Information
-
Patent Grant
-
6799513
-
Patent Number
6,799,513
-
Date Filed
Friday, September 27, 200222 years ago
-
Date Issued
Tuesday, October 5, 200420 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
- Jones, Tullar & Cooper PC
-
CPC
-
US Classifications
Field of Search
US
- 101 4151
- 101 378
- 279 401
- 137 225
- 137 226
- 137 231
- 137 798
-
International Classifications
-
Abstract
Deformable hollow bodies are placed in cylinders of printing presses to actuate retaining and clamping devices. The hollow bodies require a sealed supply channel for supply of a pressure medium. A sealing surface and a dividing surface between the cylinder and the hollow body are arranged parallel to each other and generally perpendicularly to the direction of pressure generated by the pressure medium flowing into the hollow body.
Description
FIELD OF THE INVENTION
The present invention is directed to a method and to a device for supplying a pressure medium to a deformable hollow body. The hollow body is provided with an opening that receives a supply of the pressure medium.
BACKGROUND OF THE INVENTION
An arrangement of a hose, which can be used for operating a device for clamping flexible printing plates on a forme cylinder and which can be charged with a pressure medium, is known from EP 0 606 604 B1. The hose is arranged on a fastening strip, fixed in place on the cylinder, in the axial extension approximately in the middle between two axial, prestressed clamping strips that are extending in an axis-parallel groove.
The supply of pressure medium to the hose is accomplished through a connecting tube. The connecting tube extends through the fastening strip and is frictionally connected with a sleeve on the underside of the fastening strip facing away from the hose. The sleeve is sealed with the aid of sealing rings and is connected with a flange arranged on the underside of the fastening strip. The sealing faces between the connecting tube and the sleeve, or between the sleeve and the flange, extend parallel in respect to the pressure and force direction.
The connecting tube, which is embodied as a threaded pin with a bore, projects, on the side facing the hose, through a hole in the casing of the hose into its interior. The connecting tube can be fastened releasably and interlockingly in the interior of the hose by the use of a nut.
When mounting the hose, the hole in the hose casing must be pushed on the connecting tube fixed on the cylinder and, if required, must be fastened on the inside of the hose with a nut. In the arrangement depicted in EP 0 606 604 B1, the mounting of the hose must be performed in the radial direction from the shell surface of the cylinder.
When a pressure medium is supplied to the hose through the connecting tube, the hose inflates or expands and pushes the two clamping strips apart in the circumferential direction of the forme cylinder.
EP 0 307 890 B1 shows a device for clamping and tensioning printing plates on a plate cylinder, by using hoses which can be charged with a pressure medium. For tensioning the printing plate, the entire tensioning and clamping device, which is movably arranged in the cylinder groove, is displaced approximately in the circumferential direction of the plate cylinder. This movement takes place against the force of a restoring spring by use of a hose, which can be charged with a pressure medium and which is supported on the groove wall fixed in the cylinder. The clamping device is operated by a toggle lever, which is maintained in the clamping position by a spring force. A hose is used for opening the clamping device which hose, when charged with a pressure medium, forces the toggle lever out of the extended position against the spring force. The mechanism used for the introduction of a pressure medium into the hose is not explained in this prior art document.
DE 33 09 815 C2 discloses a clamping device for a cylinder shell, wherein a clamping sleeve, together with the shell surface of a journal and O-rings arranged between the journal and the clamping sleeve, form a deformable annular chamber. The supply of a pressure medium takes place through a radial bore through the journal, with an orifice in the annular chamber. When charged with a pressure medium, the clamping sleeve is deformed in the radial direction of the journal and holds a front disk of a cylinder shell.
Additional examples of mechanisms and of devices for holding or clamping of plates or covers on cylinders, and which are operated by pressure media, are provided in the publications EP 0 606 604 A 1, EP 0638 420 A1, EP 0 713 770 B1, EP 0 740 609 B1 or EP 0 858 890 A1, and depict a lever mechanism, the drive mechanism for a toothed rack or leaf spring, a displaceable clamping jaw or the plate or covering for the cylinder itself, which is to be held. The above examples all require an assembly at the end, or laterally inside the channel, of the hose which can be charged with pressure medium in the cylinder.
A solution for supplying a medium charged with pressure to a rotatable body itself is proposed in the publication EP 0 554 815 A1, for example.
SUMMARY OF THE INVENTION
The object of the present invention is directed to providing a method and a device for supplying a pressure medium to a deformable hollow body.
In accordance with the present invention, this object is attained by providing the deformable hollow body with a pressure medium receiving opening. The hollow body is arranged on a support surface with its opening aligned with a mouth of a pressure medium supply line. Charging of the hollow body with a pressure medium seals the opening in the hollow body to the supply line and to the support surface. The supply line does not penetrate the hollow body.
The advantages to be realized by the present invention reside, in particular, in that only slight demands are to be made on the accessibility of the supply device for the pressure medium and the position of the hose, since there is no rigid passage, fixed in the cylinder, and extending through the hose wall. The device in accordance with the present invention permits the arrangement of, and exchange of hoses to be supplied with pressure media, at places inside the cylinder, or inside the clamping device, which are difficult to reach. The supply device permits the employment of various types of hoses to be charged with pressure medium for operating holding or clamping devices. For example, the pressure medium hose can be inserted inside the channel into the clamping device in the circumferential direction laterally or at the front or end of the channel.
It is also an advantage of the device of the present invention that, in case of a relative movement between the hose and the line for supplying the pressure medium, no damages occur. This is because the parts of the supply line to be assigned to the cylinder and to the hose do not penetrate each other.
A further advantage of the device of the present invention for supplying pressure medium is the simple and rapid pre-assembly, as well as the insertion into the clamping device, without a requirement for a tool or aids which the invention provides.
The self-sealing property of the device of the present invention, because of the arrangement of the sealing faces perpendicularly to the pressure and force direction acting in the operating state, is particularly advantageous.
BRIEF DESCRIPTION OF THE DRAWINGS
A preferred embodiment of the present invention is represented in the drawings and will be described in greater detail in what follows.
Shown are in:
FIG. 1
, a schematic side elevation view, partly in section of a portion of a hose, which hose can be charged with a pressure medium, and a supply device in accordance with the present invention, and in
FIG. 2
, an enlarged representation of the passage of FIG.
1
.
DESCRIPTION OF THE PREFERRED EMBODIMENT
A device, not described in detail, and which is useable for the frictional or for the interconnected holding and/or clamping of at least one cover or dressing, for example a printing plate, on a forme cylinder, or a rubber blanket on a transfer cylinder, is arranged in a cylindrical body, such as, for example, a forme or transfer cylinder of a printing press, in an axially extending channel of a cylinder shell.
The actuation of that device, for clamping or holding the cover or dressing, takes place through the use of a deformable hollow body such as, for example, a hose
01
, which hose
01
is present in the channel of the cylinder and which hose
01
can be charged with a fluid which acts as the pressure medium to expand the hose. That pressure medium can be, for example, compressed air.
As may be seen by initially referring to
FIG. 1
, the hose
01
is arranged between a surface
02
, for example the support surface
02
, which support surface
02
is assigned to the cylinder, and a surface
03
, which is assigned to the device for clamping or holding to be operated by the hose
01
. For example, the support surface
02
is embodied as a lateral wall of the channel, fixed in the cylinder. In another embodiment, it can also be a surface of the movable device for holding or clamping.
On its side facing the support surface
02
, a wall
04
of the hose
01
has an opening
09
, through which the pressure medium is fed into the hose
01
. The hose opening
09
is aligned with, and cooperates with a mouth
08
of a line, which line mouth
08
is arranged in the side of the support surface
02
and facing the hose
01
.
The opening
09
in the hose
01
can be a cutout
06
formed directly in the wall
04
of hose
01
. However, opening
09
can also be a bore
09
in a fitting
07
which is arranged in the cutout
06
of the wall
04
.
In the preferred embodiment depicted in
FIGS. 1 and 2
, the opening
09
in the hose
01
is embodied as an axial bore formed in a disk
07
that is arranged in the cutout
06
of the hose
01
. The disk
07
is provided with a circumferential groove
11
in its exterior shell surface. The external circumferential groove
11
divides the disk
07
into a first or outer flange
12
facing the support surface
02
, a second flange
13
located in the interior of the hose
01
, and a constriction
14
located between them. On the outer end face of the first or outer flange
12
there is a surface
16
which, in cooperation with the support surface
02
, acts as a sealing face. On its side facing the hose
01
the outer flange
12
has an inner face formed by a surface
17
. This outer flange inner face
17
acts as a sealing face with the outer surface of the wall
04
of the hose
01
.
In an advantageous configuration of the disk
07
, the structure of the outer flange end face sealing surface
16
should not exceed a surface roughness of 16 μm, preferably 4 μm. The outer flange inner face surface
17
does not require such high demands on the surface structure, so that a surface roughness of 16 μm is sufficient.
An interior diameter d
09
of the bore
09
of the disk
07
is sized based on the required pressure medium flow and in the present embodiment d
09
=3 mm. The exterior diameter d
14
of the constriction
14
, for example, is d
14
=6 mm. The exterior diameter d
12
, for example d
12
=8.5 mm, of the outer flange
12
is a function of the demands made on the seal of the outer flange outer end face sealing surface
16
of the disk
07
toward the support surface
02
, and the outer flange inner face surface
17
of the disk
07
toward the wall
04
of the hose
01
. The second or inner flange
13
is used for holding the disk
07
in the wall
04
of the hose
01
, and in the preferred embodiment has an exterior diameter of d
13
=10 mm. The disk
07
has a height “h” of, for example, h
07
=3.5 mm. In the preferred embodiment, the outer flange
12
is embodied with a height h
12
=1 mm, and the constriction with a height h
14
=1.5 mm, which construction height h
14
depends on the thickness of the wall
04
of the hose
01
. In the preferred embodiment, the disk
07
has a radially extending groove
21
on the outer end face of the inner flange
13
. This groove
21
makes possible the supply of, or the escape, of the pressure medium through the bore
09
in case the wall
04
of the hose
01
, which is located directly opposite the inner flange
13
, rests directly on the inner flange
13
.
In place of the disk
07
described in the preferred embodiment, other constricted forms can be selected as the passage
07
, which have a structure, embodied as flange
12
in the preferred embodiment, cooperating with the support surface
02
, with a flat surface
16
; a flat surface
17
cooperating with the wall
04
of hose
01
, if required; a detent, such as the inner flange
13
in the preferred embodiment, and arranged in the interior of the hose
01
: a taper, which is as constriction
14
in the preferred embodiment, and which projects at least partially into the wall
04
; and a penetrating opening extending in the longitudinal direction, in the preferred embodiment, a bore
09
. The taper
14
can also be embodied as a tube which, when there is a detent
13
, connects the latter with the disk
12
.
On the side of the hose
01
facing the support surface
02
, the cutout
06
, in which the disk
07
is arranged, is located in the wall
04
of hose
01
. Advantageously the diameter d
06
of the cutout
06
, for example d
06
=5 mm has been selected, depending on the elastic properties of the hose material, to be less than the exterior diameter d
14
of the constriction
14
, so that an interconnected and frictionally tight connection between the disk
07
and the hose
01
is created. Several spaced disks
07
and associated mouths of lines
08
for hose
01
can be provided in the support surface
02
. For reasons of ease of assembly; the disk
07
and the associated mouth of the line
08
are preferably arranged in the area of the ends of the hose
01
. The disk
07
is positioned on the hose
01
in such a way that, with the hose
01
inserted into the channel of the cylinder, the longitudinal axis of the bore
09
of the disk
07
, and the longitudinal axis of the mouth of the line
08
cooperating with the disk
07
are fully aligned, in the ideal case. To be operational, the bore
09
and the mouth of the line
08
must at least intersect.
The hose
01
, equipped with a disk
07
, is arranged in the channel, and is fixed in relation to the support surface
02
, in such a way that the outer flange outer end face sealing surface
16
facing the support surface
02
rests on the support surface
02
, even in the relaxed state of the hose
01
when hose
01
is not charged with a pressure medium.
The interior diameter d
08
of the mouth of the line
08
can be equal to the interior diameter d
09
of the opening
09
, or bore
09
. To facilitate an assured intersection of the mouth of the line
08
and the opening
09
, the interior diameter d
08
of the mouth of the line
08
, for example d
08
=5 mm, can be selected to be greater than the diameter d
09
of the opening
09
in the disk
07
. This assures the certain coverage of the mouth of the line
08
by the flange
16
, even in the flaccid state where the hose
01
is not charged with a pressure medium, as well as in the case of manufacturing or assembly tolerances in the arrangement of the hose
01
, or of the disk
07
, or of the mouth of the line
08
.
A further increase of the interior diameter d
08
also requires an increase of the diameter of the cooperating outer flange
12
. When using a disk or other fitting
07
, the exterior diameter d
12
of the outer flange, the interior diameter d
09
of the bore
09
and the interior diameter d
08
of the mouth of the line
08
should be selected in an advantageous manner in such a way, that the relationship:
is met.
In further preferred embodiment of the present invention, which is not specifically represented, the diameter of the bore
09
of the disk
07
can also be selected to be larger than the interior diameter d
08
of the mouth of the line
08
.
In an advantageous manner, similar demands should also be made on the surface structure of the support surface
2
, at least in the area of the mouth of the line
08
, that are made on the surface
16
, namely a surface roughness of less than or equal to 16 μm. Alternatively to this, it is possible to arrange a sealing element
19
, such as for example a rubber or metal seal ring
19
, in a groove
18
surrounding the mouth of the line
08
in the support surface
02
. The sealing element
19
arranged in the support surface
02
, and the surface
16
of the outer flange
12
of the disk
07
facing it, in this case act together as sealing faces.
If, in an embodiment variation of the device of the present invention, the use of a disk
07
, or a fixture
07
of a different type, is omitted, the cutout
06
of the hose
01
constitutes the opening
09
for supplying the pressure medium to the hose
01
. In this case, the support surface
02
, or the sealing element
19
arranged in it, and an outer surface
22
of the wall
04
facing the support surface
02
, act together as a sealing face.
When the hose or hollow body
01
is charged with a pressure medium, the same pressure acts inside the hollow body
01
on all surfaces of body
01
in the normal direction. Here, the direction of the pressure P is understood to be the direction which is oriented approximately parallel with the longitudinal axis of the opening
09
. The above-described embodiments have in common the arrangement of sealing faces, which are essentially perpendicular, in respect to the direction of the pressure P, between the two units, which sealing faces are configured so they can be separated from each other, and therefore provide the self-sealing property of the device for supplying the pressure medium. When charged with pressure, the sealing faces are pressed against each other, so that in the operational state, the act of the charging of the hose
01
with pressure medium itself provides the seal of the supply device.
The support surface
02
to be assigned to the cylinder, and with the mouth of the line
08
, constitutes a first unit. The hollow body
01
with the opening
09
and with the surface
16
, or
22
, constitutes a second unit, acting together with the first unit, which first and second units are structured to be separable from each other. The seal of the supply device for the pressure medium between these two units, which can be separated from each other, takes place via the surfaces
16
or
22
, together with the support surface
02
, or the sealing element
19
. The separating and sealing faces are located on planes which, when the hollow body
01
is charged with pressure medium, extend almost perpendicularly in respect to the direction of the pressure P. Since the two units do not penetrate each other, in the state when pressure is applied, the connection between the two units takes place only in a frictionally connected manner, in all spatial directions. The hollow body
01
with the opening
09
, if required with the fixture
07
having the opening
09
, can, in this way, be inserted, or removed, in a simple manner, and can be separated from the support surface
02
to be assigned to the cylinder. A separation takes place in an advantageous manner almost perpendicularly in respect to the mouth of the line
08
, or of the opening
09
.
The mounting and mode of functioning of the device for supplying a pressure medium in accordance with the present invention are as described in what follows:
A cutout
06
is arranged in the hose
01
at the location in the hose
01
defined by the position of the mouth of the line
08
and the hose
01
. The disk
07
having the opening
09
is pushed, for example from the inside of the hose
01
, through the cutout
06
. The device for supplying the pressure medium, consisting of the hose
01
and the disk
07
, is inserted into an appropriate holder, not described in great detail here, in the channel of the cylinder. After the device for supplying the pressure medium has been inserted with the correct fit in respect to the position of the mouth of the line
08
, i.e. so that the mouth of the line
08
and the opening
09
in the fixture
07
at least partially intersect, the pressure supply device is ready to operate. Thereafter, the charging of the hollow body
01
with pressure medium takes place, and with this, the simultaneous sealing between the surfaces
02
,
16
, or
22
, which are arranged to lie flat on each other and do not penetrate each other, namely the support face
02
and the surface
16
, or
22
, of the passage
07
, or of the hollow body
01
.
Upon actuating a device, which is not specifically represented here, for providing pressure medium, that pressure medium, which may be, for example, compressed air, flows through the mouth of the line
08
and the bore
09
of the disk
07
into the hose
01
. The previously flaccid hose
01
is filled and takes up more space. It is supported on the support surface
02
and contacts the surface
03
of the device for clamping or releasing, holding or letting go, of dressings or coverings on cylinders. Because of the resistance of the clamping or holding device which can result from the dressing or covering to be clamped itself, from a spatial limitation, or from the restoring force of the device, the wall
04
of the hose
01
, and therefore also the outer flange
12
, are pressed against the support surface
02
, and the outer flange outer end face sealing surface
16
is frictionally and self-sealingly connected with the support surface
02
. In the same way, the outer surface
22
of the wall
04
of the hose
01
is self-sealingly connected with the outer flange inner face surface
17
of the outer flange
12
.
In connection with an embodiment of the supplying device, but with the use of a fixture
07
, the surface
22
of the wall
04
of hose
01
is directly connected with the support surface
02
in a self-cleaning and frictionally connected manner.
While a preferred embodiment of a device for supplying a pressure medium in accordance with the present invention has been set forth fully and completely hereinabove, it will be apparent to one of skill in the art that various changes in, for example the source of supply of the pressure medium, the overall size of the hose and cylinder and the like could be made without departing from the true spirit and scope of the present invention which is accordingly to be limited only by the following claims.
Claims
- 1. A method for supplying pressure medium to a reversibly deformable hollow body including:providing an opening in a surface of a wall of said hollow body; arranging said hollow body on a support surface; providing a mouth of a pressure medium supply line on said support surface; aligning said opening and said mouth; supplying a pressure medium to said supply line; charging said hollow body with said pressure medium; and deforming said hollow body for sealing said mouth of said support surface and said opening of said wall surface which lie flat on each other and do not penetrate each other.
- 2. The method of claim 1 further including providing a fitting and placing said fitting in said wall, said fitting including said opening, said sealing taking place between said mouth of said support surface and said fitting.
- 3. A device for supplying a pressure medium to a reversibly deformable hollow body comprising:a wall of said hollow body, said wall having a wall surface; a pressure medium receiving opening in said wall surface; a support surface adapted to support said hollow body; a pressure medium supply line in said support surface, said pressure medium supply line having a mouth on said support surface, said mouth and said opening intersecting, said wall surface and said support surface acting together as sealing faces and being separable from each other and further being parallel to each other and perpendicular to a direction of pressure generated in said hollow body during supply of a pressure medium to said hollow body.
- 4. The device of claim 3 wherein said pressure medium receiving opening in said wall surface of said reversibly deformable hollow body is a cutout in said wall of said hollow body.
- 5. The device of claim 3 wherein said pressure medium receiving opening in said wall surface of said hollow body includes a fitting, said fitting having an outer flange, said outer flange having an inner surface engaging said wall surface and which extends parallel with said wall surface, and a flat outer surface facing away from said hollow body.
- 6. The device of claim 5 wherein said flat outer surface extends generally perpendicular to said direction of pressure.
- 7. The device of claim 5 wherein said inner surface and said wall surface act together as sealing faces and are generally perpendicular to said direction of pressure.
- 8. The device of claim 5 wherein said fitting includes a disk and a taper, said taper projecting at least partially into said wall of said hollow body.
- 9. The device of claim 8 wherein said disk includes said outer flange.
- 10. The device of claim 8 wherein said disk has an exterior diameter (d12), wherein said opening has an interior diameter (d09), and said mouth has an interior diameter (d08) and wherein the relationship (d12-d09)2⟨d08 ⟨(d12+d09)2is met.
- 11. The device of claim 8 further including a face on said taper and a detent on said face, said detent being opposite to said disk.
- 12. The device of claim 11 further including a front end on said detent, said front end having a groove, said groove facing into an interior portion of said hollow body.
- 13. The device of claim 3 wherein said mouth and said opening do not penetrate each other.
- 14. The device of claim 3 wherein said opening has a surface and further wherein said surface and said support surface are frictionally and self-sealingly connected.
- 15. The device of claim 3 further including a sealing element on one of said support surface and said wall surface.
- 16. The device of claim 3 wherein said hollow body is configured to be positioned in a device adapted for clamping a covering on a cylinder of a printing press, said hollow body being useable to operate said covering clamping device.
- 17. The device of claim 3 wherein said hollow body is configured to be positioned in a device adapted for clamping at least one printing plate on a forme cylinder of a printing press, said hollow body being useable to operate said plate clamping device.
- 18. A device for supplying a pressure medium to a reversibly deformable hollow body comprising:a wall of said hollow body, said wall having an outer wall surface; an opening in said wall; a fitting in said opening; a pressure fluid receiving passage in said fitting; an outer flange on said fitting, said outer flange having an inner surface adjacent to and parallel to said outer wall surface of said wall of said hollow body, said outer flange further having an outer flat surface, said outer flat surface facing away from said hollow body; a support surface adapted to support said hollow body; and a pressure medium supply line in said support surface, said pressure medium supply line having a mouth on said support surface, said mouth being arranged opposite to said fitting.
- 19. The device of claim 18 wherein said passage extends in a longitudinal direction of said fitting.
- 20. The device of claim 18 wherein said hollow body and said support surface are separable and further wherein said outer flat surface and said support surface act as sealing faces, are separable from each other, and lie in a plane generally perpendicular to a pressure force generated by a pressure medium supplied to said hollow body.
- 21. The device of claim 18 wherein said mouth and said passage at least partially intersect.
- 22. The device of claim 21 wherein said mouth and said opening do not penetrate each other.
- 23. The device of clam 21 wherein said passage has a surface and further wherein said surface and said support surface are frictionally and self-sealingly connected.
- 24. The device of claim 18 wherein said outer flat surface is generally perpendicular to a direction of pressure generated in said hollow body during supply of a pressure medium to said hollow body.
- 25. The device of claim 18 wherein said inner surface and said outer wall surface act together as sealing faces and are generally perpendicular to a direction of pressure generated in said hollow body during supply of a pressure medium to said hollow body.
- 26. The device of claim 18 wherein said fitting includes a disk and a taper, said taper projecting at least partially into said wall of said hollow body.
- 27. The device of claim 26 wherein said disk includes said outer flange.
- 28. The device of claim 18 further including a sealing element on one of said support surface and said wall surface.
- 29. The device of claim 18 wherein said hollow body is configured to be positioned in a device adapted for clamping a covering on a cylinder of a printing press, said hollow body being useable to operate said covering clamping device.
- 30. The device of claim 18 wherein said hollow body is configured to be positioned in a device adapted for clamping at least one printing plate on a forme cylinder of a printing press, said hollow body being useable to operate said plate clamping device.
Priority Claims (1)
Number |
Date |
Country |
Kind |
100 15 165 |
Mar 2000 |
DE |
|
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/DE01/00384 |
|
WO |
00 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO01/73334 |
10/4/2001 |
WO |
A |
US Referenced Citations (7)
Foreign Referenced Citations (9)
Number |
Date |
Country |
3309815 |
Apr 1987 |
EP |
0 307 890 |
Mar 1989 |
EP |
0 554 815 |
Aug 1993 |
EP |
0 606 604 |
Jul 1994 |
EP |
0 638 420 |
Feb 1995 |
EP |
0 606 604 |
Jul 1997 |
EP |
0 740 609 |
Aug 1997 |
EP |
0 713 770 |
May 1998 |
EP |
0 858 890 |
Aug 1998 |
EP |