RU2060418C1 - Vibration insulator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: vibration insulator has two bases and flexible member interposed between them. The flexible member is made up as two springs interposed between the first and second bases and inertia mass respectively. The friction pair is made up as blocks pivotally connected with the first base, ties pivotally connected with the blocks and electromagnet core, and friction plates secured to the slide. The switches are made up as axially alined driven and fixed disks, two reed relays secured to one of the disks, permanent magnet mounted on the other disk, arrester of driven disk rotation, and roller connected with the driven disk. The roller of the major switch is mounted for permitting a contact with the slide. The roller of the additional switch is connected with the guide. The reed relays of the switches form series circuits interconnected in parallel and connected to the electromagnet circuit. EFFECT: enhanced vibration insulation. 3 dwg

Description

 The invention relates to devices for vibration protection technology and can be used to reduce dynamic loads transmitted from a vibration source to an object.

 Known vibration isolator [1] containing a first base designed to communicate with a vibration source, a second base designed to communicate with the object, an elastic element installed between the bases, the inertial mass, the friction pair and the guide along which the mutual displacement of the bases occurs.

 The use of this vibration isolator is ineffective, since the moments of inclusion of the friction pair do not agree with the magnitude and direction of the dynamic load perceived by the second base.

 The closest in technical essence to the proposed vibration isolator is a vibration isolator [2] containing the first base, designed to communicate with the vibration source, the second base, designed to communicate with the object, an elastic element installed between the bases, a friction pair, an electromagnet periodically including a friction pair, a switch included in the electromagnet circuit, and a guide fixed to the second base.

 The friction pair included in the work becomes an additional link transferring dynamic loads from the vibration source to the object. To reduce the dynamic loads transmitted to the object with this design of the vibration isolator, it is possible only by reducing the intensity of the vibration source, which in most cases is unacceptable due to a violation of the process.

 The purpose of the invention is the reduction of dynamic loads transmitted to the object from a vibration source.

 To achieve the goal, a vibration isolator containing a first base designed to communicate with a vibration source, a second base designed to communicate with the object, an elastic element installed between the bases, a friction pair, an electromagnet periodically including a friction pair, a switch included in the electromagnet circuit and a guide mounted on the second base is additionally equipped with a slider telescopically connected to the guide, an inertial mass mounted on the slider and an additional switch the body, the friction pair is made in the form of two pads pivotally connected to the first base, rods pivotally connected to the pads and the core of the electromagnet, and friction plates fixed to the slider, the elastic element is made in the form of two springs located respectively between the first base and the inertial mass and inertial mass and a second base, the main switch is mounted on the first base, each switch is made in the form of coaxially driven and fixed disks, two reed switches, fixed on one of the disks, a permanent magnet mounted on the other disk, a rotation limiter of the driven disk and the roller, the plane of rotation of which is parallel to the guide associated with the driven disk along the landing path, the roller of the main switch is installed with the possibility of contact with the slider, and the roller of the additional switch with guide, and reed switches are formed by sequential circuits connected in parallel with each other and included in the electromagnet circuit.

 In FIG. 1 shows a vibration isolator, general view; in FIG. 2, section AA in FIG. 1; in FIG. 3 diagram of the inclusion of switches in the electromagnet circuit.

 The vibration isolator contains a base 1, designed to communicate with a vibration source, a base 2, designed to communicate with the object, an inertial mass 3, a spring 4 mounted between the base 1 and the inertial mass 3, a spring 5 mounted between the inertial mass 4 and the base 2, a guide 6, mounted on the base 2, the slider 7, the friction pair 8, the electromagnet 9, the switch 10 mounted on the slider 7, and the switch 11 mounted on the base 1.

 The switches 10 and 11 contain fixed disks 12 and 13 with reed switches 14-17 fixed to them, driven disks 18 and 19 with permanent magnets 20 and 21 fixed to them, turn limiters 22 and 23, made in the form of stops, which are included in the slots of the driven disks 18 and 19, and the rollers 24 and 25, which are installed along the landing on the axes 26 and 27 of the driven discs 18 and 19.

 The roller 24 of the switch 10 moves along the guide 6, and the roller 25 of the switch 11 along the slider 7.

 In the coil of the electromagnet 9 a core 28 is mounted, preloaded by a spring 29.

 Friction pair 8 consists of two pads 30 with rods 31 and two friction plates 32 mounted on the slider 7. The pads 30 are pivotally mounted on the base 1 and pivotally connected to the core 28 of the electromagnet 9 through the rods 31.

 Reed switches 14 and 15 of the switch 10 are connected respectively to the reed switches 16 and 17 of the switch 11 and form a series circuit 33 and 34, which are connected together in parallel and are included in the circuit of the electromagnet 9.

 The guide 6 is made in the form of a cylindrical rod, and the slider 7 in the form of a rectangular rod with two protrusions and a through hole, which includes the guide 6. The protrusions of the guide 7 are inserted into the corresponding grooves of the base 1.

инерционной массы 3, когда

> 0 движение вверх, или, когда

< 0, движение вниз, в зоне действия постоянного магнита 20 поочередно оказывается или геркон 14, или геркон 15, которые закреплены на диске 12.When the inertial mass 3 moves, the roller 24 moves along the guide 6 and simultaneously rotates relative to the axis 26. At the initial moment, the rotation of the roller 24 is transmitted to the axis 26 and the driven disk 18, which is ensured by friction in the connection of the axis 26 of the roller 24 (the roller 24 is mounted on the axis 26 on the landing). The driven disk 18 is rotated to the stop 22 and depending on the direction of speed

inertial mass 3 when

> 0 upward movement, or when

<0, the downward movement, in the area of action of the permanent magnet 20, alternately turns out either a reed switch 14 or a reed switch 15, which are mounted on the disk 12.

инерционной массы 3 при

> 0 включается геркон 14 (геркон 15 выключен), а при

< 0 включается геркон 15 (геркон 14 выключен).Thus, the switch 10 monitors the moment of change of sign and fixes the direction of speed

inertial mass 3 at

> 0 switches on reed switch 14 (reed switch 15 is turned off), and when

<0 switches on reed switch 15 (reed switch 14 is turned off).

 The switch 11 works the same way.

основания 1 и скорости

инерционной массы 3, когда относительная скорость

-

>0, или когда

-

<0, в зоне действия постоянного магнита 20 поочередно оказывается или геркон 16, или геркон 17, которые закреплены на диске 13, т. е. переключатель 11 отслеживает моменты смены знака и фиксирует направление относительной скорости

-

при

-

>0 включается геркон 16 (геркон 17 выключен), а при

-

<0 включается геркон 17 (геркон 16 выключен).With the mutual displacement of the base 1 and the inertial mass 3, the roller 25 moves along the slider 7 and simultaneously rotates relative to the axis 27. At the initial moment, the rotation of the roller 25 is transmitted to the axis 27 and the driven disk 19, which at the same time rotates to the stop 23. Depending on the direction of speed

base 1 and speed

inertial mass 3 when relative speed

-

> 0, or when

-

<0, in the zone of action of the permanent magnet 20, either the reed switch 16 or the reed switch 17, which are mounted on the disk 13, is alternately located, i.e., the switch 11 monitors the moment of the sign change and fixes the direction of the relative speed

-

at

-

> 0, the reed switch 16 turns on (the reed switch 17 is turned off), and when

-

<0 switches on reed switch 17 (reed switch 16 off).

инерционной массы 3 уменьшается и ее смещение Х, а, следовательно, и передаваемые на основание 2 динамические нагрузки в процессе колебания основания 1.The dynamic loads transmitted to the base 2 are proportional to the deformation of the spring 5 and depend on the amount of displacement X of the inertial mass 3. On the other hand, with a decrease in speed

the inertial mass 3 decreases and its displacement X, and, consequently, the dynamic loads transmitted to the base 2 in the process of oscillation of the base 1.

начинает превышать скорость

то в переключателе 11 включается геркон 16 (относительная скорость

-

>0), и при уже включенном герконе 14 (

> 0) в переключателе 10, цепь 33 замыкается и срабатывает электромагнит 9. Сердечник 28 втягивается в катушку электромагнита 9, деформирует пружину 29 и посредством тяг 31, поворачивает колодки 30, которые прижимаются к фрикционным пластинам 32. В результате этого фрикционная пара 8 включается в работу, а создаваемые силы трения передаются через ползун 7 на инерционную массу 3 и тормозят ее движение. Здесь при

> 0 и

> 0, когда

-

>0 силы трения направлены против движения инерционной массы 3.When base 1 and inertial mass 3 simultaneously move up and speed

starts to exceed speed

then in the switch 11 turns on the reed switch 16 (relative speed

-

> 0), and with the reed switch 14 (

> 0) in the switch 10, the circuit 33 closes and the electromagnet 9 is triggered. The core 28 is drawn into the coil of the electromagnet 9, deforms the spring 29 and by means of rods 31, rotates the pads 30, which are pressed against the friction plates 32. As a result, the friction pair 8 is turned on work, and the created friction forces are transmitted through the slider 7 to the inertial mass 3 and inhibit its movement. Here at

> 0 and

> 0 when

-

> 0, the friction forces are directed against the movement of the inertial mass 3.

инерционной массы 3, когда она становится меньше скорости

основания 1, относительная скорость

-

<0 и в переключателе 11 выключается геркон 16, размыкая цепь 33. Так как в переключателе 10 геркон 15 выключен (

> 0), то цепь 34 также разомкнута и электромагнит 9 обесточивается. Пружина 29 выталкивает сердечник 28 из катушки электромагнита 9 и он посредством тяг 31 возвращает колодки 30 в исходное положение, выводя их из контакта с фрикционными пластинами 32. В результате этого фрикционная пара 8 выключается из работы и тем самым исключается воздействие сил сухого трения на инерционную массу 3, что при

> 0,

> 0 и

-

< 0 привело бы к увеличению ее скорости

.When speed decreases

inertial mass 3 when it becomes less than speed

base 1, relative speed

-

<0 and in the switch 11 the reed switch 16 is turned off, opening the circuit 33. Since in the switch 10 the reed switch 15 is turned off (

> 0), then the circuit 34 is also open and the electromagnet 9 is de-energized. The spring 29 pushes the core 28 out of the coil of the electromagnet 9 and through the rods 31 it returns the pads 30 to their original position, bringing them out of contact with the friction plates 32. As a result, the friction pair 8 is turned off and thereby excludes the effect of dry friction forces on the inertial mass 3 that for

> 0,

> 0 and

-

<0 would increase its speed

.

начинает превышать скорость

, в переключателе 11 включается геркон 17 (относительная скорость

-

<0), и при уже включенном герконе 15 (

< 0) в переключателе 10, цепь 34 замыкается и электромагнит 9 срабатывает. Сердечник 28 втягивается в катушку электромагнита 9, деформирует пружину 29 и посредством тяг 31 поворачивает колодки 30, прижимая их к фрикционным пластинам 32. В результате этого фрикционная пара включается в работу, а создаваемые силы трения передаются через ползун 7 на инерционную массу 3, тормозят ее движение и, как следствие, уменьшают скорость

. Здесь при

< 0 и

< 0, когда

-

<0 силы трения направлены против движения инерционной массы 3.Similarly, when the base 1 and the inertial mass 3 move simultaneously down, when the speed

starts to exceed speed

, in the switch 11, the reed switch 17 is turned on (relative speed

-

<0), and with the reed switch 15 already on (

<0) in the switch 10, the circuit 34 is closed and the electromagnet 9 is activated. The core 28 is drawn into the coil of the electromagnet 9, deforms the spring 29 and by means of the rods 31 rotates the pads 30, pressing them to the friction plates 32. As a result, the friction pair is turned on, and the generated friction forces are transmitted through the slider 7 to the inertial mass 3, inhibit it movement and, as a result, reduce speed

. Here at

<0 and

<0 when

-

<0, the friction forces are directed against the movement of the inertial mass 3.

инерционной массы 3, когда она становится меньше скорости

основания 1 (

<

), относительная скорость

-

> 0 и в переключателе 11 выключается геркон 17, размыкая цепь 34. Так как в переключателе 10 геркон 14 выключен (

< 0), то цепь 33 также разомкнута и электромагнит 9 обесточивается. Пружина 29 выталкивает сердечник 28 из катушки электромагнита 9, и он посредством тяг 31 возвращает колодки 30 в исходное положение, выводя их из контакта с фрикционными пластинами 32. В результате этого фрикционная пара 8 выключается из работы и тем самым, исключается воздействие сил сухого трения на инерционную массу 3, что при

< 0,

< 0 и

-

> 0 привело бы к увеличению ее скорости

.When speed decreases

inertial mass 3 when it becomes less than speed

base 1 (

<

), relative speed

-

> 0 and in the switch 11, the reed switch 17 turns off, opening the circuit 34. Since in the switch 10 the reed switch 14 is turned off (

<0), then the circuit 33 is also open and the electromagnet 9 is de-energized. The spring 29 pushes the core 28 out of the coil of the electromagnet 9, and by means of the rods 31 it returns the pads 30 to their original position, bringing them out of contact with the friction plates 32. As a result, the friction pair 8 is turned off and thereby excludes the effect of dry friction forces on inertial mass 3, which at

<0,

<0 and

-

> 0 would increase its speed

.

> 0 и

< 0 относительная скорость

-

> 0 и в переключателе 11 включен геркон 16, а в переключателе 10 геркон 14, что приводит к замыканию цепи 33 и срабатыванию электромагнита 9. Аналогично, когда

< 0 и

> 0, относительная скорость

-

< 0 и в переключателе 11 включен геркон 17, а в переключателе 10 геркон 15, что приводит к замыканию цепи 34 и срабатыванию электромагнита 9. В результате этого сердечник 28 втягивается в катушку электромагнита 9, деформирует пружину 29 и посредством тяг 31 поворачивает колодки 30, прижимая их к фрикционным пластинам 32. Фрикционная пара 8 включается в работу, а создаваемые силы трения передаются через ползун 7 на инерционную массу 3 и тормозят ее движение.If the base 1 and the inertial mass 3 move in opposite directions, then, in particular, when

> 0 and

<0 relative speed

-

> 0 and in the switch 11 is the reed switch 16, and in the switch 10 is the reed switch 14, which leads to the closure of the circuit 33 and the operation of the electromagnet 9. Similarly, when

<0 and

> 0, relative speed

-

<0, and on the switch 11, the reed switch 17 is turned on, and in the switch 10, the reed switch 15, which leads to the closure of the circuit 34 and the operation of the electromagnet 9. As a result, the core 28 is drawn into the coil of the electromagnet 9, deforms the spring 29 and by means of rods 31 rotates the pads 30, pressing them to the friction plates 32. The friction pair 8 is included in the work, and the generated friction forces are transmitted through the slider 7 to the inertial mass 3 and inhibit its movement.

Режимы, когда силы трения подталкивают инерционную массу 3, исключаются и тем самым происходит уменьшение интенсивности ее колебаний по сравнению с интенсивностью колебаний основания 1, связанного с источником вибрации. Как следствие, уменьшается деформация пружины 5 и, соответственно, передаваемые на основание 2 динамические нагрузки.This sequence of operation of the vibration isolator provides an optimal relay (on and off) operating mode of the friction pair 8, in which friction forces are always directed against the movement of the inertial mass and contribute to a decrease in its speed

Modes when the friction forces push the inertial mass 3 are excluded and thereby there is a decrease in the intensity of its vibrations in comparison with the intensity of the vibrations of the base 1 associated with the vibration source. As a result, the deformation of the spring 5 and, accordingly, the dynamic loads transmitted to the base 2 are reduced.

Claims (1)

 A vibration isolator containing the first and second bases, an elastic element located between them, a friction pair, an electromagnet periodically including the last, a switch included in the electromagnet circuit, and a guide fixed to the second base, characterized in that it is provided with a slider telescopically connected to the guide mounted on a slider by an inertial mass and an additional switch, the friction pair is made in the form of two pads pivotally connected to the first base, rods pivotally connected to boats and the core of the electromagnet, and friction plates fixed to the slider, the elastic element is made in the form of two springs located respectively between the first base and the inertial mass and the second base, the main switch is installed on the first base, each switch is made in the form of coaxially driven and stationary disks, two reed switches mounted on one of the disks, a permanent magnet mounted on the other disk, a rotation limiter of the driven disk and roller, the plane of rotation to otorogo parallel to the guide associated with the driven disk along the landing, the roller of the main switch is mounted with the possibility of contact with the slider, and the roller of the additional switch with the guide, and the reed switches of the switches formed in series, connected in parallel to each other and included in the electromagnet circuit.

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