RU2186264C2 - Method of filling closed system with liquid - Google Patents

Abstract

FIELD: filling closed systems with liquids. SUBSTANCE: proposed method includes evacuation of chamber where closed systems are located with their open ends immersed in liquid followed by filling under atmospheric pressure; at the beginning of evacuation, open of closed systems are raised to minimum depth of submergence and at the beginning of supply of pressure they are immersed. EFFECT: increased productivity. 1 dwg

Description

 The invention relates to mechanical engineering and can be used to fill the internal cavities of devices, in particular heat-sensitive systems of temperature sensors-relays, with a liquid filler with preliminary air removal.

 Known methods and devices for filling according to the patents of the Russian Federation 1585564 (15.08.90, bull. 30), 1751452 (30.07.92, bull. 28), 1767239 (07.10.92, bull. 37), 2103567 (01.27.98, bull. 3 ), 2135964 (08.27.99, bull. 24) by pre-pumping air from closed systems using a vacuum pump and filling them with a liquid filler under atmospheric pressure. Common disadvantages of these inventions are either the complexity of the equipment and low productivity, or the dependence of the filling results on the amount of air remaining in the filled closed system due to the formation of a gas cushion, the pressure in which depends on the specific gravity of the liquid and the depth of immersion.

 A known method of filling the internal cavities of devices with a liquid filler according to the patent of the Russian Federation 2064097 (07.20.96, bull. 20), including evacuating the chamber with closed systems placed in it, immersed open ends down in the liquid, followed by filling under atmospheric pressure, and filling is performed first preliminary until the fluid level in the internal cavities is not lower than the immersion depth of the open ends at atmospheric pressure, and then the chamber is re-evacuated and the final filled ie at atmospheric pressure. This method has a fairly high quality of filling, but low productivity, as the filling is carried out in two stages.

 An object of the invention is to increase the performance of the filling.

 The technical result is achieved by the fact that the filling of closed systems with liquid is carried out by evacuating the chamber with closed systems placed in it, immersed open ends down into the liquid, and then filling under atmospheric pressure, and at the same time as the chamber begins to evacuate, the open ends of the closed systems are lifted until the immersion depths, and with the beginning of the pressure supply to the chamber, they are immersed.

 The proposed method is simple to implement. The drawing schematically shows one of the devices implementing the method of filling closed systems with liquid.

Closed systems 1, which must be filled, are inserted into the openings of the pallet 2 with their open ends down. The tray 2 is installed inside the chamber 3 with liquid filler 4 on the sealed bellows 5 (or pistons), the air pressure (P _s ) in which in the initial state is atmospheric (P _atm ). The value of immersion of the open ends of closed systems 1 in a liquid filler 4 (h _n ) should be determined from the calculation so that the ends are constantly in the liquid. In the chamber 3 there are stops 6, limiting the rise of the pallet 2 up. Before pumping air from the chamber 3, all the indicated pressures in the drawing are equal to atmospheric pressure, including the pressure in the chamber 3 (P _to ) and in the internal cavity of closed systems 1 (P _int ).

Filling is carried out in one step. As soon as the pumping of air from the chamber 3 begins, the pressures P _k and P _vn begin to drop, and the pressure difference inside the bellows 5 and in the chamber 3 will increase (P _c > P _k ), and the pan 2 will immediately rise up to the stop 6, restricting its upper position on the basis of achieving the minimum value of immersion of the open ends of closed systems 1 (h _n ), otherwise, air will get into closed systems 1 at the beginning of injection into atmospheric pressure chamber 3. Upon reaching the required vacuum pressure is injected into the chamber 3. The pressure P _k begins to tend to atmospheric, the liquid filler 4 gradually fills the internal cavity of the closed systems 1, and the pressure difference inside the bellows 5 and chamber 3 will decrease (P _c = P _k - at the end of filling) and the pan 2 will immediately drop down to initial state.

 With a minimum pressure in the chamber, the open ends of the closed systems are minimally immersed in the liquid filler; therefore, practically no gas cushion is formed in the filled systems. In addition, the proposed filling method has high productivity, since it does not require either preliminary filling of closed systems (as in the prototype), or transfusion of liquid filler from one container to another and vice versa (as in analogues).

Claims (1)

 A method of filling closed systems with liquid, including evacuating the chamber with closed systems placed in it, immersed open ends down in the liquid, followed by filling under atmospheric pressure, characterized in that at the same time as the chamber begins to evacuate, the open ends of the closed systems are lifted to a minimum immersion depth , and with the beginning of the pressure supply to the chamber, they are immersed.