SU947656A1 - Turbine bearing measuring chuck - Google Patents

Description

The invention relates to instrumentation engineering, in particular to devices for measuring the force acting on turbine thrust bearings.

A device for measuring loads on supports of large turbine units is known, which makes it possible to determine the force transmitted from the shaft to the bearings and the foundation by means of an oil drainage system Cll

The disadvantage of the device is its complexity and limited measurement points, reducing the accuracy of determining the magnitude and direction of the measured effort.

Closest to the proposed technical entity is a measuring block of a turbine support bearing, containing a centering pad with a groove attached to the liner, in which a load cell is located located in the center of the pad and extending beyond C23.

The drawback of the device is that it does not allow determining the lateral components of the load at the points of the oil supply to the turbine shaft and, as a result, has an insufficient accuracy in measuring the resultant force.

The purpose of the invention is to improve measurement accuracy and enhance functionality.

The goal is achieved by the fact that the groove of the block is made deaf, is located in the corner of the block, and the charge meter is made in the form of a bar with two through slots forming three shelves, with the middle of which is connected to the power-transmitting element fixed in the centering block.

15

FIG. 1 shows a block, a general view) in FIG. 2 shows a section A-A in FIG. 1 in FIG. 3 is the same, left view in FIG. 4 - the same, bottom view.

20

The measuring block consists of a fixing insert 1, in which the shaft 2 of the turbine is located, centering pads 3, with blind grooves 4, in which a force gauge 5 is installed. The measuring gauge 5 is made in the form of a bar with two through slots 6, with flanges 7-9. With shelf 8 is connected a transmitting element 9, which is rigidly fixed

Claims (2)

30 in block 3. The strain gauges 10 of the load cell are included in the measuring circuit. The blind grooves of the centering pad are located in its corner, and in the center of it there is a hole 11 for the oil supply. The device with centering pads is installed in the bearing housing associated with the foundation. The device operates as follows. The measured force from the shaft 2 is transmitted through the locking insert 1 to the centering pads 3, which are deformed. The deformation of the pads 3 is transmitted via the power-transmitting element 9 to the middle shelf .8 of the load cell 5 and converted by means of strain gauges 10 into an electrical signal. In each centering block can be located one or several interconnected load cells. In the latter case, the 6Jifi design symmetry reduces the influence of the eccentricity of the transmission of forces on the centering pad. Since the groove of the pad is made deaf and located in the corner, it is possible to install it on the side surfaces of the locking insert at the oil supply points. Thanks to this, it is possible to measure the lateral component forces transmitted from the shaft, which expands the functionality of the device and enhances accuracy of measurement resultant. The invention The measuring block of the turbine support bearing, having attached to the fixing liner, centering pads with a groove in which a load gauge is installed, characterized in that, in order to increase the accuracy of measurement and enhancement of functionality, the groove is made deaf in the corner of the shoe, and the load gauge made in the form of a bar with two through slots, forming three shelves, with the middle of which is connected a force-transmitting element fixed in the centering shoe. Sources of information taken into account in the examination 1.Runov B.G. and others. On the work support bearings of the turbine K-300-240. Electric stations, 1972, № 2. 2. Investigation of the support reactions and the distribution of the shaft during the operation of the K-300-240 turbine unit. Report KhTGZ D-3578, 1975 (prototype). / ff (pus.i (rig. 3 ipuf.ff