SU599104A1 - Jet oscillator - Google Patents

Description

The invention relates to automatic control and can be used with inkjet automation systems. Jet oscillations of oscillations are known, whose operation is determined mainly by the Coanda effect (in a number of cases and by the effect of internal feedback). However, generators operating on these effects are characterized by the frequency dependence of the supply pressure. The jet generator closest to the proposed invention contains a jet interaction chamber with feed channels, control and receiving channels, one of which is connected via a choke to a cavity of variable volume and One of the control channels of this jet generator, the cavity of a variable volume is made in the form of a single chamber, divided into two parts by an elastic partition. However, the frequency of oscillations of such an inkjet generator depends on the pressure of the feed, which reduces its stability. supply pressure decreases filling time of variable capacitance and increases oscillation frequency. The purpose of the invention is to increase the stability of the generator by eliminating the influence of the change in supply pressure on the oscillation frequency of the generator. For this, in a jet oscillator, the other control channel is connected to the power channel. The drawing shows the proposed device jet generator. The jet generator contains a power supply channel 1, control channels 2 and 3, receiving channels 4 and 5, the control channel 3 being connected to the feedback channel b with the receiving channel 4, and the control channel 2 connecting the channel 7 to the power supply channel 1. The interaction of the flows is carried out in the chambers 8 and 9 of the interaction of the jets. Jet generator works as follows. When pressure is applied to the supply channel 1, pressure appears in the control channel 2, with the result that a jet is fed into the chamber 9 from the channel 2. At the same time, the power jet from the power supply channel 1 enters the receiving channel 4 and then through the feedback channel 6 and the control channel 3 5

flows into the interaction chamber 8, where, due to the impact of two jets, a resultant flow is formed, the power of which is proportional to the supply pressure. The resulting flow through the common control channel 4 flows into the generator chamber 8.

The power jet switches to the receiving channel 5. The distance in the receiving channel 4 disappears, and consequently, the pressure disappears in the control channel 3 and the common channel. The power jet returns to its original position. The process then repeats.

Increasing or decreasing the supply pressure will cause the control flow through channel 2 to also increase or decrease, and the flow in feedback channel 6 and control channel 3 will also increase or decrease. These changes in flow rates in the control channels cause the control flow rate in the common channel to change in proportion to the change in supply pressure, which determines that the switching frequency is independent of the supply pressure.

Claims (1)

Invention The jet generator / containing a chamber of interaction of jets with feed, control and receiving channels, one of which is connected to one of the control channels, which is due to the fact that in order to increase the stability of the generator, the other control channel is connected to the feed channel .