RU2017252C1 - Process of hermetic sealing of relay with sealed magnetocontrolled contacts - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: relay with pelletized powdery polymer is placed into volume to be pumped out, gas present in volume is evacuated. After relay is heated to temperature ensuring liquid state of polymer, it is subjected to pressure test by increase pressure of gas in evacuated volume. EFFECT: improved efficiency of process. 3 dwg

Description

 The invention relates to electrical engineering, and in particular to a manufacturing technology of relays with sealed magnetically controlled contacts, and can be used in electrical engineering.

 A known method of sealing a relay with sealed magnetically controlled contacts by filling the terminals with an epoxy compound [1].

 The closest in technical essence to the proposed method is a method of sealing a relay with sealed magnetically-controlled contacts by placing in the case of a tableted powder polymer and its subsequent polymerization [2].

 The disadvantage of this method is the low quality of the seal due to the presence of voids in the sealed volume as a result of low fluidity and high viscosity of the powder polymers, which prevents the filling of narrow gaps and the exit of gas bubbles in the relay housing to the surface of the compound.

 The essence of the invention lies in the fact that according to the method of sealing a relay with sealed magnetically controlled contacts using a compound by placing a pelletized powder polymer in the relay case and then polymerizing it by heating, the relay with the tablet powder polymer is placed in the pumped volume, pumping out gas in the volume, and after heating the relay to a temperature that ensures the liquid state of the polymer, pressure testing is performed by increasing the gas pressure in the pumped volume eme.

 Using this sealing method, gas is pumped out of the internal cavity of the relay while the tablets (tableted powder polymer) are in a solid state, as a result of which, after the polymer has transitioned to a liquid state under the influence of elevated temperature, the polymer spreads in the relay case without the formation of voids in the polymerised polymer due to the exit of gas bubbles from the cavity of the relay to the surface of the compound, in addition, the subsequent increase in gas pressure in the pumped volume leads to the appearance of an additional noy force caused by the pressure difference outside and inside the relay unfilled compound of narrow slits and leads to compound filling gaps.

 In FIG. 1-3 shows a schematic sequence of the operation of sealing the relay with sealed magnetically controlled contacts.

EXAMPLE EXAMPLE 1 The compacted at a pressure of 60 kg / cm ² and t = 20 ° ^C of the epoxy compound powder brand TBE-5 tablet 1 is placed on the open top of the housing 2, in which the control coil 3 disposed therein magnetically controlled contacts. Relays prepared in this way are placed in a pumped chamber. The air in the housing is pumped out to a pressure of 10 ^-1 mm Hg. (FIG. 1), then heated relay disposed in the chamber to a temperature of ¹²⁰ ° C, maintaining the above pressure in the chamber. Upon reaching a temperature of ¹²⁰ ° C chamber relay held for 3 min. During this time, the compound completely melts and hermetically closes the open part of the relay housing 1 (Fig. 2), after which the pressure in the chamber is increased to 1-2 atm and held for 30 minutes (Fig. 3). Then the temperature and pressure are reduced and sealed relays are removed from the chamber.

EXAMPLE EXAMPLE 2. For sealing relay reed contact is also used tablets of powdered epoxy compound mark UP-216I pressing under a pressure of 50 kg / cm ² and at a temperature of 20 ° ^C. The tablets are placed one on top of the open portion of the housing 2 gas is pumped out of the chamber to a pressure of 10 ^-1 mm Hg. (FIG. 1) is heated to a temperature of ⁹⁰ ° C (Fig. 2), to stand for 2 minutes, producing an increase in gas pressure of 1-3 atm (FIG. 3) and held for 3 hours, then removed from the relay cameras.

 The relays sealed by these methods do not have voids inside the compound, and the compound itself penetrates into all the gaps between the housing and the control coil, the coil and the reed switches.

Claims (1)

 METHOD FOR SEALING RELAYS WITH SEALED MAGNETIC CONTROLLED CONTACTS using a compound by placing a pelletized polymer powder in the relay case and then polymerizing it by heating, characterized in that the relay with tableted polymer powder is placed in the pumped volume, after which the gas is evacuated and the gas is pumped out before heating temperature, ensuring the liquid state of the polymer, pressure testing is carried out by increasing the gas pressure in the pumped volume.

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