SU662838A1 - Stand for testing rolling cutter bit sealing devices - Google Patents

Claims (2)

The invention relates to the field of research of a city-destructive tool, in part to the tests of sealing devices of roller bits. The steid is known, which includes two fixed sleeves for the shafts, on the inner ends of which two sealing bands are made, and a sleeve installed between the sleeves. Two sealing rings are located at the ends of the sleeve, forming two end seals 1 with the ring holders. A disadvantage of this stand is the impossibility of simulating axial and angular movements of one compact part relative to the other; Also known is a stand for testing sealing devices of roller bits, including a simulator of a roller cutter with a clamping ring fixed on it, rigidly connected to the flange of the drive shaft, a sleeve mounted on it with the possibility of angular and axial movements of a spring-loaded sealing ring forming the seal with the ring of the sleeve , pulsator-, frame and frame with 2J drive. The disadvantage of this stand is the impossibility of modeling the angle X of the movement of the roller cone relative to the trunnion. Pel of the invention - providing the possibility of a model; ShvSh yoryosheniy and constant skew of the roller cutter relative to the trunnion. Pel is achieved by the fact that a replaceable braid washer is installed between the flange of the drive shaft and the yoke, and the frame is placed on the frame so that it can be rotated around an axis perpendicular to the axis of the sleeve. FIG. 1 shows the proposed stand; on lng. 2 - pulsator kinematic diagram; in FIG. 3 - installation of a replaceable oblique washer. The stand includes a mimicing roller cutter 1 rigidly attached to the flange of the drive shaft 2. A replaceable spit washer 3 is installed between the cage and the shaft. The cage: rotates on a spherical support 4 relative to a fixed pin 5 fixed to the frame 6, and carries a rotating seal . The body ring 7. It interacts with a collet 8 resting on a spring-loaded spherical ring 9 located on a fixed sleeve 10. On the old 6 on racks 11 a frame 12 is installed, on which the drive element is placed: electric motor 13, pulley 14, belt 15, pulley 16 mounted on bearings on a fixed sleeve 17, and a coupling 18. In addition, on the frame is a mechanical Pulsator, made on the basis of a hinged spherical four-element mechanism. The pulsator contains an adjustable electric motor 19, on the shaft of which a disk 20 is fixed; eccentrically in the bore 21. The last biscuit nahbdits ekstsSh1fychna Suhar boring formed on the bushing 22, which cooperates with a ball pin 23 of the leash 24. With T1ro1 vogolozhnogo end leash sdejtaH yyde a fork which is pivotally connected to the cross-shaped link 25, ustanovlenshmu da hinged on a fixed support 26 mounted on the frame 12. The link 25 through the axis 27 interacts with the drive shaft 2. On the frame there is a reservoir 28 for drilling fluid. In pin 5, channel 29 is made for a CNQ3KH basement to the spherical support 4. 12 from stand 11 to 11 can be rotated on the bed axes 30 oTHotMtenbHo. The stand works as follows. The rotation of the shaft of the electric motor 13 through the pulley 16 and the coupling 18 is transmitted to the shaft 2 and the yoke 1. The sealing device is tested for a clean rotation of the yoke relative to the axle. To test the sealing device for p {w axial vibration oscillations by turning the cracker 21 in the bore of the disk 20, set the required displacement of the sleeve 22 relative to the disk axis, providing, taking into account the ratio of sizes B and C of the pulsator mechanism, the required amplitude A of oscillations. After switching on the NIN of the electric motor 19 due to the ripple of the sleeve 22: the leash 24 performs a spherical movement which transforms into an oscillator: the movement of the link 25, the axis 27 and in; ala 2c the yoke 1. Thus, the rotating yoke performs independent oscillations at a frequency equal to the frequency of rotation motor 19. When positioning between the flange, the shaft, and the obi 6 84 my oblique washer 3 (see Fig. 3), the plane of the working end of the sealing ring 7 is rotated at an angle сA, relative to the plane perpendicular to the axle axis. When the cage 1 rotates, this Causes the appearance of additional angular oscillations with a frequency equal to part6 of the rotation of the drive shaft. On the stand, the twisting of the skews on the trunnion is performed on the stand by turning the required angle of the frame 12 with the columns 11 on the axes 30 relative to the 6-bed with fixation in the required position. The described stand design allows the most complete modeling of the conditions of operation of bits with a sealed support. Claim 1. DP bench test for sealing devices of roller bits, including a clip simulating a roller cutter with a sealing ring fixed on it, rigidly connected to the flange of the drive shaft, a sleeve installed on it with the possibility of angular and axial displaced with a sealing ring forming a seal with a ring of a holder, a pulsator, a bed and a paradise with a drive. Characterized by the fact that, in order to enable the model of angle-cutting movements of the roller cone relative to the trunnion, a replaceable braid washer is installed between the flange of the drive shaft and the yoke. 2. The stand according to claim 1, wherein, in order to enable simulated cutting of the cone relative to the trunnion, the pkma is installed on the frame of the SURFACE around the axis perpendicular to the axis of the sleeve. Sources of information taken into account in the examination 1.Domaschevsky A.D. and others. The effect of operating conditions on the reliability of the mechanical seal. Chemical and petroleum engineering, 1972, N 11, p. 30.31. 2. Certificate of author No. 232878, cl. E 21 B, 1966.