CS252882B1 - Carbon dioxide filling block into siphon bombs especially for automatic rotor machine - Google Patents

Abstract

The solution relates to an oxide filler block carbon dioxide to siphon cartridges, especially for an automatic rotor machine. The essence the filling block is that it is on the pressure cylinder connected inlet valve connected to the source carbon dioxide, discharge valve and safety valve valve. At the outlet of the discharge valve the siphon nut rotary knob is stored bombs

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a carbon blend for a siphon cartridge, particularly for an automatic rotor machine.

When filling the siphon cartridges on an automated rotor ‘type machine with twelve technological positions, the carbon dioxide dose is ineffective. The dose is set at 7 ± 0.5 grams, but when filled, the dose is reduced by up to 2 grams and shows up to 35-40% non-yield. Filling is done by automatically opening and closing the diaphragm valves. In the machine itself, the liquid carbon dioxide is distributed through a piping system and two diaphragm valves. In the present principle of filling, the filling of the pomp occurs after the valve diaphragm is opened. When the valve is opened, there is a strong impact of the CO2 stream at enormous velocity over the entire pipe section due to the large pressure range of up to 8-10 MPa. Given that, with the aforementioned filling principle, it is not possible to reduce the flow velocity or remove disturbed spots, especially valves, there is a strong effect of throttling at these spots. First of all, it is the Joule-Thompsan effect that occurs at throttling, i.e., the flow of liquids through a disturbed cross-section, to lower its temperature. The temperature drop is greater the more intense the throttle is, and the greater the pressure difference before and after the throttle point. The drop occurs due to friction and fluid turbulence, which in turn is dependent on the fluid flow rate. The drop in temperature and pressure beyond the throttling point results in solidification of the water contained in carbon monoxide and also at such a tremendous rate of undefined changes in the state of carbon dioxide - liquid - solid - gas. These changes, and in particular icing from water and carbon dioxide, exacerbate this throttle, resulting in a significant drop in pressure in the blot and in the pipeline that carbon dioxide is already fed into the bomb poid at a lower afco pressure to ensure a liquid state and part of carbon dioxide · changes to gaseous state when it enters the bomb, it causes unacceptable drop in carbon dioxide dose.

These disadvantages are alleviated and the technical problem is solved by a carbon dioxide feed block for siphon sockets, in particular for an automatic rotor machine consisting of valves and a pressure cylinder, which is based on the inlet valve connected to the carbon dioxide source, the discharge valve and the pressure cylinder. safety-valve. At the outlet of the discharge valve there is a rotary wrench of the siphon dove nut.

The advantage of this carbon dioxide filling blot for siphon chutes, especially for an automatic rotor machine, is that by eliminating high flow and throttling speeds, water and carbon dioxide are not subcooled and solidified, nor do large quantities of carbon dioxide change. It is also an advantage that the pressure relief valve can be precisely set to allow the pressure to rise in the light bulb for safety reasons.

The carbon dioxide filling block for the siphon cartridges, especially for an automatic rotor machine, is shown in an elevational sectional view in the accompanying drawing.

The carbon dioxide filling block for the siphon cartridges, in particular for the automatic rotor machine, consists of a pressure cylinder 1 whose piston corresponds to the cam 9. An inlet valve 3 connected to the carbon dioxide source is connected to the pressure cylinder 1. A discharge valve 4 and a safety valve 5 are also connected to the pressure valve 1. At the outlet of the discharge valve 4, a rotary key 8 for the nut of the siphon cartridge is mounted, which is in contact with the braking moments and jaws. Above the rotary key 6 is disposed ejectors 8 corresponding to the stop 10.

The function of the carbon dioxide feed block to the siphon flashers, in particular for the automatic rotor machine, is as follows: When the rotor rotates, the piston 2 of the pressure cylinder 1 is guided from the cam 9 by moving the piston 2 downwards. carbon dioxide is slowly flowing through the ball and downstream of the inlet valve 3 and into the pressure cylinder 1, whereby the slow movement of the piston 2 actually prevents the reverse flow of carbon dioxide through the inlet pipe and through the inlet valve 3. The inlet valve 3 is lowered. inlet pressure to the machine. Upon reaching the bottom dead center, the pressure cylinder 1 is filled with liquid carbon dioxide and the upward pressure increases in the cylinder 1. Upon reaching the value above the pressure set in the discharge valve 4, it opens and the filling of the bomb starts. The discharge valve 4 must be set to a higher pressure and the supply pressure. The upward movement of the piston 2 should be as fast as possible so that by extending the filling time the leakage losses of the siphoned nut of the siphon are still not tightened. Due to the fact that the volume of the pressure cylinder 1 is a significantly higher alcohol volume of the siphon cartridge, the siphon cartridge is already filled up in a certain upward movement position of the piston 2 and the pressure begins to increase further with the piston 2. and the excess carbon dioxide is returned to the reservoir, while at the same time tightening the cartridge nut with the tightening imoment set on the jaws of the vibration mechanism 7. The ejection mechanism 8 is only actuated when the siphon cartridge is already gripped in the odoiberation collet. The rotor by starting the pulley on the stop 10, which causes a short stroke and, by means of the ejection mechanism 8, pulls the cartridge out of the rotary key 6, which in the collet iiba is moved to a different position.

Claims (1)

Filling block of carbon dioxide for siphon cartridges, in particular for an automatic rotor machine, comprising valves and a pressure cylinder, characterized in that an inlet valve is connected to the pressure cylinder (1j). OF THE INVENTION (3) connected to a carbon dioxide source, a discharge valve (4) and a safety valve (5), wherein a rotary key (6j of the siphon cylinder nut) is mounted at the outlet of the discharge valve (4J).