SU10814A1 - Strain gauge - Google Patents

Description

The proposed device, made without the use of hinges, is intended to serve either to measure the deformations of the tested materials, or, depending on the size of its elastic plate, to measure - the forces.

In FIG. 1 shows a diagram of the device; FIG. 2- front view of the device; FIG. 3 is the same side view; FIG. 4th version of the device; FIG. 5 - fastening of the test sample in the device (front view); FIG. b the same, in the side view.

The device device, when used as an extensometer for measuring small deformations, is as follows.

The thin and very flexible plate A (steel or from some other elastic material) has a narrow holder B in the middle of its length, which tightly covers it, which is achieved by riveting or in any way providing a reliable and rigid connection. One end of the flexible plate A, for example, left, is clamped between two metal plates (upper a and delicate 6), connected into one rigid whole. The other (right) end of the flexible plate A lies between the two other plates a, and 6b also between each other rigidly connected, but giving some direction in the direction of its length. If plate A is flexible will be made of a material not only elastic, but also elastic (for example, rubber), then its both ends can be fixed completely rigidly between the plates surrounding it.

The upper left plate a is a single rigid unit with a guide frame D, within which a rod can be moved, rigidly connected to the right upper plate fli.

The bottom plate and ends with the rod i, which can move in the guide frame DI, rigidly connected with the bottom right plate 6j. The entire device must be arranged so that the geometrical axes of both rods and 1 and both of the guide frames Z) and Z) i lie on the same straight line passing through the middle of the flexible plate A, where the collar -B is placed.

If the guides are D and DI. will begin to move one relative to the other (in the direction of the arrows), then plate A will bend and take some curvilinear shape, shown in the schematic drawing by a dotted line (a dash with a dot). The bending of plate A will be accompanied by a rotation angle, the magnitude of which can serve as a measure of the relative mutual displacement of the frames Z) and D. Since the clip B is fixed motionless on the middle cross section of the plate A, then it will turn around its own axis the angle, on which the average cross section of the most flexible plate A has turned. The magnitude of the angle of rotation of the sleeve, and hence the average cross section of the plate A, can be measured in a well-known way by means of the telescope. T, scales L "and mirrors C, mounted on holder V.

If in the described device a thin ß-plate is replaced with a thicker one, then the device turns into a dynamometer, which serves to measure the magnitude of the forces applied to the framework of the device. In this case, the entire device can be made of one piece of steel, as shown in FIG. four.

The installation of the instrument on the test specimen is carried out with the help of two extension sleeves K, which are put on and fixed on the guides of the D and DI of the instrument, as shown in FIG. 5 and 6. The sleeves may be of different lengths and the steel prisms placed on them must rest on the sample, limiting the portion of the material whose deformations are to be determined. Springs can be used to hold the instrument to the specimen, covering the guide frames of the instrument and the specimen in exactly the same way as with the usual installation of a Martens mirror instrument.

The subject of the patent.

1. A device for measuring deformations, characterized by the use of a thin flexible plate A, to which in the middle of its length a narrow holder B is attached, carrying a mirror C, and which is clamped at one end between plates A and L and the other end is placed with the freedom interconnected plates "i and b of which plates the plate a is one rigid whole with a guide frame D within which the rod E, rigidly connected with the plate C, and plate 6 is connected with the rod), move in the guide frame D, rigidly connected to the plate, wherein the geometrical axes of the rods E and EI and the guides D and DI lie on the same straight line passing through the middle of the plate A2. In the device described in paragraph 1, use rigid fastening both ends of the plate A between the capturing plates, in case the plate A is made of an elastic material.

3. Modification of the device described in paragraph 1 when it is used as a dynamometer, characterized in that plate A is made of thick steel and is integral with the parts of DtiDi made in the form of massive rods.

E to the patent of V.F. Lorentz No. 10814