RU2356647C2 - Resonance vibrator with electromagnetic actuator - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: present invention relates to vibration engineering. The proposed device has an electromagnet, an electromagnet armature and additional loads. The electromagnet is rigidly fixed to the stator part of the vibrator. The electromagnet armature and additional loads are rigidly fixed to the plate of the armature part of the vibrator. The stator and armature parts are joined to each other by an elastic system. The elastic system consists of helical springs, clamped in pairs using tension bolts between the stator part of the vibrator and the support plate. The tension bolts are fitted outside these springs and are rigidly fixed to the stator part of the vibrator. The plate of the stator part of the vibrator is clamped between springs with possibility of oscillating along the axes of the springs without separation from their ends. The vibrator is made with possibility of rigid attachment to the working component of a vibration machine and vibration effect on the working component in resonance oscillation mode. The electromagnet is in form of a solenoid and is put inside the helical coiled springs. The electromagnet armature is in form of a long rod and enters the electromagnet at a certain distance, which is determined experimentally.

EFFECT: increased amplitude of relative oscillations of the armature and stator parts, simple design of the device.

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Description

The invention relates to vibration technology and can be used in various industries.

Known for Auth. St. USSR 1122372 electromagnetic oscillation exciter containing a magnetic circuit connected to it by an elastic coupling and closing it through the air gap by an armature, excitation coil and power supply device.

Known for Auth. St. USSR 1356136 electromagnetic vibrator containing a core magnetic circuit with three windings, each of which is located on one of the rods, and a ferromagnetic armature mounted on an elastic system, as well as a power supply circuit.

Known for Auth. St. USSR 1597233 electromagnetic vibration exciter, consisting of an electromagnet located in the housing and an armature rigidly connected to the yoke connected to the housing by two coil springs, two flat springs and a support element located in the center of the yoke from the side opposite to the electromagnet, with one edge of each spring being fixed relative to housing, and the other concerns the support element.

As a prototype, a vibrator of resonant action with an electromagnetic drive of the German company AEG was selected as the most advanced and widely used. The vibrator is described on pages 8-17 in the book: A.I. Belousov, G.G. Rekus. Vibrators with electromagnetic drive. Overview. M., 1970 (TsNIITEstroymash). According to the above description, a resonant-acting vibrator with an electromagnetic drive contains an electromagnet fixed rigidly to the stator part of the vibrator, an electromagnet anchor fixed rigidly to the plate of the vibrator's anchor part, additional weights attached rigidly to this plate, the stator and anchor parts of the vibrator are connected by an elastic system consisting of four coiled coil springs, pre-compressed in pairs between the stator part of the vibrator and the thrust bearings using two tie rods, tie rods The ki are installed inside screw coil springs and are rigidly attached to the stator part of the vibrator, while the plate of the anchor part of the vibrator is sandwiched between the springs with the possibility of vibrations along the axes of the springs without breaking from their ends, the vibrator is made with the possibility of rigid attachment to the working body of the vibrating machine and vibration exposure on the working body in the resonant mode.

The disadvantages of the prototype, as described above analogues, are the complexity of the design and the small amplitude of the relative vibrations of the anchor and stator parts of the vibrator.

The complexity of the design of a resonant vibrator with an electromagnetic drive is the main reason that the vibrating system of the vibrator consists of two spaced apart oscillating systems that are combined into one system using the stator and anchor parts of the vibrator. Taking into account the fact that helical coil springs exhibit significant flexibility not only along their axis, but also in the transverse direction, we can conclude that such spaced-apart oscillating systems combined into one will perform strictly coordinated oscillations along the axes of the springs only with the same coefficient stiffness and uniform mass distribution. In practice, this leads to the need for selective selection of springs. With this design of the vibrator, “a large spread in height in the free state and stiffness coefficient of coil springs leads to the need for their individual selection during assembly and eliminates interchangeability” (p. 12-13 in the book: II Bykhovsky. New single-cycle electromagnetic exciters. Overview. M ., 1972, (TsNIITEstroymash).

The small amplitude of the relative vibrations of the anchor and stator parts of a resonator with an electromagnetic drive is predetermined by the fact that the electromagnets used in vibrators with a U-shaped and a W-shaped magnetic circuit have an air gap between the magnetic circuit and the armature of the electromagnet, usually no more than 4 mm (page 29-32 in the book: A.I. Belousov, GG Rekus. Vibrators with an electromagnetic drive. Review. M., 1970 (TSNIITEstroymash)). The small amplitude of the vibrations of the anchor part is noted as a lack of exciters with an electromagnetic drive (p. 138 in the book: Spivakovsky A.O., Goncharevich I.F. Vibration conveyors, feeders and auxiliary devices. M: Engineering, 1972). The small amplitude of the relative vibrations of the anchor and stator parts is a significant drawback of a resonator with an electromagnetic drive due to the limitation of power taken by the vibrator's vibrating system in operating mode, i.e. after joining the working body of the vibrating machine.

The objectives of the invention are to simplify the design and increase the amplitude of the relative vibrations of the anchor and stator parts of the resonator vibrator with an electromagnetic drive.

The solution to the problem is achieved by the fact that a resonant-acting vibrator with an electromagnetic drive contains an electromagnet fixed rigidly to the stator part of the vibrator, an electromagnet anchor fixed rigidly to the plate of the vibrator's anchor part, additional weights attached rigidly to this plate, the stator and anchor parts of the vibrator are interconnected elastic system consisting of coil coil springs pre-compressed in pairs with the help of tie rods, the tie rods are attached rigidly to the stator part of the vibrator, with this plate of the anchor part of the vibrator is sandwiched between the springs with the possibility of vibrations along the axes of the springs without separation from their ends, the vibrator is made with the possibility of rigid attachment to the working body of the vibrating machine and vibration exposure to the working body in the mode of resonant vibrations, the elastic system consists of two screw twisted springs that are compressed between the stator part of the vibrator and the thrust plate, the tie rods are installed outside these springs, the electromagnet is made in the form of a solenoid and placed inside a screw th twisted spring, and the anchor of the electromagnet is made in the form of an elongated rod and previously introduced into the electromagnet by a value of X ₀ , which is determined experimentally.

The application of the proposed set of essential features allows to obtain new technical results: to simplify the design and increase the amplitude of the relative vibrations of the anchor and stator parts of the resonator with an electromagnetic drive. Simplification of the design allows you to create a vibrator with one oscillatory system on two compressed springs. This eliminates the disadvantages of the prototype: there is no need for individual selection of coil coil springs, as well as the possibility of their interchangeability. An increase in the amplitude of the relative vibrations allows one to increase the amount of mechanical energy received by the oscillatory system, and, therefore, increase the power take-off by the oscillatory system from the vibrator's electromagnet.

The analysis of the prior art in the field of mechanical engineering and vibration technology showed that the proposed set of essential features is new, clearly does not follow from the prior art and, therefore, the proposed invention is new and has an inventive step.

The invention is illustrated in the drawing, which shows a device of a resonator with an electromagnetic drive. A resonant vibrator with an electromagnetic drive contains an electromagnet 1 in the form of a solenoid, a stator part 2 of a vibrator, an anchor 3 of an electromagnet 1, a plate 4 of the anchor part of the vibrator, additional weights 5, screw coil springs 6, tie rods 7, a thrust plate 8. The electromagnet 1 is attached rigidly to the stator part 2 of the vibrator and placed inside a coil spring 6. The anchor 3 of the electromagnet 1 is attached rigidly to the plate 4 of the anchor part of the vibrator and previously introduced into the electromagnet 1 by the value X ₀ . Rigidly additional weights are attached to this plate 5. The elastic system consists of two coil springs 6, which are pre-compressed with the help of tie rods 7 between the stator part 2 of the vibrator and the thrust plate 8. The stator part 2 of the vibrator and the anchor part of the vibrator are interconnected by an elastic system so that the plate 4 of the anchor part of the vibrator is sandwiched between coil springs 6. In the thrust plate 8 there is an opening 9 closed by a cover 10. The vibrator is closed by a casing 11.

A resonant vibrator with an electromagnetic drive operates as follows. In electromagnet 1, a pulsating magnetic field occurs under the action of a pulsating or alternating electric current. This field interacts with the ferromagnetic armature 3 of electromagnet 1. Due to this, a pulsating traction force arises between the electromagnet 1 and its armature 3, pulling the armature 3 into the electromagnet 1. The traction force acting on the electromagnet 1 and its armature 3 acts simultaneously on the rigidly connected with them the plate 4 of the anchor part and the stator part 2 of the vibrator. Under the influence of the traction force, the stator part 2 and the anchor part of the vibrator come together on the plate 4. In this approach, the elastic twisting of coil springs 6, which, due to the preliminary compression, were in the state of force equilibrium, was pre-compressed. At the point in time when the current and traction force are equal to zero, the coil coil springs 6 discard the stator part 2 of the vibrator and the anchor part of the vibrator assembled on the plate 4. From each other, the anchor 3 is preliminarily inserted into the electromagnet to coordinate the characteristics of the traction force and the reaction force of the springs 6 1 by the value of X ₀ , which is selected experimentally. The adjustment of the natural vibrations of the vibrating system of the vibrator at a given frequency is carried out by selecting additional weights 5, which are attached through the hole 9 in the thrust plate 8 to the plate 4 of the anchor part. When the vibrator is operating on an electric current of constant frequency, this setting is carried out to the mode of resonant vibrations after attaching the vibrator to the working body of the vibrating machine. If the vibrator is powered by an electric current of a tunable frequency, the vibrator can already be adjusted during assembly with the help of additional weights to a given frequency of natural vibrations.

In this resonant vibrator with an electromagnetic drive, the problems of the invention are solved: the structure is simplified and the amplitude of the relative vibrations of the anchor and stator parts of the resonator vibrator with an electromagnetic drive is increased. The first problem is solved due to the fact that the elastic system of the vibrator consists of two coil coil springs that are compressed between the stator part of the vibrator and the thrust plate, the tie rods are installed outside these springs, and the electromagnet is located inside the coil coil spring. The second problem is solved due to the fact that the electromagnet is made in the form of a solenoid, and the anchor of the electromagnet is made in the form of an elongated rod. As you know, the magnitude of the armature travel in solenoid electromagnets is many times greater than the air gap in electromagnets with a U-shaped or W-shaped magnetic circuit. For example, the magnitude of the stroke of the retractor relay armature, made in the form of a solenoid electromagnet and used on automotive electric starters, is about 15 mm (p. 116-121 in the book: Kalmanson L.P. et al. Automobile repair, operation and maintenance manual "Volga" GAZ-3110. Publishing house "Wheel", M., 2000). This is more than 3 times the size of the air gap in known electromagnetic vibrators.

Given that the principle of operation of the proposed resonant vibrator with an electromagnetic drive coincides with the principle of operation of the prototype, it can be argued that its performance is beyond doubt. Therefore, the proposed invention is industrially applicable.

Claims (1)

A resonant action vibrator with an electromagnetic drive, containing an electromagnet fixed rigidly to the stator part of the vibrator, an electromagnet anchor fixed rigidly to the plate of the vibrator's anchor part, additional weights attached rigidly to this plate, the stator and anchor parts of the vibrator are interconnected by an elastic system consisting of coil springs, pre-compressed in pairs with tie rods, tie rods are attached rigidly to the stator part of the vibrator, while the plate of the anchor part of the vibrator it is clamped between the springs with the possibility of vibrations along the axes of the springs without tearing off their ends, the vibrator is made with the possibility of rigid attachment to the working body of the vibrating machine and vibration exposure to the working body in the mode of resonant vibrations, characterized in that the elastic system consists of two screw twisted springs that are compressed between the stator part of the vibrator and the thrust plate, the tie rods are installed outside these springs, the electromagnet is made in the form of a solenoid and placed inside a screw twisted wire ins, the electromagnet armature is an elongated rod and the previously inserted in the electromagnet by an amount A _0, which is determined experimentally.