US2887911A - Automatic tool feed - Google Patents

Description

May 26, 1959 A. R. BUNTING AUTOMATIC TOOL FEED 2 Sheets-Sheet l INVENTOR.

,qrfizzr K 52012 121 May 26, 1959 A. R. BUNTlNG 2,887,911

AUTOMATIC TOOL FEED Filed June 10, 1957 2 Sheets-Sheet 2 la} /4 74 I llll 56% i-: Illlilll! 34- INVENTOR. firzZ ar K5 7 19.

1'7 Train EVE.

of the magnetic base form no United States Patent" AUTOMATIC TOOL FEED Application June 10, 1957, Serial No. 664,746 6 Claims. (Cl. 77-33.4)-

This invention relates to a portable machine tool unit and has particular reference to a portable magnetic drill provided with power-operated means for feeding the drill into the work.

According to the present invention, a portable magnetic supporting base adapted to be magnetically secured onto a surface is provided with means for movably supporting a tool unit such as an electric drill for movement toward and away from the work. The invention is more specifically directed to a power-driven feed means for feeding the drill into the work and includes a very compact and efiicient speed reduction transmission, having a driven part operable for feeding the tool unit toward and away from the work.

A principal object of the invention is to provide a new and improved portable tool unit.

A further object of the invention is to provide a portable magnetic base tool unit having power driven feed mechanism for feeding the tool into the work.

Another object of the invention is to provide a power driven feed mechanism for a tool unit of the type described which is compact and adapted to be inserted as a unit into the supporting casting of the portable tool unit.

Other and further objects of the invention will be apparent from the following description and claims and may be understood by reference to the accompanying drawings, of which there are two sheets, which by way of illustration show a preferred embodiment of the invention and what I now consider to be the best'mode in which I have contemplated applying the principles of my invention. Other embodiments of the invention may be used without departing from the scope of the present invention as set forth in the appended claims.

In the drawings:

Fig. 1 is a side elevational view with parts broken away, illustrating the portable tool unit of the present invention;

Fig. 2 is a sectional view taken on line 2-2 of Fig. 1;

Fig. 3 is a sectional view taken on line 33 of Fig. 1;

Fig. 4 is an enlarged elevational view partly in section, illustrating the feed mechanism; and

Fig. 5 is a sectional view taken on line 5-5 of Fig. 4.

The portable tool unit illustrated in the drawings may comprise a housing in the form of a hollow casting having a generallyhorizontal body portion 12 and a vertically extendingcolumn 14. Thehousing 10 is provided with a magnetic base 16 at its lower end which may be suitably secured thereto and includes acoil 18 adapted to be energized for magnetizing the base 16 when the unit is properly located on a supporting surface or on the work to be machined. Thecoil 18 may be energized from a suitable electric source, including a cord 20 and a switch mechanism 22 and arheostat 24 connected into the circuit for energizing thecoil 18 to a desired degree. The details of construction and operation part of the present invention.

Anelectric drill 30 or other machine tool is secured on aslide 32 which, as illustrated in Fig. 2, is generally channel shaped and includes vertically extendingside walls 34 and a connectingwall 3 6. Theelectric drill 30 includes amotor 38 for rotating the drill and is secured to thewall 36 of theslide 32 by suitable screws passing through thewall 36 and threaded into amounting pad 40 formed on the casing of the drill unit.

Thecolumn casting 14 includes spaced apartside walls 42 havingvertical guide flanges 44 interfitted with theslide 32 to guide the latter and the tool unit supported thereon for sliding movement toward and away from the surface on which the device is supported.Plates 46 are secured to theside walls 34 of theslide 32 byscrews 48, and the plates slidably engage theguide flanges 44 on thecolumn casting 14.

Arack 50 havingteeth 52 is secured by screws '54 to the base of theslide 32. Ashaft 56 is journaled bybearings 58 in theopposing side Walls 42 of thecolumn casting 14. Adrive pinion 60 is keyed ontoshaft 56 and the teeth 62 of thedrive pinion 60 are meshed with theteeth 52 on therack 50 so that when the pinion is rotated therack 50 and theslide 32 anddrill 30 carried thereby will be fed toward or away from the work to be machined.

The drive mechanism for thepinion 60 is supported within thecolumn casting 14 and includes ahousing unit 64 for supporting a smallelectric motor 66 and aspeed reduction transmission 68 providing a driving connection between theelectric motor 66 and the drive pinion 60.v

Thehousing unit 64 includes a pair ofside plates 70 and 72 and a bearing block 7 4 confined therebetween and a lower housing portion 76 adapted to support themotor 66.

Themotor shaft 78 is provided with a pinion 80 meshed with a gear 82 form g a part of a doublegear,

theother gear 84 of which is meshed with thelarger gear 86 of a second double gear, theother gear 88 of which is meshed with a gear 90 secured on aworm shaft 92 which projects upwardly from a bearingportion 94 of thehearing block 74 and is provided with a worm. 96 meshed. with aworm wheel 98 keyed onto ashaft 100 supported at its opposite ends insuitable bearings 102 and 104 inplate 70 and bearingblock 74 respectively. Apinion gear 106 is alsokeyed ontoshaft 100.

Acrankshaft 108 has its ends journaled in bearings provided inplates 70 and '72 and agear 110 is secured oncrankshaft 108 and is driven frompinion 106. Thecrankshaft 108 is provided withcrank portions 112 and 114 havingbearings 116 and areciprocable pawl 118 is journaled on eachcrank portion 112 or 114 by thebearings 116. When thecrankshaft 108 is driven through the speed reduction transmission described, thepawls 118 will oscillate or reciprocate in a generally vertical direction. Aratchet 120 is secured on shaft 56'for rotating the shaft and thedrive pinion 60 secured thereon. As illustrated in Fig. 4, the upper ends 122 of thepawls 118 are adapted to engage the teeth 124 formed onratchet 120 in such manner that thepawls 118 will alternately impart rotatable movement to the ratchet and thedrive pinion 60 which is rotatable therewith. The arrangement of thepawls 118 on thecrankshaft 108 is such that, as

engage the ratchet teeth 124 to drive theshaft 56 andpinion 60 which drives therack 50 and the drill unit secured thereto. A pair of leaf springs 126 react against thepawls 118 to urge the latter into engagement with the ratchet teeth. The pawls may be disengaged from the is at such time being a 3 ratchet teeth by aneccentric cam member 128 formed on a manuallyrotatable shaft 130 journaled in one of theside walls 42 of thecasting 14 and having a knob or handle 132 for turning theshaft 130 and theeccentric cam 128 which is adapted to swing thepawls 118 against springs 126 to retract the pawls from the ratchet teeth.

The supporting plates '70 and 72 and thebearing block 74 may be supported within thecolumn casting 14 in any suitable manner such as bybolts 134.

When the tool unit is to be placed in use, the tool must first be properly located on the work to be machined, or on an adjacent supporting surface, and the magnetic coil is energized to magnetize the base and hold the unit in position during the machining operation. Thedrill motor 38 may then he energized and thecam device 128 may be rotated to permit engagement of thepawls 118 with the ratchet 12th. Themotor 66 is then started and through the speed reduction transmission and the pawl and ratchet mechanism drives thepinion 60 and rack 50 in a direction to feed the drill 39 into the work. After the drilling or other machining operation is completed, themotor 66 is turned on and thecam 128 rotated to withdraw thepawls 118 from theratchet 120. The drill motor 138 may then be stopped andshaft 56, which carriesdrive pinion 60, may be turned by means of a manuallyoperable knob 140 in a direction to rotate the pinion in a counterclockwise direction as viewed in Figs. 1 and 4 to slide therack 50 and the drill unit carried thereby upwardly to withdraw the drill from the work.

It will be apparent that suitable control means may be employed to obtain the desired operation ofdrill motor 38 and thefeed motor 66 and that the tool feed mechanism disclosed herein may be useful in some applications other than in conjunction with magnetic base tool units as described.

While I have illustrated and described a preferred embodiment of my invention, it is understood that this is capable of modification, and I therefore do not wish to be limited to the precise details set forth but desire to avail myself of such changes and alterations as fall Within the purview of the following claims.

Iclaim:

1. In a portable tool unit, a supporting base, a powerdriven tool slidably mounted on said base for movement toward and away from the work, feed means for said tool comprising an electric motor, a crankshaft, speed reduction gearing for driving said crankshaft from said motor, a pinion and a rack meshed with said pinion and slidably supported on said base, said tool being secured to said rack, a ratchet Wheel rotatable with said pinion, a pair of pawls journaled on said crankshaft for reciprocation thereby, said pawls alternately engaging said ratchet for rotating the same and said pinion in a direction to feed the tool toward the work upon operation of said motor, spring means urging said pawls into engagement with said ratchet, a cam operable for moving said pawls out of engagement with said ratchet, and manually operable means for rotating said pinion in the opposite direction to withdraw said tool from the work.

2. In a portable tool unit, a supporting base, an electric motor, a crankshaft, speed reduction gearing for driving said crankshaft from said motor, a drive pinion, a rack meshed with said pinion and slidably supported on said base, a power-driven tool secured to said rack, a ratchet rotatable with said pinion, a pair of pawls journaled on said crankshaft for reciprocation thereby, said pawls alternately engaging said ratchet for rotating the same and said pinion in a direction to feed the rack and the tool carried thereby toward the work upon operation of said motor, means urging said pawls into engagement with said ratchet, manually operable means for moving said pawls out of engagement with said ratchet to permit rotation of said pinion in the opposite direction to withdraw said tool from the work.

3. In a portable drill unit having a magnetic supporting base and a column on which a power drill is slidably mounted for movement toward and away from the work, feed means for said drill comprising an electric motor, a crankshaft journaled in said column, speed reduction gearing for driving said crankshaft from said motor, a pinion journaled in said column, a rack meshed with said pinion and slidably supported on said column, said drill being secured to said rack, a ratchet rotatable with said pinion, a pair of pawls journaled on said crankshaft for reciprocation thereby, said pawls alternately engaging said ratchet for rotating the same and said pinion in a direction to feed the drill toward the work upon operation of said motor.

4. In a portable tool unit having a supporting housing and a power-driven tool slidably mounted thereon for movement toward and away from the work, a rotatable drive member journaled in said housing and drivingly connected to said tool, an electric motor in said housing, a drive transmitting connection between said motor and drive member for rotating the latter to feed the tool toward the work upon operation of said motor, said drive transmitting connection including a ratchet and a pair of motor-driven pawls alternately engageable therewith, spring means urging said pawls into engagement with said ratchet, manually operable cam means for moving said pawls out of engagement with said ratchet to break said drive transmitting connection, and manually operable means for rotating said drive member independently of said motor.

5. In a portable drill unit having a supporting housing, a rack slidably supported on said housing, a powerdriven machine tool adapted to be secured on said rack for movement therewith toward and away from the work, feed means for said tool comprising an electric motor in said housing, a crankshaft journaled in said housing, speed reduction gearing for driving said crankshaft from said motor, a pinion journaled in said housing and meshed with said rack, a ratchet rotatable with said pinion, a pair of pawls journaled on said crankshaft for reciprocation thereby, said pawls alternately engaging said ratchet for rotating the same and said pinion in a direction to feed the rack and tool carried thereby toward the work upon operation of said motor, means for moving said pawls out of engagement with said ratchet,

and manually operable means for rotating said pinion in the opposite direction to withdraw the tool from the work.

6. In a portable drill unit, a supporting base and a column rising therefrom, a power drill slidably mounted on said column for movement toward and away from the work, feed means for said power drill comprising an electric motor, a rotatable drive member journaled in said column and drivingly connected to said drill for feeding the latter toward and away from the work, speed reduction gearing between said drive member and said motor, said speed reduction gearing including a ratchet rotatable with said drive member and a pair of pawls driven from said motor and alternately engaging said ratchet for rotating the same and said drive member in a direction to feed the drill toward the work upon operation of said motor, and manually operable means for moving said pawls out of engagement with said ratchet to permit manual rotation of said drive member.

References Cited in the tile of this patent UNITED STATES PATENTS 1,035,604 Kissel Aug. 13, 1912 1,209,917 Westinghouse Dec. 26, 1916 1,262,235 Murray Apr. 9, 1918 2,746,718 French May 22, 1956

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