The present invention relates to a device enabling a more efficient method of cleaning of either interior and exterior surfaces that require periodic cleaning, painting, and contaminant removal and maintenance, such as large storage tanks, and particularly, water towers, and more particularly, an oscillating media blasting nozzle which enlarges the media blasting path.
Prior approaches to obtain a larger work path while media blasting a surface use single narrow angle nozzles, two nozzles or multiple nozzles which are attached at fixed angles.
Accordingly, what is needed is to decrease water tower downtime, thus reducing the cost to the municipality in having to rent special equipment to maintain water pressure while work is being performed, wherein an operator can apply media blasting material to larger surface areas requiring fewer passes.
Also, surface media blasting poses a danger to the operator(s) and any and all safety precautions must be taken to improve the safety conditions.
The object of the present invention is to reduce costs, and time savings to the operator as less time is required to perform the same amount of work, as fewer passes are needed to blast the same amount of surface area.
The oscillating interior and exterior surface media blaster of the present invention addresses these needs.
An apparatus for blasting a media onto a surface comprises an oscillating nozzle, a mount and a power source. The mount attaches the nozzle to tooling, enabling the nozzle to be raised and lowered about a vertical axis, and enabling the nozzle to be repositioned about a horizontal axis. The power source enables the nozzle to oscillate. The blasting media is sprayed through the nozzle onto the surface. The oscillating nozzle projects an enlarged dispersion pattern of the blasting media onto the surface being treated. The apparatus may include a basket positioned near the mount, enabling an operator to be positioned upon a truss and control the blasting of the media onto the surface, the basket being mounted via a swivel bearing, enabling the basket to self-level. Also, the media blasting apparatus may be controlled by an operator positioned in a remote control computer area.
The oscillating interior and exterior surface media blaster of the present invention preferably uses aluminum construction which helps to make the apparatus lighter and easier to use when mounted on a robot or blasting gantry by putting less stress on the robot or gantry, reducing wear and tear on equipment. Also, the oscillating interior and exterior surface media blaster of the present invention does not have the media going through the operating mechanism of the gun, greatly reducing wear and tear on the electric motor and associated elements.
By having the head of the blasing gun oscillating during use, a larger pattern is acheived, which reduces the amount of time spent working on a given section. There are also fewer moving parts by minimizing the number of nozzles deployed, as opposed to using numerous nozzles as is common in the industry.
The oscillating interior and exterior surface media blaster of the present invention is mounted to a variable length truss which is remotely controlled from outside, or inside the water tower or other building being media blasted.
For a complete understanding of the present invention, reference is made to the accompanying drawings and description in which the presently preferred embodiments of the invention are shown by way of example. As the invention may be embodied in many forms without departing from spirit of essential characteristics thereof, it is expressly understood that the drawings are for purposes of illustration and description only, and are not intended as a definition of the limits of the invention.
One primary advantage of the oscillating interior and exterior surface media blaster [24], unlike other designs, is it does not have any blasting media passing through the gun itself, so there is none of the associated wear and tear on the components as is common in other designs in which the media passes through the apparatus, wearing out bearings, motors and requiring frequent rebuilding of the blasting guns. Rather, the media is supplied to the gun via a line which attaches to the unit and sprays the media onto the oscillating nozzle [16] while the nozzle holder is spinning, thus creating the necessary fan width and enabling a wider path to be cleaned as opposed to current methods and apparatuses.
The improved surface media blaster and painter apparatus of the present invention [24] is able to fit into smaller spaces, while also reducing weight by eliminating the necessary electric motors necessary to move the variable length truss [35] from side to side. This also makes the unit smaller, thus enabling a fit into smaller water tanks, or other applications into which space is a premium.
The end of the variable length truss [35] contains another truss [40] which extends in and out; accomplished via an extension ram [38] which is mounted inside of the variable length truss [45]. The horizontal support member [32] upon which the variable length truss [35] is attached rotates vertically at its attachment points to the vertical support members [30] via two worm drive electric motors [44] so as to enable an operator to reach areas which are not located directly in front of the end of the truss [40]. On the opposing end of the variable length truss [35] can be mounted a basket [42] into which an operator can stand and control the surface blasting apparatus of the present invention [24] while inside of a water tank or building.
Conversely, if there is no operator basket [42] attached, a counter weight can be attached to supply the necessary weight to counterbalance the attachment on the end of the variable truss [35]. The operator basket [42] can be attached via solid mount or via bearing [55] which enables the operator basket [42] to self-level. Also, the same user can operate the apparatus remotely via control center which would be parked outside of the water tank or area being media blasted. The control center would have the remote control box used to control the apparatus as well as monitors to supply access to the cameras mounted on the end of the variable length truss [35] as well as onboard diagnostics equipment which would enable real time monitoring of the apparatus during use. The cameras also have night vision capability, enabling the system to be used in environments in which there is little to no light.
The surface media blaster [24] is connected to the variable length truss [35] via two side to side adjusting rams [58] which enables the user to move the surface media blaster [24] from side to side during use. This increases the useable range of the surface media blaster [24] in case the variable length truss [35] has been rotated to an extreme position. The surface media blaster [24] also can be mounted directly to the variable length truss [35] if desired for applications in which space is a premium and the shortest possible profile is required.
The surface media blaster [224] is portable, and comprises a nozzle [16] that oscillates, a power source [2], and a switch mechanism [226].
The power source [2] enables the nozzle [16] to oscillate. The media to be blasted is sprayed through the nozzle onto the surface. The nozzle [16] when oscillating projects an enlarged dispersion pattern of the blasting media onto the surface to be blasted.
The trigger mechanism [226] engages the power source [2], the trigger mechanism being engageable by an operator holding the apparatus and pulling the trigger mechanism [226] much like a trigger on a firearm.
The handheld surface media blaster [224] is similar in design to the surface media blaster [24] depicted in
There is no blasting media passing through the handheld surface media blaster [224] itself, so there is none of the associated wear and tear on the components as is common in other designs in which the media passes through the apparatus, wearing out bearings, motors and requiring frequent rebuilding of the blasting guns.
The surface media blaster apparatus of the present invention is smaller and lighter than previous versions, and thus easier to assemble and disassemble, while being equally as effective. In order to assemble the apparatus, a crane, which is mounted to the top of the water tower, lifts the individual components and lowers them into the tank to be assembled by the users.
In addition to being mounted to a variable length truss, the surface media blaster [24] can also be mounted to a robot arm and controlled remotely, or pre-programmed to operate within a given tank environment.
The surface media blaster [24] can have a quick-detach mechanism, enabling the oscillating head to be changed with one of a different profile which will change the dispersion pattern of the surface media. The quick attach/detach component can be a quick-coupler as made by Saflok®, which is a registered trademark of the Wat International Corp. or via proprietary quick-coupler which uses a twisting motion to lock the oscillating head in place.
Assembly and disassembly is easy and can be done quickly by a few people in a short span of time with the apparatus being modular in construction and using grade 8 bolts for strength and safety. If necessary, more sections may be added to increase the height and width to accommodate different applications where a larger or smaller size may be needed. All hardware is grade 8 or better to ensure strength and safety for the operator and reliability of the apparatus.
Further, all of the necessary control unit wiring is quick disconnect, weather proof, and clearly labeled for ease of use.
Throughout this application, various Patents and Applications are referenced by number and inventor. The disclosures of these documents in their entireties are hereby incorporated by reference into this specification in order to more fully describe the state of the art to which this invention pertains.
It is evident that many alternatives, modifications, and variations of the present invention will be apparent to those skilled in the art in light of the disclosure herein. For example, the system can be used for cleaning all kinds of chemical storage tanks, petroleum tanks, ship hulls, and large piping systems. It is intended that the metes and bounds of the present invention be determined by the appended claims rather than by the language of the above specification, and that all such alternatives, modifications, and variations which form a conjointly cooperative equivalent are intended to be included within the spirit and scope of these claims.
1. Ball Joint Swivel Bearing
2. Electric Motor
3. External Retaining Pin
4. Retaining Pin
5. Mounting Bracket—1st Embodiment
6. Oscillating Shaft
7. Internal Retaining Pin
8. Oscillating Front Bridge Mount
9. Flanged, Double Sealed Ball Bearing
10. Double Sealed Ball Bearing
11. End Cap
12. Bearing Housing
13. Oscillating Keepers
14. Oscillating Front Shaft
15. External Retaining Ring
16. Oscillating Nozzle
17. Front Mounting Bracket
18. Hexagon Socket Set Screw
19. Pin
20. Oscillating Slide
21. Hexagon Socket Head Cap Screw
22. Socket Head Cap Screw
23. Bearing
24. Surface Media Blaster—1st Embodiment
25. NPT Grease Fitting
26. Hexagon Pipe Plug
27. Hexagon Flat Counter Sunk Head Cap Screw
29. Spacer
30. Vertical Support Member
32. Horizontal Support Member
35. Variable Length Truss
38. Extension Ram
40. Truss
42. Basket
44. Worm Drive Electric Motors
48. Self-Leveling Frame
50. Basket Pin
55. Bearing
58. Side to Side Adjusting Rams
60. Retaining Pin
65. Remote Computer Control Center
82. Horizontal Axis
84. Vertical Axis
105. Mounting Bracket
124. Surface Media Blaster—2nd Embodiment
224. Surface Media Blaster—3rd Embodiment
226. Switch Mechanism
230. Blaster Housing
This application is related to and is a Continuation-In-Part Application to U.S. Ser. No. 14/542969, entitled “Surface Media Blasting System and Method”, by Robert J. Santure filed on Nov. 17, 2014, which is a divisional of U.S. Pat. No. 8,894,467, entitled “Surface Media Blasting System and Method”, by Robert J. Santure filed on Jun. 22, 2012, and is related to and claims priority to U.S. Provisional Application No. 61/571,228, entitled “Interior Surface Media Blaster”, by Robert J. Santure, filed on Jun. 23, 2011.
Number | Date | Country | |
---|---|---|---|
61571228 | Jun 2011 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 13507374 | Jun 2012 | US |
Child | 14542969 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 14542969 | Nov 2014 | US |
Child | 15350331 | US |