DE8135182U1 - ELECTRONIC SCALE - Google Patents

Description

description

The invention relates to an electronic scale with a parallel guide for the load receiver a transmission lever and with a coupling element between the load receiver and "transmission lever" for transmission perpendicular forces.

Scales of this type are known and, for example, in DE-PS 26 21 483 or in another embodiment in the DE-GM 80 08 791 described. As a coupling element between the load receiver and the transmission lever, these Scales thin straps (DE-GM 80 08 791) or sheet metal strips, which have a cross-sectional reduction produced by embossing, stamping or etching at one or more points (DE-PS 26 21 483). However, these components are very critical in terms of handling and assembly. Even the slightest deviations of the evenness of the coupling element or the parallelism of the mounting surfaces lead to the Coupling element is tensioned during assembly. This can, for example, lead to a change in the effective force application point lead with the load, so that the effective lever arm of the transmission lever depends on the load changes. But even with a flat coupling tape and parallel mounting surfaces, the coupling element can move through the Tighten the torque of the fastening screws during assembly and in extreme cases a cracking frog-like behavior receive.

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The object of the invention is therefore to address the above-mentioned disadvantages of conventional coupling elements in electronic To report scales and, in particular, to specify a coupling element that can be assembled without any problems and that results in a readily reproducible power transmission in the assembled state.

According to the invention this is achieved in that the Coupling element consists of a round rod, which is also a round constriction near its ends having.

The two constrictions create two defined articulation points, as a result of which slight deviations from the parallelism of the mounting surfaces can be compensated. Due to the continuously round cross-section the problem of the evenness of the coupling element no longer plays a role. Also the production of the round coupling element is easy because it is a pure turned part.

The diameter of the coupling element in the area of the constriction is expediently about 1/6 of the diameter in the rest of the area. This dimensioning brings' a sufficient rigidity of the coupling element between the thin spots without increasing the mass of the coupling element too much. The transition from the full cross-section of the coupling element to the constricted cross-section expediently takes place gradually, to notch effects to avoid.

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The round coupling element is advantageously clamped at both ends between a prismatic groove and a flat plate. This will make that The coupling element is clearly fixed in its position and there can be no tension due to the torque of the fastening screws at the. Mount can be transferred to the coupling element.

From the kinematics of the balance it is evident that normally mainly the constriction of the coupling belt, the

towards the transmission lever is stressed on bending. This constriction is therefore advantageous made thinner and / or longer, so that the flexural strength of this constriction is less than that Flexural stiffness of the constriction facing the load receiver.

A particularly good protection for the constrictions of the coupling element results when the coupling element is in the area the constriction is surrounded by a protective tube, which is on one side in the area of the full diameter of the coupling element is attached to this and which is slightly widened on the other side, so that it is the Surrounds coupling element in the area of the full diameter with a small distance. This protective tube thus prevents Excessive bending of the thin constriction, both when manufacturing the scale and when it occurs Buckling of the coupling element in the finished scale «

The round coupling element has the same flexural rigidity in all directions. If it is very sensitive Scales should be necessary, the flexural rigidity in one, stressed when weighing on bending In the area of the constriction, it is expedient to additionally reduce the direction by removing material, E.g. loops, a small area is created on opposite sides, which in this direction stressed on bending when weighing.

has lower flexural rigidity.

The invention is described below with reference to the figures. It shows:

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Pig. 1 a vertical section through an electronic balance,

Fig. 2 enlarges the upper part of the coupling element from Fig. 1 in side view,

3 shows a part of the coupling element in a different embodiment in section,

4 shows a part of the coupling element in another

Design in side view, %

Fig. 5 shows the cross section of the coupling element on the j

Position V - V in Figs. H and j

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6 shows the fastening of the coupling element on the transmission lever 7 in a top view.

The electronic balance in Fig. 1 consists of a ge] support part 1 fixed to the house, on which two handlebars 4 and 5 pounds with the hinge points 6 a load receiver 2 in the lower | right direction is movably attached. The load-bearing; · In its upper part, the taker carries the load tray 3 to | Receipt of the goods to be weighed and transfers the mass of the Weight corresponding force via a coupling element 9 on the shorter lever arm of the transmission lever 7 · The Transmission lever 7 is by a cross spring joint 8 on Support part 1 stored. The compensation force acts on the longer lever arm of the transfer lever 7, which here in the form of a coil 11 and a permanent magnet system 10 for generating an electromagnetic compensation force is shown. The associated control electronics are not shown as they are generally known and is not essential to the invention.

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Instead of the electromagnetic compensation force can the compensation force can also be generated, for example, by a spring element whose deflection is controlled by strain gauges is detected and converted into an electrical signal. This procedure is also general |

known, so that it does not have to be explained in detail.

The coupling element 9 consists of a round rod, which in each has a round constriction 12 and 13 near its upper and lower end. These constrictions each generate an area of lower flexural rigidity, which represent the actual articulation points of the coupling element. Details can be seen in Fig. 2, in which the upper part of the coupling element 9 is shown enlarged in side view. The round bar has one on top Area with full diameter, which is intended to be clamped on the transmission lever 7. A transition area follows 14, within which the diameter gradually increases decreases. Then comes the area of the constriction 12, which has an at least approximately constant, has a small diameter. In a second transition region 15, the diameter gradually increases again to the full diameter of the round rod. The lower constriction 13, not shown in FIG. 2, is corresponding designed. The dimensions of the coupling element and the constrictions depend on the size, maximum load and resolution of the balance. The coupling element should be as robust as possible so that it can be used during assembly is easy to handle, and so that it can transmit larger forces without damage, for example when impacting can. On the other hand, the coupling element should be possible

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lends to be flexible so that it through bending Component tolerances or if the moving part of the balance is deflected from the target settling position, if possible transfers low reaction forces to the weighing system. As a compromise of these opposing requirements, it has proven to be useful to adjust the diameter of the coupling element in the area of the constriction should be chosen approximately by the factor 6 smaller than the diameter of the Koppeleleraentes in the rest of the area.

With a balance geometry as in Fig. 1, where the coupling = element engages on a very short lever arm of the transmission lever 7, when the movable is deflected Part of the balance especially the upper constriction 12 is subject to bending. It is therefore advantageous to use this choose the upper constriction 12 to be somewhat longer than the lower constriction 13, as in Pig. I shown. Of course The same effect can also be achieved through a smaller diameter compared to the upper constriction the lower constriction 13 can be achieved.

The clamping of the coupling element 9 on the transmission lever 7 shows FIG. 5. The transmission lever 7 has a prismatic groove 17 into which the coupling element 9 is placed during assembly and is thereby fixed at the side. Then a flat plate 16 is placed and screwed tight with two screws 18 next to the coupling element. By this type of attachment no torque can be transmitted to the coupling element during assembly.

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Another embodiment of the coupling element with an additional protective tube is shown in Fig. 3- Enlarged, the area around a constriction is shown here in section. The protective tube 20 is attached to the coupling element at one end 21, for example by gluing or laser welding. From there it protrudes beyond the area of the constriction 12 into the area where the coupling element again has its full diameter. In this area 22, the protective tube is slightly widened, so that a circumferential thin gap is created here between the coupling element and the protective tube. As a result, excessive bending stress on the constricted area of the coupling element is prevented without the freedom of movement for the small bends occurring during normal weighing operations being hindered.

Even without this protective tube, there is of course a protection of the coupling element against buckling in the finished balance possible. For this purpose, e.g. the load receiver 2 in Pig. I horizontal ribs with a vertical hole have through which the coupling element is carried out will.

A further embodiment of the coupling element 9 is shown in FIGS. 4 and 5 in addition to the round constriction 12 a small area 19 (Fig. 3) was created by grinding at opposite points, which no longer has a round cross-section, as shown in FIG. As a result, this constriction 12 has in the the flattened areas have a particularly low flexural rigidity in the specific direction. This complicates the Handling of the coupling element again somewhat, but with particularly high demands on the Blegeweichnelt d ^ s Coupling element this can nevertheless be the best compromise between the opposing requirements given above be to the coupling element.

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summary

Electronic scales

For electronic scales with a parallel-guided Load sensor, which is connected via a coupling element (9 in Pig. 1) is connected to a transmission lever, the invention proposes this coupling element made of a round rod produce, which in the vicinity of its ends each have a, also round constriction (12,13). By this geometry results in a robust coupling element which reduces the demands on the quality of the fastening points with good weighing properties (Fig. 1).

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Claims (8)

Sartorius GmbH File SW 8110 Weender Landstrasse 94-108 Kö / kl D-3400 Göttingen Electronic scales Claims: 1. Electronic scales with a parallel guide for the load receiver, with a transmission lever and with a coupling element between the load receiver and transmission lever for the transmission of vertical forces, characterized in that - That the coupling element (9) consists of a round rod, which in the vicinity of its ends one, also-.falls has round constriction (12,13). • a 2. Electronic balance according to claim 1, characterized in that - That in the area of the constriction (12, 13) the diameter of the coupling element (9) is about 1/6 of the diameter in the rest of the area. 3. Electronic balance according to claim 1 or 2, characterized in that - That the transition from the full cross section of the coupling element (9) gradually takes place on the constricted cross-section. 4. Electronic balance according to one of claims 1 to 3, characterized in that - That the coupling element (9) at its ends between a prismatic groove (17) and a flat plate (16) is jammed. 5. Electronic balance according to one of claims 1 to 4, characterized in that - That the diameter of the constriction (12) of the coupling element on the side of the transmission lever (7) is smaller than the diameter of the constriction (13) on the side of the load receiver. SW 8110 6. Electronic balance according to one of claims 1 to 5, characterized in that - That the length of the constriction (12) of the coupling element on the side of the transmission lever (7) is greater than the length of the constriction (13) the side of the load receptor. 7. Electronic balance according to one of claims 1 to 6, characterized in that - That the coupling element is surrounded by a protective tube (20) in the region of the constriction, which is on the one side (21) in the area of the full diameter of the coupling element is attached to this and that on the other side (22) is slightly widened, so that here the coupling element is in the area of the full Surrounds diameter with a small distance. 8. Electronic balance according to one of claims 1 to 7, characterized in that - That in the area of the round constriction (12, 13) additionally by material removal on opposite sides Pages a small area (19) is created, the .in determined by the flattening Direction has a lower flexural rigidity. SW 8110