US3654656A

US3654656A - Self-supporting rotary brush

Info

Publication number: US3654656A
Application number: US854165A
Authority: US
Inventors: Ernest L Romagosa
Original assignee: Individual
Current assignee: Individual
Priority date: 1969-08-29
Filing date: 1969-08-29
Publication date: 1972-04-11
Anticipated expiration: 1989-04-11

Abstract

Disclosed is a hydraulically powered rotating brush mounted in a supporting handle. A shroud disposed over said brush and spray nozzles depending from the supporting handle are adapted to direct currents of air and washing fluid onto the surface being washed and assist in supporting the weight of the device during operation.

Description

United States Patent Romagosa 51 Apr. 11, 1972 54] SELF-SUPPORTING ROTARY BRUSH 1,561,250 11/1925 Kunze ..15/50 0 2,719,994 10/1955 Dorsey ..15/24 [72] Inventor: Ernest L. Romagosa, 11353 Femald, Dal- 2,723,407 11/1955 Bardon ..15/24 las, Tex. 75218 Primary Examiner-Edward L. Roberts [22] Ffled' 1969 Attorney-Kanz, Glaser & l-larwood [21] Appl. No.: 854,165

[57] ABSTRACT Disclosed is a hydraulically powered rotating brush mounted [52] US. Cl. ..15/24,615/50 C in a supporting hand: A Shroud disposed over Said brush and [51] lift. Cl. b p y nozzles depending from the pp g handle are [58] Field of Search ..15/23, 24, 50 C, 49 C, 97, adapted to direct Cum-ems f air and washing fl id Onto the 103 surface being washed and assist in supporting the weight of the device during operation. [56] References Cited UNITED STATES PATENTS 4 Claims, 2 Drawing Figures 1,673,094 6/1928 Stack ..15/29 PAIENTEDAPR 11 I972 3,654.656

5 32 l3 MKN W I FIG. I

FIG. 2

5 INVENTOR ERNEST L. ROMAGOSA A TTORNE Y5 SELF-SUPPORTIN G ROTARY BRUSH This invention relates to rotary brushes and the like, and more particularly to self-levitating hydraulically powered rotary scrub brushes.

Many relatively large vehicles such as trucks, trains, buses, airplanes and the like, because of non-uniform shapes and sizes, are difficult to clean with completely mechanized cleaning and washing equipment. For example, mechanized washing stations for trucks and automobiles generally employ scrubbing and spraying apparatus adapted to conform to the shape of the average vehicle and therefore fail to thoroughly clean all surfaces of irregularly shaped vehicles. Also because of their peculiar dimensions, aircraft are particularly difficult to wash with mechanized equipment. Therefore, cleaning of large vehicles is generally done by manual scrubbing with a hand brush. Obviously the time consumed in manually scrubbing large vehicles makes their cleaning expensive and time consuming.

In order to alleviate many of the problems encountered in manually scrubbing such vehicles rotary powered brushes have been employed. However, the use of such brushes is somewhat limited because the physical size and weight of most mechanical brushes makes their use inconvenient. A heavy mechanical brush supported on the end of a long handle is usually difficult to control and quickly tires the operator.

It is therefore an object of this invention to provide a powered scrub brush which is not only lightweight and easy to use but is substantially self-supporting. A further object is to provide a mechanical brush which automatically scrubs and washes a surface while supporting its own weight, thereby allowing the operator to use the brush for extensive periods of time without becoming excessively tired. A further object is to provide a powered self-supporting scrub brush which may be used with case on large irregularly-shaped vehicles and the like to scrub and clean vertical, horizontal and curved surfaces.

Briefly, in accordance with the present invention, a hydraulically powered rotary scrub brush is provided which includes a rotating brush powered by a hydraulic motor. A shroud or hood is provided to cover the brush and downwardly and rearwardly projecting spray nozzles included through which washing fluid such as water and the like may be ejected. The downwardly projecting nozzles assist in supporting the weight of the scrub brush during operation. Furthermore, through the rotation of the brush within the shroud or hood, a downwardly projecting water and air current is created which substantially assists in supporting the rotating brush above the surface being cleaned.

A particular advantage of the invention is a provision of a self-supporting powered scrub brush which may be readily handled with ease and requires substantially no lifting when operating over horizontal or inclined surfaces.

Other objects, features and advantages of the invention will become more readily understood from the following detailed description taken in conjunction with the appended claims and attached drawing in which FIG. 1 is an elevational view partially in section of the preferred embodiment of the invention and FIG. 2 is a bottom plan view of the preferred embodiment of the invention.

Referring now to FIG. 1 there is illustrated a scrub brush comprising a handle attached to a brush-supporting frame 11. Frame 11 is generally U-shaped, the base being attached to the handle and the sides comprising a pair of substantially parallel spaced-apart members projecting in the same general plane as the handle 10. Rotatably journaled within the frame 11 between the parallel members is a cylindrical scrub brush l2. Scrub brush 12 is mounted on a shaft 13 which supports the brush l2 and a pulley l4. Pulley 14 is mechanically driven by a hydraulic motor 15 through interconnecting drive belt 16.

Hydraulic motor 15 may be any conventional hydraulic drive motor, preferably of lightweight construction, and is mounted on frame 11. The hydraulic motor 15 is powered by fluid circulated therethrough by means of the

fluid transmission lines

20 and 21.

Fluid transmission lines

20 and 21 pass through handle 10 and are interconnected with a source (not shown) of hydraulic fluid under pressure. Conventional hydraulic sources may be used to power the motor such as a conventional hydraulic oil pump or water pump.

Attached to frame 11 and covering substantially the upper one-half of the brush is a semi-cylindrical hood or shroud 22. Shroud 22 generally conforms to the cylindrical shape of the brush and is adapted to cover the upper half of the brush while exposing the lower half of the brush during operation.

Washing fluid such as water, acid or detergent is sprayed on to the surface being washed through washing fluid transmission line 30. Line 30 passes through handle 10 and terminates in nozzles or

jets

31 and 32. Nozzle 31 is positioned near the lower edge of the shroud to the rear of the scrub brush and is positioned to eject washing fluid downwardly and rearwardly of the rotating brush in a direction away from shroud 22. Nozzle 32 is affixed to the forward end of shroud 22 and preferably spaced approximately midway between the sides thereof at the forward end of the shroud. Nozzle 32 ejects the washing solution downwardly and slightly rearwardly directly in front of the rotating brush 12.

Shroud 22 is preferably a multi-sectional articulated shroud composed of two or more sections adapted to telescopically collapse along the curvature of the brush. Shroud sections 22a and 22b are rotatably secured to shaft 13 and adapted to telescope into the shroud 22 as desired. In this manner shroud 22 can be telescoped rearwardly to expose the forward portion of the brush as well as the lower portion of the brush, thereby allowing the brush to be used to wash a surface which terminates at an obstruction such as an upperwardly extending wall or the like. In this manner the brush may be used to scrub in corners formed by the intersection of two substantially flat or curved surfaces such as the fuselage and wing sections of an aircraft or the like without changing the position of the brush. Fluid transmission line 30 is therefore flexible to allow nozzle 32 to remain fixed near the forward terminus of shroud 22 regardless of the position of the forward section 22b of shroud 22.

The articulated sections of shroud 22 are adjustably positioned by conventional means such as bolt 33 and suitable grooves or the like. Suitable valves for controlling the flow of fluid through

lines

20, 21 and 30 may be incorporated within handle 10 and activated by suitable control means such as lever 34.

The device is operated by placing the brush 12 on the surface to be scrubbed and forcing cleaning fluids such as water, detergent and the like through line 30. The fluid passing through line 30 and exiting through

nozzles

31 and 32 impinges on the surface to be washed, thus providing a lifting action to levitate the brush and suspend it over the surface being washed. Hydraulic fluid is forced through

lines

20 and 21 to power hydraulic motor 15 which rotates the brush in the direction of the arrow shown in FIG. 1. By rotation of the brush air and water is drawn into the shroud 22 and forced downwardly by the impeller action of the brush 12. The flow of air and water from the shroud by the force of brush 12 further aids in lifting the brush from the surface.

It will be observed that in this manner the brush 12 will be maintained in contact with the surface being washed, but the weight of the apparatus is partially supported by fluid from

jets

31 and 32. The apparatus is also partially supported by the air currents formed by rotation of brush 12 within shroud 22.

In the preferred embodiment brush 12 may be from 6 to l2 inches in length or larger and approximately 24 inches in diameter. The brush is preferably a long bristle polyester scrub brush. Hydraulic motor 15 is driven by hydraulic oil under approximately l,000 p.s.i. and drives the brush at approximately 700 to 1,000 r.p.m. Water is forced through washing fluid line 30 by an external source (not shown) under pressure of approximately 600 p.s.i. at a rate of approximately 4 gals. per minute.

In the configuration as shown in FIGS. 1 and 2 the brush has a handle of approximately 6 feet and an overall length of approximately 8 feet. When constructed from suitable lightweight structural materials such as aluminum or the like the device will have a dead weight of approximately 8 to 10 pounds. However, when operated under the conditions set forth above the brush will be levitated above the surface being washed by the downward current of air and water from the shroud impelled by the brush and the downwardly and rearwardly projecting spray from

nozzles

31 and 32. Therefore, the workman need not lift the brush but merely guide it over the surface to be scrubbed. In this manner substantially horizontal surfaces may be washed very rapidly without the exertion of substantial amounts of energy by the workman. Furthermore, inclined surfaces may be washed in the same manner since the downwardly projecting air current and nozzles assist in levitating the brush above inclined surfaces in the same manner.

ln order to assist in levitation of the apparatus when washing near vertically inclined surfaces, at least one of the nozzles may be aimed to direct washing fluid slightly rearwardly Preferably the nozzle 31 located between the brush l2 and the operation is aimed to direct fluid downwardly away from the shroud 22 and rearwardly away from the brush 12. The spray ejected therefrom therefore will assist in lifting the apparatus when washing surfaces inclined from the horizontal.

While particular reference has been made to a hydraulic motor which is driven by oil under pressure, it will be recognized that motor may also be water-driven. For example, motor 15 may be adapted to be driven by the same fluid which is used as the washing fluid. Washing fluid may therefore be pumped through motor 15 and recirculated through the pressure device. In an alternative embodiment, washing fluid may be pumped through the motor 15 and then allowed to exit through suitable spray nozzles to be used in the washing operation.

Utilizing the apparatus of this invention one workman can effectively wash a large commercial aircraft in approximately 4 hours. Since approximately 10 hours of manual labor would be required to accomplish substantially the same results with conventional brushes, vast amount of time saving is realized by use of the apparatus of this invention.

It is to be understood that although the invention has been described with particular reference to. the specific embodiment thereof, the form of the invention shown and described in detail is to be taken as a preferred embodiment of same and that various changes and modifications may be resorted to without departing from the spirit and scope of the invention.

What is claimed is:

1. A cleaning apparatus comprising:

a. a tubular handle affixed to a frame having two substantially parallel spaced-apart members,

b. cylindrically-shaped brush means rotatably joumaled within said frame between said parallel members,

c. a shroud attached to said frame and covering a portion of said brush means, one end thereof extending in a plane opposite said handle,

(1. fluid conducting means passing through said tubular handle and terminating in a plurality of nozzles, each of said nozzles being adapted to direct fluid passing therethrough in a direction away from said shroud, and

e. means for rotating said brush means comprising a hydraulic motor mounted on said frame and powered by fluid circulated through said handle under pressure.

2. The apparatus set forth in claim 1 wherein one of said nozzles is afiixed to said shroud at the end thereof opposite said handle and another of said nozzles is affixed to said frame between said brush means and said handle.

3. The apparatus set forth in claim 2 wherein said nozzle mounted between said brush and said handle directs fluid in a direction away from said shroud and away from said brush means.

4. The apparatus set forth in claim 1 wherein said shroud comprises a plurality of sections, at least one of which is adapted to a telescope within apotlger section thereof.

Claims

1. A cleaning apparatus comprising: a. a tubular handle affixed to a frame having two substantially parallel spaced-apart members, b. cylindrically-shaped brush means rotatably journaled within said frame between said parallel members, c. a shroud attached to said frame and covering a portion of said brush means, one end thereof extending in a plane opposite said handle, d. fluid conducting means passing through said tubular handle and terminating in a plurality of nozzles, each of said nozzles being adapted to direct fluid passing therethrough in a direction away from said shroud, and e. means for rotating said brush means comprising a hydraulic motor mounted on said frame and powered by fluid circulated through said handle under pressure.

2. The apparatus set forth in claim 1 wherein one of said nozzles is affixed to said shroud at the end thereof opposite said handle and another of said nozzles is affixed to said frame between said brush means and said handle.

4. The apparatus set forth in claim 1 wherein said shroud comprises a plurality of sections, at least one of which is adapted to a telescope within another section thereof.