the following steps: the integral assembly of the sleeve is completed as required;

step two: filling compressed air into the space between the dry capacitor core and the outer sleeve of the dry sleeve to reach the process requirement pressure value;

step three: maintaining the pressure of the compressed air in the dry-type sleeve and searching a leakage point; if no missing point exists, the next step is carried out; if the leakage points exist, the leakage points are subjected to leakage repairing, after the leakage repairing, if the casing pipe needs to be reassembled, the first step and the subsequent operation are returned, and if the casing pipe does not need to be reassembled, the second step and the subsequent operation are returned;

step four: vacuumizing the space between the dry capacitor core and the outer sleeve of the dry sleeve to the vacuum degree required by the process;

step five: maintaining the pressure of the vacuum in the dry sleeve and performing vacuum leakage detection; if no missing point exists, the next step is carried out; if the leakage point exists, the leakage point is repaired, if the casing pipe needs to be reassembled after the leakage is repaired, the first step and the subsequent operation are carried out, and if the casing pipe does not need to be reassembled, the second step and the subsequent operation are carried out;

step six: filling mixed gas into the space between the dry capacitor core and the outer sleeve of the dry sleeve to reach the technological requirement pressure value;

step seven: covering the outer sleeve of the dry-type sleeve, and after covering is finished, maintaining pressure of mixed gas in the dry-type sleeve and detecting leakage of the covered sleeve; if no missing point exists, the next step is carried out; if the leakage point exists, the leakage point is repaired, after the leakage is repaired, if the casing pipe needs to be reassembled, the operation in the step one and the subsequent operation are returned, and if the casing pipe does not need to be reassembled, the operation in the step two and the subsequent operation are returned;

step eight: vacuumizing the space between the dry capacitor core and the outer sleeve of the dry sleeve again until the process requirement vacuum degree is reached;

step nine: injecting power cable insulating paste into a space between a dry capacitor core and an outer sleeve of the dry sleeve;

step ten: and carrying out factory test on the dry-type sleeve.

Preferably, the outer sleeve is a hollow composite outer sleeve or a porcelain outer sleeve.

Further preferably, the mixed gas in the sixth step and the seventh step is formed by mixing nitrogen and hydrogen.

Further preferably, in the second step, the water content of the compressed air is measured before the compressed air is filled, so that the water content is within the process requirement range.

The paste injection process of the dry-type casing pipe can obviously improve the quality control level of the dry-type casing pipe product and the qualification rate of the dry-type casing pipe product, reduce the paste injection cost, ensure the stable and reliable operation of the dry-type casing pipe and further reduce the product operation and maintenance cost.

The above description is only a preferred embodiment of the present patent, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the inventive concept, and these modifications and decorations should also be regarded as the protection scope of the present patent.

Claims (4)

1. A dry-type sleeve paste injection process is characterized in that: the method comprises the following steps:

the method comprises the following steps: the integral assembly of the sleeve is completed according to requirements;

step two: compressed air is filled into the space between the dry capacitor core and the outer sleeve of the dry sleeve to reach the technological requirement pressure value;

step three: maintaining the pressure of the compressed air in the dry sleeve and searching leakage points; if no missing point exists, the next step is carried out; if the leakage point exists, the leakage point is repaired, if the casing pipe needs to be reassembled after the leakage is repaired, the first step and the subsequent operation are carried out, and if the casing pipe does not need to be reassembled, the second step and the subsequent operation are carried out;

step four: vacuumizing the space between the dry capacitor core and the outer sleeve of the dry sleeve to the vacuum degree required by the process;

step five: maintaining the pressure of the vacuum in the dry sleeve and performing vacuum leakage detection; if no missing point exists, the next step is carried out; if the leakage points exist, the leakage points are subjected to leakage repairing, after the leakage repairing, if the casing pipe needs to be reassembled, the first step and the subsequent operation are returned, and if the casing pipe does not need to be reassembled, the second step and the subsequent operation are returned;

step six: filling mixed gas into the space between the dry capacitor core and the outer sleeve of the dry sleeve to reach the technological requirement pressure value;

step seven: covering the outer sleeve of the dry-type sleeve, and after covering is finished, maintaining pressure of mixed gas in the dry-type sleeve and performing covering leakage detection; if no missing point exists, the next step is carried out; if the leakage point exists, the leakage point is repaired, if the casing pipe needs to be reassembled after the leakage is repaired, the operation in the step one and the subsequent operation are returned, and if the casing pipe does not need to be reassembled, the operation in the step two and the subsequent operation are returned;

step eight: vacuumizing the space between the dry capacitor core and the outer sleeve of the dry sleeve again until the process requirement vacuum degree is reached;

step nine: injecting power cable insulating paste into a space between a dry capacitor core and an outer sleeve of the dry sleeve;

step ten: the dry type bushing was subjected to a factory test.

2. The dry casing paste injection process according to claim 1, wherein the outer sleeve is a hollow composite outer sleeve or a porcelain outer sleeve.

3. The dry sleeve paste injection process according to claim 1, wherein the mixed gas in the sixth and seventh steps is a mixture of nitrogen and hydrogen.

4. The dry-type bushing paste injection process according to claim 1, wherein in step two, the water content of the compressed air is measured before the compressed air is filled, so that the water content is within the process requirement range.