DE10219577B4 - poetry - Google Patents

Abstract

A seal for a rotary pot (106) having an axis of rotation (108), the seal (122) bounding a seal opening (132) with a seal axis (130),
wherein the seal (122) comprises a sealing surface (128) having a sealing line (124), which in the mounted state of the seal (122) is non-planar, and a bearing surface (140) opposite the sealing surface (128) and
wherein the seal (122) is deformable from an idle state in which the sealing line (124) is planar in the assembled state so that the orientation of the sealing surface (128) relative to the sealing axis (130) changes,
characterized,
- That the seal (122) comprises a spring element (170);
In that each radially averaged surface normal (160) of the sealing surface (128) at the quiescent state of the seal (122) with the sealing axis (130) forms an acute angle (β) of approximately 10 ° to approximately 30 ° ( 6 . 7 respectively. 10 . 11 );
- And that each radially averaged surface normal (160) of the sealing surface (128) in the ...

Description

The The present invention relates to a seal for a rotary pot with a Rotary axis, wherein the seal has a sealing opening with a sealing axis bordered, wherein the seal has a sealing surface with a sealing line, which in the assembled state of the seal is not planar, and one of the sealing surface opposing Includes contact surface and wherein the seal from a rest state in which the sealing line planar, in the mounted state is deformable so that the orientation the sealing surface and / or the contact surface changed relative to the sealing axis.

Especially Ring seals are known for sealing rotary pots, in which in Hibernate the radially averaged surface normal of the sealing surface and the radially averaged surface normal of contact surface are aligned substantially parallel to the sealing axis. Due to the distortion of such a ring seal during assembly of the same become the surface normals the sealing surface and the contact surface tilted away from the sealing axis so that these surface normals in the assembled state of the known ring seals obliquely to the sealing axis are aligned.

This has the consequence that the sealing surface such a ring seal not under a constant surface pressure on the lateral surface of the rotary pot is applied, so that leaks may occur. Further must the sealing surface such a ring seal is subjected to a very high bias voltage, around the sealing surface for contact with the lateral surface to bring the rotary pot. Because of this high bias is for operation the rotary pot requires a high torque.

Around these problems occurring leaks and high for the operation of the It is further to eliminate rotary pot required torque known, a ring seal accurate in the assembled state to manufacture corresponding shape, so that the seal from the manufacturing state no longer deformed in the assembled state must become. Since the seal in the assembled state a complex three-dimensional shape with a non-planar sealing line has such a seal in the assembled state appropriate figure only with a great deal of time on CNC machines with combined turning and milling units getting produced. Furthermore it is impossible, such already in the assembled state corresponding shape To provide gaskets produced seals with filigree sealing lips.

The U.S. Patent No. 2,997,057 discloses a gasket for a Rotary pot with a rotation axis, with the seal during assembly twisted and comprises a spring element.

The DE 1 500 234 A discloses a seal for a rotary pot with an axis of rotation, wherein the seal is twisted during assembly and rests in the mounted state on rigid rings, which are arranged on the outside or on the inside of the seal.

Of the present invention is based on the object, a seal to create the type mentioned, which in the assembled state one possible uniform sealing lip pressure and yet is economically producible.

These The object is achieved by a seal according to claim 1 or claim 3 solved.

The inventive seal is made so that each radially averaged surface normal of the sealing surface and / or contact surface in the assembled state of the seal perpendicular to the surface of the cylindrical, conical or spherical Rotary pot is aligned or at an angle to the vertical the surface aligned cylindrical, conical or spherical rotary pot is smaller than the acute angle at rest of the seal.

there is under a "radial averaged surface normals of a surface in this Description and in the attached claims that surface normal to understand what is going on when about the local surface normals is averaged, which those points of the area concerned (ie for example, the sealing surface or the contact surface) are assigned, in which the surface in question from a radial to the Seal axis aligned and one side of the seal axis limited half-plane is cut.

Everyone such radially aligned to the sealing axis half-plane is thus each assigned a radially averaged surface normal.

Under one "not planar "running Sealing line is one in this specification and in the appended claims To understand a sealing line that is not within a plane, but curved three-dimensionally is, for example, longitudinal a cylindrical or spherical Surface runs.

Of the solution according to the invention Underlying the concept by the twisting of the seal whose mounting occurring tilting of the sealing surface and / or the contact surface of the Seal already in the manufacture of the seal by an opposing Tilting of the area concerned across from the seal axis at least partially compensate. Thereby is in the mounted state of the seal a uniform contact pressure of the sealing surface and thus achieved a good sealing effect.

there the principle remains that the seal from a resting state, in which the seal has a simpler geometry, mounted in the Condition in which the sealing line of the sealing surface is not planar, deformed becomes. This ensures that that the seal with the hibernation corresponding simple Geometry can be produced in an economical way.

Especially can be provided that the radially averaged surface normal the sealing surface in Resting state of the seal with the sealing axis an angle of approximately 15 ° to approximately 20 ° includes.

Especially can be provided that the radially averaged surface normal the contact surface at rest, the seal with the seal axis an angle of about 15 ° to about 20 °.

Around the seal against a sealed element, such as a Rotary pot, to be able to pretend and so a sufficient sealing lip pressure against the sealed To produce element, it is provided that the seal, preferably ring-shaped, Includes spring element.

The Spring element may in particular as a meandering wound band or as Corrugated spring made of an elastic metallic material, for example made of spring steel sheet, be formed.

alternative or in addition For this purpose, the spring element as a helical element, for example made of spring steel wire, be formed.

alternative or in addition For this purpose, the spring element as an O-ring of an elastomeric material be educated.

at a preferred embodiment of the seal according to the invention it is provided that the seal has a, preferably annular, receptacle for the spring element having.

In In this context, it has proved to be beneficial if the inclusion for the Spring element has at least one lateral boundary surface, their radially averaged surface normal in Hibernation of the seal with the seal axis an acute angle includes.

Especially Cheap is it when recording for the spring element has two lateral boundary surfaces whose radial average surface normals each at rest of the seal with the seal axis a Include sharp angles.

The Recording for the spring element can on one of the sealing axis facing away from the Be formed seal.

alternative For this purpose, it can also be provided that the receptacle for the spring element formed on a sealing axis facing inside of the seal is.

The inventive seal is preferably annular closed trained.

Of the expenditure on equipment and the time required for the production of the seal can be kept particularly low when the seal as a turned part producible sealing body includes.

Especially can be provided that this seal body rotationally symmetrical the sealing axis is formed.

Around the seal according to the invention to seal against chemically aggressive and / or high temperature To be able to use fluids it is especially favorable if the seal a sealing body which consists of a polytetrafluoroethylene, a polytetrafluoroethylene compound, a modified Polytetrafluoroethylene and / or a modified polytetrafluoroethylene compound is formed.

Under a "modified Polytetrafluoroethylene "is while a PTFE-like Understand substance, wherein the molecular structure of the PTFE thereby chemically has been modified so that the fluorine atoms of the PTFE partially through Substituents are replaced.

One such modified PTFE is, for example, under the name TFM known and obtained from the company Dyneon.

Under a "polytetrafluoroethylene compound" is a mixture PTFE and at least one organic or inorganic filler to understand.

Corresponding is a "modified polytetrafluoroethylene compound" a mixture to understand which is a modified polytetrafluoroethylene, for example TFM, and at least one organic or inorganic filler includes.

The inventive seal is particularly suitable for use in a device for influencing the flow rate of a fluid, which is a rotary pot and at least a seal according to the invention includes.

Of the Rotary pot can take any shape and in particular cylindrical, conical or spherical be educated.

Mostly are such rotary pots with at least one through-hole for dosing or alternative Passing or shutting off a fluid.

There the seal according to the invention even when exposed to the sealing surface with a comparatively low preload shows a sufficient sealing effect is by using a seal according to the invention for turning the rotary pot reduces necessary torque.

The Invention is according to the following description and the graphic representation of embodiments explained in more detail.

In show the drawings:

1 a schematic section through a valve with rotary pot and two seals for sealing the rotary pot;

2 a schematic section through the valve 1 without the rotary pot, along the line 2-2 in 1 ;

3 a schematic section through the valve 1 without the rotary pot, along the line 3-3 in 1 ;

4 a perspective view of a connecting pipe of the valve 1 with a non-planar deformed seal thereon for sealing the rotary pot;

5 a schematic representation of the rotary pot of the valve from the 1 to 4 with applied to the rotary pot seals, which are provided on its outer side with a groove for a spring element;

6 a schematic cross section through one of the seals 5 in a quiescent state of the gasket in which the sealing line of the gasket is planar;

7 an enlarged view of the area I from 6 ;

8th a schematic section through a seal according to the prior art in a resting state in which the sealing line of the seal is planar;

9 a schematic section through a rotary pot with applied to the rotary pot seals according to the prior art;

10 a schematic section through a second embodiment of a seal, which is provided on its inside with a groove for receiving a spring element, in an idle state in which the sealing line of the seal is planar;

11 an enlarged view of the area II from 10 ;

12 a schematic section through a rotary pot with applied to the rotary pot seals according to the second embodiment; and

13 an enlarged view of the area III from 1 in an alternative embodiment of a ring seal whose abutment wall is clamped in a clamping groove.

Same or functionally equivalent Elements are designated in all figures with the same reference numerals.

One in the 1 to 7 shown, as a whole with 100 designated valve is designed as a check valve and comprises a housing 102 with a substantially cylindrical receptacle 104 for a substantially cylindrical rotary pot 106 which is about its longitudinal axis 108 rotatably in the housing 102 is held.

A substantially cylindrical through hole 110 intersperses the rotary pot 106 perpendicular to its longitudinal axis 108 and aligned in the in 1 illustrated open position of the valve 100 both with the mouth opening 112 one in the housing 102 used, substantially cylindrical inlet pipe 114 as well as with the opposite mouth opening 116 one in the housing 102 inserted, substantially cylindrical and with the feed pipe 114 coaxial drainpipe 118 ,

The cut, the rotary pot 106 facing end face of the inflow pipe 114 forms a seat 120 for one between the seat 120 and the rotary pot 106 arranged ring seal 122 which the mouth opening 112 of the supply pipe 114 surrounds annularly.

In a similar way forms the rotary pot 106 facing end face of the drain pipe 118 a seat 120 ' for one between the seat 120 ' and the rotary pot 106 arranged, the mouth opening 116 the drainpipe 118 ring-shaped surrounding ring seal 122 ,

As best of the perspective representation of 4 can be seen, is the seat 120 ' not cylindrical or conical, but rather follows the intersection of two interpenetrating cylinder.

As a result, the sealing line also runs 124 , along which the ring seal 122 on the lateral surface of the rotary pot 106 is not within a plane, but is not planar.

The ring seals 122 are not produced in this non-planar state, but first in the in the 6 and 7 illustrated resting state produced and only during assembly of the ring seal 122 at the seat 120 respectively. 120 ' deformed so that a contact surface 140 the ring seal 122 to the respective seat 120 respectively. 120 ' and a sealing surface 128 the ring seal 122 to the outer surface of the rotary pot 106 snugly.

How best 6 is to be seen, is a sealing body 172 the ring seal 122 at rest, rotationally symmetrical about a sealing axis 130 formed by the center of the ring seal 122 enclosed seal opening 132 runs.

The along the circumference of the ring seal 122 constant cross-section of the seal body 172 has substantially U-shaped configuration, with a support wall 134 , with one of the support wall 134 opposite sealing lip 136 and with one the inner end of the support wall 134 with the inner end of the sealing lip 136 connecting footbridge 138 , The sealing lip 136 remote outer surface of the support wall 134 forms the contact surface 140 the ring seal 122 whose surface normals 142 at an acute angle α in the range of about 15 ° to about 20 ° with respect to the sealing axis 130 to the outside of the ring seal 122 is tilted (see 7 ).

The seal axis 130 facing outer surface of the web 138 forms a cylindrical inner ring surface at rest 144 whose surface normals 146 radial to the seal axis 130 is aligned.

The ring inner surface 144 could be formed in a variant of this embodiment instead of cylindrical, for example, truncated cone-shaped or spherical.

The outside of the sealing lip 136 is with a bead 148 provided so that these the sealing surface 128 the ring seal 122 forming outer surface adjacent to a frustoconical inner portion 150 a convexly curved outer section 152 includes.

How best 7 can be seen, is the local surface normal 154 in the inner section 150 the sealing surface 128 at a constant acute angle β against the sealing axis 130 inside to the sealing axis 130 tilted out.

The local surface normals 156 in the convex curved outer section 152 the sealing surface 128 are at different angles against the seal axis 130 but tilted over the outer section 152 the sealing surface 128 radially averaged surface normal 158 essentially parallel to the surface normal 154 the inner portion of the sealing surface 128 is aligned.

Consequently, that is over the entire sealing surface 128 radially averaged surface normal 160 essentially parallel to the surface normals 154 and 158 aligned and thus by the acute angle β relative to the sealing axis 130 inside to the sealing axis 130 tilted out.

Of the Angle β is preferably in the range of about 15 ° to about 20 °.

The angle β can be smaller than the tilt angle α of the contact surface 140 , be substantially equal to the angle α or greater than the angle α.

Preferably the angles α and β are substantially same size.

The contact surface 140 opposite surface 162 the plant wall 134 that the sealing surface 128 opposite surface 164 the sealing lip 136 and the ring inner surface 144 opposite surface 166 of the footbridge 138 together limit one to the outside of the ring seal 122 open annular receiving groove 168 in which a ring-shaped closed spring element 170 is included, which both on the surface 162 the plant wall 134 as well as on the surface 164 the sealing lip 136 is applied and due to its elastic residual stress these surfaces pressed apart (see 7 ).

The spring element 170 For example, may be formed as a meandering wound band made of an elastic metallic material, for example, a spring steel sheet.

The investment wall 134 , the bridge 138 and the sealing lip 136 the ring seal 122 are integrally formed with each other and are preferably made of polytetrafluoroethylene (PTFE), a PTFE compound, modified PTFE or a modified PTFE compound.

The seal body 172 is prepared by pressing from a powdery starting material containing the PTFE or the modified PTFE, a substantially cylindrical blank is pressed and then sintered.

Out the sintered blank, the sealing body is described with the above for the resting state Geometry produced on a lathe as a turned part.

Finally, the spring element 170 in the receiving groove 178 brought in.

During assembly of the thus formed ring seal 122 in the valve 100 becomes the ring seal 122 From the rest state described above so three-dimensionally deformed by twisting that the contact surface 140 the ring seal 122 flat at the respective seat 120 . 120 ' is applied.

In this assembled state, the ring seal 122 by means of a suitable adhesive, which prior to assembly of the ring seal 122 at the seat 120 . 120 ' and / or on the contact surface 140 the ring seal 122 has been arranged, fixed.

Alternatively or in addition to a fixation of the ring seal 122 By gluing can also be provided that the free edge of the plant wall 134 in a clamping groove 180 on the housing 102 engages and in this position by means of the Zuflußrohres 114 or the drainpipe 118 is clamped, as in 13 shown.

After inserting the rotary pot in the recording 104 of the housing 102 lies the sealing surface 128 the ring seal 122 at one along the crest of the bead 148 the sealing lip 136 extending, non-planar sealing line 124 on the lateral surface of the rotary pot 106 on, with the sealing lip 136 by the spring element 170 against the rotary pot 106 is biased to the for a fluid-tight seal on the sealing line 124 produce required surface pressure.

How out 5 It can be seen, has the orientation of the sealing surface 128 the ring seal 122 during deformation during assembly of the ring seal 122 relative to the sealing axis 130 changed so that the angle β, by which the radially averaged surface normal 160 the sealing surface 128 opposite the sealing axis 130 tilted, has shrunk.

Preferably, the radially averaged surface normal 160 the sealing surface 128 in the assembled state of the ring seal 122 essentially parallel to the sealing axis 130 aligned.

Furthermore, the deformation during assembly of the ring seal 122 also the orientation of the contact surface 140 relative to the sealing axis 130 changed, so that the (radially averaged) surface normal 142 the contact surface 140 in the assembled state of the ring seal 122 at a smaller angle to the sealing axis 130 is tilted as in the idle state of the ring seal 122 ,

By the already in the manufacture of the seal body 172 anticipated tilting of the sealing surface 128 and the contact surface 140 caused by the distortion of the ring seal 122 is at least partially compensated during assembly, a uniform contact pressure of the sealing lip 136 against the rotary pot 106 and thus achieved a good sealing effect.

The by the spring element 170 generated bias of the sealing lip 136 against the rotary pot 106 can therefore be kept low, so that the turning of the rotary pot 106 required torque is reduced.

In the in 1 illustrated open position of the valve 100 can one through the supply pipe 114 supplied fluid along the flow direction 174 through the through hole 110 of the rotary pot 106 into the drainpipe 118 flow.

By turning the rotary pot 106 around its longitudinal axis 108 The valve can be at an angle of 90 ° 100 be brought into a closed position in which the valve 100 is blocked for the flow of fluid.

The per unit time through the valve 100 flowing fluid amount can be adjusted to a desired value by the rotary pot 106 is brought into a lying between the open position and the closed position intermediate position.

One in the 8th and 9 illustrated ring seal 176 The prior art differs from the ring seal according to the invention described above 122 in particular in that in the in 8th illustrated Ruhezu stood the ring seal 176 the surface normal 142 the contact surface 140 and the radially averaged surface normal 160 the sealing surface 128 parallel to the seal axis 130 are aligned.

This causes that due to the distortion of the ring seal 176 when mounting them in the valve 100 the surface normals 142 respectively. 160 from the sealing axis 130 be tilted away so that the surface normals 142 respectively. 160 in the 9 shown on the right assembled state of the ring seal 176 obliquely to the sealing axis 130 are aligned.

This is the sealing surface 128 the ring seal 176 not under a constant surface pressure on the lateral surface of the rotary pot 106 so that leaks can occur.

Furthermore, the sealing lip 136 the ring seal 176 by means of the spring element 170 be subjected to a very high bias voltage to the sealing surface 128 for contact with the lateral surface of the rotary pot 106 bring to. Due to this high bias is in this case to operate the rotary pot 106 a high torque required. Furthermore, it is possible that the rotary pot 106 is displaced due to the bias in the axial direction.

The same disadvantages occur in the 9 left illustrated another embodiment of a ring seal 176 ' in the prior art, which differs from the above-described first embodiment of a ring seal 176 differs only according to the prior art in that the receiving groove 168 for the spring element 170 not on the sealing axis 130 remote outside of the seal body 172 but on the sealing axis 130 facing the same inside.

One in the 10 to 12 illustrated second embodiment of a ring seal according to the invention 122 differs from the first embodiment of the invention described above only in that the receiving groove 168 for the spring element 170 not, as in the first embodiment, to the sealing axis 130 remote outside of the seal body 172 towards, but rather to the sealing axis 130 facing inside.

As a consequence, the (radially averaged) surface normal is 142 the contact surface 140 in the second embodiment at rest not from the sealing axis 130 away to the outside, but rather at the acute angle α inward to the seal axis 130 tilted out.

Further, in the second embodiment, the radially averaged surface normal 160 the sealing surface 128 not inward to the sealing axis 130 but by the angle β outward from the sealing axis 130 tilted away.

The Angle α and β can be the same Take values as in the first embodiment.

How out 12 can be seen, also changes in the second embodiment of the ring seal 122 the orientation of the sealing surface 128 and the contact surface 140 relative to the sealing axis 130 such that in the in 12 illustrated assembled state of the ring seal 122 the surface normals 142 and 160 the contact surface 140 or the sealing surface 128 at a smaller angle to the seal axis 130 are tilted as in the assembled state.

In particular, in the mounted state of the second embodiment of a ring seal 122 the radially averaged surface normal 160 the sealing surface 128 substantially parallel to the sealing axis 130 and to the surface normal of the lateral surface of the rotary pot 106 aligned.

At the in 12 The arrangement shown offers the second embodiment of the ring seal 122 the advantage that the medium to be sealed the plant wall 134 and the sealing lip 136 the ring seal 122 apart and thus increased sealing pressure on the sealing line 124 is achieved.

Otherwise, the second embodiment of a ring seal is correct 122 with the first embodiment of the invention, to the above description, reference is made in this regard.

Claims (14)

Seal for a rotary pot ( 106 ) with a rotation axis ( 108 ), the seal ( 122 ) a sealing opening ( 132 ) with a sealing axis ( 130 ), whereby the seal ( 122 ) a sealing surface ( 128 ) with a sealing line ( 124 ), which in the assembled state of the seal ( 122 ) not planar, and one of the sealing surface ( 128 ) opposite contact surface ( 140 ) and wherein the seal ( 122 ) from a resting state in which the sealing line ( 124 ) is planar, in the mounted state is deformable so that the orientation of the sealing surface ( 128 ) relative to the sealing axis ( 130 ), characterized in that - the seal ( 122 ) a spring element ( 170 ); - that each radially averaged surface normal ( 160 ) of the sealing surface ( 128 ) in the resting state of the seal ( 122 ) with the sealing axis ( 130 ) includes an acute angle (β) of about 10 ° to about 30 ° ( 6 . 7 respectively. 10 . 11 ); - and that every radially averaged surface normal ( 160 ) of the sealing surface ( 128 ) in the assembled state of the seal ( 122 ) - perpendicular to the surface of the cylindrical, conical or spherical rotary pot ( 106 ) ( 1 and 5 respectively. 12 and 13 ) - or at an angle to the vertical of the surface of the cylindrical, conical or spherical rotary pot ( 106 ), which is smaller than the acute angle (β) at rest of the seal ( 122 ), Wherein a radially averaged surface normal results from the fact that all local surface normals ( 7 : 152 . 154 . 156 . 158 ) of the points of the sealing surface ( 128 ), which are on the section line of a profile cross-section ( 7 respectively. 11 ) and the sealing surface ( 128 ) of the annular seal ( 122 ) lie. Seal according to claim 1, characterized in that the radially averaged surface normal ( 160 ) of the sealing surface ( 128 ) in the resting state of the seal ( 122 ) with the sealing axis ( 130 ) includes an angle (β) of about 15 ° to about 20 °. Seal for a rotary pot ( 106 ) with a rotation axis ( 108 ), with the seal 122 a sealing opening ( 132 ) with a sealing axis ( 130 ), whereby the seal ( 122 ) a sealing surface ( 128 ) with a sealing line ( 124 ), which in the assembled state of the seal ( 122 ) is not planar; and one of the sealing surface ( 128 ) opposite contact surface ( 140 ) and wherein the seal ( 122 ) from a resting state in which the sealing line ( 124 ) is planar, in the mounted state is deformable so that the orientation of the sealing surface ( 128 ) relative to the sealing axis ( 130 ), characterized in that - the seal ( 122 ) a spring element ( 170 ) Comprises; - that each radially averaged surface normal ( 160 ) of the contact surface ( 140 ) in the resting state of the seal ( 122 ) with the sealing axis ( 130 ) includes an acute angle (α) of about 10 ° to about 30 ° ( 6 . 7 respectively. 10 . 11 ); - and that every radially averaged surface normal ( 160 ) of the contact surface ( 140 ) in the assembled state of the seal ( 122 ) - perpendicular to the surface of the cylindrical, conical or spherical rotary pot ( 106 ) ( 1 and 5 respectively. 12 and 13 ) - or at an angle to the vertical of the surface of the cylindrical, conical or spherical rotary pot ( 106 ) which is smaller than the acute angle (α) at rest of the seal ( 122 ), Wherein a radially averaged surface normal results from the fact that all local surface normals ( 7 : 152 . 154 . 156 . 158 ) of the points of the contact surface ( 140 ), which are on the section line of a profile cross-section ( 7 respectively. 11 ) and the contact surface ( 140 ) of the annular seal ( 122 ) lie. Seal according to claim 3, characterized in that the radially averaged surface normal ( 142 ) of the contact surface ( 140 ) in the resting state of the seal ( 122 ) with the sealing axis ( 130 ) includes an angle (α) of about 15 ° to about 20 °. Seal according to one of claims 1 to 4, characterized in that the seal ( 122 ) an annular spring element ( 170 ). Seal according to one of claims 1 to 5, characterized in that the seal ( 122 ) a, preferably annular, receptacle ( 168 ) for the spring element ( 170 ) having. Seal according to claim 6, characterized in that the receptacle ( 168 ) for the spring element ( 170 ) at least one lateral boundary surface ( 162 . 164 ), the radially averaged surface normal in the idle state of the seal ( 122 ) with the sealing axis ( 130 ) includes an acute angle. Seal according to claim 7, characterized in that the receptacle ( 168 ) for the spring element ( 170 ) two lateral boundary surfaces ( 162 . 164 ), whose radially averaged surface normal in each case in the idle state of the seal ( 122 ) with the sealing axis ( 130 ) enclose an acute angle. Seal according to one of claims 6 to 8, characterized in that the receptacle ( 168 ) for the spring element ( 170 ) on one of the log axis ( 130 ) facing away from the outside of the seal ( 122 ) is trained. Seal according to one of claims 6 to 9, characterized in that the receptacle ( 168 ) for the spring element ( 170 ) on one of the sealing axis ( 130 ) facing inside of the seal ( 122 ) is trained. Seal according to one of claims 1 to 10, characterized in that the seal ( 122 ) is formed annularly closed. Seal according to one of claims 1 to 11, characterized in that the seal as a Rotary part producible seal body ( 172 ). Seal according to one of claims 1 to 12, characterized in that the seal ( 122 ) a sealing body ( 172 ), which is formed of a polytetrafluoroethylene, a polytetrafluoroethylene compound, a modified polytetrafluoroethylene and / or a modified polytetrafluoroethylene compound. Device for influencing the flow rate of a fluid, comprising a rotary pot ( 106 ) and at least one seal ( 122 ) according to one of claims 1 to 13.