DE1067241B - Device for measuring forces with strain gauges - Google Patents

Description

GERMAN

kl. 42 k 7/05

INTERNAT. KL. G Ol I

PATENT OFFICE

Sch 25562 IX / 42k

REGISTRATION DAY: FEBRUARY 20, 1959

NOTICE '

THE REGISTRATION

AND ISSUE OF THE

EDITORIAL ·. 15. O KT O B E R 1959

Strain measurement of

The invention relates to a device provided with strips for Forces.

Various devices have already become known for this purpose. Because of the simple Type of structure and the possibility of transferring the measured values to a remote from So-called electrical load cells have to be transferred to the evaluation point located at the measuring point more and more introduced. These essentially consist of a tension or compression load Measuring element whose length changes under load in electrical strain gauges attached to it Cause changes in conductivity, which serve as a measure of the load. Known devices have such measuring members in the form of pillars or cylinders that can be loaded in their axial direction.

It is a peculiarity and usually an advantage of the load cells described above that with virtually "pathless" measurements can be carried out for them. By shock loads or due to carelessness or for any other reason, forces can occur which affect the measuring range far exceed the load cell. Such overloads usually lead to damage or destruction of the load cell. This danger is particularly prevalent, for example in crane operation, where uncontrollable forces when catching the hook or when lifting loads jerkily may occur. Attaching stroke limit stops to protect against overload damage is practically not possible with such load cells because of the short measuring path. . Therefore, only partial utilization of the measuring range is often chosen as a solution. the The measuring device is therefore only used for normal measurement with part of its measuring range, while the rest is provided as a safety area for possible overloads. This is so disadvantageous, as the size of the possible overload can only be estimated, so that it is exceeded of the intended area is still possible with the consequences mentioned. The limitation of the Measurement range also inevitably leads to a reduction in the measurement accuracy, because certain Errors have an absolute size and are not proportional to the measured value.

The invention aims to avoid these disadvantages of the known devices and achieves this in that between a component connected to the force and a component connected to the abutment two or a plurality of essentially U-shaped, preferably elastic measuring members, which the two Leg connecting arch part Strain gauge-provided with strain gauges Device for measuring forces

Applicant: Carl Schenck

Maschinenfabrik GmbH, Darmstadt, Landwehrstr. 55

Karl Hoffmann, Darmstadt, has been named as the inventor

fen or carry the like measuring elements, so inserted are that the force acts near their free leg ends. With such a design of the Despite sufficient stability and low overall height of the measuring elements, the device has such a large measuring path achieved that given the possibility of attaching a functional stroke limiter stop is. The device according to the invention can be used both on train and with the aid load deflection means known per se, for example constructions overlapping one another in the manner of chain links, or sliding implementation of the crane hook shaft through the crossbeam, subjected to pressure will.

The individual measuring elements can be attached in any way to the components or between them be clamped. You can also - if necessary together with the attacks - with the Components to be combined into one piece. With detachable connections between components and measuring elements it is possible in a simple way, while maintaining the overall height, by inserting a more or less large number of measuring elements to adapt the device to the desired load range. It is still possible to work out both the individual parts and the entire device from one piece, z. B. by milling, drilling, etc.

According to a further invention, it is particularly expedient to design the stroke limiter stop in such a way that that it also limits lateral shifts.

According to a further invention, it is expedient to close a kind of articulation points by reducing the cross section create that, especially when attached in the vicinity of the load application, a good deformation at the measuring points cause, so that a particularly favorable measuring effect is achieved.

909 638/173

In the figures, exemplary embodiments of the invention are shown schematically. Same Parts have the same reference numbers in all of the figures.

Fig. 1 shows a pressure-loaded device with two measuring brackets 1,2, which are placed between a component 3 to be placed on a crane hook traverse or formed by this itself, through which the crane hook 4 is passed, and a component connected to the crane hook or loaded by it 5 are inserted. The component 3 is pulled up at the same time as a stop 3 'to limit the stroke. The load hanging on the crane hook 4 acts on the free legs of the U-shaped measuring members 1, 2 and presses them together, the measuring path α being limited by the stop 3 '. Strain gauges 6, 7 are attached to the arches connecting the legs of the measuring members, of which the strips 6 measure an elongation and the strips 7 a compression under load. All known elements for electrical measurement of surface expansion or compression can be used as strain gauges, for example passive elements that are based on the change in resistance of an electrical conductor, such as wire or foil strips made of resistance or semiconductor material, or active elements that the exploit the piezoelectric effect of a material.

In Fig. 2 is a plan view of a device is shown in which more than two measuring members 1, 1 ', 1 "; 2, 2 ', 2 "are arranged in a star shape.

Fig. 3 shows a device in which the measuring elements and the stops S consist of one piece.

In Fig. 4 the measuring elements 1, 2 are machined from a piece of material by making holes and slots. At the points 8, the cross-section of the measuring members 1, 2 is reduced, so that there is a kind of articulation point. With such a design, a particularly large deformation occurs at the points carrying the strain gauges 6, 7.

The embodiment according to Fig. 5 corresponds essentially to that according to Fig. 1. As a variant, is here the stop 5 'attached to the component 5 and formed at the point 5 "so that it in addition to a Stroke limitation at the same time also causes a limitation against lateral displacement. Analogous to In the embodiment according to Fig. 4, articulation points 8 are also provided here.

Fig. 6 shows a device in which the measuring elements and components are machined from one piece.

All of the illustrated embodiments can be used in a manner known per se for measuring compressive forces, z. B. in the manner shown in Fig. 1, or used to measure tensile forces. in the in the latter case, the notices are to be redesigned accordingly.

Claims (5)

Patent claims: 1. Device provided with strain gauges for measuring forces, characterized in that that between a component connected to the force and a component connected to the abutment (3, 5) two or more essentially U-shaped, preferably elastic measuring elements (1,2), the strain gauges (6, 7) on the part of the arch connecting the two legs or the like measuring elements are inserted so that the force is close to their free Attacks thigh ends. 2. Apparatus according to claim 1, characterized in that the relative movement of the two components (3, 5) mutually limiting stop (3 ', 5') is provided. 3. Apparatus according to claim 1, characterized in that the measuring elements points (8) are smaller Cross-section, preferably in the legs near the load application, have. 4. Device according to one of claims 1 to 3, characterized in that the measuring members (1, 2) or components (3, 5) by attaching Recesses, bores or the like. Are machined from solid material. 5. Device according to one of the preceding claims, characterized in that the components (3, 5) measuring elements (1, 2) and / or stops (3 ', 5') consist of one continuous piece. 1 sheet of drawings