RU81804U1 - STAND FOR TESTING TELEMETRIC SYSTEMS GENERATORS - Google Patents

Abstract

The task of creating a utility model: the unification of the bench for testing generators with different dimensions.

The solution to this problem was achieved in a generator test bench containing a drive mounted on a frame connected through a coupling to a generator rotor, the fixed axis of which is fixed, and a generator connector mounted on a fixed axis by electrical connections connected through a winding selection switch with a voltmeter, ammeter and load resistances characterized in that the drive is mounted on the frame with the possibility of axial movement relative to the generator and is equipped with a mechanism for fixing the drive and quickly fix adjustable node of the axis of the generator. The frame is made of two pairs of corners turned 180 ° relative to each other and fastened together so that the shelves of the upper corners are turned inward, and the shelves of the lower corners are turned outward and connected to each other by ties. The locking mechanism is made in the form of a locking plate driven by a rod connected to the shaft, on which cams are made, limiting the displacement of the rod along the axis of the shaft, and the cams abut against the upper part of the rod, made wider than the distance between them. The lower part of the rod is cylindrical with thread and is connected to the retainer plate through an opening made in it, and the position of the retainer plate relative to the upper corners of the frame is adjusted using a nut.

The shaft is installed between the reference angles on which the drive is mounted, for example, an electric motor. The functions of the clutch are performed by a spring, one end of which is fixed on the installed sleeve, on the motor shaft, and on the other a removable adapter is mounted, which is used to transmit torque to the generator. The fast-fixing attachment point of the generator axis is made in the form of a conical split sleeve installed by the smaller base of the cone towards the generator, an annular groove is made on its conical surface, in which a spring ring is installed, the conical split sleeve is externally covered by a cone made in the inner nut and pressed against the end of the bore inside the mounting bracket, and inside the mounting bracket protrusions are made that enter the grooves on the end of the axis of the generator to fix it from radial movement

1 s.p. f-ly, 6 head. p.ta., ill. - 9.

Description

The utility model relates to electrical engineering and can be used for characterization, breakage control, short circuit generator, designed to power downhole tools downhole telemetry systems.

A known method of controlling the windings of electrical machines and stand according to A.S. USSR No. 1023259, based on the supply of a measuring voltage of variable frequency to the findings of the corresponding pairs of phase windings of a controlled electrical machine. The method does not allow to take characteristics of the generator in dynamics.

A known bench for testing power generators for downhole equipment according to the patent of the Russian Federation for utility model No. 36145, which contains a drive and a device for mounting a generator. A hydraulic turbine is used as a drive. This is a drawback of the stand, because for the test it is necessary to use a hydraulic stand.

Known stand for monitoring the rotor winding according to A.S. USSR No. 1721552, containing a generator drive and an electrical circuit for characterization. This stand allows you to take the characteristics of the generator in dynamics, i.e. in the process of rotation of its rotor, but its functions are limited only by this operation. On the stand it is impossible to carry out routine maintenance and maintenance of the generator, which mainly consists in refueling or refueling the oil in the cavity between the stator rotor.

A known bench for testing generators according to the patent of the Russian Federation for utility model No. 16207, a prototype containing a drive mounted on a table coaxially with the tested generator and an electric circuit for taking characteristics of the generator, an additional pneumohydraulic system for evacuating and filling oil is introduced.

The disadvantages of this stand is that it does not allow testing generators having different overall dimensions, because a generator having a relatively large size cannot be installed and docked with the drive.

The task of creating a utility model: the unification of the bench for testing generators with different dimensions.

The solution to this problem was achieved in a test bench for generators of telemetric systems containing a drive mounted on a frame connected through a coupling to the rotor of the generator, the fixed axis of which is fixed, and the connector of the generator mounted on a fixed axis by electrical connections is connected through

a winding selection switch with a voltmeter, ammeter and load resistances, while the drive is mounted on the frame with the possibility of axial movement relative to the generator and is equipped with a drive locking mechanism and a quickly fixed attachment point for the generator axis. The frame is made of two pairs of corners turned 180 ° relative to each other and fastened together so that the shelves of the upper corners are turned inward, and the shelves of the lower corners are turned outward and connected to each other by ties. The locking mechanism is made in the form of a locking plate driven by a rod connected to a shaft on which the handle is fixed and cams are made that limit the displacement of the rod along the shaft axis, and the cams abut against the upper part of the rod made wider than the distance between them. The lower part of the rod is cylindrical with thread and is connected to the retainer plate through an opening made in it, and the position of the retainer plate relative to the upper corners of the frame is adjusted using a nut.

The shaft is installed between the reference angles on which the drive is mounted, for example, an electric motor. The functions of the clutch are performed by a spring, one end of which is mounted on a sleeve mounted on the motor shaft, and on the other a removable adapter is mounted, which is used to transmit torque to the generator. The fast-fixing attachment point of the generator axis is made in the form of a conical split sleeve installed by the smaller base of the cone towards the generator, an annular groove is made on its conical surface, in which a spring ring is installed, the conical split sleeve is externally covered by a cone made in the inner nut and pressed against the end of the bore inside the mount bracket, and inside the mount bracket protrusions are made that fit into the grooves on the end of the axis of the generator to fix it from radial movement.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of the invention. Novelty is confirmed by patent research. Industrial applicability is confirmed by the ability to produce a stand from mass-produced and standard products.

The essence of the utility model is illustrated in the drawings (figure 1 ... 9), where:

figure 1 shows the design of the stand,

figure 2 shows a view,

figure 3 shows a section bB,

figure 4 shows a section bb,

figure 5 shows a section GG,

figure 6 shows the shaft,

Fig.7 shows the thrust

Fig. 8 shows a thrust with a shaft assembly,

figure 9 shows the electrical circuit of the test.

The stand (Fig. 1) for testing generators 1 contains a drive 2 mounted on a frame 3, connected via a coupling 4 to the rotor 5 of the generator 1, the fixed axis 6 of the generator 1 has a connector 7 and is fixed in the quick-fix assembly 8 of the fixed axis 6 of the generator 1. The fast-fixing attachment point for the axis 8 of the fixed axis 6 of the generator 1 is made in the form of a conical split sleeve 9 installed with a smaller base of the cone in the direction of the generator 1, an annular groove "E" is made on its conical surface "D", in which a spring ring 10 is installed, The split split sleeve 9 is externally enclosed by a cone “Ж” made in the inner nut 11 and pressed against the end “I” of the bore “K” inside the mounting bracket 12, and inside the mounting bracket 12, protrusions “L” are made, which are included in the grooves “M” at the end of the stationary axis 6 of the generator 1 for fixing it from radial movement. The mounting bracket 12 is installed in the rack 13. The drive 2 is mounted on the frame 3 with the possibility of axial movement relative to the generator 1 and is equipped with a locking mechanism 14. The frame 3 (figure 3) is made of two pairs of angles 15, rotated 180 ° relative to each other and fastened between each other so that the shelves of the upper corners are turned inward, and the shelves of the lower corners are outward and connected to each other by ties 16. The locking mechanism 14 (Figs. 1 and 4) is made in the form of a locking plate 17, actuated by a rod 18 connected to the shaft 19, which is fixed on the handle 20 and the cams 21 are made, limiting the displacement of the rod 18 along the axis of the shaft 19, and the cams 21 abut against the upper part of the rod 18, made wider than the distance between them. The lower part of the rod 18 is made with a cylindrical thread and is connected to the retaining plate 17 through a hole made in it, and the position of the retaining plate 17 relative to the upper corners of the frame 3 is adjusted using a nut 22. The shaft 19 is installed between the supporting angles 23, on which the drive 2 is fixed for example, an electric motor. The drive 2 is connected to the generator 1 through a spring 24 that performs the function of a clutch, one end of which is mounted on a sleeve 25 mounted on the shaft 26 of the drive 2, and on the other a removable adapter 27 is mounted, which is used to transmit torque to the generator 1. To the connector 7 of the generator 1 (figure 2 and 9) mounted on a fixed axis 6, and connected to the tested windings 28 and 29 of the generator 1 by electrical connections

30 are connected, through a winding selection switch 31, a voltmeter 32, an ammeter 33, and load resistances 34.

Stand for testing generators works as follows. The generator 1 is fixed in a quick-fix assembly 8, then, using a spring 24, the shafts 26 of the drive 2 and the rotor 5 of the generator 1 are connected. The locking mechanism 14 allows the drive 2 to be moved along the frame 3 to ensure that it is mounted and fixed in the required position. To do this, using the handle 20, rotate the shaft 19 with the cams 21, the drive 2 is released, which is moved along the frame 3 to the desired position. After that, by turning the handle 20, the drive 2 is fixed. The drive 2 is started, which rotates the rotor 5 of the generator 1. The generator 1 generates a current, which is supplied through one connector 7 to one of the resistances 34. By switching the resistance 34, the load on the generator 1 is changed and the voltage is measured each time and current through a voltmeter 32 and an ammeter 33.

The use of the locking mechanism 14 and the quick-fixing attachment point 8 of the fixed axis 6 of the generator 1 allows testing generators having different axial and diametrical dimensions in one device.

Application of the utility model allowed:

1. To provide testing of generators of several standard sizes, significantly different from each other in size.

2. To carry out tests in case of misalignment of the drive shafts and the electric generator due to the use of a spring as a coupling.

3. To ensure the safety of the tests due to the lack of high pressure fluid used in the prototype.

4. To test the generator in different modes by changing the load on its windings.

5. Ensure quick installation and removal of the generator from the stand.

Claims (7)

1. The test bench for power generators of telemetric systems, comprising a drive mounted on a frame, connected through a clutch to the rotor of the generator, the fixed axis of which is fixed, and the connector of the generator mounted on a fixed axis, is connected by electrical connections through a switch for selecting a winding with a voltmeter, ammeter and load resistors, characterized in that the drive is mounted on the frame with the possibility of axial movement relative to the generator and is equipped with a mechanism for fixing the drive and quickly fix m fastening assembly generator axis. 2. The test bench for generators according to claim 1, characterized in that the frame is made of two pairs of corners, rotated 180 ° relative to each other and fastened together so that the shelves of the upper corners are turned inward and the shelves of the lower corners are outward and connected to each other by couplers. 3. The test bench for generators according to claim 1, characterized in that the locking mechanism is made in the form of a locking plate driven by a rod connected to a shaft on which the handle is fixed and cams are made, limiting the thrust displacement along the shaft axis, and the cams abut in the upper part of the rod, made wider than the distance between them. 4. The test bench for generators according to claim 3, characterized in that the lower part of the rod is cylindrical with thread and is connected to the retainer plate through an opening made in it, and the position of the retainer plate relative to the upper corners of the frame is adjusted using a nut. 5. The test bench for generators according to claim 3, characterized in that the shaft is installed between the reference angles on which the drive is mounted, for example an electric motor. 6. A test bench for generators according to any one of claims 1 to 5, characterized in that the function of the clutch is performed by a spring, one end of which is mounted on a sleeve mounted on the motor shaft, and on the other a removable adapter designed to transmit torque to the generator is fixed. 7. The test bench for generators according to claim 1, characterized in that the fast-fixing attachment point of the generator axis is made in the form of a conical split sleeve installed with a smaller base of the cone in the direction of the generator, an annular groove is made on its conical surface, in which a spring ring is installed, the conical the split sleeve is externally covered by a cone made in the inner nut and pressed against the end of the bore inside the mount bracket, and inside the mount bracket there are protrusions that fit into the grooves on the end of si generator to fix it from radial movement.