Information
-
Patent Grant
-
6739258
-
Patent Number
6,739,258
-
Date Filed
Thursday, February 22, 200123 years ago
-
Date Issued
Tuesday, May 25, 200420 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
- Greenberg; Laurence A.
- Stemer; Werner H.
- Mayback; Gregory L.
-
CPC
-
US Classifications
Field of Search
US
- 101 425
- 101 423
- 101 424
- 015 25651
- 015 25652
- 134 153
- 134 165
- 134 137
-
International Classifications
-
Abstract
A printing machine provided with a rectilinear guide and a cleaning device having a handle for moving the cleaning device along the rectilinear guide includes at least one joint by which the handle is attached to the cleaning device in a manner that the handle is movable relative to the cleaning device.
Description
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a printing machine provided with a cleaning device, the printing machine having a rectilinear guide and a handle for moving the cleaning device along the rectilinear guide.
The published German Patent Document DE-3 100 238 C2 discloses such a printing machine. The cleaning device thereof is equipped with a handle (note FIG. 2, item 19 of the German patent document), which is too short, however, for convenient movement of the cleaning device in the printing machine.
Japanese Patent 2 578 123 discloses another printing machine corresponding to the general type described in the introduction hereto. The cleaning device thereof has a handle (note FIG. 7, item 24 of the Japanese patent) of such length as to admittedly make it more suitable for conveniently moving the cleaning device within the printing machine but which, because of the rigid connection thereof to the cleaning device, makes the latter difficult to operate outside the printing machine. The cleaning device and the handle, when combined, are too long and too bulky.
SUMMARY OF THE INVENTION
Based upon the aforementioned prior art, it is therefore an object of the invention to provide a printing machine of the general type cited in the introduction hereto which has a cleaning device user-friendly both within the printing machine and outside the printing machine.
With the foregoing and other objects in view, there is provided, in accordance with the invention, a printing machine provided with a rectilinear guide and a cleaning device having a handle for moving the cleaning device along the rectilinear guide, comprising at least one joint by which the handle is attached to the cleaning device in a manner that the handle is movable relative to the cleaning device.
In accordance with another feature of the invention, the handle is disposed on a rod which is mounted in the joint.
In accordance with a further feature of the invention, the joint is a pivot.
In accordance with an added feature of the invention, the joint is a sliding joint.
In accordance with an additional feature of the invention, the handle is arranged as an operating element of at least one securing device.
In accordance with yet another feature of the invention, the securing device is constructed for securing the handle in a predetermined position wherein the handle is adjustable relative to the cleaning device.
In accordance with yet a further feature of the invention, the securing device is constructed for securing the cleaning device in a predetermined position wherein the cleaning device is adjustable relative to the printing machine.
In accordance with yet an added feature of the invention, the handle is arranged as an operating element of at least one setting device.
In accordance with yet an additional feature of the invention, the setting device is constructed for switching an electrical switching device.
In accordance with a concomitant feature of the invention, the setting device is constructed so as to displace at least one monitoring device.
Thus, the printing machine according to the invention, which includes a rectilinear guide and a cleaning device having a handle for moving the cleaning device along the rectilinear guide. The handle is connected to the cleaning device via at least one joint for moving the handle relative to the cleaning device.
An advantage of the printing machine according to the invention resides in the fact that the handle, guided by the joint, can be optionally adjusted either to a longer distance or to a shorter distance from the cleaning device. In order to insert the cleaning device into the printing machine through an aperture in the latter and to withdraw it from the printing machine, the handle can be set to the long distance from the cleaning device. In order to carry the cleaning device by the handle through a print room wherein the printing machine is located, the handle can be set to the short distance so that the cleaning device and the handle combined are very compact.
In an embodiment which is advantageous in terms of the arrangement of the handle on a long rod, the joint is constructed as a slide joint. It is thus possible to insert the rod along a sliding axis of the slide joint into the cleaning device and withdraw it from the cleaning device in order to move the handle towards and away from the cleaning device.
In a further embodiment which is advantageous in terms of multifunctional use of the handle, the joint is constructed as a pivot. By rotating the handle about an axis of rotation of the pivot, a securing device can be secured or disengaged from the securing condition thereof, or a setting device can be adjusted. The handle can thus include a further function, in addition to that of moving the cleaning device, in that the handle forms an operating element for actuating at least one device.
Preferably, for moving the handle relative to the cleaning device, the handle is attached to the cleaning device both via the pivot and via the sliding joint. It is, however, also possible to combine the functions of the pivot and the sliding joint in a single rotating and sliding joint.
Other features which are considered as characteristic for the invention are set forth in the appended claims.
Although the invention is illustrated and described herein as embodied in a printing machine provided with a cleaning device, it is nevertheless not intended to be limited to the details shown, since various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the claims.
The construction and method of operation of the invention, however, together with additional objects and advantages thereof will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a diagrammatic side elevational view of a printing machine having a cylinder and a cleaning device which is used for cleaning the cylinder in the printing machine;
FIG. 2
is an enlarged fragmentary front elevational view, partly diagrammatic and in section, of the printing machine with the cleaning device removed therefrom;
FIG. 3
is an enlarged front elevational view of the cleaning device which has been removed from the printing machine, and which includes a rod with a handle;
FIG. 4
is a diagrammatic side elevational view of the cleaning device into which the rod has been inserted, the cleaning device having been removed from the printing machine;
FIG. 5
is a diagrammatic side elevational view of the cleaning device in a condition wherein it is inserted into the printing machine, the rod having been withdrawn from the cleaning device, and the handle having been turned to a rotary position for locking the rod with the cleaning device;
FIG. 6
is a view similar to that of FIG.
2
and showing the cleaning device, in a front elevational view, during the insertion thereof into the printing machine; and
FIG. 7
is a view similar to that of
FIG. 6
, but in a different operating phase of the cleaning device, wherein the handle has been turned into a rotary position for locking the cleaning device to the printing machine.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring now to the drawings and, first, particularly to
FIG. 1
thereof, there is shown therein a rotary printing machine
1
having a sheet feeder
2
, a sheet delivery
3
and at least one offset printing unit
4
which includes an impression cylinder
5
, a blanket cylinder
6
, a printing form cylinder
7
and, for inking thereof, an inking unit
8
. To clean the cylinder
5
, a beam-shaped cleaning device
9
is arranged adjacent thereto and is slidable into the printing machine
1
on a rectilinear guide or slide bar
10
disposed axially parallel to the cylinder
5
, and withdrawable from the printing machine
1
. The rectilinear or crosshead guide
10
is formed of two rails
11
and
12
extending perpendicularly to the conveying direction of the printing material and horizontally, and being fixed on a frame
13
of the printing machine
1
.
FIG. 2
shows the guide
10
with the cleaning device
9
removed therefrom, and devices
14
to
19
of the printing machine
1
arranged adjacent to the guide
10
.
An electrical switching device
14
is provided for opening and closing an electric circuit
20
which supplies current to an electric motor
21
serving as the main drive of the printing machine
1
for rotatively driving the cylinder
5
.
A setting device
15
is adjustable for resetting the switching device
14
. The setting device
15
is formed of a double-armed or bellcrank lever
22
, which is pivotable about a pivot
23
rigid with the frame, and a double-armed or bellcrank lever
24
, which is pivotable about a pivot
25
rigid with the frame and is arranged coaxially with the pivot
23
rigid with the frame. An electrical switch
26
of the switching device
14
, located within the electric circuit
20
, is arranged on one arm
24
.
1
of the lever
24
, and a switching ramp
27
for actuating the switch
26
, which occurs by pressing the switch
26
, is arranged on an arm
22
.
1
. A respective tension spring
28
,
29
is articulated at one end thereof on each of the arms
22
.
1
and
24
.
1
, the other ends of the tension springs
28
and
29
being articulated on the frame
13
. Because the helical springs
28
and
29
, respectively, engage with the levers
22
and
24
, the devices
14
to
19
are held in the positions thereof shown in
FIG. 2. A
roller
30
and
31
, respectively, is rotatably fixed on each of the arms
22
.
2
and
24
.
2
, respectively, of the levers
22
and
24
, so that the axes of rotation of the rollers
30
and
31
are oriented perpendicularly to one another.
Via a setting device
16
, a monitoring device
17
serving to monitor the cleaning device
9
is movable from a passive position (note
FIG. 2
) into an active position (note
FIG. 7
) and back. Via a setting device
18
, a further monitoring device
17
serving to monitor the cleaning device
9
is movable from a passive position (note
FIG. 2
) into an active position (note
FIG. 7
) and back. Each of the setting devices
16
and
18
is constructed as a four-link coupler mechanism having a swinging drive arm formed by the lever
22
and a swinging take-off arm formed by the respective monitoring device
17
or
19
.
The monitoring device
17
is arranged to pivot about a pivot
32
of the coupler mechanism arranged stationarily on the frame
13
. A coupler
33
of the setting device
16
, formed as a spring rod, is articulated by one end, eccentrically relative to the joint
32
, on the monitoring device
17
and articulated by the other end thereof on the arm
22
.
1
of the lever
22
. The monitoring device
19
is likewise arranged to pivot about a pivot
34
arranged stationarily on the frame
13
. A coupler
35
of the setting device
18
, likewise constructed as a spring rod, is articulated by one end, offset eccentrically relative to the joint
34
, on the monitoring device
19
and articulated by the other end thereof on the lever
22
. By the setting devices
16
and
18
, constructed as flat coupler mechanisms of the four-pivot chain, the monitoring devices
17
and
19
are movable simultaneously towards the cleaning device
9
and then simultaneously away from the cleaning device
9
.
The monitoring device
17
serves for measuring the advance of a woven or nonwoven cleaning belt
36
, while the latter is unwound from a roll
37
of clean cloth and wound up onto a roll
38
of soiled cloth of the cleaning device
9
(note FIG.
3
).
The monitoring device
19
interrupts the unwinding of the belt
36
from the roll
37
as soon as the length of the section of the belt
36
still wound on the roll
37
, and hence the number of the wound layers of the belt
36
on the roll
37
, is so small that a danger exists that an end of the belt
36
fixed to the roll
37
would become detached on further unwinding from the roll
37
. The belt
36
, during the washing of the cylinder
5
by the cleaning device
9
, is pressed against the circumferential surface of the cylinder
5
.
In order for it to be possible for the cleaning device
9
to be inserted into the printing machine
1
through a window
43
(note
FIG. 1
) without colliding with the monitoring device
17
, often also described as a cloth travel sensor, and without colliding with the monitoring device
19
, often also described as a cloth end sensor, the monitoring devices
17
and
19
are adjusted by the setting devices
16
and
18
out of the insertion path of the cleaning device
9
into the passive position (note FIG.
2
).
After the cleaning device
9
has been inserted into the operating position thereof for washing the cylinder
5
in the printing machine
1
, a displacement, explained in detail hereinbelow, of the monitoring devices
17
and
19
towards the cleaning device
9
and onto the cleaning belt
36
takes place simultaneously with a locking of the cleaning device
9
in this operating position.
As shown in
FIGS. 6 and 7
, the cleaning device
9
is equipped with rollers
39
and
40
, which roll on top of the rails
11
and
12
when the cleaning device
9
is moved, and the cleaning device
9
has securing brackets
41
and
42
which rest on the outsides and undersides of the rails
11
and
12
and thus secure the position of the cleaning device
9
on the guide
10
in directions perpendicular to the insertion and guidance directions thereof. The guide
10
ends approximately flush with the window
43
and does not project out of the printing machine
1
, so that there is no danger at all of injury caused by the guide
10
.
In
FIG. 4
, the cleaning device
9
is illustrated diagrammatically and shows that a rod
44
constructed so as to be of approximately the same length as that of the cleaning device
9
is mounted in joints
45
and
60
on the cleaning device
9
. A handle
46
is disposed on a downward-angled end of the rod
44
, by which the operator can turn the rod
44
relative to the cleaning device
9
about a rotational and sliding axis
47
(note
FIG. 3
) of the joints
45
and
60
, the operator being able to slide the rod
44
into the cleaning device
9
and withdraw it from the cleaning device
9
along the axis
47
.
With the rod
44
inserted into the cleaning device
9
(note FIG.
4
), the cleaning device
9
can be manipulated easily outside the printing machine
1
. The rod
44
withdrawn from the cleaning device
9
(note
FIG. 5
) increases the operator's reach, so that the cleaning device
9
can easily be moved into the operating position thereof within the printing machine
1
and withdrawn therefrom.
The joint
45
is formed as a pivot and includes a bushing
53
, which is secured against displacement along the axis
47
and is mounted so as to be rotatable about the axis
47
in a hole formed in the cleaning device
9
. A cam
50
is fixedly connected to the bushing
53
, the cam
50
and the bushing
53
forming, for example, a single casting, and thus being turnable together with the bushing
53
about the axis
47
. A recess of square and hence polygonal cross section, through which the rod
44
is thrust, extends through the cam
50
and the bushing
53
towards the axis
47
. The cross section of the rod
44
thrust through the cam
50
and the bushing
53
is likewise square and hence polygonal in form, so that the rod
44
is seated in the recess with a positive or formlocking fit. In this regard, it is noted that a formlocking connection is one which connects two elements together due to the shape of the elements themselves, as opposed to a forcelocking connection, which locks the elements together by force external to the elements. Because of the positive or formlocking fit, the rod
44
is secured against turning relative to the cam
50
and to the bushing
53
and can only be turned about the axis
47
together with the bushing
53
and the cam
50
. However, the play of the rod
44
within the recess allows the rod
44
to be displaced relative to the bushing
53
and to the cam
50
, along the axis
47
. The joint
60
is thus a sliding joint formed by the recess and the rod
44
.
A slit diaphragm
48
having a circular recess
49
through which the rod
44
is guided is arranged on the cleaning device
9
, offset towards the axis
47
relative to the cam
50
and to the bushing
53
. A diagonal distance between corners of the four-sided rod
44
, of square cross section, is designed to be less than a diameter of the circular recess
49
, so that the rod
44
can be displaced within the recess
49
along the axis
47
and turned about the axis
47
. The recess
49
in the diaphragm
48
thus forms, together with the rod
44
, a rotating and sliding joint.
A transverse pin
51
is inserted into the rod
44
, and has a length exceeding the diameter of the recess
49
. The pin
51
, which can also be described as a projection, can however be inserted through the slit
52
formed in the diaphragm
48
if the pin
51
is rotated by turning the rod
44
into a position, shown in
FIG. 3
, wherein it is aligned with the slit
52
. With the pin
51
rotated out of alignment with the slit
52
, the pin
51
forms a rotary bolt projecting beyond the recess
49
in the radial direction, making contact with the diaphragm
48
, and thus preventing an axial displacement of the rod
44
in a first direction.
The recess passing through the cam
50
and the bushing
53
is, by contrast with the recess
49
, not widened by a slit through which the pin
51
passes. Thus, in every rotary position of the handle
46
and hence of the rod
44
, from a particular sliding position of the rod
44
wherein the pin
51
contacts the cam
50
, the pin
51
blocks an axial displacement of the rod
44
in a second direction.
In an alternative arrangement of the cam
50
and the bushing
53
, switched relative to one another differently from the arrangement shown in
FIGS. 4 and 5
, the pin
51
would contact the bushing
53
instead of the cam
50
. In the arrangement shown, the cam
50
, and in the alternative arrangement, the bushing
53
, functions as a further diaphragm which, together with the diaphragm
48
and the pin
51
, forms a securing device to lock the rod
44
and hence the handle
46
relative to the cleaning device
9
.
With the handle
46
locked (note FIGS.
5
and
6
), the pushing or pulling force exerted by the operator on the handle
46
is transmitted, via the pin
51
pressing on the diaphragm
48
or the cam
50
, to the cleaning device
9
. The securing device (diaphragm
48
, cam
50
and pin
51
) is similar in structure to a bayonet joint and forms one of the group of socket connectors.
The cam
50
serves not only as a control cam for actuating the setting device
15
but also, in addition, as a bolt of a further securing device, which is rotatable by the handle
46
about the axis
47
. This securing device is formed by the cam
50
together with the groove
54
formed in a part fixed on the frame
13
and permits locking of the cleaning device
9
in the operating position thereof. If the cam
50
is moved into the groove
54
, the securing device (cam
50
, groove
54
) blocks a displacement of the cleaning device
9
on the guide
10
in both directions. With the cam
50
located outside the groove
54
, the cleaning device
9
is freely displaceable on the guide
10
. A crosspiece
55
fixed to the cleaning device
9
and extending with the axis thereof parallel to the rod
44
also serves to actuate the setting device
14
.
The interaction of the various devices of the printing machine
1
mentioned hereinbefore is described below.
With the cleaning device
9
removed from the printing machine
1
, the handle
46
is placed against a side wall
56
of the cleaning device
9
and the rod
44
is lowered within the device
9
, as is shown in
FIGS. 3 and 4
. The device
9
is thus readily portable. Because the cylinder
5
does not have to be cleaned with the cleaning device
9
continuously, but rather, only intermittently, a printing operation of the printing machine
1
, wherein the cylinder
5
is rotatively driven by the motor
21
, is also possible with the cleaning device
9
removed from the printing machine
1
.
As shown in
FIG. 2
, with the cleaning device
9
removed from the printing machine
1
, the two levers
22
and
24
are held by the springs
28
and
29
in a relative position wherein the arm
22
.
1
does not press the switch
26
via the ramp
27
, so that the switch
26
is in a first switching position wherein the electric circuit
20
is closed.
In order to reinsert the cleaning device
9
into the printing machine
1
, for example, after replacing the belt
36
outside the printing machine
1
, the cleaning device
9
is fitted onto the guide
10
and pushed along the latter into the printing machine
1
. In order to facilitate the insertion, the rod
44
is pulled almost completely out of the cleaning device
9
and the handle
46
is thereby set at a great distance from the wall
56
. When the rod
44
is pulled out, the pin
51
passes through the slit
52
into the region between the diaphragm
48
and the cam
50
.
Due to subsequent turning of the handle
46
out of the position thereof shown in
FIGS. 3 and 4
into the position thereof shown in
FIGS. 5 and 6
, the handle
46
is locked in the insert direction of the cleaning device
9
, relative to the cleaning device
9
, by the securing device
48
,
50
and
51
, so that when the handle
46
is extended by the rod
44
, the cleaning device
9
can easily be inserted deeply into the printing machine
1
.
In the course of this insertion, the cleaning device
9
strikes the lever
24
and pivots the latter about the joint
25
thereof into a changed angular position relative to the lever
22
. In order to facilitate this actuation of the setting device
15
by the cleaning device
9
, the crosspiece
55
is arranged so that, during the insertion, the crosspiece
55
contacts the roller
30
and thus presses the arm
24
.
2
downwardly, out of the insert path of the cleaning device
9
, against the restoring action of the spring
28
. As a consequence, the switch
26
is moved towards the lever
22
and the ramp
27
, presses the latter onto the switch
26
and thus operates it, so that the electric circuit
20
is opened and the motor
21
is deactivated.
The switching device
14
triggered via the setting device
15
by the insertion of the cleaning device
9
is of a construction that, although the printing machine
1
is ready for operation when the cleaning device
9
is located outside the printing machine
1
and the cleaning device
9
is properly locked in the operating position thereof, it is not ready for operation during an intermediate state characterized by the insertion of the cleaning device
9
.
When the operator has inserted the cleaning device
9
into the operating position thereof, the cleaning device
9
is locked in the position assumed thereby by turning the handle out of the rotary position thereof shown in
FIGS. 5 and 6
into the rotary position thereof shown in FIG.
7
. Due to the turning of the handle
46
, a further actuation of the switching device
14
via the setting device
15
takes place simultaneously with the locking, the cam
50
, pivoting about the axis
47
, pressing the lever
22
out of the previous angular position thereof relative to the lever
24
into another angular position. The actuation of the switching device
14
by the cam
50
via the setting device
15
takes place gently, as the cam
50
presses the lever arm
22
.
2
downwardly via the roller
31
. The displacement of the lever
22
caused by the rotary movement of the cam
50
effects a diminishing pressure of the arm
22
.
1
on the switch
26
via the ramp
27
, due to which the switch
26
is switched back into the first switching position thereof, wherein the electric circuit
20
is closed, the motor
21
can be supplied with current via the electric circuit
20
, and the printing machine
1
is thus ready for operation.
Simultaneously with the switching of the switching device
14
, the pivoting of the lever
22
about the joint
23
, driven via the handle
46
, the rod
44
and the cam
50
, causes a displacement of the setting devices
16
and
18
and, as a consequence of this displacement, a movement of the monitoring devices
17
and
19
out of the retracted positions thereof shown in
FIG. 2
into the advanced positions thereof shown in FIG.
7
.
To secure the rotary position of the handle
46
which locks the cleaning device
9
to the printing machine
1
, a locking device
57
is provided having a locking part formed by the roller
31
and having a locking part seat formed by a concave notch
58
in the otherwise convexly curved cam curvature of the cam
50
. As shown in
FIG. 7
, the roller
31
, with the locking device
57
locked, is located in the notch
58
. The locking part (roller
31
) is retained in the locking part seat (notch
58
) by the spring
29
until such time as the limiting force of the locking device
57
determined by the springs
29
is overcome by turning the handle
46
, and the roller
31
is pressed out from the notch
58
against the action of the spring
29
, the locking device
57
thus being unlocked.
A particularly advantageous feature of the printing machine
1
is that the cleaning device
9
can be inserted deeply into the printing machine
1
and, with the cleaning device
9
, inserted into the operating position thereof (note FIG.
5
), a space between the wall
56
of the cleaning device
9
and a machine wall
59
wherein the window
43
is located is bridged by the rod
44
. This space, bridged by the rod
44
and also by the guide
10
, is almost as long as the length of the cylinder
5
and the length of the cleaning device
9
. Furthermore, the operationally reliable one-handed operation is advantageous. For the devices
14
to
19
and for inserting the cleaning device
9
, only a single operating element in the form of the handle
46
is necessary, it being necessary only for the operator to turn the handle
46
after inserting the cleaning device
9
into the printing machine
1
, virtually without releasing it, in order to actuate the devices
14
to
19
.
The actuations of the devices
14
to
19
when the cleaning device
9
is removed from the printing machine
1
take place in a sequence opposite to that for the insertion of the cleaning device
9
. First, the securing device
50
,
54
is released from the securing condition thereof, the monitoring devices
17
and
19
simultaneously being pivoted back and the switching device
14
being actuated, as a result of which the motor
21
is deactivated. When the cleaning device
9
is retracted or withdrawn from the printing machine
1
, the cleaning device
9
comes out of contact with the lever
24
, as a result of which, the latter switches the switching device
14
back, so that the printing machine
1
is again ready for operation. If the cleaning device
9
is withdrawn far enough from the window
43
during the removal thereof from the printing machine
1
, so that the operator can easily grip the cleaning device
9
, the securing device
50
,
54
can be released from the securing condition thereof, the rod
44
inserted into the cleaning device
9
, and the handle
46
placed against the cleaning device
9
.
Claims
- 1. In a printing machine, a cleaning device assembly for the printing machine, comprising:a rectilinear guide; a cleaning device having a handle for moving said cleaning device along said rectilinear guide; and at least one joint, said handle being attached to said cleaning device by said at least one joint such that said handle is movable relative to said cleaning device.
- 2. The cleaning device assembly according to claim 1, including a rod mounted in said at least one joint, said handle being disposed on said rod.
- 3. The cleaning device assembly according to claim 1, wherein said joint is a pivot.
- 4. The cleaning device assembly according to claim 1, wherein said joint is a sliding joint.
- 5. The cleaning device assembly according to claim 1, including at least one securing device having said handle as an operating element.
- 6. The cleaning device assembly according to claim 5, wherein said at least one securing device is constructed for securing said handle in a predetermined position and said handle is adjustable relative to said cleaning device into said predetermined position.
- 7. The cleaning device assembly according to claim 5, wherein said at least one securing device is constructed for securing said cleaning device in a predetermined position and said cleaning device is adjustable relative to the printing machine into said predetermined position.
- 8. The cleaning device assembly according to claim 1, including at least one setting device having said handle as an operating element.
- 9. The cleaning device assembly according to claim 8, including an electrical switching device, said at least one setting device being constructed for switching said electrical switching device.
- 10. The cleaning device assembly according to claim 8, including at least one monitoring device, wherein said at least one setting device being constructed so as to displace the at least one monitoring device.
- 11. In a printing machine, a cleaning device assembly for the printing machine, comprising:a rectilinear guide; a cleaning device having a handle for moving said cleaning device along said rectilinear guide; and at least one sliding joint, said handle being attached to said cleaning device by said at least one sliding joint for moving said handle relative to said cleaning device.
- 12. In a printing machine, a cleaning device assembly for the printing machine, comprising:a rectilinear guide; a cleaning device having a handle for moving said cleaning device along said rectilinear guide; and at least one single rotating and sliding joint, said handle being attached to said cleaning device by said at least one single rotating and sliding joint for moving said handle relative to said cleaning device.
Priority Claims (1)
Number |
Date |
Country |
Kind |
100 07 997 |
Feb 2000 |
DE |
|
US Referenced Citations (7)
Foreign Referenced Citations (3)
Number |
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Country |
31 00 238 |
Dec 1981 |
DE |
43 28 834 |
Mar 1995 |
DE |
44 22 612 |
Jun 1995 |
DE |