DE3518865C2 - Method and device for volumetric measurement of highly viscous liquids - Google Patents

Description

The present invention relates to a method for volumetric measurement of highly viscous liquids the preamble of claim 1 and a device to carry out this method according to the preamble of Claim 3.

In connection with known metering devices, the Dosing and dispensing amounts of liquid in the µl range, the problem arises that even small changes in the Stroke adjustment of the quantity dosing device or in the Piston seal as well as temperature changes and changes of the fluid pressure lead to considerable deviations can. It is therefore necessary that the user in regular intervals, especially after service work and the like. The dispensed from the metering device Checked the amount of liquid. In this context it is is known, the given by the metering device Amount of liquid with the help of an analytical balance weigh and the resulting weight on volume to convert. There is a major disadvantage especially in the fact that many manufacturing plants do not have  Analytical balances of suitable resolutions have that such analytical balances are relatively expensive and that Measuring process with an analytical balance is very time consuming.

From DE-PS 31 43 341 is a test vessel for displaying a defined liquid volume is known, in which one too Checking the amount of liquid in the opening of a vessel is introduced. A plug is then inserted into this opening a capillary and down to the bottom of the opening pushed. Because the inside diameter of the opening and the The outside diameter of the stopper is precisely coordinated no liquid can escape and the liquid becomes quantitatively completely in the capillary pushed in. There are markings for a on the stopper Nominal volume, an upper and a lower tolerance limit arranged. Disadvantages of this method exist especially in that it is very expensive and that after Plugs or pipettes used several times during each measuring process need to be cleaned or used disposable pipettes are relatively expensive. This procedure is also in the Connection with volumetric measurements on highly viscous Liquids not very practical.

The object of the present invention is therefore to a method for volumetric measurement of highly viscous Liquids, especially in the µl range, are extremely is simple and comparatively time-saving, and an apparatus for performing this method specify which is easy to use and inexpensive can be produced.  

This task is accomplished through a process of the beginning mentioned type, which by the in the characteristic part of the Claim 1 specified features is characterized, and solved a device by the in the characterizing part of claim 3 is.

A major advantage of the invention is that it all that is required is one to be measured Amount of liquid on a transparent disc to apply the disc on the flat surface of a Place the measuring plate and the contour of between the floor a depression of the measuring plate and the disc deformed Amount of liquid shown on a template compare the given contours.

Advantageously, the change in the invention the depth of the depression on the one hand Extension of the measuring range and secondly an increase in the Measurement accuracy can be achieved.

In an advantageous embodiment of the invention, in several indentations are provided next to each other on the measuring plate, so that multiple measurements in a single measurement operation carried out and their results compared can be.

A major advantage arises when the Wells are formed circular-cylindrical, because then  the transparent pane is as large as possible, so that adulterations are largely avoidable caused by a deflection of the disc.

The flat surface of the measuring plate and the depressions are preferably through a highly accurate milling operation that performed with an NC milling machine, for example is generated in one setup. This is special advantageous because it is then ensured that the predetermined depths of the wells can be reached exactly and because it can be ensured in a simple way can that the bottoms of the wells and the level Surface coplanar or parallel to each other are.

To make the handling of the present device so easy to design as possible, the measuring plate at least two stops aligned orthogonally to each other, especially an edge and a stop pin so that the disc on the measuring plate quickly and easily in one defined location can be brought.

The use of a glass is particularly advantageous existing disc, since their modulus of elasticity is large.

To apply the amounts of liquid to the disc advantageously used a metering aid, the Disc holds in a defined position and markings has, which is in the defined position below the Disc and the areas for applying the  Mark the amount of liquid that is present when applying the disc onto the measuring plate above the corresponding one Wells. The has particularly advantageous Dosing aid a recess complementary to the disc Pick up the washer with the bottom of the recess is flexibly designed so that the disc in an extreme simple and practical way after applying Amounts of liquid at the touch of a finger from below the recess can be removed.

The invention and its embodiments are described below explained in connection with the figures. It shows

Figure 1 shows the individual parts of the present device.

Figure 2 shows the present device in the assembled state.

Fig. 3, an applicable in connection with the present apparatus template.

In Fig. 1, preferably made of high-strength aluminum measuring plate of the present apparatus is designated by 1. It has the flat surface 2 , in which there is at least one depression 3, 4, 5, 6 . A plurality of depressions which have different depths are preferably arranged next to one another in the surface 2 . A transparent pane 7 can be applied to the flat surface 2 of the measuring plate 1, preferably in a defined position. This defined position is determined by at least two stops which are expediently arranged orthogonally to one another. These stops preferably consist, in the manner shown in FIG. 1, of a stop edge 8 and at least one pin-shaped, laterally arranged stop 9 .

In order to ensure that the bottoms of the depressions 3, 4, 5 and 6 and the flat surface 2 of the measuring plate 1 are aligned parallel to one another, the depressions 3, 4, 5, 6 and the flat surface 2 are preferably produced by a highly precise milling operation, which is preferably carried out on an NC milling machine. Through this milling operation, the stop edge 8 can be produced simultaneously.

The transparent pane 7 is preferably made of glass, since this has a particularly large modulus of elasticity. The depressions 3, 4, 5, 6 expediently have the shape of a circular cylinder. This has the advantage that the contact surface of the disk 7 is as large as possible, so that slight measurement errors caused by the deflection of the disk 7 can be avoided.

Finally, a dosing aid 10 can be used which consists of a plate 11 which has a recess 12 for receiving the disk 7 . At the bottom of the recess 12 there are markings 3 ', 4', 5 ', 6' which indicate those areas of the transparent disk 7 which, after the disk 7 has been applied to the measuring plate 1, above the corresponding depressions 3, 4, 5, 6 are located. The bottom of the recess 12 is preferably designed to be flexible, so that a disc 7 located in the recess 12 can be easily pushed out of the recess from below. For example, this is achieved in that a plastic or leather part 13 is glued to the lower side of the plate 11 , which at least partially closes the recess 12 on the lower side and has the flexibility mentioned.

On the side edges of the plate 11 of the metering aid 10 , an edge 14 extending perpendicular to the surface of the plate 11 can be provided, which increases the torsional rigidity of the metering aid 10 and represents a gripping surface.

The use of the device according to the invention is explained below in connection with FIGS. 2 and 3. For example, when assembling printed circuit boards in the so-called SMD technology, the individual components are applied to predetermined areas of the printed circuit board and glued there with the aid of a highly viscous adhesive to them until a later wave soldering operation, in which the electrical connection between connection areas of the printed circuit board and the components are manufactured to hold in a defined position. The highly viscous adhesive is applied in the form of a small liquid column from a hollow needle of a metering device, which is lowered onto the surface of the circuit board. After the needle has been lowered, a defined amount of liquid is expelled using a lifting piston.

When using a dosing aid 10 , the glass pane 7 is first inserted into the recess 12 in the plate 11 of the dosing aid 10 (arrow 17 in FIG. 1). On the areas of the disk 7 marked by the markings 3 ', 4', 5 ', 6' , liquid quantities of the highly viscous adhesive are then applied through the needle 16 ( FIG. 1) of the metering device. The metering aid 10 is preferably designed such that the surface of a disk 7 inserted into the recess 12 is at the same level as a circuit board inserted into the metering device.

After applying the quantities of adhesive 15 , the disk 7 is removed from the recess 12 of the metering aid 10 and placed on the flat surface 2 of the measuring plate 1 (arrow 18 in FIG. 1) such that the individual quantities of adhesive are in the region of the depressions 3, 4 , 5 and 6 are located and are each deformed between the bottoms of these depressions and the flat glass sheet 7 . This can be seen from FIG. 2, which shows the state in which the disk 7 is placed on the surface 2 of the flat measuring plate 1 . Due to the transparency of the disc 7 , the contours of the deformed between the bottoms of the wells 3, 4, 5 and 6 and the disc 7 amounts of liquid 15 'are clearly visible. These contours of the deformed amount of liquid 15 ' are now compared with the contours or measuring rings 19 contained on a template 16 ( FIG. 3). For this purpose, the template 16 , which preferably consists of a transparent plastic material, is placed on the surface of the disk 7 facing away from the measuring plate 1 (arrow 20 in FIG. 2). The template 16 is moved until a measuring ring 19 corresponds to the contour of a deformed amount of liquid 15 . Since the template 16 is provided for a predetermined depth of a recess 3, 4, 5 or 6 , each measuring ring 19 corresponds to a predetermined volume of the amount of liquid. The volume results from the following equation:

V = d² / 4 · π · h

In this equation V denotes the volume, d the diameter of the deformed amounts of liquid 15 ' and h the depth of the depression or the size of the gap between the bottom of a depression and the flat surface of the disc 7 facing the bottom. The small deviations that result from the fact that the measuring volume does not lie exactly in the form of a cylinder, but rather in the form of a barrel, can be neglected, because the curved area resulting from the small gap height h is small compared to the diameter d is.

It is essential that even if the amount of liquid applied is not ration-symmetrical (perpendicular to the disk 7 ), due to the high surface tension and the homogeneity of the measuring fluid or the adhesive, an almost circular cross section of the deformed amount of liquid after the disk 7 has been placed on the flat surface 2 is reached.

In order to expand the measuring range of the present device, the depressions 3, 4, 5, 6 arranged next to one another in the flat measuring surface 2 of the measuring plate 1 can have depths h of different sizes , a separate template 19 then being provided for each depression. The accuracy of the measuring method can also be optimized by adapting the depth of the depressions 3, 4, 5, 6 to the volume of the expected amount of liquid. If several wells of the same depth are provided, several amounts of liquid can be measured in one measuring operation for comparison purposes.

Claims (13)

1. A method for the volumetric measurement of highly viscous liquids, in particular in the µl range, characterized in that an amount of liquid ( 15 ) is applied to the surface of a transparent disc ( 7 ), that the disc ( 7 ) on the at least one recess ( 3, 4, 5, 6 ) having a flat surface ( 2 ) of a measuring plate ( 1 ) that the amount of liquid ( 15 ) is in the area of the depression ( 3, 4, 5, 6 ) and between the bottom of the depression ( 3, 4, 5, 6 ) and the disc ( 7 ) is deformed and that the contour of the deformed amount of liquid is evaluated for volume determination. 2. The method according to claim 1, characterized in that for determining the volume, the contour of the deformed amount of liquid ( 15 ' ) with measuring rings ( 19 ) for a predetermined depth of the recess ( 3, 4, 5, 6 ) provided template is compared. 3. Device for performing the method according to claim 1 or 2, characterized in that it has a measuring plate ( 1 ) with a flat surface ( 2 ), in which at least one recess ( 3, 4, 5, 6 ) is arranged, and one has on the flat surface ( 2 ) of the measuring plate ( 1 ) in a predetermined position transparent disc ( 7 ) to be placed. 4. The device according to claim 3, characterized in that a plurality of depressions ( 3, 4, 5, 6 ) are arranged side by side in the flat surface ( 2 ). 5. The device according to claim 4, characterized in that the depressions ( 3, 4, 5, 6 ) have different depths. 6. Device according to one of claims 3 to 5, characterized in that the disc ( 7 ) consists of glass. 7. Device according to one of claims 3 to 5, characterized in that the measuring plate ( 1 ) has at least two mutually orthogonal stops ( 8, 9 ) for the disc ( 7 ). 8. The device according to claim 7, characterized in that the stops consist of a flat surface ( 2 ) on one side delimiting edge ( 8 ) and a stop pin ( 9 ). 9. Device according to one of claims 3 to 8, characterized in that it comprises a metering aid ( 10 ) having a plate ( 11 ) in which a recess ( 12 ) with a bottom for receiving the disc ( 7 ) is arranged . 10. The device according to claim 9, characterized in that at the bottom of the recess ( 12 ) markings ( 3 ', 4', 5 ', 6' ) are arranged which mark the areas of the disc ( 7 ), which are after the arrangement the disc ( 7 ) on the flat surface ( 2 ) in the predetermined position above the recesses ( 3, 4, 5, 6 ). 11. The device according to claim 9 or 10, characterized in that the bottom of the recess ( 12 ) is formed by a flexible material part. 12. The apparatus according to claim 11, characterized in that the material part is made of leather or plastic. 13. Device according to one of claims 3 to 12, characterized in that around the side edges of the plate ( 11 ) of the metering aid ( 10 ) an edge ( 14 ) extending perpendicular to the surface of the plate ( 11 ) is formed.