DE19811594A1 - Cannula closure for laboratory equipment e.g. a dosing unit for caustic or toxic liquids - Google Patents

Abstract

A cannula closure has a suction piston (2) which returns liquid from a dosing tip (21) to its housing (1) and seals the path to the tip after liquid delivery. A suction piston is connected to a closure pin (11) and is located in a housing connected to the dosing tip.

Description

The invention relates to a cannula closure.

Cannula closures are already known, which are used as screw caps or covers caps are designed. Usually these cannulae are closed by a Befe on the tab on the associated laboratory device, for example a dosing device increases.

However, the previously known systems involve high accident risks. So can for example, harmful dosing material in the cap sam which can pour out in an uncontrolled manner after removing the cap. In particular, a so-called "Snap effect" when these caps are removed. It can be caustic or Spray uncontrolled toxic dosing material.

Proceeding from this, the object of the invention is for a cannula closure to improve operational safety.  

According to the invention, this object is achieved by the features of claim 1. The cannula closure has a housing in which a suction piston is guided. A dosing tip connects to the housing. With the suction piston is a Closing punch connected. After the dose to be dosed or otherwise deducted liquid has been dispensed through the dosing tip the suction piston performed a suction stroke. This will remove the liquid from the Dosing tip pulled back towards the housing. Closes at the end of the suction stroke the closing ram connected to the suction piston blocks the flow path in the Dosing tip or to the dosing tip. This ensures that after termination no more liquid can escape during the dispensing process. The cannulas Closure is dimensioned such that the Vo adjoining the closing stamp lumen in the dosing tip is as large as the volume of the suction stroke of the Suction piston. This ensures that the closing punch in the closing position comes after the entire downstream of the closing punch lying liquid volume has been sucked in.

Advantageous further developments are described in the subclaims.

A thread is preferably provided on the suction piston. This thread preferably engages in a corresponding thread in the housing. Of the Suction stroke of the suction piston can be generated by rotating the suction piston become.

It is advantageous if an actuating part is provided on the suction piston. This is preferably a toggle. This is in particular this is advantageous if a thread is provided on the suction piston. The Rotational movement and thus the suction movement of the suction piston can then start easily generated by moving the toggle.

According to a further advantageous development, there is an off in the suction piston shock channel provided. The discharge channel can run radially outwards. On the discharge channel can be followed by another channel which is in the suction piston  ben can run in the axial direction to the dosing tip. The other channel can be penetrated by the closing stamp.

An overflow channel can be provided in the suction piston. Through the over flow channel can be a flow path from a supply line to the cannula closure be directed to a return line. This allows the dosing device to be vented become. The cannula closure is preferably designed such that the Overflow channel is in the engaged position when the suction piston makes the suction stroke executed.

An embodiment of the invention will now be described with reference to the accompanying Drawing explained in detail. In the drawing shows

Fig. 1 shows a cannula lock in a lateral sectional view at geöff neter metering tip,

Fig. 2 shows a cross section through the cannula closure according to FIG. 1,

Fig. 3 is a sectional side view of the cannula closure at the end of the suction stroke and

Fig. 4 shows a cross section of the cannula lock in the position according to FIG. 3.

The cannula closure shown in the drawing has a housing 1 in which a suction piston 2 is guided. The housing 1 , which can also be characterized as a valve housing, is essentially pot-shaped. At the bottom 3 of the housing 1 is followed by an upward-pointing cylindrical part 4 , which has a shoulder 5 in its upper end region, in the inner Be a thread 6 is provided. A corresponding external thread 7 on the suction piston 2 engages in the internal thread 6 of the housing 1 . If necessary, a seal (not shown in the drawing) can be provided at the lower end of the threads 6 , 7 .

The suction piston 2 lies with its outer cylindrical surface on the inner cylinder face of the cylindrical part 4 of the housing 1 Zy. Furthermore, the bottom surface 8 of the suction piston 2 sits on the bottom surface 9 of the housing 1 when the suction piston 2 is in the outflow position shown in FIGS . 1 and 2.

The suction piston 2 has a central extension 10 at its end opposite the bottom surface 8 . A central bore is provided in the middle of the suction piston 2 , in which a closing plunger 11 is arranged. The closing stamp 11 has in its upper end region a groove in which a locking ring lock 12 designed as a securing ring engages, which forms a movement limiting the closing stamp 11 downward stop.

On the central extension 10 of the suction piston 2 , a switch toggle 13 is attached, which has an actuating wing 14 . The toggle switch 13 engages over the upper end of the closing plunger 11 and in this way forms a stop for movement of the closing plunger 11 upwards. As a result, and by the locking ram lock 12 , the locking ram 11 is connected to the suction piston 2 .

An ejection channel 15 is provided in the suction piston 2 and points outward in the radial direction. At its inner end, the discharge channel 15 opens into a further channel 16 , which points axially downward towards the bottom surface 8 .

Furthermore, an overflow channel 17 is provided in the suction piston 2 , which is offset by 180 ° with respect to the discharge channel 15 . When the suction piston 2 is in the outflow position shown in FIGS. 1 and 2, in which the bottom surface 8 rests on the bottom surface 9 , the discharge channel 15 opens into the inflow line 18 .

The closing punch 11 extends through the axial channel 16 of the suction piston. It also passes through an axial channel 19 adjoining the axial channel 16 in the bottom part 3 of the housing 1 and in a connecting piece 20 of the housing 1 adjoining it.

A dosing tip 21 is connected to the socket 20 of the housing 1 . The Do sierspitze 21 has a cap portion 22 which engages over the nozzle 20 , and egg NEN adjoining tip portion 23 , in which an outflow channel 24 is located.

In the area of the lower end of the connector 20 , a paragraph is provided, the egg nen seat for the provided at the lower end of the closing punch 11 Ver closing part 25 . When the suction piston 2 is in the outflow position shown in FIGS. 1 and 2, the closure part 25 is spaced from the seat in the nozzle 20 . Since the outer diameter of the closure part 25 is smaller than the inner diameter in the region of the shoulder provided on the connecting piece 20 , and since the axial channel 19 has a larger diameter than the closing punch 11 , the liquid can pass through the annular channel between the axial channel 19 and the closing die 11, and are delivered to the closure member 25 and through the outflow channel before beiströmen 24 therethrough.

In operation, the suction piston 2 is first brought into the outflow position shown in FIGS. 1 and 2, in which the bottom surface 8 of the suction piston 2 rests on the bottom surface 9 of the housing and in which the inflow line 18 of the housing 1 opens into the discharge channel 15 . The liquid coming from a metering device not shown in the drawing flows through the inflow line 18 and the discharge channel 15 . From there it passes into the axial channel 16 and into the ring channel between the axial channel 19 and the closing ram 11 . The liquid flows past the closure part 25 into the outflow channel 24 and is discharged at the end thereof.

When the dosing or liquid dispensing process has ended, the suction piston 2 is rotated counterclockwise by 180 ° by a manual attack on the actuating wing 14 . The suction piston 2 is by the threaded engagement 6 , 7 upwards into the closed position shown in FIGS . 3 and 4. In this closed position, the bottom surface 8 of the suction piston 2 is lifted off the bottom surface 9 of the housing 1 . Furthermore, in this position, the United circuit part 25 on the corresponding sealing surface in the socket 20 of the housing 1 . As a result, the flow path between the annular channel between the axial channel 19 and the closing ram 11 on the one hand and the outflow channel 24 on the other hand is interrupted. In the closed position, therefore, no more liquid can flow out of the cannula closure.

Furthermore, the liquid located in the outflow channel 24 is sucked into the housing 1 by the upward movement of the suction piston 2 . The cannula closure is dimensioned such that the volume of the outflow channel downstream of the seat of the closure part 25 is the same size as the suction volume between the bottom surface 8 and the bottom surface 9 in the raised position shown in FIGS. 3 and 4. This ensures that the entire downstream of the closure member 25 or its seat surface vorhan dene liquid volume through the suction stroke of the suction piston 2 in the hous se 1 is sucked.

By rotating the suction piston 2 by 180 °, the overflow channel 17 also engages in the manner shown in FIG. 4. This overflow channel 17 ver binds the inflow line 18 with a return flow line 26 in this position. The liquid leaving the metering device is returned through the inflow line 18 and the overflow channel 17 in this return flow line 26 , whereby the Do siergerät can be vented.

The invention provides a line closure in which a Saugkol ben 2 performs a suction stroke. The liquid in the dosing tip is drawn back into the valve housing by the suction stroke and sealed airtight by the closing plunger. At the same time, a return flow line 26 can be opened, which closes a circuit, so that the system can be vented safely and without loss of liquid in this position. The risk of accidents caused by liquids harmful to health is avoided. At the same time, the environment is protected.

Claims (5)

1. cannula closure with a housing ( 1 ) in which a suction piston ( 2 ) is guided, a metering tip ( 21 ) adjoining the housing ( 1 ) and a closing plunger ( 11 ) connected to the suction piston ( 2 ). 2. Cannula closure according to claim 1, characterized in that a thread ( 7 ) is provided on the suction piston ( 2 ). 3. cannula closure according to claim 1 or 2, characterized in that on the suction piston ( 2 ) an actuating part, preferably a switching knob ( 13 ) is provided. 4. Cannula closure according to one of the preceding claims, characterized in that an ejection channel ( 15 ) is provided in the suction piston ( 2 ). 5. cannula closure according to one of the preceding claims, characterized in that in the suction piston ( 2 ) an overflow channel ( 17 ) is vorgese hen.