SU822920A1 - Vibration exciter - Google Patents

Description

The invention relates to vibroengineering and can be used in test equipment for fatigue tests in software loading, in particular at low temperatures.

Known vibration exciter with adjustable eccentricity along the way, comprising a housing with a drive shaft bearing an eccentric crank located on it, and a mechanism for changing the amount of eccentricity kinematically associated with the drive shaft G1].

The disadvantages of such a vibration exciter include the complex and inertial kinematic chain of the mechanism for controlling the eccentricity, as well as the fact that when controlling the eccentricity, an imbalance appears, which leads to significant vibrations and dynamic unbalanced loads at high vibration frequencies.

Closest to the proposed one is a vibration exciter containing a housing, a hollow drive shaft with a flywheel installed in it, a shaft with a two-sided wedge and a tail shaft located inside the drive shaft, an eccentric with a plunger and an eccentricity control mechanism [2];

However, this device has the same 5 drawback - the appearance of an imbalance in the regulation of eccentricity.

The purpose of the invention is the improvement of performance by. elimination of imbalance, accuracy and reliability are improved.

This goal is achieved in that the eccentric is made in the form of a slider moving in the radial direction, and the vibration exciter is equipped with 11 two balancing weights that are symmetrically located on both sides of the slider in the plane of its movement, connected with it by two-arm levers, and the eccentricity control mechanism is made in the form of connecting drive shaft with gear shank with clutches and nuts.

In addition, the eccentric is equipped with adjustable screw stops that interact with the plungers. The gear reducer is made in the form of coaxial cylindrical gears, one of which is mounted on the drive shaft, and the other on the nut, and two

8-22920 pairs of additional gears connected in parallel to them, while the difference in the number of teeth of each of the two coaxial gears and any of the additional gears associated with it does not exceed unity.

In FIG. 1 schematically shows a vibration exciter, a longitudinal section; in FIG. 2 is a section AA in FIG. 1) in FIG. 3 - section BB in FIG. 1.

The vibration exciter contains a housing 1, a hollow drive shaft 2 with a flywheel 3, a shaft 4 with a double-sided wedge 5 and a shank 6, an eccentric 7 with plungers 8 and stops 9, and an eccentricity control mechanism made in the form of a gear reducer with clutch 10 and a nut 11. The gearbox consists of cylindrical gears 12 and 13 and two pairs of additional gears .14, 15 and 16, 17. The eccentric 7 is made in the form of a slider, on both sides of which balancing weights 18 are connected to the slider by two-arm levers 19.

Vibration exciter works as follows.

Rotation from the flywheel 3 is transmitted through the drive shaft 2 to the eccentric 7, as well as to the gear 12 and gears 14 and 16 that engage with it. The latter can be switched on using electromagnetic clutch 10.

, 'Together with the drive shaft 2, the wedge 5 also rotates, the shaft 4 with the shank 6 and the nut 11 sitting on it with the gear 13. From. gears 13 rotate into idle gears 15 and 17 when gear 14 is connected. When an electrical command (for example, from a program control unit) is applied to reduce the oscillation amplitude, movement through the clutch 10 is transmitted to gear 15, and from it to gear 13, which causes nut 11 to get ahead threaded shank 6. Due to the difference in speeds, the shaft with the wedge begins to move at low speed to the right, acting through the plunger 8 and emphasis 9 on the eccentric. 7. The latter moves in the direction of decreasing the eccentricity, while through the levers 19. The loads 18 move in the opposite direction to the eccentric, as a result of which automatic balancing is performed. When the clutch 10 is disconnected, the change in the eccentricity is stopped. If it is necessary to increase the eccentricity, another clutch 10 is engaged, and the first is disconnected and then the movement is transmitted along the other branch to the wheel 17.

The nut 11 begins to rotate slightly slower than the shaft 4, which is why the latter moves in the opposite direction, increasing the eccentricity. The eccentric 7 acts through the levers 19 on the loads 18, eliminating the imbalance of the vibration exciter.

The proposed device makes the vibration exciter suitable for working with software regulation at high frequencies with great reliability and accuracy, due to the absence of backlash and errors. So, when reversing the wedge 5, there is no reversal of rapidly rotating gears and other parts. All this improves operational characteristics.

Claims (2)

The invention relates to vibration technology and can be used in testing equipment for fatigue testing under software loading conditions, in particular at low temperatures. A vibration exciter with an eccentricity adjustable along the way is known, comprising a housing with a drive shaft carrying an eccentric crank located on it, and the mechanism for changing the eccentric value of theta, kinematically associated with a water shaft DL. The disadvantages of this vibration exciter are complex and inertia to the kinematic chain. mechanism for regulating the magnitude of the eccentricity, as well as the fact that when regulating the eccentricity there appears a di the balance, resulting in high vibrational frequencies aci m and dynamic nym unbalanced loads. Closest to the present invention is a vibration exciter, comprising a housing, a hollow drive shaft mounted therein with a flywheel, a shaft with a two-sided wedge and tails located inside the drive shaft, an eccentric with a plunger and an eccentricity adjustment mechanism 2 J; However, this device has the same drawback - the appearance of an imbalance in the regulation of eccentricity. The purpose of the invention is to improve performance by eliminating imbalance, increasing accuracy and reliability. The goal is achieved by the fact that the eccentric is made in the form of a slide moving in the radial direction, and the vibration exciter is equipped with two symmetrically arranged on both sides of the slide moving balancing weights connected to it by two shoulders, and the mechanism for adjusting the eccentricity value is made in the form of connecting arms drive shaft with gearing shank with clutches and nuts. In addition, the eccentric is equipped with adjustable screw stops, interacting with the plungers. The gear reducer is made in the form of coaxial cylindrical gears, one of which is fixed on the drive shaft, and the other on the nut, and two pairs of additional gears connected in parallel with them, while the difference in the number of teeth of each of the two coaxial gears and any of the associated with it additional gears does not exceed one. FIG. 1 shows schematically a vibration exciter, a longitudinal section; in fig. 2 is a section A-L in FIG. 1} in FIG. 3 shows a section in FIG. 1, the vibration exciter comprises a housing 1, a hollow drive shaft 2 with a flywheel 3, a shaft 4 with a double-sided wedge 5 and a shank b, an eccentric 7 with plungers 8 and stops 9 and an adjustment mechanism of magnitude eccentricity made in the form of a gear reducer with couplings 10 clutches and nuts 11. The reducer consists of cylindrical gears 12 and 13 and two pairs of additional gears. 14, 15 and 16, 17. The eccentric 7 is designed as a slider, on both sides of which there are balance weights 18 connected to the slider with two shoulders 19. The vibration exciter bots, the following obz.azom. The rotation from the flywheel 3 is transmitted through the drive shaft 2 to the eccentric 7 and also to the gear 12 and the gears 14 and 16 that engage with it. The latter can be activated using electromagnetic clutches 10. - The wedge 5, shaft also rotates with the drive shaft 2 4 with the shank b and the nut 11 with the gear 13 sitting on it. From the gear 13 they rotate into the idler gear 15 and 17 when the gear 14 is connected. When giving an electrical command (for example, from the program control unit) to reducing the oscillation amplitude, it moves through the coupling 10 coupling is transmitted gear 15, and from her gear 13, why the nut 11 begins to advance the threaded shank b. Due to the speed difference, the shaft with the wedge begins to move at low speed to the right, thereby acting through the plunger 8 and the stop 9 on the eccentric 7. The latter moves in the direction of decreasing eccentricity, while through the levers 19 the loads 18 move in the opposite direction to the eccentric, the result is automatic balancing. When the clutch 10 is disengaged, the change in the eccentricity value is stopped. If it is necessary to increase the eccentricity, another clutch 10 is engaged, the clutch is turned off, and the first is turned off, and then the movement is transmitted along the other branch to the wheel 17. Nut 11 begins to rotate a little slower than shaft 4, causing the latter to move in the opposite direction. increasing eccentricity. The eccentric 7 acts through the levers 19 on the weights 18, eliminating the unbalance of the vibration exciter. The proposed device makes the exciter suitable for operation with software control at high frequencies with high reliability and accuracy, due to the absence of backlashes and errors. So when reversing a wedge 5, there is no reversal of rapidly rotating gears and other parts. All of this improves performance. Claim 1. Vibrovozbuditel, comprising a housing, a hollow drive shaft mounted therein with a flywheel, a shaft with a double wedge and a shank an eccentric with a plunger located inside the drive shaft, and in order to improve performance , the eccentric is made in the form of a slider moving in the radial direction, and the exciter is provided with two movably symmetrically located on both sides of the slider in the plane of its movement b using the two-arm levers connected with it, and the eccentricity adjustment mechanism is made in the form of connecting the drive shaft with the gear reducer stem, with the clutch and nut couplings. 2. The vibration exciter according to claim 1, which is equipped with an eccentric adjustable screw stops interacting with the plungers. 3. The vibration exciter according to claim 1, characterized in that the gear reducer is made in the form of coaxial cylindrical gears, one of which is fixed on the drive shaft, and the other on the nut, and two pairs of additional gears connected in parallel to them, the difference in the number of teeth each of the two coaxial gears and any of the associated with it up to. optional gears do not exceed -units. Sources of information taken into account in the examination 1.Shkolnik L.M. Methods of fatigue testing. M., Metallurgists, 1978, p. 195, fig. 110. 2. USSR author's certificate №171627, cl. B 06 B 1/18, 1963 (prototype). /five TO nineteen 5 ё 2 5 1819 e.Z