INK SUPPLY SYSTEM

Abstract

An ink supply system (10) comprises an ink chamber (12); an ink line (14) with a Venturi nozzle (16), wherein the ink chamber (12) has an inlet (18), which is connected to the ink line (14) upstream of the Venturi nozzle (16), and an outlet (24), which is connected to the suction side of the Venturi nozzle (16); an ink reservoir (30) from which the ink is transferred by a pump (28) to the inlet (18) and into the ink line (32); and an ink return line (32), which connects the downstream end of the Venturi nozzle (16) with the ink reservoir (30).

Claims

1. An ink supply system, comprising: an ink chamber; an ink line with a Venturi nozzle, wherein the ink chamber has an inlet, which is connected to the ink line upstream of the Venturi nozzle, and an outlet, which is connected to a suction side of the Venturi nozzle; an ink reservoir from which ink is transferred by a pump to the inlet and into the ink line; and an ink return line, which connects a downstream end of the Venturi nozzle with the ink reservoir.

2. The ink supply system of claim 1, wherein the inlet- comprises a neck.

3. The ink supply system of claim 1, wherein the outlet of the ink line comprises an ink overflow.

4. The ink supply system of claim 3, wherein the ink overflow comprises a cleaning valve.

5. The ink supply system of claim 1, wherein the inlet and the outlet are arranged at opposite sides of the ink chamber.

6. The ink supply system of claim 1, wherein the ink chamber comprises a level sensor.

Description

[0020] The invention will now be described with reference to an embodiment which is shown in the enclosed drawings. In the drawings,

[0021] FIG. 1 is a ink supply system according to the invention, and

[0022] FIG. 2 is a view on the ink overflow and its connection to the Venturi nozzle.

[0023] In FIG. 1, an ink supply system 10 is shown, which comprises an ink chamber 12 and an ink line 14 with a Venturi nozzle 16. The ink chamber 12 has an inlet 18 which is connected to the ink line 14 upstream of the Venturi nozzle 16 at a first junction 20.

[0024] At the first junction 20 the ink stream is divided into two parts, wherein the larger amount of ink, approximately 90% based on total volume, continues to flow through the ink line 14 to the Venturi nozzle 16. The smaller amount of ink, approximately 10% based on total volume, flows in the inlet 18 and through a neck 22 into the ink chamber 12.

[0025] The ink chamber 12 further has an outlet 24 which is connected to the suction part of the Venturi nozzle 16 at a second junction 26. The pressure in the suction part of the Venturi nozzle 16 can be controlled by the diameter of a constriction of the Venturi nozzle 16.

[0026] The amount of ink which passes through the ink chamber 12 can be controlled by the flow rate within the ink supply system 10. The flow rate is controlled by a pump 28 which connects an ink reservoir 30 with the ink line 14.

[0027] From the downstream end of the Venturi nozzle 16, an ink return line 32 runs to the ink reservoir 30. Therefore, the ink supply system 10 can be operated as a circulation system.

[0028] The ink chamber 12 further comprises a level sensor 34, which is used to monitor the amount of ink within the ink chamber 12. The level sensor 34 could also be connected to a monitoring system 36, which is able to control the pump 28, therefore establishing a feedback-loop.

[0029] In FIG. 2, an enlarged view of the outlet 24 of the ink chamber 12 is provided.

[0030] As can be seen, the outlet 24 further comprises an ink overflow 38. The ink overflow 38 has a boundary 40, over which the ink has to pass in order to flow back into the suction part of the Venturi nozzle 16. In this way, a constant ink level within the ink chamber 12 can be maintained.

[0031] The ink overflow 38 further comprises a cleaning valve 42 with which the ink from the ink chamber 12 can be removed, e.g. for maintenance purposes.