WO2011070063A1 - Device for autofrettage - Google Patents

Abstract

The invention relates to a device for the autofrettage of workpieces (3), comprising a circumferentially closed housing (2) having an inner face (25) for receiving the workpiece (3), at least one sealing element (4) for closing an opening (5) of the workpiece (3), and a feed unit (12) for feeding an autofrettage medium into an inner space of the workpiece (3), wherein the sealing element (4) is arranged on the inner face (25) of the housing (2) and has a radially movable piston (6) for closing the opening (5).

Description

 description

title

 Device for Autofrettaqe prior art

The present invention relates to a device for Autof rettage of

Workpieces. In an autofrettage process, a hydraulic fluid is drilled into holes or

Cavities of a workpiece pressed under very high pressure to

To generate residual stresses in the walls of the workpiece. The workpieces treated in this way are used, for example, as common rails in modern diesel injection systems. Such a device is z. B. from DE 20 2006 017 613 U1. Due to the high pressure of the

Autofrettage medium in the process and the resulting tensile forces in the zones surrounding the autofrettage medium are partially plastically deformed material areas of the workpiece, resulting in the formation of

Material tensions in the workpiece leads. As a result, an increase in the fatigue strength of the workpieces is achieved. In the known

 Device concepts, however, the high-pressure components must be shielded by a separate safety device to exclude any danger to the operator in case of bursting. Disclosure of the invention

The inventive device for autofrettage of workpieces with the features of claim 1 has the advantage over that it has a circumferentially closed housing with an inside for receiving the workpiece, at least one sealing element for closing an opening of the workpiece and a supply unit for supplying an autofrettage Media in the interior of the workpiece, wherein the sealing member is disposed on the inside of the housing and having a movable piston for closing the opening. Due to the circumferentially closed housing is a much simpler and more compact structure with an improved recording occurring in the autofrettage of workpieces

Clamping forces realized on the inside of the housing. In addition, the arrangement of the sealing elements on the inside of the housing provides an effective integrated bursting safety device. Furthermore, the structure of the device can be very inexpensive and compact, especially when the circumferentially closed housing is arranged vertically standing.

The dependent claims show preferred developments of the invention. According to a preferred embodiment of the invention, the housing has a substantially cylindrical inner side or a substantially elliptical inner side or a substantially polygonal inner side with a preferably even number of partial surfaces. Thereby, the sealing members can be easily accommodated at a plurality of radial positions on the inside of the housing in accordance with the shape of the housing

Workpiece can be arranged.

According to a preferred embodiment of the invention, the device further comprises at least one support element, which is arranged on the inside of the housing substantially opposite to the sealing element.

Thus, all radial support and sealing forces, i. H. the resulting power flow, absorbed by the massive circumferentially closed housing. Furthermore, a deformation of the housing due to the clamping forces are minimized and trapped in case of burst escaping autofrettage medium and workpiece splitter in the housing.

Further preferably, the sealing element and / or the support element along the inner peripheral shape and / or in the axial direction of the housing are adjustable. This allows the device in a simple manner

different workpiece types to be sealed with openings to be adapted to any radial and axial positions. This contributes significantly an increased throughput of the device and shorter changeover times.

Furthermore, it can sealing elements and support elements in such

Housing interior are positioned so that forces cancel at least partially.

Further preferably, the number of support elements is smaller than the number of sealing elements. By virtue of the fact that a supporting element can absorb the resulting forces of more than one sealing element, a reduction of the components and a reduction of the manufacturing costs of the device can be realized.

In a further advantageous embodiment of the invention, the housing comprises a plurality of sub-housings which are interconnected. As a result, the housing can be quickly and inexpensively adapted to different workpiece shapes and sizes. The housing can thus be constructed in a modular manner.

Preferably, the device comprises a cover ring, which is arranged on an axial opening of the housing. Through the cover ring, the circumferentially closed housing can be closed on the opposite side of the ground in a simple manner and reliable. The circumferentially closed housing thereby gains further stability and it is provided an even better burst protection. Preferably, the cover ring has a circular central opening.

Further preferably, the device has a housing provided in the opening for loading and unloading of the device, which by means of a

Door element is closed. Through this opening in the housing a rapid manual or automated loading or unloading of the device is made possible.

According to a preferred embodiment of the invention, the device has a viewing window, which is arranged in the housing. As a result, a visual monitoring of the autofrettage process is made possible, which allows rapid determination of damage in the event of a burst and leakage before opening the housing. Preferably, the viewing window is integrated in the door element. In a further advantageous embodiment of the invention, the device comprises an axial sealing element for closing an opening of the workpiece. Due to the axial sealing element can be closed in a simple manner and reliable directed in the axial direction of the housing opening.

Preferably, each sealing element has its own pressure connection. As a result, a substantially arbitrary axial and radial positioning of each sealing element can be realized.

Further preferably, the support elements and / or the sealing elements are arranged interchangeably in the housing. This allows individual

Supporting elements and / or sealing elements are easier to dismantled or mounted during a conversion of the device. In addition, a faster and cheaper replacement of defective components is made possible.

Brief description of the drawings

Hereinafter, embodiments of the invention will be described in detail with reference to the accompanying drawings. In the drawing is:

Figure 1 is a perspective sectional view of an apparatus for

 Autofrettage of workpieces according to a first

 Embodiment of the invention, a perspective sectional view of the device of the first embodiment with a non-sealed workpiece, a perspective sectional view of the device of the first embodiment with sealed workpiece, a schematic horizontal sectional view of the device according to a second embodiment, and

Figure 5 is a schematic vertical sectional view of the device of the second embodiment. Embodiments of the invention

A device for autofrettage of workpieces according to a first preferred embodiment will be described below with reference to FIGS

Embodiment of the invention described in detail.

Figure 1 shows a perspective sectional view of a device 1 for

Autofrettage of workpieces according to a first embodiment of the invention. The device 1 has a vertically standing, circulating

closed housing 2 with a substantially cylindrical inner side 25, which is arranged on a base plate 24. The base plate 24 forms the interface between the device 1 and the rest of the machine.

According to the invention, a substantially cylindrical inner side is understood to mean a shape which is exactly cylindrical or slightly oval-shaped. In the housing 2, a workpiece 3 shown in dashed lines is received, which has on its outer circumference a plurality of openings, one of which is exemplified by the reference numeral 5. The housing 2 has, on its side opposite to a bottom region 23, a cover ring 8 with an opening 10, which is screwed to the housing 2. As further apparent from Figure 1, the housing 2 further comprises a viewing window 1 1 and due to the sectional view only partially visible opening 9 for loading and unloading of the device by means of a not shown here

Door element is closed. Alternatively, the viewing window 1 1 can also be integrated in the door element. Through the viewing window 1 1 is a visual

Monitoring the autofrettage process allows for a swift

Damage detection in case of bursting and leakage before opening the housing allows.

On an inner side of the housing 2, a plurality of sealing elements 4 arranged one above another and a plurality of supporting elements 7 are arranged, which are positioned substantially opposite the sealing elements 4. Each sealing element 4 has a movable piston 6 for

Closing in each case an opening 5 of the workpiece 3. As can be seen in more detail from the sectional view of the device 1 of Figure 2, each sealing element 4 is in this case according to the axial and radial position (see 3 and 4) of each opening 5 of the workpiece 3 is positioned and adjusted in the housing. In addition, each sealing element 4 is provided with its own pressure connection, which is identified by a reference numeral 40 by way of example in FIG. 2 in the case of a sealing element 4. As can also be seen from FIG. 2, the autofrettage medium is conveyed to the workpiece 3 via a feed unit 12 with an infeed unit 12

Axial direction A. directed mouth opening 15 fed. On the opposite side of the mouth opening 15 is an opening 14 of the

Workpiece 3 closed by an axial sealing member 13. In Figure 2, the device 1 is shown in a stage of Autofrettageprozesses in which the workpiece 3 is not sealed by the sealing elements 4 and the

Supporting elements 7 is supported.

FIG. 3 shows the device 1 in the clamped state of the workpiece 3, in which the piston 6 of each sealing element 4 in each case closes an opening 5 of the workpiece 3 which is not visible in this illustration, and the autofrettage

Medium in the direction of an arrow P via the feed unit 12 in the

Mouth opening 15 of the workpiece 3 is supplied.

Hereinafter, a device according to a second preferred embodiment of the invention will be described in detail with reference to Figures 4 and 5. Identical or functionally identical components are designated here by the same reference numerals as in the first embodiment.

In contrast to the first embodiment described above, the housing in the second embodiment of several circumferentially closed part housings 20, 21 and 22 with a cylindrical inner side 26 is composed in a modular manner. Alternatively, the housing may also be integrally formed with different heights. In the sub-housing 20 are two

Seal elements 4a and 4b arranged, the piston 6a and 6b two

To seal openings 5a and 5b of the workpiece 3, that of a

 Supporting element 7a is supported. In the sub-housing 21, a sealing member 4c is arranged, the piston 6c of which seals an opening 5c of the workpiece, which is supported by a support member 7b. In the partial housing 22, two sealing elements 4d and 4e are arranged, the piston 6d and 6e two

Seal openings 5d and 5e of the workpiece 3, the one of

Supporting element 7c is supported. The sealing elements 4a, 4b, 4c, 4d and 4e are in this case with respect to a

Central axis M of the sub-housing 20, 21 and 22 in the direction of a double arrow P1 on the inside 26 axially adjustable, so that adaptation to any axial positions of the openings 5a, 5b, 5c, 5d and 5e of the workpiece 3 can take place. As is further apparent from FIG. 4, the support element 7a supports the resulting force flow of the sealing elements 4a and 4b on the workpiece 3, while the support element 7c supports the resulting force flow of the workpiece

Sealing elements 4d and 4e supported on the workpiece 3.

As can be seen from FIG. 5, which shows a vertical section through the sub-housing 20, the sealing elements 4a and 4b are radially adjustable with respect to the center axis M in the direction of a double arrow P2 on the inner side 26, so that adaptation to any radial positions of workpiece openings is possible. The support element 7a, which is radially adjustable in the direction of a double arrow P3, is hereby positioned so that the resulting force flow acting on the workpiece 3 is absorbed and supported by the sealing elements 4a and 4b arranged at an angular offset of approximately 45 °.

As a result, the sealing elements 4 and / or the support elements 7

interchangeable and both axially and radially adjustable on the inside of the housing or the housing part of the device are arranged, the device for autofrettage of different workpiece types with any axial and radial opening positions and differing

Opening diameters are easily adapted and used. The device according to the invention minimizes the number of moving components required for the autofrettage process and limits the power flow to a few components inside the device. Because of the circulating

closed housing of the device is no additional

Safety device required for bursting event.

Claims

claims 1 . Device for autofrettage of workpieces (3), comprising:  - A circumferentially closed housing (2) for receiving the  Workpiece (3), wherein the housing (2) has an inner side (25), - At least one sealing element (4) for closing an opening (5) of the workpiece (3), and  a supply unit (12) for supplying an autofrettage medium into an interior space of the workpiece (3),  wherein the sealing element (4) on the inside (25) of the housing (2) is arranged and a movable piston (6) for closing the opening (5). 2. Device according to claim 1, wherein the housing (2) has a substantially cylindrical inside (25) or a substantially elliptical inside or a substantially polygonal inside. 3. Device according to one of the preceding claims, further comprising at least one support element (7), which on the inside (25) of the housing (2) substantially opposite the sealing element (4) is arranged. 4. Device according to one of the preceding claims, characterized  in that the sealing element (4) and / or the support element (7) are adjustable along the circumference and / or in the axial direction of the housing (2). 5. Device according to one of the preceding claims, characterized in that the number of supporting elements (4) is smaller than the number of sealing elements (7). 6. Device according to one of the preceding claims, characterized in that the housing (2) comprises a plurality of sub-housings (20, 21, 22) which are interconnected. 7. Device according to one of the preceding claims, further comprising a cover ring (8), which at an axial opening (10) of the housing (2) is arranged. 8. Device according to one of the preceding claims, characterized by a in the housing (2) arranged opening (9) for loading and unloading of the device, which is closable by means of a door member. 9. Device according to one of the preceding claims, further comprising an axial sealing element (13) for closing an opening (14) of the workpiece (3). 10. Device according to one of the preceding claims, characterized  characterized in that each sealing element (4; 13) has its own  Pressure connection (40). 1 1. Device according to one of the preceding claims, characterized  in that the support elements (7) and / or the sealing elements (4) are arranged exchangeably in the housing (2).