1. Field of the Invention
This invention relates generally to doctor blade holders used in roll cleaning, tissue creping and other like applications, and is concerned in particular with the purging of contaminants that tend to accumulate in such holders.
2. Description of the Prior Art
Many roll cleaning and tissue creping applications involve the use of blade support services commonly referred to as “doctor blade holders”. Often, the chemicals used in the paper-making process can cause significant contamination of the blade holder. This in turn leads to adhesion and sticking of what would normally be removable holder components, e.g., the doctor blade, backing blade and the blade support cartridge.
The sticking of such components can add to machine operating costs and loss production.
The objective of the present invention is to provide a means by which to inject anti-stick and/or release fluids directly into critical zones within the blade holder. This can serve a myriad of purposes, examples being to inject an initial anti-seize compound or coating during component installation, and/or to subsequently inject a release mechanism to break down unwanted adhesive forces.
A doctor blade in accordance with the present invention has upper and lower mutually spaced jaw components defining a slot therebetween. A doctor blade, which is preferably although not necessarily, carried in a blade support cartridge, is removably retained in the slot. Conduits in one of the jaw components serve to direct fluid under pressure into the slot for application to the doctor blade, the blade support cartridge and the adjacent surfaces of the jaw components in contact therewith.
These and other features and attendant advantages will now be described in further detail with reference to the accompanying drawings, wherein:
Referring now to the drawings, a blade holder in accordance with the present invention is depicted at 10 adjacent to a moving surface 12 to be doctored. The blade holder has stacked components, including upper jaw 16, intermediate shelf 18, spacer block 20 and a lower jaw 22.
The upper jaw 16 is designed to extend continuously across surface 12, whereas as can best be seen in
The upper and lower jaws 16, 22 are mutually spaced to define a slot 26 therebetween, with the upper jaw 16 having a nose projecting forwardly beyond the lower jaw.
A doctor blade 28 is removably retained in the slot 26. The doctor blade is preferably carried in a blade support cartridge comprised of side plates 30a and 30b separated by spacers 32.
A filled reaction tube 34 is interposed between a forwardly projecting edge of shelf 18 and the rear side of a backing blade 36. When the doctor back is rotated by actuators (not shown) in a counterclockwise direction as viewed in
The lower jaw is provided at spaced intervals with purge nozzles 46 having passageways 48 leading to the space 44, the latter being in communication with the doctor blade via openings in the side plate 30b. The purge nozzles provide a means by which fluids under pressure may be directed into problem zones within the slot 26 defined by the holder structure. Problem zones will typically exist adjacent to and at the areas of contact between the holder components and the doctor blade and/or blade cartridge. Fluids may be in the form of liquid, vapor or gas.
For example, liquid release agents such as silicone oil, synthetic oil and graphite, synthetic oil and polytetrafluoroethylene, could be applied via the nozzles 46 as the doctor blade and/or blade supporting cartridge are being slid into the holder. Candidate cleaning agents could include solvents, various surfactants and other detergent solutions. Steam could be used as a means of breaking down built-up chemicals and other debris within the holder. Steam pressure could be maintained during the paper-making process to minimize the build-up of contaminants while also aiding in keeping the nozzle passages clear.
Higher pressure could be used just prior to unloading the doctor structure to take advantage of higher steam volume to break down adhesive chemicals.
It should be noted that, under normal operation of the doctor blade holder when the doctor blade 28 is in contact with surface 12, the blade support cartridge (or the blade itself if a cartridge is not included) is forced or deflected against the lower jaw. Often, parts remain in this position for extended periods of time. When the blade is unloaded from surface 12, injection of high pressure air through the purge nozzles 46 could serve to assist gravity in nudging the blade or cartridge away from the lower jaw 22.
The use of a segmented lower jaw construction allowing gaps between each section provides a means to drain purged material. Use of segmentation also allows CNC machining of the lower jaw and therefore more detailed features can be applied.
The temperature of the fluids applied via the purge nozzles 46 can be adjusted, if necessary, to optimize anti-stick and cleaning functions. Use of more than one type of purge fluid at any given time is possible. For example, some nozzles along the holder length (perhaps every other nozzle) could carry steam. The remaining nozzles could supply anti-stick or lubricating fluids.
Although preferred, the embodiment herein chosen for purposes of disclosure is intended to be exemplary of others that might also incorporate the concepts of the present invention and be encompassed by the claims appended hereto. For example, the purge nozzles may be located in either or both of the jaws 16, 22 and the number, location and/or orientation of purge nozzles may be varied to optimize fluid application to the critical areas of various holder designs.
This application claims priority from U.S. Provisional Application Ser. No. 60/501,173 filed Sep. 8, 2003.
Number | Date | Country | |
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60501173 | Sep 2003 | US |