US20120045347A1

US20120045347A1 - Air Compressor

Info

Publication number: US20120045347A1
Application number: US13/215,155
Authority: US
Inventors: Steven G. Dvorak
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-08-22
Filing date: 2011-08-22
Publication date: 2012-02-23

Abstract

Disclosed is a portable air compressor accessory connectable to the chuck-end of a hand held electric drill via a shaft mount capable of rotating in the same axis of rotation as the chuck. The shaft passes through a housing via bearing mounts. Within the housing is a plurality of radially oriented piston-containing cylinders connected at their respective check valve governed air discharge outlets to a manifold. The manifold discharges to a suitable outlet connection to provide compressed air. Each cylinder has a check valve governed air inlet. Within the housing, the shaft attaches to a cam having a spindle, offset from the axis of rotation, swivel connected to a hub. Piston rods are connected at one end to hub and at the other end swivel connected to the respective pistons. One rod is fixedly connected to the hub, the other rods are swivel connected to the hub as articulating rods.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of the filing date of and priority to: U.S. Provisional Application Ser. No. 61/375,857 entitled “Air Compressor” and filed Aug. 22, 2010, Confirmation No. 1046; said provisional application being incorporated by reference herein in its entirety for all purposes.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not Applicable.

BACKGROUND OF THE INVENTION

Field of Use

The present invention relates generally to an air compressor. More particularly, the present invention relates to an air compressor that is driven by a hand-held portable electric drill.
Moynihan, U.S. Pat. No. 4,712,983, (incorporated herein by reference) describes a pneumatic pump that has provision for being driven by a conventional electric hand drill and chuck that are unmodified so that they can be detached by loosening the chuck jaws and used for other purposes. The provision includes first and second input shafts protruding at right angles to each other and connected by a bevel gear on each. In addition to improving drive access, to provide a choice of drive ratios, the bevel gears have different diameters. The rotary output of the shaft and bevel gear arrangement drives a reciprocating piston in a cylinder that, in association with check valves and a hose connection, can inflate a pneumatic tire, at a speed and to a pressure, determined by which drive ratio is chosen. The drill can be freely swiveled about either input shaft to which attached. A gauge indicates cylinder pressure. A frame permits the assembly of drive and pump to be used to pressurize a tank for storage of compressed air. However, a disadvantage of the Moynihan device is that it is a single piston output directly into the discharge hose, generates unbalanced torque, an increased vibration, a lower efficiency, a lower CFM output, and a lower potential psi output. As such, there exists a need for an improved compressor that can be driven from a portable hand drill (electric or battery operated) while also providing for more balanced torque, a decrease in vibration, higher efficiency, greater CFM displacement, a more even flowing air supply, and greater potential psi generation.

SUMMARY OF INVENTION

In one embodiment of the present disclosure there is described a portable air compressor accessory connectable to the chuck-end of a hand held electric drill, the drill capable of being operated to rotate its chuck-end about an axis of rotation, the compressor accessory comprising: (a) an outer housing; (b) a bearing penetrating the outer housing; (c) a shaft passing through the bearing, the shaft comprising a first end external to the outer housing connectable to the chuck-end of the drill, and a second end connected to a cam device, the shaft capable of rotating along the axis of rotation, the cam device comprising a disc member having a first side connected to the shaft second end and a second side opposite the first side, and a spindle member connected to the disc member second side offset from the axis of rotation; (d) a manifold having an internal manifold chamber for receiving compressed air; (e) a plurality of cylinders lying substantially in the same plane within the housing evenly and radially spaced apart from each other about the axis of rotation, each cylinder capable of receiving a piston, each cylinder comprising an upper cylinder end and a lower cylinder end, a piston capable of moving up and down within the cylinder, the piston having an upper piston end and a lower piston end, a compression chamber formed by the space between the cylinder upper end and the piston upper end, an air inlet conduit comprising an first inlet end external to the outer housing and a second inlet end in fluid communication with the compression chamber, an air exhaust conduit comprising a first exhaust end in fluid communication with the compression chamber and a second exhaust end in fluid communication with the internal manifold chamber; (f) a hub having a center connected to the spindle member; (g) plurality of rod members corresponding to the number of pistons, each rod member having a rod upper end and rod lower end, the lower end of each piston being swivel connected to the upper end of its respective rod, the lower ends rod members being mounted radially about the hub in equal spaced apart relationship, wherein one such rod serves as a master rod and has its lower end fixedly mounted to the hub, wherein the remain rods serve as articulating rods and have their lower ends swivel mounted to the hub; and (h) a nozzle attached to the manifold to permit the controlled release of compressed air from the internal manifold chamber to a desired location external to the housing.
In one embodiment, the plurality of cylinders ranges between 3 and 9 cylinders. In another embodiment, the plurality of cylinders comprises 5 cylinders.
In one embodiment, the manifold is located substantially within the housing.
In another embodiment, the outside of the housing comprises a hand hold to permit the user to hold the housing in a fixed position.

BRIEF SUMMARY OF DRAWINGS

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention. These drawings, together with the general description of the invention given above and the detailed description of the preferred embodiments given below, serve to explain the principles of the invention.

FIG. 1 depicts a cross sectional side view of an exemplary air compressor apparatus according to one embodiment of the present disclosure.

FIG. 2 depicts a cross sectional end schematic view taken along lines 2-2 of FIG. 1 showing an exemplary air compressor apparatus according to one embodiment of the present disclosure.

It will be appreciated that the foregoing drawings illustrate only certain embodiments of the invention and that numerous other variations may be created within the scope of the described invention.

DETAILED DESCRIPTION OF INVENTION

The above general description and the following detailed description are merely illustrative of the subject invention and additional modes, advantages and particulars of this invention will be readily suggested to those skilled in the art without departing from the spirit and scope of the invention.
With reference to FIGS. 1 and 2, an embodiment of an air compressor in accordance with the present invention is illustrated. Air compressor 10 comprises an outer housing 12 and an inner housing 14. The space between the outer housing 12 and the inner housing 14 constitutes a manifold 16 through which the compressed air 1 which is generated by air compressor 10 will be provided to a device external to air compressor 10.
Air compressor 10 comprises a plurality of air cylinders 18-22 which lie substantially in the same plane inside of the inner housing 14 in a radially-spaced fashion about axis 24 b. (Only air cylinder 18 is shown in FIG. 1 for clarity, and all air cylinders 18-22 are illustrated in FIG. 2.). Referring to cylinder 18 as an example, the cylinder comprises, as is known in the art, a compression chamber 18 c for receiving a piston 18 d capable of being directed up and down within the cylinder. The cylinder 18 has an air intake port 18 a (with check valve 18 e) for permitting air (external to the device) to enter the chamber 18 c when the piston 18 d moves downward—the check valve 18 e serving permit air movement only in the direction from outside the device to within the chamber 18 c. The cylinder 18 has an air exhaust port 18 b (with check valve 18 f) for permitting air (internal to the chamber 18 c) to be directed into the manifold 16 when the piston 18 d moves upward (compression stroke)—the check valve 18 f service to permit air movement only in the direction of from within chamber 18 c to manifold 16. As the piston 18 d moves upward (compression stroke), the air with chamber 18 c is discharged into manifold 16 through exhaust conduit 18 b. As the piston 18 d moves downward (decompression stroke), air is drawn from outside into the chamber 18 c through inlet conduit 18 a.
Each air cylinder 18-22 has an intake port 18 a, 19 a, 20 a, 21 a and 22 a, respectively. Each such intake port extends through the outer housing 12 so that when the air compressor 10 is operating, air from outside the air compressor 10 is pulled into each air cylinder 18-22. Each air cylinder 18-22 also comprises an exhaust port 18 b, 19 b, 20 b, 21 b and 22 b, respectively. Each such exhaust port extends from its respective air cylinder into the manifold 16 and air from each of the air cylinders 18-22 is exhausted into the manifold 16 during operation of air compressor 10. Each such inlet port and exhaust port employ check valves (not shown except as illustrated for cylinder 18) as described in connection with cylinder 18 (FIG. 1).
Preferably, the plurality of cylinders ranges between 3 and 9 cylinders. In one preferred embodiment, the plurality of cylinders comprises 5 cylinders. It will be understood by those having the benefit of this disclosure that the number and size of cylinders can be varied based on the desire CFM/psi output.
Air compressor 10 further comprises a shaft 24 which extends from outside the air compressor 10 into the inner housing 14. Shaft 24 has a diameter 24 a such that it may fit into the chuck of an electric drill, and the diameter 24 a of shaft 24 may, for example, be ¼″ or ⅜″ or other suitable diameter. Shaft 24 has an axis of rotation 24 b. The shaft 24 enters housing through a conventional bearing 24 c, which can be any bearing known in the art, such as, ball bearing, sleeve bearing, roller bearing and the like. The bearing serves to maintain the shaft 24 in fixed rotational alignment. If desired, one or more bearings may be employed for this purpose. In the inner housing 14, shaft 24 is connected to cam device 25 which comprises a disc 26 or crankshaft (preferably circular in shape) with a spindle 27 which is offset from the center of the circular disc 26 (offset the axis of rotation 24 b). The spindle 27 is connected to the hub 28, and a connecting rod 29, 29 a connects each of the air cylinders 18-22 to hub 28. For example, as is known in the art, one of the rods, e.g., master rod 29 (for piston 18 d) can serve as the master rod (fixedly mounted to the hub, and swivel connected to the piston via, e.g., wrist pin (not shown)). The other rods 29 a (articulating rods) are then swivel connected to the hub and the piston by connectors (pins) known in the art (not shown). The articulating rods mount on pins that allow them to rotate as the crankshaft and the pistons move.
As will be understood, the cylinders are mounted in a fixed manner within the housing to maintain their respective spacing about radius 24 b—in other words, the pistons are arranged in a circle around the crankshaft. The up and down movement of the pistons is generally transverse or perpendicular to the axis of rotation 24 b.
In operation, shaft 24 is inserted into the chuck of an electric drill (not shown), and as shaft 24 is rotated by the drill, each of the air cylinders 18-22 in turn pulls in air from outside the air compressor and then exhausts that air into the manifold 16. The pressure of the air in manifold 16 increases as more and more air is exhausted into manifold 16. The compressed air in manifold 16 may be supplied to an external device, e.g., an automobile tire, via inflater nozzle 30 or other suitable outlet fitting. A flexible hose, or other suitable extension conduit (not shown) could be employed to facilitate directing the compressed air to the desired location. The manifold 16 can also preferably have a pressure relief valve 32 installed to prevent the manifold from becoming overpressurized beyond a desired maximum psi threshold.
This specification is to be construed as illustrative only and is for the purpose of teaching those skilled in the art the manner of carrying out the invention. It is to be understood that the forms of the invention herein shown and described are to be taken as the presently preferred embodiments. As already stated, various changes may be made in the shape, size and arrangement of components or adjustments made in the steps of the method without departing from the scope of this invention. For example, equivalent elements may be substituted for those illustrated and described herein and certain features of the invention may be utilized independently of the use of other features, all as would be apparent to one skilled in the art after having the benefit of this description of the invention. Further modifications and alternative embodiments of this invention will be apparent to those skilled in the art in view of this specification.

Claims

I claim:

1. A portable air compressor accessory connectable to the chuck-end of a hand held electric drill, the drill capable of being operated to rotate its chuck-end about an axis of rotation, the compressor accessory comprising:

a. an outer housing;

b. a bearing penetrating the outer housing;

c. a shaft passing through the bearing, the shaft comprising a first end external to the outer housing connectable to the chuck-end of the drill, and a second end connected to a cam device, the shaft capable of rotating along the axis of rotation, the cam device comprising a disc member having a first side connected to the shaft second end and a second side opposite the first side, and a spindle member connected to the disc member second side offset from the axis of rotation;

d. a manifold having an internal manifold chamber for receiving compressed air;

e. a plurality of cylinders lying substantially in the same plane within the housing evenly and radially spaced apart from each other about the axis of rotation, each cylinder capable of receiving a piston, each cylinder comprising

i. an upper cylinder end and a lower cylinder end,

ii. a piston capable of moving up and down within the cylinder, the piston having an upper piston end and a lower piston end,

iii. a compression chamber formed by the space between the cylinder upper end and the piston upper end,

iv. an air inlet conduit comprising an first inlet end external to the outer housing and a second inlet end in fluid communication with the compression chamber,

v. an air exhaust conduit comprising a first exhaust end in fluid communication with the compression chamber and a second exhaust end in fluid communication with the internal manifold chamber,

f. a hub having a center connected to the spindle member;

g. a plurality of rod members corresponding to the number of pistons, each rod member having a rod upper end and rod lower end, the lower end of each piston being swivel connected to the upper end of its respective rod, the lower ends rod members being mounted radially about the hub in equal spaced apart relationship, wherein one such rod serves as a master rod and has its lower end fixedly mounted to the hub, wherein the remain rods serve as articulating rods and have their lower ends swivel mounted to the hub; and

h. a nozzle attached to the manifold to permit the controlled release of compressed air from the internal manifold chamber to a desired location external to the housing.

2. The air compressor accessory of claim 1, wherein the plurality of cylinders ranges between 3 and 9 cylinders.

3. The air compressor accessory of claim 1, wherein the plurality of cylinders comprises 5 cylinders.

4. The air compressor accessory of claim 1, wherein the manifold is located within the housing.

5. The air compressor accessory of claim 1, wherein the outside of the housing comprises a hand hold.