US2608118A - Power-operated impact tool - Google Patents
Power-operated impact tool Download PDFInfo
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- US2608118A US2608118A US174997A US17499750A US2608118A US 2608118 A US2608118 A US 2608118A US 174997 A US174997 A US 174997A US 17499750 A US17499750 A US 17499750A US 2608118 A US2608118 A US 2608118A
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- Prior art keywords
- sleeve
- spring
- driving member
- power
- members
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B21/00—Portable power-driven screw or nut setting or loosening tools; Attachments for drilling apparatus serving the same purpose
- B25B21/02—Portable power-driven screw or nut setting or loosening tools; Attachments for drilling apparatus serving the same purpose with means for imparting impact to screwdriver blade or nut socket
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B23/00—Details of, or accessories for, spanners, wrenches, screwdrivers
- B25B23/14—Arrangement of torque limiters or torque indicators in wrenches or screwdrivers
- B25B23/1405—Arrangement of torque limiters or torque indicators in wrenches or screwdrivers for impact wrenches or screwdrivers
Definitions
- This invention relates generally to power operated impact tools, and refers more particularly to power driven rotary impact wrenches of the type adapted to deliver a rapid succession of rotary impulses.
- Tools of the above general type are used extensively for the purpose of setting nuts, bolts, and the like.
- the setting operation is accomplished by the rapid succession of impacts imparted to the part being set, and the torque applied is limited only by the rated power of the tool driving means.
- the power impulses are applied to the nut, bolt, or other part to be set through resilient means such as a spring held under torsional stress and adapted to absorb the power impulses when the resistance to further tightening or setting of the part exceeds the forces applied by the spring.
- Figure 1 is a side elevational view partly in section, of a power operated impact tool having torque control means forming the subject matter of this invention
- Figure 2 is a longitudinal sectional View through the torque control means
- Figure 3 is a cross sectional view taken on the line 3-3 of Figure 2;
- Figure 4 is a cross sectional view taken on the line 4-4 of Figure 1;
- Figure 5 is a fragmentary sectional view of a modified construction.
- FIG. l of the drawing A typical tool embodying the features of this invention is shown in Figure l of the drawing and is indicated generally by the reference character I0.
- the tool Ill has a housing II composed of sections removably secured together for ease in assembly and manufacture.
- the rear end section I2 provides a case for the usual prime mover which, in the present instance. is an electric motor (not shown) having a drive shaft I3 extending in a forward direction into the rear end of the front housing section I4. Electrical energy is supplied to the motor by conductors I5 which extend through the handle portion I6.
- the handle portion I6 is of the pistol-grip type and is preferably formed integral with the end housing section I2.
- a suitable trigger operated olf and on switch I'I is embodied in the handle, and is electrically connected in the motor circuit to control the operation of the motor.
- the location of the switch I'I in relation to the handle I6 is such as to enable convenient manipulation of the switch by the hand of the operator engaged with the handle.
- the rear end of the housing section I2 is closed by a cap I8 supported for rotation and connected to the electric motor in a manner known in the art to change the polarity of the motor and reverse the direction of rotation of the latter.
- the front end of the housing section I4 terminates in a nose portion I9 axially bored to form an opening through the front end of the housing and having a radially outwardly extending shoulder 20 within the housing.
- is secured to the nose portion I9 within the opening and terminates at the rear end in a radially outwardly extending part 22.
- the part 22 seats against the shoulder 2U and provides an end thrust bearing.
- anvil 23 Journaled in the sleeve 2
- the front end of the anvil extends forwardly through the opening in the nose I9 of the housing and is polygonally shaped in cross section for a purpose to be presently described.
- the anvil 23 is operatively connected to the motor drive shaft I3 by a planetary gear assembly 2E having a frame 21 and having planet gears 2B suitably journaled on the rear end of the frame.
- the planet gears 2B mesh with teeth formed on the motor drive shaft I3 and also mesh with an internal ring gear 29 secured to the housing section I4 at the rear end of the latter.
- the front end of the frame 21 is formed with a pilot 30 which is journaled in a bore 3l formed in the anvil 23 and opening through the rear end of the anvil.
- a sleeve 32 is non-rotatably supported on the frame 21 at the rear side of the anvil 23 and is formed with circumferentially spaced driving lugs 33 at the front end.
- the lugs 33 extend axially forwardly from the sleeve 32 and are positioned in the path of travel of the lugs 25 on the anvil.
- the sleeve 32 slides in opposite directions relative to the frame and is normally urged by a coil spring 34 in a forward direction to locate the lugs 33 in the'path of the lugs 25.
- the spring 34 surrounds the frame within the sleeve 32 and the opposite ends of the spring 34 respectively engage axially spaced shoulders on the sleeve 32.
- the above construction is such that the sleeve 32 is driven by the motor shaft I3 through the planetary gearing 2 6 and the anvil 23 is driven the sleeve through the lugs 25 and 33.
- the 23 rotates continuously until a load is applied to the anvil whereupon the lugs 33 react against the lugs 25 and the sleeve 32 retracts or moves rearwardly against the action of the spring 34 to withdraw the lugs 33 from the path oi the lugs 25.
- the spring 34 acts to return" the sleeve 32 to its forward position wherein the lugs 33 again assume positions in the path of the lugs 25.
- a device 35 having a sleeve 36 Yfol-ined with an enlargement 31 at the rear end and having a bore 33 extending axially through theV enlargement.
- the bore 38 corresponds in cross sectional contour to the front end of the anvil 23 and slidably receives the latter.
- a suitable spring operated detent 39 is provided on the front end of the anvil in a position to frictionally engage the adjacent sideoi' the bore 38 'to removably retain the sleeve 36 in assembled felation to the, anvil.
- a driving member 4U having a polygnally shaped part 4I at the rear end removably sleeved within the adjacent end of the bore 38 to lie in juxtaposition tothe front end of the anvil 23.
- the sleeve 36 provides a removable coupling between the anvil 23 and the driving member 4 3.
- the front end of the sleeve 36 is closed by a driven member 42 telescopd within the sleeve 35Y and having a part 4'3 'projecting axially forwardly beyond the'iront'end of the sleeve 35.
- the part 43 is polygonally shaped in cross section and provides amounting for a.
- socket 44 which in the present instance is designed to tit a 'certain size nut or ⁇ bolt head.
- the rear end or the member 42 has an axially extending round bore 45 for telescopically receiving a cylindrical projection 46 at the front end of the member 40.
- the member 42 is formed with a plurality of circumferentially spaced radially extending tapped holes 41 and the adjacent wall of the sleeve 36 has diametrically opposed circumferentially extending slots 48 registrable with the holes 41.
- Suitable machine screws 43 are threaded in diametrically opposed holes 41 and the heads of the screws respectively project into the slots 48.
- the driven member 42 has limited rotative movement relative to the sleeve 36 and driving member 40.
- the driving and driven members are operatively connected by resilient means in the form of a coil spring 50 disposed within the sleeve 36 and held under torsion between the driving and driven members.
- the rear end 5I of the spring extends rearwardly into a slot 52 formed in the driving member 4D and the front end 53 of the spring extends forwardly into a slot 54 formed in the driven member 42.
- the foot pounds of torque applied by the driven member 42 on the part to be set depend upon the torsional force exerted by the spring 5l! and provision is made herein for varying the torque characteristic by altering the degree of spring torsion. This is accomplished by rotating the member 42 in the direction of the arrow B in Figure 4 of the drawing prior to installing the screws 43.
- the spring 5l is wound to the selected extent by the above procedure, the screws are installed in the holes 41 registering with the leading ends of the slots 48 so that the screw heads abut the latter ends of the slots and hold the spring 5I) in the selected adjusted position.
- the purpose of the slots 43 is, of course, to permit the necessary angular movement ol' the sleeve 3B relative to the driven member when the load on the latter exceeds the torsional force exerted by the spring 50.
- the tapped holes 41 are spaced from each other clrcum'ferentially of the' member 42, and the angular distance between the holes 41 may be determined so that this distance represents a definite torque characteristic.
- the amount of torsion on the spring 30 to produce Va predetermined torque output may be mathemamgally determined.
- winding the spring 50 from its free position throughout preselected degrees of angular movement provides predetermined torque characteristics in inch or foot pounds. It follows, therefore, that the output of the tool in inch or foot pounds of torque may be determined with reasonable accuracy by the extent the spring 50 is wound during rotative adjustment of the member 42.
- the device 35 may form a part of the tool assembly or it may be used as an attachment for power driven impact tools of various different constructions.
- the device renders it possible to control within reasonably close limits the foot pounds of torque applied to a part such, for ex ample, as a nut, bolt or the like to set the same.
- the proper degree of setting is secured in the minimum length of time without the danger of breakage.
- the driven member 42' is actually formed of two parts 5E and 51.
- the adjacent sides of the two parts are provided with intermeshing teeth 58 and 59 respectively.
- the teeth are normally maintained in intermeshing relationship by a torsional spring 50' which corresponds to the spring 50 in the rst described form or' the invention.
- the driven member 42 is rotatably supported in a sleeve 36' identical to the sleeve 36 previously described, with the exception that the front end is provided with a stop 60 arranged to engage the front side of the part 51 and maintain the latter in assembled relationship with the sleeve.
- the part 56 has circumferentially spaced tapped holes 41 corresponding to the holes 41 in the driven member 42, and screws 49' are selectively engaged in the holes in the same manner described in connection with the first form of this invention.
- the heads of the screws 49' respectively engage in slots 48' formed in the sleeve 36.
- the slots 48' differ from the slots 4B in the rst described form of the invention in that they are inclined rearwardly with respect to the front end of the sleeve 36'.
- a driving member and a driven member means for imparting a succession of power impulses to the driving member, and means interposed between said members for transmitting the power impulses from the driving member to the driven member, said means being operative to cancel out the effect of the power impulses on the driven member when the load on the driven member exceeds a predetermined value.
- a driving member supported for rotation.
- a driven member supported for rotation relative to the driving member, means for imparting a succession of rotative impacts to the driving member for rotating the same, and means interposed between said members for transmitting the impacts from the driving member to the driven member, said means being operative to cancel out the effect of the impacts on the driven member when the load on the driven member exceeds a predetermined value.
- a driving member supported for rotation
- a driven member supported for rotation relative to the driving member
- resilient means having portions respectively connected to said driving member and driven member, said resilient means providing a sole driving connection between the members and adapted to absorb the impact forces when the load on the driven member exceeds a predetermined desired value.
- the resilient means comprises a coil spring held under torsion between the members, and means for varying the degree of torsion of the coil spring.
- a driving member supported for rotation
- a driven member supported for rotation relative to the driving member
- said members being in axial alignment and having portions telescopically engaging one another, means for imparting a succession of rotative power impacts to the driving member for rotating the latter, and a coil spring surrounding the telescopically engaging portions of the members and having the opposite ends respectively secured to the members, said coil spring being held under torsion between the members and constituting the sole driving connection between the members.
- a Part supported for rotation means for imparting a succession of impacts to said part for rotating the latter, a driving member removably coupled to said part for rotation by the latter, a driven .member removably coupled to the driving member and supported for rotation relative to the driving member, and a driving connection between said members responsive to loads on the driven member in excess of a predetermined value to cancel-out the effect of the impacts on the driven member.
- a part supported for rotation means for imparting a succession of power impacts to said part for rotating the latter, a sleeve removably attachable at one end to the part and rotatable as a unit with said part, a driving member housed within the sleeve and having a removable driving connection with the end aforesaid of the sleeve, a driven member :removably supported within the opposite end Yof -the' sleeve and having limited rotative movementrelative to the sleeve, and a spring housed within the sleeve under torsion between the members and having the opposite ends respectively connected to said members.
- Theitool set forth in claim 11 having means for rotatably adjusting the driven member relative tothe sleeve for varying the degree of torsion of the spring.
- An attachment for power-driven impact tools having a driving head and having means for imparti-ng ⁇ a succession of power impacts to the head for rotating the latter, said attachment comprising a sleeve having means at one end to provide a removable driving connection with the head, a driving member housed within the sleeve and having a removable driving connection with saidend of the sleeve, a driven member supported within the opposite end of the sleeve and connected to the sleeve for limited rotative movement relative to the sleeve, and resilient means also housed within the sleeve and providing a driving connection between said members.
- the resilient'means comprises a coil spring held under torsion between said members and having the opposite ends respectively removably secured to sai-d members.
- a driving member supported for rotation
- a driven member supported for rotation relative to the driving member
- resilient means providing the sole driving connection between the members and adapted to absorb the impact forces When the load on the driven member exceeds a predetermined desired value
- said resilient means comprising a coil spring secured at opposite ends to the respective members and held under torsion, and means for adjustably rotating one of the members relative to the other throughout predetermined angular increments of travel to vary the torsional force exerted by the spring.
- a driving member supported for rotation, means for imparting a succession of rotative impacts to the driving member for rotating the same, a driven member supported for rotation relative to the Vdriving member, said driven member having a ⁇ iirst part to which the load is applied and having a second part rotatable relative to the rst part, cooperating intermeshing teeth on adjacent sides of said parts, resilient Vmeans for urging the teeth on said parts in intermeshing relationship and comprising a coil spring secured at one end to the driving member and secured at the opposite end to the second part, said spring being held B under torsion and constituting the vsolo driving connection between the drivingtmember andsecond part, and means for moving the second part in a direction away from the nrst part to disengage the intermeshing teeth when the load on the first part exceeds the -force applied to the second part by the-spring.
- a driving member supported for rotation, means for im parting a succession of rotative impcctsto the driving member for rotating the same, a driven member supported for rotation relative to the driving member, said driven member having a first part to which the loadis applied and having a second part rotatable relative to the rst parti cooperating intermeshing teeth on adjacent sid of said parts, and resilient means for urging the teeth on said parts in intermeshing Arelatioril'xip and comprising a coil spring secured at one and to the driving member and secured at the opposite endto the second; part, said spring being held under torsion and constituting the sole driving connection between the driving member and seoond part.
- a-drlving member supported for rotation relative to'said driving member, means for imparting a succession of rotative impacts to said driving member for rotating the same, and resilient means held under a predetermined tension and having portions respectively connected tosaid driving member and driven membciysaidl resilient means providing the sole driving connection between said members and adapted to absorb the impact forces when the load on said driven member exceeds said predetermined value.
- a driving member supported for rotation.
- a driven Yunember supported for rotation relative to the driving member, Vmeans for imparting -a succession of rotative power impacts to the driving member for rotating the latter, and a coil spring surround ing the members and having the opposite ends respectively secured to the members, said coil spring being held under torsion ⁇ between the members and constituting the sole driving connection between the members.
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Description
Aug. 26, 1952 M. E. Disse-R POWER-OPERATED IMPACT TOOL Filed July 2D. 1950 mw mv INVENToR. M/z r11/ /.ssfk
l l l A Trax/vins Patented Aug. 26, 1952 UNITED STATES PATENT OFFICE 20 Claims.
This invention relates generally to power operated impact tools, and refers more particularly to power driven rotary impact wrenches of the type adapted to deliver a rapid succession of rotary impulses.
Tools of the above general type are used extensively for the purpose of setting nuts, bolts, and the like. The setting operation is accomplished by the rapid succession of impacts imparted to the part being set, and the torque applied is limited only by the rated power of the tool driving means.
It is an object of this invention to improve power impact tools of the type briefly noted above by providing means for cancelling-out the effect of the power impulses when the load on the part being set exceeds a selected value below the rated torque characteristics of the tool. In accordance with this invention the power impulses are applied to the nut, bolt, or other part to be set through resilient means such as a spring held under torsional stress and adapted to absorb the power impulses when the resistance to further tightening or setting of the part exceeds the forces applied by the spring.
It is another feature of this invention to provide a device attachable to the driving head of rotary power operated impact tools without a1- tering the construction of the latter and embodying means for cancelling out the effect of the power impulses when the load on the driven member of the device exceeds a predetermined amount.
It is a further object of this invention to provide torque control means of the above general type capable of being readily applied to existing impact tools of various diilerent designs and regardless of the mechanisms employed in the tools to produce the power impulses.
The foregoing as well as other objects will be made more apparent as this description proceeds, especially when considered in connection with the accompanying drawing wherein:
Figure 1 is a side elevational view partly in section, of a power operated impact tool having torque control means forming the subject matter of this invention;
Figure 2 is a longitudinal sectional View through the torque control means;
Figure 3 is a cross sectional view taken on the line 3-3 of Figure 2;
Figure 4 is a cross sectional view taken on the line 4-4 of Figure 1; and
Figure 5 is a fragmentary sectional view of a modified construction.
A typical tool embodying the features of this invention is shown in Figure l of the drawing and is indicated generally by the reference character I0. The tool Ill has a housing II composed of sections removably secured together for ease in assembly and manufacture. The rear end section I2 provides a case for the usual prime mover which, in the present instance. is an electric motor (not shown) having a drive shaft I3 extending in a forward direction into the rear end of the front housing section I4. Electrical energy is supplied to the motor by conductors I5 which extend through the handle portion I6. The handle portion I6 is of the pistol-grip type and is preferably formed integral with the end housing section I2. A suitable trigger operated olf and on switch I'I is embodied in the handle, and is electrically connected in the motor circuit to control the operation of the motor. The location of the switch I'I in relation to the handle I6 is such as to enable convenient manipulation of the switch by the hand of the operator engaged with the handle. The rear end of the housing section I2 is closed by a cap I8 supported for rotation and connected to the electric motor in a manner known in the art to change the polarity of the motor and reverse the direction of rotation of the latter.
The front end of the housing section I4 terminates in a nose portion I9 axially bored to form an opening through the front end of the housing and having a radially outwardly extending shoulder 20 within the housing. A bearing sleeve 2| is secured to the nose portion I9 within the opening and terminates at the rear end in a radially outwardly extending part 22. The part 22 seats against the shoulder 2U and provides an end thrust bearing.
Journaled in the sleeve 2| is an anvil 23 having a radially outwardly extending flange 24 at the rear end engageable with the thrust bearing part 22 on the sleeve 2l and having diametrically opposed lugs 25 extending axially from the ange 24 in a rearward direction. The front end of the anvil extends forwardly through the opening in the nose I9 of the housing and is polygonally shaped in cross section for a purpose to be presently described.
The anvil 23 is operatively connected to the motor drive shaft I3 by a planetary gear assembly 2E having a frame 21 and having planet gears 2B suitably journaled on the rear end of the frame. The planet gears 2B mesh with teeth formed on the motor drive shaft I3 and also mesh with an internal ring gear 29 secured to the housing section I4 at the rear end of the latter. The front end of the frame 21 is formed with a pilot 30 which is journaled in a bore 3l formed in the anvil 23 and opening through the rear end of the anvil. A sleeve 32 is non-rotatably supported on the frame 21 at the rear side of the anvil 23 and is formed with circumferentially spaced driving lugs 33 at the front end. The lugs 33 extend axially forwardly from the sleeve 32 and are positioned in the path of travel of the lugs 25 on the anvil. The sleeve 32 slides in opposite directions relative to the frame and is normally urged by a coil spring 34 in a forward direction to locate the lugs 33 in the'path of the lugs 25. The spring 34 surrounds the frame within the sleeve 32 and the opposite ends of the spring 34 respectively engage axially spaced shoulders on the sleeve 32.
The above construction is such that the sleeve 32 is driven by the motor shaft I3 through the planetary gearing 2 6 and the anvil 23 is driven the sleeve through the lugs 25 and 33. The 23 rotates continuously until a load is applied to the anvil whereupon the lugs 33 react against the lugs 25 and the sleeve 32 retracts or moves rearwardly against the action of the spring 34 to withdraw the lugs 33 from the path oi the lugs 25. As soon as the lugs 33 on the sleeve are withdrawn from the path of the lugs 25 onthe anvil, the spring 34 acts to return" the sleeve 32 to its forward position wherein the lugs 33 again assume positions in the path of the lugs 25. Since the sleeve 3,2 is being rotated bythe planetary gearing 26 the lugs 33 on the 'sleeve strike the lugs 2s on the anvil with a mow of 'substantial force and impart a rotative movementto the anvil. This cycle of operation is repeated periodicalliT so that a succession of power impulsesare applied to the anvil for rotating the saine. Assuming that the anvil is operatively connected to a nut or bolt, it follows that the Vlatter will eventually be securely set with practically no effort on the part of the operator.
'Of course the foot pounds oi' torque applied 'by Vthe anvil are limited only by the rating of the tool and in order to control this torque, provisionY is made for absorbing the power impulses when the load on the part being set exc'edsa predetermined value. This is accompli'shed herein by a device 35 having a sleeve 36 Yfol-ined with an enlargement 31 at the rear end and having a bore 33 extending axially through theV enlargement. The bore 38 corresponds in cross sectional contour to the front end of the anvil 23 and slidably receives the latter. A suitable spring operated detent 39 is provided on the front end of the anvil in a position to frictionally engage the adjacent sideoi' the bore 38 'to removably retain the sleeve 36 in assembled felation to the, anvil.
Supported within the sleeve 36 is a driving member 4U having a polygnally shaped part 4I at the rear end removably sleeved within the adjacent end of the bore 38 to lie in juxtaposition tothe front end of the anvil 23. Thus the sleeve 36 provides a removable coupling between the anvil 23 and the driving member 4 3. The front end of the sleeve 36 is closed by a driven member 42 telescopd within the sleeve 35Y and having a part 4'3 'projecting axially forwardly beyond the'iront'end of the sleeve 35. The part 43 is polygonally shaped in cross section and provides amounting for a. socket 44 which in the present instance is designed to tit a 'certain size nut or `bolt head. The rear end or the member 42 has an axially extending round bore 45 for telescopically receiving a cylindrical projection 46 at the front end of the member 40.
As shown in Figure 4 of the drawing the member 42 is formed with a plurality of circumferentially spaced radially extending tapped holes 41 and the adjacent wall of the sleeve 36 has diametrically opposed circumferentially extending slots 48 registrable with the holes 41. Suitable machine screws 43 are threaded in diametrically opposed holes 41 and the heads of the screws respectively project into the slots 48. Thus the driven member 42 has limited rotative movement relative to the sleeve 36 and driving member 40.
The driving and driven members are operatively connected by resilient means in the form of a coil spring 50 disposed within the sleeve 36 and held under torsion between the driving and driven members. The rear end 5I of the spring extends rearwardly into a slot 52 formed in the driving member 4D and the front end 53 of the spring extends forwardly into a slot 54 formed in the driven member 42.
The above arrangement is such that rotative power impacts applied to the anvil 23 rotate the driving member 4U together with the sleeve 36 in the direction of the arrow A in Figure l oi the drawing. As shown in Figure 1 the screws 43 are maintained in engagement with the leading ends of the slots V4by the action of the spring 50 so that rotation of the driving member 40 in the direction of the arrow A is transmitted by the spring 50 to the driven member 42. When the load on theY driven member 42, or in other words, when the resistance to rotation of the driven member exceeds the torsional force of the spring 5U. subsequent power impulses applied to the anvil 23 merely act to wind up the spring 5D and are absorbed by the latter spring. When such a condition exists, the reaction of the coil spring 53 following each power impulse rotates the anvil 23 in the reverse direction to advance the lugs 25 on the anvil toward the lugs 33 on the sleeve 32 and thereby cancels out to a great extent the force of the impacts.
With a spring 50 of given size, the foot pounds of torque applied by the driven member 42 on the part to be set depend upon the torsional force exerted by the spring 5l! and provision is made herein for varying the torque characteristic by altering the degree of spring torsion. This is accomplished by rotating the member 42 in the direction of the arrow B in Figure 4 of the drawing prior to installing the screws 43. When the spring 5l) is wound to the selected extent by the above procedure, the screws are installed in the holes 41 registering with the leading ends of the slots 48 so that the screw heads abut the latter ends of the slots and hold the spring 5I) in the selected adjusted position. The purpose of the slots 43 is, of course, to permit the necessary angular movement ol' the sleeve 3B relative to the driven member when the load on the latter exceeds the torsional force exerted by the spring 50.
As stated above the tapped holes 41 are spaced from each other clrcum'ferentially of the' member 42, and the angular distance between the holes 41 may be determined so that this distance represents a definite torque characteristic. In other words by predetermining the angular relationship between adjacent holes 41, the amount of torsion on the spring 30 to produce Va predetermined torque output may be mathemamgally determined. In other words winding the spring 50 from its free position throughout preselected degrees of angular movement provides predetermined torque characteristics in inch or foot pounds. It follows, therefore, that the output of the tool in inch or foot pounds of torque may be determined with reasonable accuracy by the extent the spring 50 is wound during rotative adjustment of the member 42.
It will be noted from the above that the device 35 may form a part of the tool assembly or it may be used as an attachment for power driven impact tools of various different constructions. In any case the device renders it possible to control within reasonably close limits the foot pounds of torque applied to a part such, for ex ample, as a nut, bolt or the like to set the same. Thus the proper degree of setting is secured in the minimum length of time without the danger of breakage.
In the embodiment of the invention shown in Figure 5 of the drawing, the driven member 42' is actually formed of two parts 5E and 51. The adjacent sides of the two parts are provided with intermeshing teeth 58 and 59 respectively. The teeth are normally maintained in intermeshing relationship by a torsional spring 50' which corresponds to the spring 50 in the rst described form or' the invention. The driven member 42 is rotatably supported in a sleeve 36' identical to the sleeve 36 previously described, with the exception that the front end is provided with a stop 60 arranged to engage the front side of the part 51 and maintain the latter in assembled relationship with the sleeve.
The part 56 has circumferentially spaced tapped holes 41 corresponding to the holes 41 in the driven member 42, and screws 49' are selectively engaged in the holes in the same manner described in connection with the first form of this invention. The heads of the screws 49' respectively engage in slots 48' formed in the sleeve 36. The slots 48' differ from the slots 4B in the rst described form of the invention in that they are inclined rearwardly with respect to the front end of the sleeve 36'.
The construction shown in Figure 5 operates in the same manner as the tool shown in Figures 1 to 4 inclusive with the exception that when the load applied to the part 51 exceeds the force exerted by the spring 50', successive power impacts applied to the driving member 4| merely serve to wind the spring 50'; and in so doing, rotate the part 56 in a direction to cause the screws 48' to travel along the slots 48'. Owing to the fact that the slots are inclined in the direction noted in Figure 5 of the drawings, the part 56 is withdrawn from the part 51 suiiiciently to disengage the teeth. In other respects the operation of the two embodiments is the same and corresponding parts are indicated by the same reference numerals.
What I claim as my invention is:
l. In a tool of the class described, a driving member and a driven member, means for imparting a succession of power impulses to the driving member, and means interposed between said members for transmitting the power impulses from the driving member to the driven member, said means being operative to cancel out the effect of the power impulses on the driven member when the load on the driven member exceeds a predetermined value.
2. In a tool of the class described, a driving member supported for rotation. a driven member supported for rotation relative to the driving member, means for imparting a succession of rotative impacts to the driving member for rotating the same, and means interposed between said members for transmitting the impacts from the driving member to the driven member, said means being operative to cancel out the effect of the impacts on the driven member when the load on the driven member exceeds a predetermined value.
3. The tool set forth in claim 2 in which the means for cancelling-out the impacts comprises a coil spring held under torsion between said members and having the opposite ends respectively connected to the members.
4. The tool set forth in claim 3 in which means is provided for selectively varying the degree of tension of the coil spring.
5. In a tool oi the class described, a driving member supported for rotation, a driven member supported for rotation relative to the driving member, means for imparting a succession of rotative impacts to the driving member for rotating the same, and resilient means having portions respectively connected to said driving member and driven member, said resilient means providing a sole driving connection between the members and adapted to absorb the impact forces when the load on the driven member exceeds a predetermined desired value.
6. The tool set forth in claim 5 in which the resilient means comprises a coil spring held under torsion between the members, and means for varying the degree of torsion of the coil spring.
7. In a tool of the class described, a driving member supported for rotation, a driven member supported for rotation relative to the driving member, said members being in axial alignment and having portions telescopically engaging one another, means for imparting a succession of rotative power impacts to the driving member for rotating the latter, and a coil spring surrounding the telescopically engaging portions of the members and having the opposite ends respectively secured to the members, said coil spring being held under torsion between the members and constituting the sole driving connection between the members.
8. The tool set forth in claim Z having means for rotating the driven member relative to the driving member for varying the degree of torsion of the coil spring.
9. In a tool of the class described, a Part supported for rotation, means for imparting a succession of impacts to said part for rotating the latter, a driving member removably coupled to said part for rotation by the latter, a driven .member removably coupled to the driving member and supported for rotation relative to the driving member, and a driving connection between said members responsive to loads on the driven member in excess of a predetermined value to cancel-out the effect of the impacts on the driven member.
l0. The tool set forth in claim 9 in which the driving connection comprises a coil spring held under torsion between said members.
l1. In a tool of the class described, a part supported for rotation, means for imparting a succession of power impacts to said part for rotating the latter, a sleeve removably attachable at one end to the part and rotatable as a unit with said part, a driving member housed within the sleeve and having a removable driving connection with the end aforesaid of the sleeve, a driven member :removably supported within the opposite end Yof -the' sleeve and having limited rotative movementrelative to the sleeve, and a spring housed within the sleeve under torsion between the members and having the opposite ends respectively connected to said members.
12. Theitool set forth in claim 11 having means for rotatably adjusting the driven member relative tothe sleeve for varying the degree of torsion of the spring.
3. An attachment for power-driven impact tools having a driving head and having means for imparti-ng `a succession of power impacts to the head for rotating the latter, said attachment comprising a sleeve having means at one end to provide a removable driving connection with the head, a driving member housed within the sleeve and having a removable driving connection with saidend of the sleeve, a driven member supported within the opposite end of the sleeve and connected to the sleeve for limited rotative movement relative to the sleeve, and resilient means also housed within the sleeve and providing a driving connection between said members.
14. The attachment set forth in claim 13 in which the resilient'means comprises a coil spring held under torsion between said members and having the opposite ends respectively removably secured to sai-d members.
15. The attachment set forth in claim 14 in which the driven member is anguiarly adjustable relative `to the sleeve to vary the degree ci torsion of the spring.,
16. In a tool of the class described, a driving member supported for rotation, a driven member supported for rotation relative to the driving member, means for imparting a succession of rotative impacts to the driving member for rotat ing the same, resilient means providing the sole driving connection between the members and adapted to absorb the impact forces When the load on the driven member exceeds a predetermined desired value, said resilient means comprising a coil spring secured at opposite ends to the respective members and held under torsion, and means for adjustably rotating one of the members relative to the other throughout predetermined angular increments of travel to vary the torsional force exerted by the spring.
17. In a. tool of the class described, a driving member supported for rotation, means for imparting a succession of rotative impacts to the driving member for rotating the same, a driven member supported for rotation relative to the Vdriving member, said driven member having a `iirst part to which the load is applied and having a second part rotatable relative to the rst part, cooperating intermeshing teeth on adjacent sides of said parts, resilient Vmeans for urging the teeth on said parts in intermeshing relationship and comprising a coil spring secured at one end to the driving member and secured at the opposite end to the second part, said spring being held B under torsion and constituting the vsolo driving connection between the drivingtmember andsecond part, and means for moving the second part in a direction away from the nrst part to disengage the intermeshing teeth when the load on the first part exceeds the -force applied to the second part by the-spring.
18. In a tool of the class described, a driving member supported for rotation, means for im parting a succession of rotative impcctsto the driving member for rotating the same, a driven member supported for rotation relative to the driving member, said driven member having a first part to which the loadis applied and having a second part rotatable relative to the rst parti cooperating intermeshing teeth on adjacent sid of said parts, and resilient means for urging the teeth on said parts in intermeshing Arelatioril'xip and comprising a coil spring secured at one and to the driving member and secured at the opposite endto the second; part, said spring being held under torsion and constituting the sole driving connection between the driving member and seoond part.
19. In a tool of the class described, a-drlving member supported for rotation relative to'said driving member, means for imparting a succession of rotative impacts to said driving member for rotating the same, and resilient means held under a predetermined tension and having portions respectively connected tosaid driving member and driven membciysaidl resilient means providing the sole driving connection between said members and adapted to absorb the impact forces when the load on said driven member exceeds said predetermined value.
20. In a tool of the class described,a driving member supported for rotation. a driven Yunember supported for rotation relative to the driving member, Vmeans for imparting -a succession of rotative power impacts to the driving member for rotating the latter, and a coil spring surround ing the members and having the opposite ends respectively secured to the members, said coil spring being held under torsion `between the members and constituting the sole driving connection between the members.
MILIIGN E. DIESER REFERENCES CITED The following references Yare of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 2,012,916 Pott Aug. 27V, 1935 2,100,552 Ripsch et al. Nov. 30, 1937 2,184,394 Moretti Dec. 26. 1939 2,256,496 Robinson Sept. 23, 1941 2,378,956 Thorner June 26, 1945 2,450,185 Craven Sept. 28, 1948 2,492,840 Bugg Dec. 27, 1949 2,533,703 Wilhide et al Dec. 12, 1950
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US174997A US2608118A (en) | 1950-07-20 | 1950-07-20 | Power-operated impact tool |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US174997A US2608118A (en) | 1950-07-20 | 1950-07-20 | Power-operated impact tool |
Publications (1)
Publication Number | Publication Date |
---|---|
US2608118A true US2608118A (en) | 1952-08-26 |
Family
ID=22638395
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US174997A Expired - Lifetime US2608118A (en) | 1950-07-20 | 1950-07-20 | Power-operated impact tool |
Country Status (1)
Country | Link |
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US (1) | US2608118A (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2788689A (en) * | 1954-05-24 | 1957-04-16 | Inv S & Patents Proprietary Lt | Device for loosening and removing nuts overtight upon or adhering by corrosion to screwed members |
US2895360A (en) * | 1957-08-07 | 1959-07-21 | Albertson & Co Inc | Power operated magazine-type socket wrench attachment |
US2947283A (en) * | 1955-02-04 | 1960-08-02 | Earl G Roggenburk | Impact tool |
US3006446A (en) * | 1954-01-25 | 1961-10-31 | Ingersoll Rand Co | Impact tools |
DE1161816B (en) * | 1954-01-25 | 1964-01-23 | Ingersoll Rand Co | Motor-driven rotary impact tools, in particular impact wrenches |
US4535850A (en) * | 1971-01-06 | 1985-08-20 | Rockwell International Corporation | Power-operated fastener tool |
EP1250580A1 (en) * | 1999-12-16 | 2002-10-23 | Magna-Lastic Devices, Inc. | Impact tool control method and apparatus and impact tool using the same |
US6763897B2 (en) | 2001-04-20 | 2004-07-20 | Black & Decker Inc. | Hammer |
US20080029282A1 (en) * | 2004-04-30 | 2008-02-07 | Makita Corporation | Power Tool |
WO2018011205A1 (en) * | 2016-07-11 | 2018-01-18 | Robert Bosch Gmbh | Hand-held power tool device |
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US2012916A (en) * | 1932-01-30 | 1935-08-27 | Robert H Pott | Impact tool |
US2100552A (en) * | 1934-01-12 | 1937-11-30 | Buckeye Portable Tool Company | Clutch mechanism for power operated portable tools |
US2184394A (en) * | 1937-09-20 | 1939-12-26 | Millers Falls Co | Clutch mechanism |
US2256496A (en) * | 1940-09-27 | 1941-09-23 | Girard C Robinson | Power driven tool |
US2378956A (en) * | 1942-06-26 | 1945-06-26 | Robert H Thorner | Torque wrengh or like tool |
US2450185A (en) * | 1944-10-31 | 1948-09-28 | Howard F Craven | Hand operated rotary impact screw driver |
US2492840A (en) * | 1945-04-19 | 1949-12-27 | Kenly C Bugg | Hammer |
US2533703A (en) * | 1947-06-21 | 1950-12-12 | Black & Decker Mfg Co | Impact nut runner |
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US2012916A (en) * | 1932-01-30 | 1935-08-27 | Robert H Pott | Impact tool |
US2100552A (en) * | 1934-01-12 | 1937-11-30 | Buckeye Portable Tool Company | Clutch mechanism for power operated portable tools |
US2184394A (en) * | 1937-09-20 | 1939-12-26 | Millers Falls Co | Clutch mechanism |
US2256496A (en) * | 1940-09-27 | 1941-09-23 | Girard C Robinson | Power driven tool |
US2378956A (en) * | 1942-06-26 | 1945-06-26 | Robert H Thorner | Torque wrengh or like tool |
US2450185A (en) * | 1944-10-31 | 1948-09-28 | Howard F Craven | Hand operated rotary impact screw driver |
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Cited By (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3006446A (en) * | 1954-01-25 | 1961-10-31 | Ingersoll Rand Co | Impact tools |
DE1161816B (en) * | 1954-01-25 | 1964-01-23 | Ingersoll Rand Co | Motor-driven rotary impact tools, in particular impact wrenches |
US2788689A (en) * | 1954-05-24 | 1957-04-16 | Inv S & Patents Proprietary Lt | Device for loosening and removing nuts overtight upon or adhering by corrosion to screwed members |
US2947283A (en) * | 1955-02-04 | 1960-08-02 | Earl G Roggenburk | Impact tool |
US2895360A (en) * | 1957-08-07 | 1959-07-21 | Albertson & Co Inc | Power operated magazine-type socket wrench attachment |
US4535850A (en) * | 1971-01-06 | 1985-08-20 | Rockwell International Corporation | Power-operated fastener tool |
EP1250580A1 (en) * | 1999-12-16 | 2002-10-23 | Magna-Lastic Devices, Inc. | Impact tool control method and apparatus and impact tool using the same |
EP1250580A4 (en) * | 1999-12-16 | 2006-03-15 | Magna Lastic Devices Inc | Impact tool control method and apparatus and impact tool using the same |
US6763897B2 (en) | 2001-04-20 | 2004-07-20 | Black & Decker Inc. | Hammer |
US20080029282A1 (en) * | 2004-04-30 | 2008-02-07 | Makita Corporation | Power Tool |
US7604071B2 (en) * | 2004-04-30 | 2009-10-20 | Makita Corporation | Power tool with vibration reducing means |
WO2018011205A1 (en) * | 2016-07-11 | 2018-01-18 | Robert Bosch Gmbh | Hand-held power tool device |
CN109476002A (en) * | 2016-07-11 | 2019-03-15 | 罗伯特·博世有限公司 | Hand-held machine tool device |
US10960529B2 (en) | 2016-07-11 | 2021-03-30 | Robert Bosch Gmbh | Hand-held power-tool device |
CN109476002B (en) * | 2016-07-11 | 2021-06-22 | 罗伯特·博世有限公司 | Hand-held machine tool device |
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