SU960565A1 - Device for pressure converter graduation - Google Patents

Description

The invention relates to instrumentation design and is intended for use on various types of test benches and installations in industry. Known pick-up devices for creating single pressure pulses in a closed volume of liquid using a falling weight, are made in a fluid filled working cylinder with a floating piston and equipped with a pressure control transducer}} The disadvantage of these devices is the necessary use of a control pressure transducer having the best metrological characteristics than investigated. The closest in technical essence and the achieved result to the proposed device is a device for calibrating pressure generators, containing a cylinder with a stepped working cavity, a working medium, an incompressible piston and electromagnetic holders of the piston 2. However, the known device also does not provide for the calibration of sensors in wide range of frequencies. The purpose of the invention is to expand the range of calibration. This goal is achieved by the fact that in a device for calibrating pressure transducers containing a cylinder with a stepped working cavity filled with working medium, an incompressible piston and electromagnetic piston holders, the piston is made in the form of a cylinder whose height is less than the height of the extended stage of the working cavity. Gas was used as a working medium to obtain resolution pulses in the device. Figure 1 shows the proposed device, the cut; figure 2 - section aa in figure 1. 39 The device contains a working cylinder 1 made of a material with a low coefficient of friction, for example, with a coating of fluoroplastic that has holes 2 in the side surface. The holes are located at equal distances from the ends of the cylinder and have the shape of rectangles. The piston 3 is made in the form of a cylinder. The piston height must be at least one of its diameter. The vertical size of the holes in the cylinder must not exceed a height of the cylindrical piston by more than 0.1 of its height. Failure to comply with these ratios leads to device malfunction. Toroidal electromagnets Ts are installed at the ends of the working cylinder. There are sockets at the ends of cylinder 1. yes 5 for converters. The device for calibration of pressure pulse distributors operates as follows. Two modes of operation are possible: working with a light piston, whose weight divided by the cross-sectional area is less than 1 kg / cm and working with a heavy piston, whose weight divided by the area of its cross-section is greater. 1 kg / cm. During operation in the first mode, at the initial moment, the working cylinder 1 is installed strictly vertically. The unconsolidated cylindrical piston 3 is held in its upper position by an electromagnetic holder. The graduated pressure pulse transducer is installed in the lower socket 5 and is subjected to a constant pressure of one atmosphere. The graduated pressure pulse converter, which is installed in the upper socket 5, also experiences a pressure of one atmosphere. After the electromagnetic holder 4 is turned off, the piston 3 falls down under the force of gravity. In this case, a pressure acts on the upper transducer that is equal. differences in atmospheric pressure and piston weight divided by its cross-sectional area. The lower converter is still under pressure from one atmosphere. During the piston movement to the middle of the cylinder, the picture of the acting pressures remains unchanged: a constant amplitude discharge pulse acts on the upper transducer, and atmospheric pressure remains on the lower transducer. When the upper edge of the cylinder 3 passes through the upper border of the holes 2, atmospheric pressure acts on the upper transducer and on the lower one. After passing the lower boundary of the piston to the lower boundary of the holes, an additional pressure pulse acts on the transducer, equal to the weight of the piston divided by its base area. This pressure pulse is superimposed in the form of overpressure on the atmospheric pressure previously in effect. At the upper transducer, atmospheric pressure is abruptly restored. This picture of the pressures acting on the transducer remains unchanged during the entire movement of the piston along the working cylinder in its lower part. I Then turn on the lower electromagnetic holder 4 pistons and turn the working cylinder with the base upwards. The entire calibration process is repeated from the beginning. Thus, in one calibration cycle in the first mode of operation, a discharge pulse and an overpressure pulse act on the converter under test, the magnitude of which is determined absolutely by weighing the piston. The proposed device makes it possible to determine the symmetry of the characteristics of the transducers under test, which does not allow the known device to be made. When the device operates in the second mode, the heavy piston 3, after turning off the electromagnetic holder k, under the action of gravity, falls down. In this case, a decreasing pressure acts on the upper transducer, the value of which at the given moment is precisely determined by calculation. All other phases of the operation of the device do not differ from the first mode. Expansion of the calibration range also occurs by increasing the mass of the piston, by increasing erq.

heights. The device produces pressure pulses ranging from -1 to several atmospheres.

Claims (2)

1. A device for calibrating pressure transducers containing a cylinder with a stepped working cavity filled with a working medium, an incompressible piston and electromagnetic piston holders, about the fact that, in order to expand the range of calibration, the piston is made in the form of a cylinder, the height of which less than the height of the extended stage of the working cavity. 2; A device according to claim 1, wherein it is used in order to obtain discharge pulses, gas is used as the working medium. Sources of information taken into account in the examination 1. USSR author's certificate M-I698i 0, cl. G 01 L 27/00, 196i. 2. USSR author's certificate ff, cl. G 01 L 27/00, 1979 (prototype).