DE102005000750A1 - Pipette tip, to take and deliver small volume liquid droplets, has a cup-shaped liquid holding zone with an elastic wall which is pressed by a piezo electric actuator - Google Patents

Abstract

Pipette, to take and deliver small liquid volumes, has a cup-shaped liquid holding zone (16) at the pipette tip (14), with a single opening (30) and an elastic wall (18). An actuator (22) applies pressure to the chamber wall. The liquid holding zone holds a liquid droplet in place by adhesion and/or capillary forces. The actuator is a piezo electric unit.

Description

The The invention relates to a pipetting device for receiving and dispensing small volumes.

For example for filling of sample carriers, especially for filling of titer plates, in particular microtiter plates with recesses (Wells) whose volumes are in microliter range pipetting devices uses. Such titer plates, in particular microtiter plates are used, for example, in medium and high throughput screening. As pipetting pipettes are known, which is a chamber have for fluid intake. The fluid intake This is usually done here by a piston system, wherein the liquid to be absorbed is sucked into the chamber through a capillary channel. The delivery the liquid takes place through the same capillary channel. Here, the delivery takes place the liquid with the help of the piston system or by means of one, for example as Piezo actuator trained, discharge element. Here is the effect Piezo actuator on an elastically deformable chamber wall. This will cause the pressure increased in the chamber, leaving a drop of liquid is ejected through the capillary channel. With such pipettes can Drop volumes from 50 μl to 25 μl be generated. However, such pipettes have the disadvantage that the capillaries can become blocked. Furthermore, high pipetting accuracy can not be achieved in piston systems, since the delivery element, i. H. in particular the piston, such precision not possible. Also will the size of the drops due to burrs or edges at the tip of the pipette, d. H. at the capillary, impaired. Another disadvantage of such pipettes is that the Cleaning consuming is. Usually it is necessary for cleaning, the entire pipette with a cleaning fluid to wash. Furthermore, piston systems have the disadvantage that no drops can be generated with small drop volumes.

A Another device for dispensing liquids is described in US 2002/0114740 described. This device has capillary tubes for receiving the liquid on. The capillary tubes ends in a chamber, with no capillary tubes entered the chamber. The chamber is closed and faces up the opposite side of the tube located in the chamber an elastic chamber wall. The chamber wall can with the help of a Piezo element are deformed. This will cause a pressure pulse produced, which causes the escape of a liquid droplet from the capillary tube. It is an extremely complex one Device having the same disadvantages as the one described above Has pipetting device.

Further are to transfer a liquid in or on a sample carrier, like a titer plate, as a pipetting device so-called Pintools known. These are massive needles in one liquid be immersed. This forms a drop at the needle tip. The drop is then, for example, in a well of a titer plate delivered, in which the drop with the Wellinnenwand brought into contact and thus flows into the well. These are very precise Controls needed. In particular, the "wiping" of the drop is error prone. One Another problem is that due to vibration of the drops from the pintool can fall. Furthermore, the drop volume varies, for example, in dependence the viscosity of the Liquid.

task The invention is a pipetting device for receiving and To provide delivery of small volumes, which is easy to handle and with the high accuracy of the drop volume can be achieved can.

The solution The object is achieved according to the invention by the features of the claim 1.

The has pipetting device according to the invention a receiving area, in particular a recess for fluid intake on. The receiving area is preferably a hemispherical recess or hemispherical Chamber trained. The chamber is at least partially, preferably Completely bounded by an elastically deformable wall. Furthermore, the Pipetting device on a delivery element which acts on the chamber wall. According to the invention Receiving area designed such that it can accommodate a single liquid drop serves. The absorption of the liquid drop takes place in the receiving area by means of adhesion and / or capillary forces. Here is the drop volume is preferably less than 5 μl, more preferably smaller than 50 nl and in particular less than 5 nl. The chamber, which is preferably Kugelkarlottenförmig, takes the liquid drop preferably only partially so that part of the liquid drop outside of the receiving element is arranged. In particular, the kugelkarlottenförmige, d. H. domed Chamber, hemispherical trained, so that about half the drop volume outside the depression or chamber is arranged.

It is particularly preferred to define different drop volumes by a different curvature of the elastically deformable wall. This can be done by an under different stroke or a different displacement of this wall done. It is thus possible with the aid of the device according to the invention to define different drop sizes by means of a particularly variable degree of protuberance of the elastic wall.

It is thus with the pipetting device according to the invention possible, by immersing the pipetting device in the transported liquid to take a drop. Due to the recess according to the invention the chamber or depression is taken a drop of a precisely defined size, so that the recorded and delivered volumes are predicted very precisely can.

By the provision of a dispensing element which acts on the wall is a precise one controlled release of liquid droplet possible. in this connection it may be the delivery element to an element, the one Build up pressure acting on the wall. The resulting Momentum is transmitted to the drop, so that this is deliberately delivered. In particular, it can be act at the discharge element to a piezo actuator, which also a pressure pulse on the liquid drop emits. It is particularly preferred in this case that the wall so is formed so that it is inverted when the liquid drop is dispensed, so that the concave wall is converted into a convex position. This is a targeted and substantially complete drop delivery realized.

Of the inventive receiving area has preferably a single opening on. This, preferably circular, opening has preferably the drop diameter or is slightly smaller. Since the elastic wall according to the invention deformed to different degrees can be and thus different sized drop volumes are defined can, varies depending on the deformation also the opening of the recording area. Thus, the receiving area or the chamber not according to the invention with a pantry, in which there is a larger amount of liquid connected.

One substantial advantage of the pipetting device according to the invention in that a non-contact Delivery of the droplets out of the chamber possible is. It is for dropping thus not required, with the droplets for dispensing the well bottom or to touch the corrugated wall.

There the pipetting device according to the invention exclusively has a small, preferably Kugelkarlottenförmige chamber and no Channel system or the same is provided, the pipetting device according to the invention be cleaned in a simple manner. This is usually a dip in a cleaning fluid or a rinse the tip of the pipetting sufficient.

Further has the pipetting device according to the invention the advantage that high process speeds can be realized can. This is due in particular to the fact that the drop in the Pipetting device according to the invention can not fall off and thus ensures high reliability is.

following the invention will be described with reference to a preferred embodiment explained in more detail in the accompanying drawings.

It demonstrate:

1 a schematic longitudinal section of the tip of the pipetting device before drop recording,

2 a schematic longitudinal section of the tip of the pipetting device with a recorded drop and

3 a schematic longitudinal section of the tip of the pipetting device during a drop delivery.

The pipetting device has a housing 10 on, preferably to an axis 12 is rotationally symmetric. At a tapered end 14 , or a tip 14 , of the housing 10 is a receiving area or a chamber 16 educated. The chamber 16 is by a hemispherical, elastic chamber wall 18 educated. The wall 18 is in a recess of the housing 10 , which is circular, arranged and at an annular housing end 20 by gluing or the same with the housing 10 connected.

Inside the case 10 is a delivery element in the illustrated embodiment, a piezo-actuator 22 intended. The piezo actuator 22 has electrical connections 24 on. Between the piezo actuator 22 and the chamber wall 18 is a room 26 arranged, which is filled in particular with a substantially incompressible medium. By pressing the piezo actuator, a pressure pulse on the in the room 26 existing medium exerted and from the medium to the chamber wall 18 transfer. It is also possible that the piezo actuator 22 directly on the chamber wall 18 acts.

In the chamber 16 is by dipping the tip 14 a drop of liquid 28 ( 2 ) due to capillary and / or adhesion forces. The absorbed liquid drop 28 lies on the inside of the wall 18 at. In this case, the chamber 16 an opening 30 on, whose diameter is the diameter of the drop 28 is equal to or slightly smaller, with the diameter of the opening 30 depending on the degree of protuberance of the chamber wall 18 is variable.

For dispensing the liquid drop 28 is through the piezo actuator 22 generates a pressure pulse, so that the chamber wall 18 turned inside out ( 3 ) and the drop 28 directed.

Claims (11)

Pipetting device for receiving and dispensing small volumes, with a receiving area ( 16 ) for fluid intake, with an elastically deformable wall ( 18 ) and one on the chamber wall ( 18 ) acting delivery element ( 22 ), characterized in that the receiving area ( 16 ) for receiving a single drop of liquid ( 28 ) is formed by means of adhesion and / or capillary forces. Pipetting device for receiving and dispensing small Volumes according to claim 1, characterized in that the receiving area kugelcarlottenfömig is. Pipetting device for receiving and dispensing small volumes according to claim 1 or 2, characterized in that the receiving area ( 16 ) is formed such that it the liquid drop ( 28 ) only partially absorbs. Pipetting device for receiving and dispensing small volumes according to one of claims 1-3, characterized in that the receiving area ( 16 ) a single opening ( 30 ) having preferably circular cross-section. Pipetting device for receiving and dispensing small volumes according to one of claims 1-4, characterized in that the diameter of the opening ( 30 ) is less than or equal to the drop diameter. Pipetting device for receiving and dispensing small Volumes according to one of the claims 1-5, by characterized in that the receiving area as a recess, in particular chamber-like depression with a preferably substantially hemispherical configuration is trained. Pipetting device for receiving and dispensing small volumes according to one of claims 1-6, characterized in that the wall ( 18 ) is ausstülpbar. Pipetting device for receiving and dispensing small volumes according to claim 7, characterized in that the protuberance by means of the dispensing element ( 22 ) he follows. Pipetting device for receiving and dispensing small volumes according to one of claims 1-8, characterized in that the wall ( 18 ) a recess of a housing ( 10 ) closes the pipetting device. Pipetting device for receiving and dispensing small volumes according to one of claims 1-9, characterized in that the dispensing element ( 22 ) has a piezo actuator. Pipetting device for receiving and dispensing small volumes according to one of claims 1-10, characterized in that the curvature of the wall ( 18 ) is variable to vary the drop volume.