DE4216707A1 - Sealing holder for flanged and non-flanged vehicle hoses - has spring grip and support element between tightening screw and flange - Google Patents

Abstract

The support and grip (1) which encloses the hose has two spaced concentric discs (2) each with an active support face (12-15) set at an angle (alpha) to the axis of symmetry (L). A spring ring (17) is fitted between these faces (12-15) and a holding sleeve (18) holds the support and grip element together. The force which is stored in the spring ring by tightening up the tightening screw presses as a reaction force axially onto the flange via the active faces of the two discs of the grip and support element whereby plastics deformation occurs in the flange. With time, the deformation forces in the flange decrease until the elastic state of the flange is again reached. At this point the grip and support element presses the flange. ADVANTAGE - The flange is permanently sealed against a structural element.

Description

The invention relates to a device for holding, Securing and sealing of hose connections flanged and non-flanged hoses on components or assemblies pen.

Hose connections or hose connections using a flange The hoses tend to tilt due to the cold flow of the hose mat rials for leaks. Cold flow occurs with a material if he is stressed and beyond the elastic range plastic area is reached. The material starts flow and change its dimension until the elastic range is reached again.

In previous versions it was tried to have a steady force Help of an O-ring, which is between a screw behind the flange of the hose and the screw was attached to solve. However, O-rings lose their elasticity. Hence swin the contact pressure is practically full within a few months lig, so that these statements are inappropriate and practically un are usable.

When connecting a flanged hose connection using an egg A screw connection on a straight surface is used in most Cases due to exceeding the permissible tightening torque due to Missing torque control of the screwing tools of the pla  tical range reached. These hose connections are in usually all leak in a short time.

After tightening a flanged screw connection, the Flange mostly plastically deformed.

In DE-OS 20 62 303 is one as a connection component Hose connection acting support spring or Belleville spring wrote, the support edge for pressing a flange to the Hose serves and forms part of the hose connection.

It is the object of the invention to provide a device for Bracket, securing and sealing of hose connections flanged and non-flanged hoses on components or to create assemblies with the help of which the necessary axial (and possibly radial) pressing force the elastic range of the material, and nevertheless the flange connection on components and assemblies is permanent secured and sealed there without the Screw connection would have to be retightened later.

The object of the invention is achieved by the subject of claim 1. Innovative further developments and advantageous Refinements result from the subclaims.

By arranging a gripping and supporting element with a spring effect achieved between the tightening screw and the flange one that by tightening the tightening screw in the spring washer stored force as reaction force over the action areas of the two element disks of the gripping and supporting element axially presses on the flange. As a result, there is a plastic one Deformation in the flange. Over time, the deformation will decrease forces in the flange until the elastic state in the flange is reached again. At this point the gripping and Support element with its reaction force the pressure of the Flange. As a result, the flange is permanently on a component clings tightly because this pressure on the flange thanks to the  metered force of the spring washer of the gripping and supporting element element in the elastic area of the flange material. The In this way, contact pressure remains with the same seal quality constant.

The axial forces in the gripping and supporting element in the elasti range for the necessary pressing force to the flange seal the connection.

These connections do not have to be tightened and are dense for years like the subject of DE-OS 20 62 303 shows.

When using the gripping and supporting element according to the invention comes another that supports the power of the spring washer Added force, namely the force generated by the hydrostatic Pressure is created in the hose and over the hose wall acts radially on the spring washer. The spring ring in turn wan the radial force exerted on it due to the effective area chen on both element disks of the gripping and supporting element in an axial force around. The axial force acts against the adjustment screw and against the flange.

The gripping and supporting element according to the invention can except in Hose connections or hose connections for flanged Hoses can also be used for high pressure connections. Here, the sealing takes place via a cone, which over the Ends of tubing is pushed.

With these connections, the hose material is mostly from higher strength than hoses made of PE or PTFE are made.

In the case of a high-pressure connection, the gripping and supporting element is located between the connecting screw and the sealing cone.  

When screwing in, the action areas in the two Element washers of the gripping and supporting element of the spring washer con centered on a smaller inner diameter. The Spring ring is stamped into the outer wall of the hose and thus ensures a form-fitting attachment of the hose.

The gripping and supporting element acts in three ways view:

• 1) The hose secured against pulling out;
• 2) It is ensured that the on the ring surface of the Acting hydrostatic force of the medium Cannot push hose out of its connection;
• 3) The force stored in the spring ring acts against the Ak tion surfaces of the element disks of the gripping and supporting element ment; there is one element disc on the screw exercise supported while the other disc is using its strength presses on the sealing cone and ensures that this with the required force permanently sealing the Ge Genkonus a component is pressed.

For high-pressure connections that are only made of metal, a gripping and supporting element is not required because here the sealing cone constricts into the steel pipe, the steel pipe holds and seals at the same time.

For connections in which all parts - except the befe set screws - are made of plastic, the step occurs again a cold flow mentioned above. At higher pressure, a sol che connection that is not secured by a supporting element is leaking immediately after pressurization. The Gripping and support element prevents this by its gripping and Support function.

The only safe gripping and supporting elements for such Hose connections are those described in this application Gripping and support elements. Others are not known.

Other features, details, advantages and application games emerge from the following description of preferred Embodiments of the invention and from the in the plant attached drawing. Show it:

Figure 1 is an enlarged longitudinal section through a gripping and supporting element according to the invention for connecting a ge flanged or unflanged hose.

FIG. 2 shows an enlarged side view of a gripping and supporting element (in the direction of arrow F) according to FIG. 1, partially broken open, with a partially visible annular spring element;

Fig. 3 is an enlarged longitudinal section through a Schlauchver connection for flanged hoses in a first imple mentation of the invention with a gripping and support lement of FIG. 1;

Figure 4 is an enlarged longitudinal section through a hose connection for flanged hoses with a gripping and supporting element according to a second embodiment of the invention.

Figure 5 is an enlarged longitudinal section through a hose connection for flanged hoses with a gripping and supporting element according to a third embodiment of the invention.

Figure 6 is an enlarged longitudinal section through a hose connection for flanged hoses with a gripping and supporting element according to a fourth embodiment of the invention.

Fig. 7 is an enlarged longitudinal section through a Schlauchver connection for flanged hoses not with a gripping and supporting element according to a fourth exporting approximately of the invention, the element the gripping and Stützele of Figure 1 corresponds to.

Fig. 8 is a schematic representation of the gripping and supporting element according to the invention in a relaxed rest position and

Fig. 9 is a schematic representation of the gripping and supporting element according to the invention in the tensioned operative or loading operating position.

Fig. 1 shows a gripping and supporting element 1 according to the invention in longitudinal section. The gripping and supporting element 1 has two element disks 2 , 3 , which are preferably of identical design and are arranged in mirror image to one another. The respective axially outer annular surface 4 , 5 of the two element disks 2 , 3 is preferably designed as flat surfaces before. The axially inner, mutually facing annular surfaces 6 , 7 are formed such that they have concentrically arranged, mutually mirror-image-congruent bowl-like depressions 8 , 9 sen. The radially outer edges 10 , 11 of the depressions 8 , 9 are provided with an approximately circular arc-shaped concave contour 12 , 13 , the cross section of which has an arc radius R ₁ . At the radially outer end of the circular arc-shaped concave contour 12 , 13 there is a circular arc-shaped convex contour 14 , 15 , the cross section of which has an arc radius R ₂ . The cross section of the contours 12 , 13/14 , 15 is, as shown in FIG. 1, "S" -shaped, the tangent T at the inflection point P of the contours 12 , 13/14 , 15 to the axis of symmetry A of the gripping and supporting elements 1 forms an angle α of approximately 45 °.

According to Fig. 1 is arranged with a substantially circular ring cross-section in the intermediate space 16 between the two disks 2 element, 3 a (relaxed shown) integral Fe derring 17th The spring washer 17 is open and has two ends 17 a, 17 b, the mutual spacing of which varies with the compression or extension.

In their rest position, the two element disks 2 , 3 have the greatest axial distance from one another. In this case, the completely relaxed spring ring 17 springing outward in the radial direction D is in contact with the active surfaces of the two element disks 2 , 3 .

As can be seen from Fig. 1, the package of the two element disks 2 , 3 and the spring ring arranged between them 17 of the gripping and supporting element 1 is held together by a Halteman cuff 18 so that it does not move in the directions S, T can fall apart. The retaining collar 18 is formed from a flexible material, for example from vulcanized silicone compound, from vulcanized fluoroelastomer or from another suitable material. Here, the two axial ends 19 , 20 of the holding collar 18 enclose the two element disks 2 , 3 and hold the entire unit of the gripping and supporting element 1 axially together in the directions X, Y.

When tightening and loosening the screw connection 100 , the holding collar 18 holds the two spring washers 17 including element discs 2 , 3 together. In the operative position of the gripping and supporting element 1 (after tightening the screw connection 100 ), the holding collar 18 folds in somewhat between the two element disks 2 , 3 .

The two element disks 2 , 3 have in their operative position on the opposite side the smallest axial distance. Here, the active surfaces of the two element disks 2 , 3 press against the spring ring 17 , which is thereby stretched radially. The inside diameter of the spring ring 17 narrows (operative position of the spring ring 17 ). The spring ring 17 presses practically over its entire circumference in the radial direction against the outer wall of the hose passing through it, constricts it and clamps it.

However, the two element disks 2 , 3 can also be held together by a thin-walled tube (not shown here) that is crimped at both ends on the front side, or by a slotted tube that is also crimped at both ends. The mode of operation of these tubes corresponds to the mode of operation of the holding collar 18 .

Before it is installed in the hose connection, the gripping and supporting element thus forms a ready-to-install unit consisting of two element disks 2 , 3 , a spring ring 17 arranged between them and a retaining sleeve 18 holding the element disks 2 , 3 together.

As shown in FIG. 3, the gripping and supporting element 1 is arranged in its position of use between the axial annular surface of a flange 23 formed at the end of a hose 22 and the front axial end face of a screw connection 100 of a hose connection (not explained in more detail here).

Fig. 4 shows a gripping and supporting element 41 with element plates 42, 43 in a modified embodiment. The contours of the mutually facing support surfaces 44 , 45 are not "S" -shaped in longitudinal section here, but are essentially rectilinear and run in mirror image with respect to the center plane M of the gripping and supporting element 41 and to the longitudinal axis L of the gripping and supporting element 41 each at an angle β of 10 ° to 80 °, preferably approximately 40 ° to 45 °. A spring ring 47 arranged between the element disks 42 , 43 is in contact with its support surfaces 44 , 45 . The two element disks 42 , 43 and the spring ring 47 are held together by a retaining collar 48 , as can be seen from FIG. 4. The retaining collar 48 of the gripping and supporting element 41 can be made of the same material as the retaining collar 18 of the above-mentioned embodiment of the gripping and supporting element 1 according to FIG. 1 or 3.

In the position of use, the gripping and supporting element 41 is arranged between the axial annular surface of a flange 50 formed at the end of a hose 49 and the front axial end face of a screw connection 400 of a hose connection (not explained in more detail here), as shown in FIG. 4.

Fig. 5 shows a gripping and supporting element 51 with element disks 52 , 53 and a spring washer 57 in a modified form. The contours of the mutually facing support surfaces 54 , 55 are here in longitudinal section essentially straight and run in relation to the center plane M of the gripping and supporting element 51 corresponding to the contours 44 , 45 in FIG. 4. The between the element disks 52 , 53 Arranged spring ring 57 is polygonal in cross-section, preferably square out, as shown in FIG. 5. It is in contact with the support surfaces 54 , 55 of the element disks 52 , 53 . The two element washers 52 , 53 and the spring ring 57 are held together by a retaining collar 58 , as can be seen from FIG. 5. The holding sleeve 58 of the gripping and supporting element 51 can be made of the same material as the Hal temanschette 18 of the aforementioned embodiment of the gripping and supporting element 1 according to FIG. 1 or 3rd

The cross section of an Fe (not shown here) derrings according to the invention can, according to a further embodiment form also three, five, six or polygonal training det be.

In order to be able to grip the hose more effectively, the am Cross section of the spring washer's active surfaces be spherical or arcuate. You can scale circumferential fine thread-like grooves or rif have felations. Or they can have granular structures or the like.

In the position of use, the gripping and supporting element 51 is arranged between the axial ring surface of a flange 60 formed at the end of a hose 59 and the front axial end face of a screw connection 500 of a hose connection (not explained in more detail here), as shown in FIG. 5.

The design and arrangement of a gripping and supporting element 61 shown in FIG. 6 essentially correspond to the design and arrangement of the gripping and supporting element 1 according to FIG. 3, but with the difference that the gripping and supporting element 61 has only one element disc 62 with a support surface 64 . The function of the other element disk is performed by a screw connection 600 , the front axial end face of which is designed as a support surface 65 , which speaks the support surface 64 and is arranged in mirror image thereof, as shown in FIG. 6. At the front end of the screw connection 600 , this has an annular cylindrical projection 66 , which after a day between the two support surfaces 64 , 65 arranged spring ring 67 is flanged radially inward so that the parts 64 , 65 , 67 do not fall apart and a unit that can be installed form.

In the position of use, the gripping and supporting element 61 arranged on the screw connection 600 of a hose connection (not explained in greater detail here) presses against the axial annular surface of a flange 70 formed at the end of a hose 69 . . shows how 6.

FIG. 7 shows a gripping and supporting element 1 , the design and mode of operation of which have already been described with reference to FIGS. 1 and 3. The difference to the previously described embodiments is that the gripping and supporting element 1 here, in contrast to the applications described above, is not used for the connection of flanged hoses, but for normal, that is to say flangeless hoses 79 .

As shown in FIG. 7, the gripping and supporting element 1 in its position of use between the axial annular surface of a sealing cone 81 and the forward axial end surface of a screw 700 a (not explained in detail here) arranged hose connection. With the help of the screw connection 700 , the arrangement of screw connection 700 , gripping and supporting element 1 and sealing cone 81, together with the flange-free hose 79 arranged therein, is sealed in a conical bore 80 of a component.

Instead of the spring ring, you can choose between the two elements disks balls or balls evenly distributed around the circumference Barrel rollers can be provided. When squeezing the two Element disks are the balls or barrel rollers through the Radial shape of the active surfaces of the two element disks pressed against the outer wall of the hose. This will make the  Hose constricted in places and thus against the effectiveness axial expulsion or pull-out forces are secured. At An Order of balls or barrel rollers can be the two element rings are preferably provided with special holding elements, so that the balls or barrel rollers before assembling the from the two element disks, balls or barrel rollers and Halteman do not unintentionally form formed unit from this unit fall out.

The mode of operation of the gripping and supporting element 1 according to the invention is explained in more detail below with reference to FIG. 7:

First, one end of the hose 79 is pushed through a central longitudinal bore 701 of the screw connection 700 . Then the gripping and supporting element 1 is pushed over the hose 79 , the spring ring 17 of the gripping and supporting element 1 lying practically free of play on the hose 79 and therefore being able to slide easily over it.

Then the smoothly cut, but otherwise un machined front end of the hose 79 is introduced by a Längsboh tion of the sealing cone 81 until it protrudes a little from the conical tip of the sealing cone 81 . The hose 79 is mounted in the longitudinal bore of the hose 79 practically without play.

Before assembly on a component, the gripping and supporting element 1 according to the invention “threaded onto the hose 79 ” is thus in direct contact with the screw connection 700 on the one hand and with the sealing cone 81 on the other hand. When mounting on the component, the front free end of the hose 79 is inserted into a blind hole of the component until it strikes the base surface of the blind hole. Finally, the entire unit is attached to the component by pulling the screw connection 700 .

The active or support surfaces of the two element disks 2 , 3 of the gripping and support element 1 from the axial directions X, Y against the spring ring, as a result of which the latter has to deflect inwards in the radial direction O. The clear width of the spring ring 17 narrows. In this way, the spring ring 17 clamps the hose 79 passed through it in the constriction 99 , as shown in FIG. 7. The gripping and support element 1 on the one hand and the sealing cone 81 on the other hand ensure that the unit is securely and tightly attached to the component, as shown in FIG. 7.

Finally, the mode of operation of the gripping and supporting element 41 according to FIG. 4 is explained in more detail with reference to FIGS. 8 and 9:

First, one end of the tube 49 is pushed through a central longitudinal bore 401 of the screw connection 400 . Then the element formed from the two element disks 42 , 43 , the spring ring 47 , and the holding sleeve 48 gripping and supporting element 41 is pushed over the hose 49 , the spring ring 47 lying practically free of play on the hose 49 and therefore being able to slide easily over it. A flange 50 is then formed or formed on the end of the hose 49 using known means. In the position of use, an element disk 42 lies against the axial annular surface 91 of the flange 50 . The flange 50 is supported on the other hand on the base surface 92 of a threaded hole 93 , which is formed in the housing 94 of a hose connection (not shown here and explained in more detail), as shown in FIG. 8.

Connection to the mounting and fixing of the hose 49 to the hose which is provided with an external thread Ver is schraubung screwed into the threaded hole 93 400, wherein the front axial end surface of the fitting 400 is applied to the outer axial surface of the other element disk 43 to the plant and against this axial face presses. With a further screwing of the screw 400 in the threaded hole 93 in Rich direction X, the two element washers 42 , 43 against the force of the spring ring 47 arranged between them axially ge against each other.

The force stored in the spring ring 47 ensures that the element washers 42 , 43 are pressed axially against the end face of the screw connection 400 and the flange 50 of the hose 49 . As a result, the flange 50 is sealingly pressed against the base surface 92 in the threaded hole 93 of the housing 94 of the component ge.

The tensioned spring ring ( 17 , 47 , 57 , 67 ) acts as an energy accumulator, with the following essential functions when alternatively using a flanged hose on the one hand or an unflanged hose on the other:

(α) Connection of flanged hoses

While one element washer ( 2 , 43 , 53 , 600 ) is supported on the fixed screw connection ( 100 , 400 , 500 , 600 ), the spring washer ( 17 , 47 , 57 , 67 ) presses over the other element washer ( 2 , 42 , 52 , 62 ) axially against the flange ( 23 , 50 , 60 , 70 ) resting on the component and presses it with metered, approximately constant spring force, resiliently and sealingly against the component. The flange ( 23 , 50 , 60 , 70 ) supported by the spring force also acts as a strain relief against axial pulling out of the hose ( 22 , 49 , 59 , 69 ).

(β) Connection of unflanged hoses

One element washer ( 3 ) of the gripping and supporting element ( 1 ) is supported on the fixed screw connection ( 700 ) when tightening it, while the other element washer ( 2 ) is supported on the sealing cone ( 81 ). The spring ring ( 17 ) presses due to the against the supporting or active surfaces ( 12-15 ) of the two element disks ( 2 , 3 ) caused radial narrowing or due to the resulting reduced inside diameter ( 99 ) radially on the outer wall of the claw ( 79 ), constricts it accordingly, clamps the hose ( 79 ) and secures it against axial movement. The retaining effect of the spring ring ( 17 ) on the hose ( 79 ) is essentially brought about by the constriction ( 99 ), since the material of the unflanged hose ( 79 ) used is generally hard.

At the same time, however, the tensioned spring ring ( 17 ) presses axially against the sealing cone ( 81 ) over the element disc ( 2 ) with metered, approximately constant spring force and presses it sealingly into the conical bore ( 80 ) of the component.

The above-described gripping and supporting elements 1 , 41 , 51 and 61 are each not only composed of a few parts, inexpensive to manufacture and amazingly easy to assemble, but they also offer the ability to produce tight and permanent hose connections to components or the like.

Claims (18)

1. Device for holding, securing and sealing hose connections of a flanged (flanged) or non-flanged hose on a component or an assembly, characterized in that the hose ( 22 , 49 , 59 , 69 , 79 ) encloses in a ring Sending support and gripping element ( 1 , 41 , 51 , 61 ) is provided, the

• - Two element disks ( 2 , 3/42 , 43/52 , 53/62 , 600 ) arranged at a distance from one another and concentrically to one another, each with a supporting or active surface arranged at an angle (α, β) to the axis of symmetry (L) ( 12-15 , 44-45 ) verses, has and
• - At least one between the supporting or active surfaces ( 12-15 , 44-45 ) of the element disks ( 2 , 3/42 , 43/52 , 53/62 , 600 ) arranged spring washer ( 17 , 47 , 57 , 67 ) and a holding sleeve ( 18 , 48 , 58 ) holding the support and gripping element ( 1 , 41 , 51 ) together, and

that the element disks ( 2 , 3/42 , 43/52 , 53/62 , 600 ) by a force-generating device, in particular screw connection ( 100 , 400 , 500 , 600 , 700 ) or the like, from two opposite axial directions (X, Y) are movable towards each other, the diameter of the spring washers which can be radially narrowed and tensioned by the active surfaces ( 12-15 , 44-45 ) of the element disks ( 2 , 3/42 , 43/52 , 53/62 , 600 ) ( 17 , 47 , 57 , 67 ) forms a force accumulator under tension, the force of which acts on the active surface ( 12-15 , 44-45 ) of the element washers ( 2 , 42 , 52 , 62 ) in the axial direction (X), and the tensioned spring ring ( 17 , 47 , 57 , 67 ) alternatively when used

• α) with a flange ( 23 , 50 , 60 , 70 ) provided (ge flanged) hose ( 22,49,59,69,79 ) an element disc ( 2 , 42 , 52 , 62 ) axially against the on the component lying flange ( 23 ) and presses this with metered, approximately constant spring force resiliently and sealingly against the component, or
• β) of a flangeless hose ( 79 ) as a result of its radial narrowing or, respectively , caused by the supporting or active surfaces ( 12-15 , 44-45 ) of the two element disks ( 2 , 3/42 , 43/52 , 53/62 , 600 ) . Presses its reduced clear inner diameter ( 99 ) radially onto the outer wall of the hose ( 79 ), constricts it accordingly, clamps it, secures the hose ( 79 ) against axial movement and at the same time via the element disc ( 2 , 42 , 52 , 62 ) dosed, approximately constant spring force presses axially against a sealing cone ( 81 ) and presses it sealingly into a conical bore ( 80 ) of the component.

2. Device according to claim 1, characterized in that the support and gripping element ( 1 ) has two preferably identically formed, mirror images of each other arranged element disks ( 2 , 3 ), the respective axially outer annular surface ( 4 , 5 ) preferably as a plane surface Chen are formed and their axially inner, the mutually facing annular surfaces ( 6 , 7 ) each have another concentrically arranged and mirror-image congru ent ent bowl-like depressions ( 8 , 9 ),
that the radially outer edges ( 10 , 11 ) of the recesses ( 8 , 9 ) with an approximately circular arc-shaped concave contour ( 12 , 13 ) with an arc radius (R ₁ ), at the radially outer end of a circular arc-shaped convex Contour ( 14 , 15 ) with an arc radius (R ₂ ) closes,
that the cross section of the contours ( 12 , 13/14 , 15 ) is approximately "S" -shaped, the tangent (T) at the point of inflection (P) of each of the contours ( 12 , 14/13 , 15 ) to the axis of symmetry (L) of the support and gripping element ( 1 ) forms an angle (α) of approximately 45 °, and
that each of the two contours ( 12 , 14/13 , 15 ) of the element discs ( 2 , 3 ) forms an active surface of the support and gripping element ( 1 ). 3. Apparatus according to claim 1 or 2, characterized in that in the space ( 16 ) between the two element discs ben ( 2 , 3 ) a one-piece or one-piece spring ring ( 17 ) is arranged, wherein the spring ring ( 17 ) is open and two Has ends ( 17 a, 17 b), the mutual distance of which varies when the spring ring ( 17 ) is deflected or deflected. 4. Device according to one of claims 1 to 3, characterized in that the two element disks ( 2 , 3 ) in their rest position have the greatest axial distance from one another, the spring ring springing outward in the radial direction (D), being completely relaxed ( 17 ) touching the support or active surfaces ( 12 , 13/14 , 15 ) of the two element disks ( 2 , 3 ). 5. Device according to one of claims 1 to 4, characterized in that the spring ring ( 17 , 47 , 57 , 67 ) is circular or polygonal in cross-section and on the support or active surfaces ( 12 , 13/14 , 15/44 , 45 ) of the element disks ( 2 , 3/42 , 43/52 , 53/62 , 600 ) is touching. 6. The device according to claim 5, characterized in that the spring ring ( 17 , 47 , 57 , 67 ) is rectangular in cross section, preferably square, or triangular or pentagonal or hexagonal or polygonal. 7. Device according to one of claims 1 to 6, characterized in that the package of the two element disks ( 2 , 3/42 , 43/52 , 53 ) and the Fe derring arranged between them ( 17 , 47 , 57 ) of Support and gripping elements ( 1 , 41 , 51 ) are held together by a holding collar ( 18 , 48 , 58 ) so that it cannot fall apart in the directions (S, T). 8. The device according to claim 7, characterized in that the holding collar ( 18 , 48 , 58 ) is formed from a resilient material, for example made of vulcanized silicon, made of vulcanized fluoroelastomer or of another suitable material, with the help of both of them axial ends ( 19 , 20 ) the two element washers ben ( 2 , 3/42 , 43/52 , 53 ) and when tightening and loosening the screw connection ( 100 , 400 , 500 , 700 ) the entire unit of the support and gripping element ( 1 , 41 , 51 ) concentrically and axially in the directions (X, Y). 9. Device according to one of claims 1 to 6, characterized in that the package of the two element disks ( 2 , 3/42 , 43 , 52 , 53 ) and the spring ring ( 17 , 47 , 57 ) arranged between them of the support - And gripping elements ( 1 , 41 , 51 ) are held together by a thin-walled tube that is crimped at both ends, or by a slotted tube that is also crimped at both ends, so that it does not move in the directions ( S, T) can fall apart. 10. Device according to one of claims 1 to 9, characterized in that the support and gripping element ( 1 , 41 , 51 , 61 ) in its position of use between the axial annular surface of one at the end of a hose ( 22 , 49 , 59 , 69 ) trained flange ( 23 , 50 , 60 , 70 ) and the front axial end face of a screw connection ( 100 , 400 , 500 , 700 ) of a hose connection is arranged. 11. The device according to one of claims 1 and 3 to 10, characterized in that the support and gripping element ( 41 ) has two preferably identically formed, mirror images of each other arranged element disks ( 42 , 43 ), the respective axially outer annular surface preferably as Flat surface or spherical or conical surface are formed and their respective axially inner, mutually facing annular surfaces concentrically arranged, mirror-image congruent, bowl-like, facing one another depressions with as support or active surfaces ( 44 , 45 ) formed contours, and that the longitudinally formed substantially rectilinearly formed support or active surfaces ( 44 , 45 ) with respect to the center plane M of the support element ( 41 ) to each other mirror image and to the longitudinal axis (L) of the support element ( 41 ) each at an angle ( β) run from 10 ° to 80 °, preferably approximately 40 ° to 45 °, wob ei a spring ring ( 47 ) arranged between the element disks ( 42 , 43 ) is in contact with the support or active surfaces ( 44 , 45 ). 12. The device according to one of claims 1 to 11, characterized in that the acting on the hose ( 22 ) acting surfaces of the spring ring ( 17 ) on the circumference of the spring ring ( 17 ) have circumferential fine-thread-like grooves or corrugations, crowned in cross section or arced out forms or are seen with granular structures or the like ver. 13. The device according to one of claims 1 to 12, characterized in
that the support element ( 61 ) has only one element disc ( 62 ) with a support surface ( 64 ),
that the function of the other element disc a screwing ( 600 ) takes over, the front axial end face is designed as a support or active surface ( 65 ), which corresponds to the support or active surface ( 64 ) and is arranged in mirror image Lich, and that at the front end of the screw connection ( 600 ) has an annular cylindrical projection ( 66 ) which, after mounting a spring ring ( 67 ) arranged between the two support surfaces ( 64 , 65 ), is flanged radially inwards so that the parts ( 64 , 65 , 67 ) do not fall apart and form an installable unit. 14. Device according to one of claims 1 to 13, characterized in that for the connection normal, that is flangeless hoses ( 79 ), the support element ( 1 ) in its position of use between the axial annular surface of a sealing cone ( 81 ) and the front axial End face of a screw connection ( 700 ) of a hose connection is arranged, and that with the aid of the screw connection ( 700 ) the arrangement of screw connection ( 700 ), support element ( 1 ) and sealing cone ( 81 ) together with the flange-free hose ( 79 ) arranged therein in one conical bore ( 80 ) of a component can be sealingly attached. 15. The apparatus according to claim 14, characterized in that the two element disks ( 2 , 3 ) in their operative position GE have the smallest axial distance on the opposite side, the support or active surfaces ( 12 , 13/14 , 15 ) of the two element disks ( 2 , 3 ) press against the spring ring ( 17 ) and thereby tension it radially, the spring ring ( 17 ) narrowing in its clear inner diameter (effective setting of the spring ring 17 ) practically over its entire circumference in the radial direction against the outer wall of it pushing through the hose ( 22 , 79 ), the hose ( 22 , 79 ) constricts and clamps through. 16. Device for holding, securing and sealing hose connections of a flange provided (flanged) or non-flanged hose on a component or an assembly, characterized in that
that a hose ( 22 , 79 ) annularly enclosing support and gripping element ( 1 ) is provided which has two from each other and concentrically arranged element disks, which are each provided with an axis of symmetry in an arranged active surface, and
that between the active surfaces of the element disks evenly distributed on the circumference balls or barrel rolls zen are provided,
whereby when the two element disks are pressed together, the balls or barrel rollers can be pressed radially against the outer wall of the tube by the shape of the surface of the two element disks, as a result of which the tube can be constricted in places and thus can be secured against the effect of axial expulsion or extraction forces. 17. The apparatus according to claim 17, characterized in that if balls or barrel rollers are arranged, the two el Center rings preferably with special holding elements are seen so that the balls or barrel rollers in front of the Mon days from the two element disks, spheres or clay rollers and retaining sleeve formed unit not un wanted to fall out of this unit.