DE102015203100A1 - Seal as well as a seal arrangement with the seal - Google Patents

Abstract

Embodiments relate to a seal (1), with at least one sealing lip (2), which is designed to achieve a sealing effect with respect to at least one component (3). The seal (1) comprises at least one adjustment device (4) which is designed to change a contact pressure force of the sealing lip (2) on the component (3) in response to a control signal (5).

Description

Embodiments relate to a seal having at least one sealing lip, which is designed to achieve a sealing effect with respect to at least one component, as well as a sealing arrangement with the seal.

Seals are used in a variety of applications. For example, the seal may be arranged relatively movable or relatively immovable relative to the other component. The other component may be, for example, a shaft, a housing, a bearing ring or the like.

A contact pressure or a contact pressure of the sealing lip can change under unfavorable circumstances, depending on the application and / or the operating condition, sometimes. For example, during a cold start of a machine, a diameter of the sealing lip or a spring which presses the sealing lip against the component may be smaller. As a result, usually a good seal can be realized. As the temperature increases, the component, for example a shaft, can grow in the radial direction. As a result, under certain circumstances, a contact pressure of the sealing lip and, as a possible consequence, a friction increase. As a result, the temperature may continue to increase and further promote friction and wear.

But even if, for example, a run-in shaft is repaired with a repair sleeve, it may happen that a diameter of the shaft increases. Even then, a contact pressure on the built-in seal may be too high.

But even in other cases, it may happen that a contact pressure of the seal decreases or increases. This is undesirable because it may result in too little sealing effect or too high a friction is generated. A change in the contact pressure or a contact pressure, for example, be due to centrifugal forces, which bring the sealing lip to lift. This may be the case, for example, when the seal is seated on the shaft. Also, under certain circumstances, after a machine standstill, storage cooling may take place and thereby set a negative pressure in an interior of a bearing in which the seal is inserted. This negative pressure can cause a Dichtlippenanpressdruck increases. This could possibly lead to increased friction when starting the machine, for example during a cold start. A resulting friction torque may e.g. in conveyor belts, due to a large number of bearings, so high that a drive motor does not make the conveyor belt run.

There is therefore a need to improve a seal. This requirement is taken into account by the seal and the seal arrangement according to the independent claims.

Embodiments relate to a seal having at least one sealing lip, which is designed to achieve a sealing effect with respect to at least one component. The seal also includes at least one adjustment device which is designed to change a contact pressure force of the sealing lip on the component in response to a control signal. Due to the fact that the contact pressure is adjustable by way of the adjustment device, in some embodiments too great a contact force and thus too high a friction and possibly also a too low contact force and thereby a too small sealing effect can be compensated or even avoided.

For example, a gasket may be any component that is configured to seal against at least one other component or between two components, or to seal a gap between two components. For example, to seal the gap between two components at least partially or to achieve a sealing effect can prevent particles from an environment, for example dust, dirt or the like, from penetrating into the gap and between the two components. In some circumstances, the seal may also prevent a fluid or medium located between the two components, for example, gas, air, a liquid, a lubricating medium, a lubricating oil, a lubricating fluid and / or a grease, from leaking through the gap , Under certain circumstances, the seal can also allow leakage of the fluid, for example, in amounts to prevent the entry of particles from the outside. For example, the sealing lip may be a portion of the gasket that abuts the other component or strips the other component. The sealing lip can abut, for example, in the axial and / or radial direction of the component. Under certain circumstances, the seal may have a sealing lip, which rests in the axial direction on a first component and have a seal which rests in the radial direction on a second or even third component. Additionally or alternatively, the seal may also have a plurality of sealing lips, which rest against the same component.

The control signal can be, for example, an electrical, optical and / or acoustic signal. The signal may represent, for example, a binary, analog, digital or electrical value or information represented by a value.

In addition, the adjustment can be designed to reduce the contact pressure. In some embodiments, it may thus be possible to reduce friction between the component and the seal, and thus, if necessary, wear on the wearer and / or energy consumption. The contact force or a contact pressure can be, for example, a force or a pressure with which the seal or sealing lip is pressed onto the component. The change in the contact pressure, for example, a result of a change in length, a change in circumference or a change in diameter, for example in an at least partially or completely annular seal, be.

Additionally or alternatively, the adjusting device may be designed to carry out an adjusting movement in a radial direction. In some embodiments, for example, if it is an at least partially annular seal and / or a component with a substantially circular circumference, it can be made possible so that the sealing lip pressed in the radial direction of the component and / or in the radial direction is pulled away from the component.

Additionally or alternatively, the adjusting device may be designed to carry out an adjusting movement in a circumferential direction. In some embodiments, for example, if it is an at least partially annular seal and / or a component having a substantially circular circumference, it can be made possible so that an opening of the seal receives a different circumference. Under certain circumstances, even if only one adjusting device is present, a uniform over the entire circumference lifting or pressing on the component done.

Additionally or alternatively, the adjusting device may be formed and arranged to perform an adjustment movement in an axial direction. In some embodiments, the contact pressure of the sealing lip can thus be changed to a component on which the sealing lip bears in the axial direction. This may for example be the case with a V-seal and / or a V-ring seal.

In some embodiments, the seal includes a spring or spring element that is configured to press the sealing lip against the component. The adjusting device can then be formed and arranged, for example, to change a bias of the spring or the spring element. In some embodiments, such an arrangement of the adjuster on the seal can be facilitated. For example, integrating the adjusting device into a sealing material of the seal can be dispensed with, as a result of which any damage to the sealing material may be omitted or at least reduced.

Additionally or alternatively, the adjustment can be arranged at least partially or even completely in a material of the seal. In some embodiments, so the spring or the spring element can be omitted. Under certain circumstances, it may also be possible to prevent the setting device from being exposed to an environment, for example dirt, pressure and / or a medium.

As adjusting means, all possible actuators can be used, which are designed to change a distance between a first structure and a second structure. The first and the second structure may, for example, be different regions of the seal and / or the sealing lip. The adjusting device may be, for example, at least one piezoelectric element. A piezoelectric element is a component which utilizes the piezoelectric effect in order to carry out a mechanical movement either by applying an electrical voltage or to generate an electrical voltage when a mechanical force is applied. Additionally or alternatively, the adjustment may also be another electrical, hydraulic and / or pneumatically operated actuator, such as a servomotor, a piston and / or the like.

Under certain circumstances, a plurality of adjusting devices can be arranged along a circumference of the seal. In some embodiments, such a uniform change of the contact pressure of the sealing lip on the component can be done.

Additionally or alternatively, the control signal may be generated based on information about a friction between the component and the seal. It may also be, for example, information about a temperature of the seal and / or the component. In some embodiments, such an intervention of an operator can be omitted and changing the contact pressure of the seal can be done by a control. Alternatively, changing the seal may also be performed by an operator. Under certain circumstances, the seal may also have a sensor that detects a temperature of the seal and / or the component. The sensor may be, for example, a thermocouple or another temperature sensor. Additionally or alternatively, the control signal can also be generated based on information about a rotational speed and / or a running time of the seal or of the component. Additionally or alternatively, the sensor may also be designed to a rotational speed of the component where the seal is applied to capture. In some embodiments, conclusions about the speed or information about the speed conclusions can be drawn when a centrifugal force and / or become so large to lift the sealing lip. This could possibly be counteracted. This may for example be the case in embodiments in which the seal is arranged on a rotating shaft.

Embodiments also relate to a sealing arrangement with a seal according to one of the preceding embodiments. The seal assembly also includes a sensor configured to sense information about friction between the component and the seal and / or information about a temperature of the seal and / or the component. In addition, the sealing arrangement comprises a control device, which is designed to generate the control signal based on the information of the sensor. In some embodiments, the sensor and / or the control device may be arranged on and / or in the seal or else outside and / or spaced from the seal.

The embodiments disclosed in the foregoing description, the appended claims and the appended figures, as well as their individual features, may be relevant and implemented both individually and in any combination for the realization of an embodiment in its various forms.

Thus, the figures show schematically the following views:

1 shows a schematic representation of a cross section of a seal according to an embodiment;

2 shows a schematic representation of a side view of the seal of 1 ;

3 shows a schematic representation of a cross section of a seal according to a further embodiment;

4 shows a schematic representation of a cross section of a seal according to a further embodiment;

5 shows a schematic representation of an adjusting device for a seal according to an embodiment;

6 shows a schematic representation of an adjusting device for a seal according to another embodiment;

7 shows a schematic representation of a cross section of a seal according to another embodiment.

In the following description of the accompanying drawings, like reference characters designate like or similar components. Further, summary reference numbers are used for components and objects that occur multiple times in one embodiment or in one representation, but are described together in terms of one or more features. Components or objects which are described by the same or by the same reference numerals may be the same, but possibly also different, in terms of individual, several or all features, for example their dimensions, unless otherwise explicitly or implicitly stated in the description.

The 1 shows a schematic representation of a radial section of a seal 1 according to an embodiment. The seal 1 has at least one sealing lip 2 formed to face at least one component shown in dashed lines 3 to achieve a sealing effect. Furthermore, the seal comprises 1 at least one adjustment device 4 , The adjustment device 4 is configured and arranged to be responsive to a control signal 5 a contact pressure of the sealing lip 2 on the component 3 to change. So it can be different contact forces of the sealing lip 2 the seal 1 on a mating surface 6 of the component 3 realize.

A change in the contact pressure can be, for example, in a range of at least 0.5%, 1; 1.5%, 2%, 3%, 4%, 5%, 6%, 8%, 9% or 10% of a current contact force. Changing the contact pressure can sometimes lead to a diameter of the seal 1 for example, in the case of annular or partially annular seals, by at least 0.1%, 0.2%, 0.3%, 0.4%, 0.5%, 1%; 1.5%, 2%, 3%, 4%, 5%, 6%, 8%, 9%, 10%, 12%, reduced and / or increased. For example, a change that is responsive to a control signal may be automatic without a spring or spring element or seal 1 is touched by an operator done. The adjustment device 4 can the control signal 5 from a controller based on a controller and / or a controller. The control and / or the control can have sensors or, for example, receive information about a temperature, a rotational speed and / or a running time.

The seal 1 or at least the sealing lip 2 may include as an elastic material material, for example, elastomer, rubber, polytetrafluoroethylene (PTFE) or the like. Under certain circumstances, a part of the seal 1 which is elastic, also as a sealing body 10 be designated. In the embodiment of the 1 is the seal 1 annular, and the sealing lip 2 protrudes radially inwards. At the seal 1 it is a radial shaft seal. In some other embodiments, not shown, the seal may also be any other seal such as a V-ring seal, a valve stem seal, a rotary union with an axial seal gap (eg, Rotostat), a bearing seal, a pillow block housing seal, and / or the like. Under certain circumstances, the seal may also be only partially annular and / or have a straight sealing lip. Additionally or alternatively, the seal may also have a different number of sealing lips.

The adjustment device 4 is a piezo element. The adjustment device 4 is completely made of a material of the seal 1 or the sealing body 10 surrounded or enclosed and in the radial direction outside the sealing lip 2 arranged. In the axial direction M, the adjuster overlaps 4 at least partially or even completely with the sealing lip 2 , In some other embodiments, not shown, the adjusting device can also be arranged at a different position, for example at least partially projecting from the seal and / or at least partially or completely arranged in the sealing lip. Complement or alternatively, another actuator, for example, electrically, mechanically, hydraulically and / or pneumatically be used.

The seal 1 includes a U-shaped stiffening structure 7 , which can also be called stiffening. An open page 8th the U-shape points in an axial direction M. At least one leg 9 , in the 1 both legs, is arranged perpendicular to the radial direction. The stiffening structure 7 includes a material that is stiffer than the material of the seal 1 or of the sealing body 10 For example, a plastic, a metal, a metal sheet or the like. The stiffening structure 7 is completely inside the sealing body 10 arranged. The stiffening structure 7 For example, to stabilize the seal 1 and / or as a support for the adjustment 4 , which can also be referred to as an actuator serve. Due to the stiffening structure 7 may possibly be influenced, in which direction the adjustment 4 the sealing lip 2 deformed. The stiffening structure 7 is radially outside of the adjustment 4 and the sealing lip 2 arranged. In some other, not shown embodiments, the stiffening structure can also be omitted, have a different shape and / or at least partially protrude from the sealing body.

As indicated by the arrow P, the adjusting device 4 formed and arranged to perform an adjustment movement in a radial direction. For this purpose, the adjustment 4 change their length in a radial direction. Additionally or alternatively, the adjustment 4 also be designed to change their extent in a circumferential direction.

The component 3 turns at least temporarily against the seal 1 , at the same time the sealant grinds 2 on the opposite surface 6 of the component 3 , In some embodiments, by a relative movement of the seal 1 opposite the component 3 cause friction to each other. The relative movement may be, for example, a rotational movement and / or a translational movement. This can be both the seal 1 as well as the component 3 turn, so that they perform a relative movement to each other, possibly also the seal 1 or the component 3 be arranged stationary. The seal 1 and the component 3 They can turn in the same direction or in different directions.

To an adjustment of the adjustment 4 To effect this will be with the signal 5 applied. The signal 5 can for example by a control device 11 , which may also be referred to as a controller, are generated. In the control device 11 For example, it may be a power source, a processor, a central processing unit (CPU), a graphics processing unit (GPU), a computer, a computer system, an application-specific integrated circuit (ASIC) ), an integrated circuit (IC), a system on chip (SOC) system, a programmable logic element or a field programmable gate array with a microprocessor (FPGA = Field Programmable Gate Array). The control device 11 For example, on or in the seal 1 but also spaced from the seal 1 be arranged. An energy and / or information exchange between the control device 11 and the adjuster 4 can be done for example electrically, via appropriate lines, or wireless techniques.

For example, in applications with changing operating conditions that require different sealing effects or generate frictional forces, an adjustment of the seal or the sealing lip to the corresponding operating state via the piezo elements can be realized quickly.

The 2 shows a schematic representation of a side view of the annular seal 1 , As can be seen in the circumferential direction U, a plurality of adjusting devices 4 arranged. Here are the adjoining adjusters 4 and 4-a spaced apart. The adjustment devices 4 and 4-a have in the circumferential direction U an extent which is smaller than 1/20 of a circumference on which they are arranged. In some embodiments, the adjustment means may be as for 4-a described, arranged. For example, at least one adjusting device can be arranged in each half, every third, every quarter. In some other embodiments, not shown, adjoining adjusters may also be arranged without clearance, or the seal may include only one adjuster.

The adjustment device 4-b has a greater extent in the circumferential direction, for example 1/8 of the circumference on which it is arranged. In some other embodiments, not shown, the adjustment means may have all possible circumferentially extending dimensions. Under certain circumstances, all adjustment means of a seal may have the same or different dimensions. Under certain circumstances, the seal and / or the adjusting device may be formed segmented. A plurality of individual segments or parts may result in a complete seal. For each segment, exactly one setting device or even a plurality of setting devices can be used. The adjustment means, which may also be referred to as actuators, may be lined up and distributed evenly or unevenly around a circumference.

The 3 and 4 show a schematic representation of a cross section of a seal 15 according to a further embodiment. The seal 15 is essentially similar to the seal 1 formed, but differs by a spring element 16 that the sealing lip 2 against the component, not shown 3 presses and the arrangement of the adjustment 4 , In the spring element 16 it is an annular coil spring or coil spring with a plurality of turns. For example, the windings may be wound around a spring center axis extending in a circumferential direction. In some other embodiments, not shown, the spring element may also be another elastic component, which is the sealing lip 2 biases. The adjustment device 4 is completely outside the sealing body 10 arranged. As a form that has the adjustment 4 a C-shaped arc portion, the inner diameter of an outer diameter of a turn of the spring element 16 equivalent. In some other embodiments, not shown, the adjustment device may have all possible shapes, for example cubes, cuboids, cylinders or the like.

The adjustment device 4 is formed and arranged to a bias of the spring element 16 and thus a contact pressure of the sealing lip 2 on the component, not shown 3 to change. This is the spring element 16 in the circumferential direction with a plurality of adjusting devices 4 or Piezo elements equipped. The distribution of adjusters 4 can, for example, as for the 2 described, but also deviate from this. Under certain circumstances, only one adjusting device can be arranged, to a bias voltage and / or a circumference of the spring element 16 to change.

The at least one adjusting device 4 can in various ways in the spring element 16 , which may also be referred to as a spring, be integrated, for example by sticking to a standard spring, by braiding in a standard spring, by weaving in a fiber spring, by introducing the adjustment in a rubber spring, by sheathing the adjustment with a rubber or other elastic Material, by introducing the adjustment in an injection mold and / or encapsulation with a plastic, elastomer and / or the like.

Will the at least one adjustment 4 now with the control signal 5 acted upon and / or a voltage to the adjuster 4 applied, length expansions or reductions of the spring element 16 be achieved. As a result, the diameter of the spring element changes 16 and thus the force on the sealing lip 2 acts. The sealing lip 2 raises or lowers in the radial direction. In addition, the reinforcing structure indicates 7 at the seal 15 an L-shape on. In some other embodiments, not shown, the Verstärkungssturktur omitted or have a different shape.

The 5 and 6 show a schematic representation of different adjustment 4 for the seal 15 and how these with different spring elements 16-a to 16-f can be brought into operative connection or possible connections of the adjuster 4 with the spring element 16 , The spring elements 16-a to 16-e each have an engaging structure 17-a to 17-e on that in a counter-engagement structure 18 the adjusting device 4 intervention. This is the counter-intrusive structure 18 around a hook. The intervention structures 17-a and 17-c are each formed as a closed loop. The eyelet is each a spacer 19 from a last turn of the spring element 16-a and 16-c spaced. In the spring element 16-c indicates the last turn, which is directly adjacent to the engagement structure 17-c is arranged a smaller diameter than adjacent turns. With the other spring elements 16-a to 16-e All turns are the same size. In the intervention structure 17-b it is a c-shaped hook, which also has a spacer 19 is spaced from a last turn. The intervention structure 17-e is essentially similar to the intervention structures 17-a and 17-c but formed without the spacer structure, so that the engagement structure 17-e or the eyelet connects directly to the last turn. The intervention structure 17-d has a U-shaped hook whose width corresponds to a diameter of the turns.

It is therefore in each case a settlement of a setting 4 that is in the spring element 16 is mounted. Distributed over the circumference can be a plurality of adjusting devices 4 to be appropriate.

The adjustment device 4 of the 6 includes a thread, not shown, on which the spring element 16-f is screwed with his turns. A longitudinal axis of the adjusting device 4 is arranged parallel to an axis around which the windings screw. The adjustment device 4 stretches or shortens the spring element 16-f ,

The 7 shows a schematic representation of a cross section of a seal 20 according to a further embodiment. At the seal 20 it is a so-called V-ring seal. This includes the sealing lip 2 , in the radial direction relative to the component 3 seals. The sealing lip 2 represents a tip of a V-shape. A leg of the V-shape forms another sealing lip 22 in the axial direction M with respect to a component 21 seals. For example, the component 3 relatively rotatable relative to the component 21 be stored. In the component 21 it may be, for example, a housing or the like. At the seal 22 can be a position of the sealing lip 22 in the axial direction and thus their contact force against the component 21 to be changed. This can be done either in the sealing lip 22 , a sealing body of the seal 20 and / or on the spring element 16 at least one adjuster, not shown 4 be arranged. This can, as already described for the previous embodiments, take place. Possibly omitted in some embodiments, the spring element.

In summary, the sealing lip of the seals 1 . 15 or 20 be moved in the radial and / or axial direction. For this purpose, for example, a piezo-spring element can be used for seals. By means of piezo elements, which serve as adjusting device 4 serve in the spring element 16 , which may also be referred to as a sealing lip spring mounted, the position of the sealing lip can be changed. With the help of the piezo elements or the adjustment device 4 Now, in some embodiments, a diameter of the spring element 16 increase. The sealing effect may continue to be sufficient in some embodiments, but friction, wear and therefore temperature may be reduced. A contact pressure can possibly be brought back to a normal level.

The seals 1 . 15 . 20 or the bearing assembly according to embodiments can be used in any type of seals, for example in all seals with a spring element, but also in seals without spring element. Possible applications may be in vehicles, work machines, transport machines, drive machines, conveyor belts or even in shipbuilding. For example, could be achieved in the initially described situation on the conveyor belt after a cold start by raising the sealing lip in pressure equalization or only the contact pressure of the lip can be reduced and the application could start.

The embodiments disclosed in the foregoing description, the appended claims and the appended figures, as well as their individual features, may be important and implemented both individually and in any combination for the realization of an embodiment in its various forms.

In some other embodiments, features disclosed as a device feature in other embodiments may also be implemented as method features. Further, features that are implemented as method features in some embodiments may also be implemented as device features in other embodiments.

LIST OF REFERENCE NUMBERS

1

poetry

2

sealing lip

3

component

4

adjustment

5

control signal

6

Mating surface

7

stiffening structure

8th

opened page

9

leg

10

poetry

11

control device

15

poetry

16

spring element

17

engagement structure

18

Against engaging structure

19

spacer

20

poetry

21

component

P

arrow

M

axial direction

U

circumferentially

Claims (10)

Poetry ( 1 ) with at least one sealing lip ( 2 ) formed to face at least one component ( 3 ) to achieve a sealing effect, comprising: at least one adjusting device ( 4 ) configured to respond in response to a control signal ( 5 ) a contact pressure of the sealing lip ( 2 ) on the component ( 3 ) to change. Seal according to claim 1, wherein the adjusting device ( 4 ) is designed to reduce the contact pressure. Seal according to one of the preceding claims, wherein the adjusting device ( 4 ) is adapted to perform an adjustment movement in a radial direction and / or a circumferential direction. Seal according to one of the preceding claims, wherein the adjusting device ( 4 ) is adapted to perform an adjustment movement in an axial direction. Seal according to one of the preceding claims, wherein the adjusting device ( 4 ) is adapted to a bias of a spring element ( 16 ), which is adapted to the sealing lip ( 2 ) against the component ( 3 ), to change. Seal according to one of the preceding claims, wherein the adjusting device ( 4 ) at least in sections in a material of the seal ( 1 ) is arranged. Seal according to one of the preceding claims, wherein the adjusting device ( 4 ) comprises at least one piezoelectric element, an electrically and / or a hydraulically operated actuator. Seal according to at least one of the preceding claims, wherein along a circumference of the seal ( 1 ) a plurality of adjusting means ( 4 ) are arranged. Seal according to at least one of the preceding claims, wherein the control signal ( 5 ) based on information about a friction between the component ( 3 ) and the seal ( 1 ) and / or information about a temperature of the seal ( 1 ) and / or the component ( 3 ) and / or information about a rotational speed of the component ( 3 ) and / or the seal ( 1 ) is produced. Sealing arrangement with a seal ( 1 ) according to one of the preceding claims, further comprising a sensor which is designed to provide information about a friction between the component ( 3 ) and the seal ( 1 ) and / or information about a temperature of the seal ( 1 ) and / or the component ( 3 ) and / or information about a rotational speed of the component ( 3 ) and / or the seal ( 1 ) and a control device ( 11 ), which is designed to generate the control signal based on the information of the sensor ( 5 ) to create.

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