Apparatus for cleaning of curved surfaces employing the cloth principle

Information

  • Patent Grant
  • 6618896
  • Patent Number
    6,618,896
  • Date Filed
    Tuesday, September 28, 1999
    25 years ago
  • Date Issued
    Tuesday, September 16, 2003
    21 years ago
Abstract
Apparatus for cleaning a curved surface by employing the cloth principle, the apparatus having a roll for unsoiled cloth with unused cleaning cloth thereon, a roll for soiled cloth for taking up used soiled cloth, a pressing element for pulling unsoiled cleaning cloth off the roll for unoiled cloth and to bring it in contact with a surface to be cleaned by a movement of the element toward the surface, and means for pulling cleaning cloth off the roll for unsoiled cloth and for rolling soiled cloth up on the roll for soiled cloth by rolling up a part of the cleaning cloth that is longer or equal to the part thereof that is removed by the pressing element from the roll for unsoiled cloth independently of the respective diameters of the rolls for soiled and unsoiled cloth.
Description




FIELD OF INVENTION




The invention relates to apparatus for cleaning of curved surfaces employing the cloth principle.




BACKGROUND




It is known e.g. from German patent No. 300 5469-02 in apparatus for cleaning by employing the cloth principle that the cleaning cloth is brought in operating contact with the surface to be cleaned by a pressing element having an elastic rubber membrane. This rubber membrane can be expanded by a pressure medium and the cleaning cloth is guided to the surface that is to be cleaned.




It is also known to design the pressing element for the cloth as a functional unit and to provide the side pointing to the surface to be cleaned with an elastic build-up. This pressing element can be slid by a pneumatic actuator and can be so engaged to or disengaged from the corresponding surface to be cleaned.




These kinds of cleaning apparatus have means to pull off the cleaning cloth from the roll for the unsoiled cloth, as well as means to roll up dirty cleaning cloth on the roll for the soiled cloth. These kinds of apparatus also are provided with means to insure that a constant cleaning cloth length is pulled off from the roll for the unsoiled cloth. For this purpose, for example according to the aforesaid German patent No. 300 5469-C2 the diameter of the roll for the soiled cloth is sensed and a mechanical control limits the rotational angle of the driven roll for the soiled cloth as a function of that diameter.




It is also known to use angular encoders at the cloth rolls to provide identical cloth lengths and to retain identical cloth lengths for cleaning by pulling off and rolling up.




The systems for pulling off and rolling up the cloth, and for securing identical cloth lengths are usually quite costly, and require considerable space which is especially in the case of sheet fed offset presses not readily available.




BRIEF DESCRIPTION OF INVENTION




It is an object of the present invention to provide an apparatus for cleaning curved surfaces by the cloth principle with simple means and low space requirements.




Apparatus for cleaning a curved surface by employing the cloth principle, the apparatus having a roll for unsoiled cloth with unused cleaning cloth there, a roll for soiled cloth for taking up used soiled cloth, a pressing element for pulling unsoiled cleaning cloth off the roll for unsoiled cloth and to bring it in contact with a surface to be cleaned by a movement of the element toward the surface, and means for pulling cleaning cloth off the roll for unsoiled cloth and for rolling soiled cloth that is longer or equal to the part thereof that is removed by the pressing element from the roll for unsoiled cloth independently of the respective diameters of the rolls for soiled and unsoiled cloth.




The solution of the present invention establishes by simple means equal cloth lengths rolls taken independently from the diameter of the roll of unsoiled cloth or the roll of soiled cloth and rolled up on the roll of soiled cloth. The pulling off of cleaning cloth with the pressing element furthermore permits space saving and cost reduction.











BRIEF DESCRIPTION OF THE DRAWING




The invention is described below in greater detail by reference to an embodiment of the invention, further by reference being had to the drawing, wherein:





FIG. 1

shows a schematic cross-sectional view of the cleaning apparatus.











DETAILED DESCRIPTION





FIG. 1

shows a cylinder


1


to be cleaned with a cleaning device


2


. The cleaning device


2


can be provided with a frame


3


, which contains all components, so that the entire cleaning device


2


can be taken off the press e.g. as a unit.




The cleaning device


2


has a roll


4


for unsoiled cloth with the unused cleaning cloth


5


would therearound. The roll


4


for unsoiled cloth is attached from a spindle


6


, which is attached to a toothed belt pulley


7


. The cleaning cloth


5


is guided from the roll


4


for unsoiled cloth past a pressing element


8


to a roll


9


for soiled cloth. The roll


9


for soiled cloth is attached from a spindle


10


, which is connected to a toothed belt pulley


11


via a friction clutch


22


. A locking mechanism


12


is allocated to the spindle


10


to permit the rotation of the spindle


10


and with it the roll


9


for soiled cloth in only one rotational direction


13


. A toothed belt


14


connects the toothed belt pulley


7


and the toothed belt pulley


11


. The toothed belt


14


is guided by guiding rolls


15


to correspond with the toothed belt pulley


7


and toothed belt pulley


11


respectively, and is tensioned by a tension roll


16


through force storage


17


, which is supported from the frame


3


. The force storage


17


is in the illustrated embodiment a compression spring


18


.




The pressing element


8


has a base body


19


mounted from the frame


3


and carrying a pressure body


20


to be pressurized and depressurized by means not shown. The pressure body


20


when depressurized takes the position shown in solid lines in

FIG. 1

; and when it is pressurized, the pressure body


20


takes the position shown in broken lines. Once it is pressurized, the pressure body


20


provides the pressure area


21


with a big stroke.




It is also possible to design the pressing element


8


with an elastic zone pointing to the cylinder


1


to be cleaned and to stretch parallel along this cylinder


1


. Actuators can move the pressing element


8


from the resting position into a working position, in which the cleaning cloth


5


is in operating contact with the surface of the cylinder


1


.




During operation of the cleaning device


2


the pressure body


20


is shown depressurized in a resting position and the cleaning cloth


5


, the toothed belt


14


, the tension roll


16


as well as the pressure body


20


are shown in full lines in FIG.


1


.




The pressure body


20


is pressurized if the cylinder


1


is to be cleaned and reaches the position shown in broken lines whereby the cleaning cloth


5


is pulled off from the roll


4


for unsoiled cloth. The locking mechanism


12


prevents removal of cleaning cloth


5


from the roll


9


for soiled cloth. The toothed belt pulley


7


is rotated together with the pulling off of the cleaning cloth


5


from the roll


4


for unsoiled cloth. The slack in the unloaded part of the toothed belt


14


increases as shown by broken lines, and the loaded part of the toothed belt


14


is tensioned because the toothed belt pulley


11


cannot follow the rotation of the driving toothed belt pulley


7


caused by the cleaning cloth


5


. The tension roll


16


moves from the position shown in solid lines into the position shown in broken lines and the spring


18


is subjected to compression. When the pressure body


20


is depressurized, such as after the cleaning process is finished or an unsoiled cleaning cloth section is needed, the tension roll


16


is moved into its original position by the spring


18


. This causes rotation of the soiled cloth roll


9


in the rotational direction


13


and a rolling up of the cleaning cloth


5


onto the roll


9


for soiled cloth. Simultaneously the slack of the unloaded part of the toothed belt


14


is eliminated. The friction clutch


22


is set to be engaged only when the cleaning cloth


5


that is to be rolled up is tightly stretched.




The speed increasing ratio from the toothed pulley


7


driven by the roll


4


for unsoiled cloth to the toothed belt pulley


11


driving the roll


9


for soiled cloth is selected so that it should roll up more or respectively exact the same length of the cleaning cloth


5


onto the roll


9


for soiled cloth as is taken from the roll


4


for unsoiled cloth, by the pressing element


8


independently of the diameter ratio of the roll


4


for unsoiled cloth. This also causes storage of always more energy in the compression spring


18


than is needed for rolling up of the roll


9


for soiled cloth. This also insures that the cleaning cloth


5


is always tightly stretched, whereby the friction clutch


22


is engaged only if an appropriate tension of the cleaning cloth


5


occurs. Thus, a pre-determined tension is achieved in the compression spring


18


after each transport of the cleaning cloth


5


.




The connection between the roll


4


for unsoiled cloth and the roll


9


for soiled cloth is shown in the embodiment with a toothed belt drive. It is also possible to use any other kind of belt or belt-like transmission means.



Claims
  • 1. Apparatus for cleaning a curved surface, which comprises a roll for unsoiled cloth with unused cleaning cloth thereon, a roll for soiled cloth for taking up soiled cloth, a pressing element being the sole means provided for pulling unsoiled cleaning cloth off said roll for unsoiled cloth and to bring it in contact with a curved surface to be cleaned by a movement of said element toward said surface, and means for rolling soiled cloth up on the roll for soiled cloth by rolling up a part of said cleaning cloth that is longer or equal to the part thereof that is removed by said pressing element from said roll for unused cleaning cloth independently of the respective diameters of said rolls for unused and soiled cloth.
  • 2. The apparatus of claim 1, wherein said pressing element has a fixed base element and an optionally pressurizable and depressurizable pressure element.
  • 3. The apparatus of claim 7, wherein said pressure element can be moved from a resting position into an operating position toward the surface to be cleaned, said pressure element being the only means in the apparatus for pulling unused cleaning cloth from said roll with unused cleaning cloth.
  • 4. The apparatus of claim 4, wherein said means for rolling soiled cloth up on the roll for soiled cloth comprises a toothed transmission belt.
  • 5. The apparatus of claim 4, further comprising a first spindle for carrying said roll for unsoiled cloth, a second spindle for carrying said roll for soiled cloth, a toothed belt pulley each attached to said first and said second spindles, said toothed belt pulley on said second spindle having a friction clutch associated therewith for enabling only unidirectional rotation of said second spindle, and said toothed transmission belt is wound about each of said toothed belt pulleys, guiding rolls for said toothed transmission belt, said rolls each corresponding to a respective toothed belt pulley, and a tension roll with force storage, said toothed transmission belt having an unloaded part guided by a guiding roll, and a loaded part tensioned by said tension roll with force storage.
Priority Claims (1)
Number Date Country Kind
198 50 410 Nov 1998 DE
US Referenced Citations (10)
Number Name Date Kind
4344361 MacPhee et al. Aug 1982 A
5069128 Hara et al. Dec 1991 A
5125342 Hara Jun 1992 A
5198243 Shimizu et al. Mar 1993 A
5275104 Corrado et al. Jan 1994 A
5328116 Hishinuma Jul 1994 A
5390602 Gorl Feb 1995 A
5404819 Hishinuma et al. Apr 1995 A
5636570 Ebina et al. Jun 1997 A
5894800 Bar et al. Apr 1999 A
Foreign Referenced Citations (1)
Number Date Country
3005469 Oct 1980 DE