DE2812235A1 - Tablet compressive strength test rig - with two load cells in opposite directions recording fracturing force - Google Patents

Abstract

The parent patent described a test rig to determine the compressive strength of tablets by applying to them a force until the tablet fractured and by measuring that force by a load cell on a back-up element. This supplied reliable results only for the same tablet dia. or thickness. In this addn., this weakness has been remedied by using instead of the one load cell and back-up lever an articulated lever and two load cells. The new lever is hinged at the top and articulated in the centre, with the two parts acting on load cells in opposite directions.

Description

Device for the objective determination of the compressive strength

of tablets 1. Addition to German patent application P 2 503 683.3-52 In the course of further development, the invention relates to a device for the objective Determination of the compressive strength of tablets a lever system for error-free Pressure measurement with tablet-shaped test objects of various sizes and lungs With the help of two strain gauge load cells.

The device according to the main patent ..........., (file number of Patent application P 2 503 683.352) consists of two movable relative to each other Stamp between which an inserted tablet-shaped test specimen until it is destroyed a continuously increasing pressure can be exposed to the moment the destruction exerted on the tablet-shaped test specimen pressure is measured. This device is characterized by the combination of the following features: a) the pressure stamp can be placed directly on the test item b) on the test item a counterpart can be brought up directly as a stamp, between and the base frame a DMSZ load cell is arranged.

The counterpart advantageously has a recess for centering of the tablet-shaped test specimen. The pressure stamp can, for example, about a rod or spindle or other common force transmission elements to one Force transducers are connected, it is provided that the pressure ram after the destruction of the test item is automatically returned to the starting position will.

It has been found that this device for objective determination the compressive strength of tablets only delivers perfect measurement results if the tablet thickness or the tablet diameter is always constant. In the In practice, however, tablets from individual production batches often differ Thicknesses or diameters; but this means that when measuring the compressive strength the force attack points of the pressure ram are different from each other, depending on the thickness or

the diameter of the specimen.

These disadvantages can be eliminated by the fact that the im Main patent provided single strain gauge load cell acting force by means of a lever system is transferred to two directionally opposing strain gage load cells, so that the force Fm acting on the test object results from the difference between the two, Forces F1 and F2 measured at the individual load cells results, with the following Relationship exists: Fm = F1 -F2.

Due to this measuring system, the tablet thickness is not possible Error in the measurement. The prerequisite for this is that the force is on the two DMS load cells transferring measuring levers completely free of play in the two Directions to the load cells is stored. This is best done by that the measuring lever is hooked into a support lever via precision bearings and the support lever itself is also suspended by means of low-friction ball bearings will. A tension spring or some other resilient element holds the measuring lever in one Starting position.

For a better understanding, reference is made to Figures I and II, the in an exemplary manner the distribution of the force acting on the test object the two load cells illustrate.

Figure 1 shows the front view of the suspended in a play-free Carrying lever swing-out measuring lever; Figure 2 shows a side cross-section same arrangement.

The test item (1) is pressed against the measuring lever by the pressure stamp (10) (2) pressed. The ram tries to turn the measuring lever away from the load cell (4). The second load cell (5) prevents this, the equilibrium of forces F1 = Fm + F 2 arises. The measuring lever is free of play in its position from the support lever (6) and the tension spring (7) held. The support lever (6) in turn hangs over 2 smooth-running Precision ball bearings (8) on the support frame (3). The two precision ball bearings (9) connect the measuring lever (2) to the carrying lever (6). The tension spring (7) brings a light Pre-tension on the measuring lever (2) and can also be adjusted by moving the suspension point (11) can be used for adjustment.

By a preferably electronic-logical linkage of the analog electrical measured values of the two stretch marks pressure cells (4) and (5) are calculated the measured value Fm from the subtraction F1-F2. The force of the spring (7) can be as Constants can be compensated for, which can be derived from the equation Fm = (F1 - Fspring) F2 emerges. In addition, the spring force is very small compared to the measuring force Fm.

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Claims (4)

P a t e n t a n s p r il c h e 1. Improved device for objective Determination of the compressive strength of tablets according to DBP ........... (patent application P 2 503 683.3-52) consisting of two stamps that can be moved relative to one another, between which an inserted tablet-shaped test object continuously until it is destroyed increasing pressure can be exposed to the moment of destruction on the tablet-shaped PrUflinz a.usFeübte pressure is measured and what the following Features: a) the pressure stamp can be placed directly on the test item and b) a counterpart can be brought directly to the test item as a stamp, between the and the base frame a D load cell is arranged, wherein the Improvement is characterized in that the acting on the DMS load cell Force by means of a lever system on two opposing directions arranged strain gauge load cells is transmitted, whereby the on the test object Acting force Fm from the difference between the two5 at the individual load cells measured force F1 hzw. F2 yields. 2) Improved device according to claim 1, characterized in that that the lever system that transmits the force to the two DMS load cells consists of a measuring lever, a support lever and a fixed support frame Measuring lever completely free of play in the two directions to the load cells in the support lever stored and the support lever in turn is suspended play-free in the support frame. 3) Improved device according to claims 1 and 2, characterized in that that the measuring lever is held in its starting position by a tension spring and the measuring lever by means of low-friction ball bearings in the support lever, the support lever by means of Corresponding ball bearings are suspended without play in the support frame. 4) Device according to claims 1 to 3, consisting of a pressure stamp (10), a measuring lever (2), a load cell (4), a second load cell (5), a support lever (6), a tension spring (7), a support frame (3) and precision ball bearings (8) and (9), these elements being arranged in relation to one another according to FIGS. I and II are.