US3552499A - Rotary power tool clutch mechanism - Google Patents

Rotary power tool clutch mechanism Download PDF

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US3552499A
US3552499A US766584A US3552499DA US3552499A US 3552499 A US3552499 A US 3552499A US 766584 A US766584 A US 766584A US 3552499D A US3552499D A US 3552499DA US 3552499 A US3552499 A US 3552499A
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impact
output shaft
cage member
hammer
roller
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US766584A
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Spencer B Maurer
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25BTOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
    • B25B21/00Portable power-driven screw or nut setting or loosening tools; Attachments for drilling apparatus serving the same purpose
    • B25B21/02Portable 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
    • B25B21/026Impact clutches

Definitions

  • Hyde ABSTRACT This invention pertains to a rotary impact power [54] ggzgz gfgzfgg CLUTCH MECHANISM tool, such as a wrench, wherein a motor drives a cage member gs which mounts an impact element between an outside posi- [52] [1.8. CI. 173/93, tioned hammer member and an inside positioned output shaft 173/935. having an impact-receiving jaw.
  • clutch parts are easily and inexpensively ROTARY POWER CLUTCH MECHANISM I wrench which is capable of efficient operation at high torque as well as at low torque.
  • Still another object of the invention is to provide an impact wrench design which avoids sharp reentrant angles 'on the hammer and anvil, thereby eliminating high stress concentrations which lead to failure of the hammer and anvil parts.
  • FIG. 1 is a side view of a tool with the clutch shown in longitudinal section; a
  • FIG. 2 is a transverse section taken along line 2-2 of F IG. 1, showing the clutch in itsimpact" position;
  • FIG. 3 is a similar view showing the clutch in its disen- Y gaged position
  • y I I An aspect of the present invention lies in the provision of an inexpensive, reliable, durable l rotary power impact tool wherein a motor is mounted within a housing, and an output shaft is also mounted onthe housing for rotary power'output'.
  • An impact receiving jaw is radially disposed on the periphery of the output shaft.
  • a cage member is driven by the motor and mounts an elongated-impact element adjacent to the output shaftn'ear the impact-receiving jaw with its axis parallel'to the axis of the output shaft and radially displaced therefrom torotate in an irregular orbit about the output shaft.
  • a "ringlike hammer member surrounds the orbit of the impact element
  • the output shaft and it likewise rotates in an irregular orbit 7 about the shaft as the cage member 14' is'driven by the n'i'otor s and the cam element 22.
  • it is mounted on the "cage and means mount the hammer member in the housing for rotary motion essentially in unison with the impact element, but the hammer member is capable of limited relative rotary motion in respect to the impact element.
  • Cam means are periodically actuated by the output shaft to move the hammer I member forward ahead of the cage member to cause the im pact'elernent to move radially inwardly into the path of the impact-receiving jaw and transmit an impact blow from the pact-receiving jaw.
  • FIG. 1 With reference to FIG. 1 there is shown a housing 10 within which is contained a motor (not shown) having a drive shaft 11. -T he motor and its forward-reverse control are sell known in the art.
  • Drive shaft 11 has a male splined end 12 which is in rotary driving engagement with a female splined endl3', of a cage member 14, thereby to-cause the cage member 14 to rotate in unison with the drive shaft of the motor.
  • A'bearing 15 mounts the drive shaft 11 in the housing. It
  • An output shaft 16 is mounted by a sleeve bearing 17 in the forward end of the housing 10, and it extends from outside the housing to a location inside the housing, adjacent to but spaced Slightly from, the end of the motor drive shaft 11.
  • i output shaft 16 includes an impact-receiving jaw 23 having a forward face 18 and a reverse impact face 30, and the jaw is radially disposed on the periphery ofoutput shaft 16, shown shaped and has a pair of slots l 9,20which extend radially through it, and which extend lengthwise in a direction parallel to-the output shaft 16 of thetool.
  • An elongated impact element 21 (or impact roller) is mounted in slot 19 with its axis parallel to the axis of the output shaft 16, and the impact element 2.1 is radially displaced from the shaft 16 so that itcan rotateih an irregular orbit about the output shaft.
  • the cage member 14 is essentially ring member, and it is capabldof -rotary "motion' essentially in unison with the impact element-21,'carn 'el'ement 22 and cage member 14, but it is capable of limited-relative rotary motion in respect tothese elements.
  • The'bore o f the hammer'mer'nber 25 isaxially grooved at two locations 27,28toac'commodate the impact element 21 and the cam roll'ei22l
  • the face 18 of the impact receiving jaw 23, together with the cam roller 22 and the slanted face'g38 ,of the groove 28 form' the, cam means for periodically actuating the clutch mechanism in a forward direction.
  • FIGS. 4 and 5' show the beginning and end of the cam action of cam roller 22 as the cage 14 drives the roller 22 off of the impactreceiv: ing face 18 and against face 38 of the hammer element 25, thus causing hammer 25 to rotate forward ahead of the cage element 14.
  • face 37 of the hammer*25 causes roller 21 to'be cammed radially inw'a'rdlyinto space 35*, which is the position shown in FIG. 5.
  • the cage member 14, the hammer member 25 and the roller elements zmzare'mw in the proper position for another impact blow when further rotation of. these members has carried 'roller 21 around to the impact receiving face 18, as shown in FIG. 2. Repeated cycling of the tool causes repeatedblows-from the hammerto the output shaft.
  • Reverse action of the tool is similar to the aforedescribed forward action, but with the motor shaftll operating'imthe reverse direction.
  • the impact roller and the cam roller have reversed roles, the impact roller in the forward direction becoming the cam roller in the reverse direction, and the cam roller in the forward direction becoming the impact roller in the reverse direction. Because of this symmetry of action, the two rollers preferably are identical.
  • face 30 of the impact jaw 23 takes the place of face 18, becoming the reverse direction impact receiving face.
  • a rotary impact tool comprising, in combination;
  • an output shaft mounted on said housing for rotation and including an impact-receiving jaw generally radially disposed on its periphery;
  • a cage member driven by said motor and mounting said impact element adjacent to the output shaft in the vicinity of the impact-receiving jaw with its axis parallel to the axis of the output shaft and radially displaced therefrom to rotate in an orbitlike path about the output shaft;
  • cam means periodically actuated by the output shaft to move said hammer member forward ahead of the cage member to cause said impact element to move radially inward into the path of said impact-receiving jaw in position to contact said impact-receiving jaw and transmit an impact blow from said hammer member transversely through said impact element to said impact-receiving jaw.
  • a rotary impact tool comprising, in combination;
  • a cage member driven by said motor mounting said roller impact element adjacent to the impact-receiving jaw with its axis parallel to the axis of the output shaft and radially displaced therefrom to rotate in an orbit about the output shaft;
  • a ringlike hammer member surrounding the orbit of said roller impact element, means mounting said hammer member in said housing for rotary motion essentially in unison with said roller impact element but being capable of limited relative motion in respect thereto;
  • cam means periodically actuated by said cam shoulder on said output shaft to move said hammer forward ahead of the cage member to cause said impact element to move radially inward to contact said impact-receiving jaw and transmit an impact blow from said hammer member transversely through said impact element to said impactreceiving jaw.
  • a rotary impact tool comprising, in combination;
  • a centrally located output shaft including an impact-receiving jaw and a cam shoulder
  • a ringlike hammer member having longitudinal groove means in its bore
  • roller impact element mounted in said slot means in said cage member and extending radially through said slot means from said output shaft into said groove in said hammer member and with its axis parallel to the axis of said output shaft, the roller impact element allowing limited relative rotary motion between said cage member and said hammer member;
  • cam means actuated by said cam shoulder on said output shaft for periodically during rotation causing said hammer member to rotate forward ahead of said cage member thereby to force said roller impact element radially inward into the annular path of said impact-receiving jaw to deliver an impact blow from said hammer member through said roller impact element to said impact-receiving jaw.
  • a rotary impact tool comprising, in combination:
  • a centrally located output shaft having an impact-receiving jaw and a cam shoulder radially disposed on its periphery; means rotatably mounting said output shaft to said housing;
  • a ringlike cage member driven by said motor surrounding said impact-receiving jaw and journaled on said output shaft, said cage member having two slots through its wall;
  • roller elements one mounted in each of said two slots in said cage member with their axes parallel to the axis of the output shaft but displaced radially therefrom, the diameters of said roller elements being such that they extend radially beyond the periphery of said cage member;
  • a ringlike hammer member surrounding said cage member and journaled thereon, said hammer member having two axially extending grooves in its bore to loosely accommodate the portions of said roller elements beyond the periphery of said cage member causing said cage member and said hammer member to rotate essentially in unison but allowing limited relative rotary motion therebetween, said two axially extending grooves being spaced and shaped so that as the first roller is forced outwardly by the cam shoulder into one groove in the hammer member the second roller is forced inwardly by the hammer member into the path of the impact-receiving jaw to transmit an impact blow from said hammer member through said second roller element to said impact-receiving jaw.
  • a rotary impact tool comprising, in combination:
  • cam means actuated by said output shaft periodically to cause said relative motion of said hammer member ahead of said cage member.

Abstract

This invention pertains to a rotary impact power tool, such as a wrench, wherein a motor drives a cage member which mounts an impact element between an outside positioned hammer member and an inside positioned output shaft having an impact-receiving jaw. Cam means periodically actuated by the output shaft move the hammer member ahead of the cage member to move the impact element radially inwardly to engage the impact-receiving jaw.

Description

O United States Patent 11113,552,499
[72] Inventor Spencer B. Maurer [56] References Cited 13753 County Line Road, Chagrin Falls, UNITED STATES PATENTS ['21] A I No $2 2 2,600,495 6/1952 Fitch 173/935 3,174,597 3/1965 Schaedler et al. 173/93 [22] PM 1968 3 210 960 10/1965 v 11 173/93 [45] patented Jan. 5,1971 aug n 3,272,265 9/1966 Schrader et al 173/93 1 Primary Examiner-James A. Leppink Attorney-Eber J. Hyde ABSTRACT: This invention pertains to a rotary impact power [54] ggzgz gfgzfgg CLUTCH MECHANISM tool, such as a wrench, wherein a motor drives a cage member gs which mounts an impact element between an outside posi- [52] [1.8. CI. 173/93, tioned hammer member and an inside positioned output shaft 173/935. having an impact-receiving jaw. Cam means periodically actu- [51] Int. Cl. 825d 15/00 ated by the output shaft move the hammer member ahead of [50] Field of Search 173/93, the cage member to move the impact element radially in- 93.5 wardly to engage the impact-receiving jaw.
clutch parts are easily and inexpensively ROTARY POWER CLUTCH MECHANISM I wrench which is capable of efficient operation at high torque as well as at low torque.
Still another object of the invention is to provide an impact wrench design which avoids sharp reentrant angles 'on the hammer and anvil, thereby eliminating high stress concentrations which lead to failure of the hammer and anvil parts.
For a better understanding of the present invention, reference is had to the-following description taken in conjunction with the drawings and claims.
With reference to the drawings:
FIG. 1 is a side view of a tool with the clutch shown in longitudinal section; a
FIG. 2 is a transverse section taken along line 2-2 of F IG. 1, showing the clutch in itsimpact" position;
- FIG. 3 is a similar view showing the clutch in its disen- Y gaged position;
FIG. 4 is a similar view showing the clutch at the beginning of the cam engagement" position; and t FIG. 5 is a similar view showing the clutch at the end of the cam engagement position as it is ready for impact upon further rotation. y I I An aspect of the present invention lies in the provision of an inexpensive, reliable, durable l rotary power impact tool wherein a motor is mounted within a housing, and an output shaft is also mounted onthe housing for rotary power'output'. An impact receiving jaw is radially disposed on the periphery of the output shaft..A cage member is driven by the motor and mounts an elongated-impact element adjacent to the output shaftn'ear the impact-receiving jaw with its axis parallel'to the axis of the output shaft and radially displaced therefrom torotate in an irregular orbit about the output shaft. A "ringlike hammer member surrounds the orbit of the impact element,
the output shaft, and it likewise rotates in an irregular orbit 7 about the shaft as the cage member 14' is'driven by the n'i'otor s and the cam element 22. Preferably" it is mounted on the "cage and means mount the hammer member in the housing for rotary motion essentially in unison with the impact element, but the hammer member is capable of limited relative rotary motion in respect to the impact element. Cam means are periodically actuated by the output shaft to move the hammer I member forward ahead of the cage member to cause the im pact'elernent to move radially inwardly into the path of the impact-receiving jaw and transmit an impact blow from the pact-receiving jaw.
- .With reference to FIG. 1 there is shown a housing 10 within which is contained a motor (not shown) having a drive shaft 11. -T he motor and its forward-reverse control are sell known in the art. Drive shaft 11 has a male splined end 12 which is in rotary driving engagement with a female splined endl3', of a cage member 14, thereby to-cause the cage member 14 to rotate in unison with the drive shaft of the motor. A'bearing 15 mounts the drive shaft 11 in the housing. It
An output shaft 16 is mounted by a sleeve bearing 17 in the forward end of the housing 10, and it extends from outside the housing to a location inside the housing, adjacent to but spaced Slightly from, the end of the motor drive shaft 11. The
i output shaft 16 includes an impact-receiving jaw 23 having a forward face 18 and a reverse impact face 30, and the jaw is radially disposed on the periphery ofoutput shaft 16, shown shaped and has a pair of slots l 9,20which extend radially through it, and which extend lengthwise in a direction parallel to-the output shaft 16 of thetool.
An elongated impact element 21 (or impact roller) is mounted in slot 19 with its axis parallel to the axis of the output shaft 16, and the impact element 2.1 is radially displaced from the shaft 16 so that itcan rotateih an irregular orbit about the output shaft. A carn= roller element 22 is mounted in slot 20 of the cage "member with itsaxis parallel to theaxis of best in, FIGS. 2 to 5. The cage member 14 is essentially ring member, and it is capabldof -rotary "motion' essentially in unison with the impact element-21,'carn 'el'ement 22 and cage member 14, but it is capable of limited-relative rotary motion in respect tothese elements. The'bore o f the hammer'mer'nber 25 isaxially grooved at two locations 27,28toac'commodate the impact element 21 and the cam roll'ei22l The face 18 of the impact receiving jaw 23, together with the cam roller 22 and the slanted face'g38 ,of the groove 28 ,form' the, cam means for periodically actuating the clutch mechanism in a forward direction. An annular space 35 eitist's between the outputshaft 16 and thebore of the cage member 14 throughout most'of the circumference of the cage member, and both the impact element 21 and the cam rollermfiat times in the-operating cycle, extend inwardly into this space 35, and extend outwardly into axial grooves 27 and 28 in 'the bore of the hammer member 25,. i a
In operation in the forward direction the rotating motor drive shaft directly rotates the cage member 14 through the splined connection-12,13;thereby-directly'rotating both the impact roller element 21 and the cam roller element 22. As I shown in FIGS. 2 to 5 rotation isin a clockwise direction.
In FIG. 2 the moment of impact is "shown and the massive ring hammer member 25 is exerting force on the impact ro'll'er element 21 from area 37 of the wall of groove 27, and the impact element21 is in contact with the face 18 of the impact receiving jaw 23 of the output shaft 16. Consequently the impact blow from the hammer member 25 is transmitted transversely through theelongated impact element 21 to the jaw 23 on the output shaft 16. Thus the-solid, rollerlike, elongated im pact element 21 transfers the high impact forces from the hammer to the impact receiving jaw 23 of the output shaft 16. there being no sharp reentrant corners or angles involved which would lead to high stress concentrations and premature failure at high torques. i
, After the impact blow, a disengaging action takes place, shown already accomplished in FIG. 3.'During the disengaging action, cage member 14' is driven forward relative to the" hammer 25 displacing the impact element 21 outwardly into groove27 in thebore of the hammer element, and simultane ousIy' the slanted wall area. 38 of groove 28 displaces the'cam roller 22 inwardly into space 35. Rotation of "cage 14,-the roller elements 21 and 22 and the hammer 25 then takes'place in unison. The impact roller element 21 passes over the outer surface 39 of the jaw 23 from the area of the impact face 18m a position beyond face 30 which is the end of the land mass; as shown by the change between FIGS. 3 and 4. During this motion, accelerationof' the hammer takes place. FIGS. 4 and 5' show the beginning and end of the cam action of cam roller 22 as the cage 14 drives the roller 22 off of the impactreceiv: ing face 18 and against face 38 of the hammer element 25, thus causing hammer 25 to rotate forward ahead of the cage element 14. As this is happening face 37 of the hammer*25 causes roller 21 to'be cammed radially inw'a'rdlyinto space 35*, which is the position shown in FIG. 5. The cage member 14, the hammer member 25 and the roller elements zmzare'mw in the proper position for another impact blow when further rotation of. these members has carried 'roller 21 around to the impact receiving face 18, as shown in FIG. 2. Repeated cycling of the tool causes repeatedblows-from the hammerto the output shaft.
Reverse action of the tool is similar to the aforedescribed forward action, but with the motor shaftll operating'imthe reverse direction. The impact roller and the cam roller have reversed roles, the impact roller in the forward direction becoming the cam roller in the reverse direction, and the cam roller in the forward direction becoming the impact roller in the reverse direction. Because of this symmetry of action, the two rollers preferably are identical.
During reverse operation face 30 of the impact jaw 23 takes the place of face 18, becoming the reverse direction impact receiving face.
While there have been described what are at present considered to be the preferred embodiments of this invention, it will be obvious to those skilled in the art that various changes and modifications may be made therein without departing from the invention, and it is aimed, therefore, in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of the invention.
lclaim:
l. A rotary impact tool comprising, in combination;
a housing, a motor mounted in said housing;
an output shaft mounted on said housing for rotation and including an impact-receiving jaw generally radially disposed on its periphery;
an elongated impact element;
a cage member driven by said motor and mounting said impact element adjacent to the output shaft in the vicinity of the impact-receiving jaw with its axis parallel to the axis of the output shaft and radially displaced therefrom to rotate in an orbitlike path about the output shaft;
a ringlike hammer member surrounding the orbit of said impact element;
means mounting said hammer member in said housing for rotary motion essentially in unison with said impact element but being capable of limited relative rotary motion in respect thereto; and
cam means periodically actuated by the output shaft to move said hammer member forward ahead of the cage member to cause said impact element to move radially inward into the path of said impact-receiving jaw in position to contact said impact-receiving jaw and transmit an impact blow from said hammer member transversely through said impact element to said impact-receiving jaw.
2. A rotary impact tool comprising, in combination;
a housing, a motor mounted in said housing;
- an output shaft mounted on said housing for rotation and including an impact receiving jaw and a cam shoulder each radially disposed on its periphery;
a generally cylindrical roller impact element;
a cage member driven by said motor mounting said roller impact element adjacent to the impact-receiving jaw with its axis parallel to the axis of the output shaft and radially displaced therefrom to rotate in an orbit about the output shaft;
a ringlike hammer member surrounding the orbit of said roller impact element, means mounting said hammer member in said housing for rotary motion essentially in unison with said roller impact element but being capable of limited relative motion in respect thereto; and
cam means periodically actuated by said cam shoulder on said output shaft to move said hammer forward ahead of the cage member to cause said impact element to move radially inward to contact said impact-receiving jaw and transmit an impact blow from said hammer member transversely through said impact element to said impactreceiving jaw.
3. A rotary impact tool, comprising, in combination;
a housing;
a motor having a motor drive shaft mounted in said housing;
a centrally located output shaft including an impact-receiving jaw and a cam shoulder;
means rotatably mounting said output shaft in said housing;
a cage member having slot means therein;
means mounting said cage member around said output shaft at the location of said impact-receiving jaw;
means connecting said motor drive shaft to said cage member to rotate said cage member as said motor and motor drive shaft rotate;
a ringlike hammer member having longitudinal groove means in its bore;
means coaxially mounting said hammer around said cage member and said output shaft for rotation with and in respect to said cage member and said output shaft;
a generally cylindrical roller impact element mounted in said slot means in said cage member and extending radially through said slot means from said output shaft into said groove in said hammer member and with its axis parallel to the axis of said output shaft, the roller impact element allowing limited relative rotary motion between said cage member and said hammer member; and
cam means actuated by said cam shoulder on said output shaft for periodically during rotation causing said hammer member to rotate forward ahead of said cage member thereby to force said roller impact element radially inward into the annular path of said impact-receiving jaw to deliver an impact blow from said hammer member through said roller impact element to said impact-receiving jaw.
4. A rotary impact tool as set forth in claim 3, further characterized by said cam means comprising a second generally cylindrical cam roller element mounted in a second slot in said cage member and extending radially through said slot from said output shaft into said groove in said hammer member and with its axis parallel to the axis of said output shaft; said cam roller element being actuated by said cam shoulder during forward operation of said tool; and during reverse operation of said tool, said cam roller element operating as the roller impact element.
5. A rotary impact tool comprising, in combination:
a housing, a motor mounted in said housing;
a centrally located output shaft having an impact-receiving jaw and a cam shoulder radially disposed on its periphery; means rotatably mounting said output shaft to said housing;
a ringlike cage member driven by said motor surrounding said impact-receiving jaw and journaled on said output shaft, said cage member having two slots through its wall;
two roller elements, one mounted in each of said two slots in said cage member with their axes parallel to the axis of the output shaft but displaced radially therefrom, the diameters of said roller elements being such that they extend radially beyond the periphery of said cage member; and
a ringlike hammer member surrounding said cage member and journaled thereon, said hammer member having two axially extending grooves in its bore to loosely accommodate the portions of said roller elements beyond the periphery of said cage member causing said cage member and said hammer member to rotate essentially in unison but allowing limited relative rotary motion therebetween, said two axially extending grooves being spaced and shaped so that as the first roller is forced outwardly by the cam shoulder into one groove in the hammer member the second roller is forced inwardly by the hammer member into the path of the impact-receiving jaw to transmit an impact blow from said hammer member through said second roller element to said impact-receiving jaw.
6. A rotary impact tool comprising, in combination:
a housing, a motor mounted in said housing;
a centrally located output shaft having an impact-receiving jaw radially disposed on its periphery;
means rotatably mounting said output shaft to said housing;
a slotted cage member journaled on said output shaft and surrounding said impact-receiving jaw;
a driving connection from said motor to said cage member;
a grooved ringlike hammer member surrounding said cage member and journaled thereon;
an impact element carried in the slot in said cage member and extending into the groove in said hammer member allowing limited relative rotary motion between the cage member and the hammer member, said groove being shaped so that motiorof said hammer member ahead of said cage member forces said impact element into the annular path of said impact-receiving jaw to transmit an impact blow from said hammer member through said impact element to said impact-receiving jaw; and
cam means actuated by said output shaft periodically to cause said relative motion of said hammer member ahead of said cage member.
forming part of said cam nje ans for periodically causing said motion of the hammer member ahead of said cage member.

Claims (7)

1. A rotary impact tool comprising, in combination; a housing, a motor mounted in said housing; an output shaft mounted on said housing for rotation and including an impact-receiving jaw generally radially disposed on its periphery; an elongated impact element; a cage member driven by said motor and mounting said impact element adjacent to the output shaft in the vicinity of the impact-receiving jaw with its axis parallel to the axis of the output shaft and radially displaced therefrom to rotate in an orbitlike path about the output shaft; a ringlike hammer member surrounding the orbit of said impact element; means mounting said hammer member in said housing for rotary motion essentially in unison with said impact element but being capable of limited relative rotary motion in respect thereto; and cam means periodically actuated by the output shaft to move said hammer member forward ahead of the cage member to cause said impact element to move radially inward into the path of said impact-receiving jaw in position to contact said impactreceiving jaw and transmit an impact blow from said hammer member transversely through said impact element to said impactreceiving jaw.
2. A rotary impact tool comprising, in combination; a housing, a motor mounted in said housing; an output shaft mounted on said housing for rotation and including an impact receiving jaw and a cam shoulder each radially disposed on its periphery; a generally cylindrical roller impact element; a cage member driven by said motor mounting said roller impact element adjacent to the impact-receiving jaw with its axis parallel to the axis of the output shaft and radially displaced therefrom to rotate in an orbit about the output shaft; a ringlike hammer member surrounding the orbit of said roller impact element, means mounting said hammer member in said housing for rotary motion essentially in unison with said roller impact element but being capable of limited relative motion in respect thereto; and cam means periodically actuated by said cam shoulder on said output shaft to move said hammer forward ahead of the cage member to cause said impact element to move radially inward to contact said impact-receiving jaw and transmit an impact blow from said hammer member transversely through said impact element to said impact-receiving jaw.
3. A rotary impact tool, comprising, in combination; a housing; a motor having a motor drive shaft mounted in said housing; a centrally located output shaft including an impact-receiving jaw and a cam shoulder; means rotatably mounting said output shaft in said housing; a cage member having slot means therein; means mounting said cage member around said output shaft at the location of said impact-receiving jaw; means connecting said motor drive shaft to said cage member to rotate said cage member as said motor and motor drive shaft rotate; a ringlike hammer member having longitudinal groove means in its bore; means coaxially mounting said hammer around said cage member and said output shaft for rotation with and in respect to said cage member and said output shaft; a generally cylindrical roller impact element mounted in said slot means in said cage member and extending radially through said slot means from said output shaft into said groove in said hammer member and with its axis parallel to the axis of said output shaft, the roller impact element allowing limited relative rotary motion between said cage member and said hammer member; and cam means actuated by said cam shoulder on said output shaft for periodically during rotation causing said hammer member to rotate forward ahead of said cage member thereby to force said roller impact element radially inward into the annular path of said impact-receiving jaw to deliver an impact blow from said hammer member through said roller impact element to said impact-receiving jaw.
4. A rotary impact tool as set forth in claim 3, further characterized by said cam means comprising a second generally cylindrical cam roller element mounted in a second slot in said cage member and extending radially through said slot from said output shaft into said groove in said hammer member and with its axis parallel to the axis of said output shaft; said cam roller element being actuated by said cam shoulder during forward operation of said tool; and during reverse operation of said tool, said cam roller element operating as the roller impact element.
5. A rotary impact tool comprising, in combination: a housing, a motor mounted in said housing; a centrally located output shaft having an impact-receiving jaw and a cam shoulder radially disposed on its periphery; means rotatably mounting said output shaft to said housing; a ringlike cage member driven by said motor surrounding said impact-receiving jaw and journaled on said output shaft, said cage member having two slots through its wall; two roller elements, one mounted in each of said two slots in said cage member with their axes parallel to the axis of the output shaft but displaced radially therefrom, the diameters of said roller elements being such that they extend radially beyond the periphery of said cage member; and a ringlike hammer member surrounding said cage member and journaled thereon, said hammer member having two axially extending grooves in its bore to loosely accommodate the portions of said roller elements beyond the periphery of said cage member causing said cage member and said hammer member to rotate essentially in unison but allowing limited relative rotary motion therebetween, said two axially extending grooves being spaced and shaped so that as the first roller is forced outwardly by the cam shoulder into one groove in the hammer member the second roller is forced inwardly by the hammer member into the path of the impact-receiving jaw to transmit an impact blow from said hammer member through said second roller element to said impact-receiving jaw.
6. A rotary impact tool comprising, in combination: a housing, a motor mounted in said housing; a centrally located output shaft hAving an impact-receiving jaw radially disposed on its periphery; means rotatably mounting said output shaft to said housing; a slotted cage member journaled on said output shaft and surrounding said impact-receiving jaw; a driving connection from said motor to said cage member; a grooved ringlike hammer member surrounding said cage member and journaled thereon; an impact element carried in the slot in said cage member and extending into the groove in said hammer member allowing limited relative rotary motion between the cage member and the hammer member, said groove being shaped so that motion of said hammer member ahead of said cage member forces said impact element into the annular path of said impact-receiving jaw to transmit an impact blow from said hammer member through said impact element to said impact-receiving jaw; and cam means actuated by said output shaft periodically to cause said relative motion of said hammer member ahead of said cage member.
7. A rotary impact tool as set forth in claim 6, further characterized by said output shaft including a cam shoulder radially disposed on its periphery, and by said cam shoulder-forming part of said cam means for periodically causing said motion of the hammer member ahead of said cage member.
US766584A 1968-10-10 1968-10-10 Rotary power tool clutch mechanism Expired - Lifetime US3552499A (en)

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Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3661217A (en) * 1970-07-07 1972-05-09 Spencer B Maurer Rotary impact tool and clutch therefor
US4287956A (en) * 1979-08-10 1981-09-08 Maurer Spencer B Impact wrench mechanism and pivot clutch
US4347902A (en) * 1979-12-18 1982-09-07 Chicago Pneumatic Tool Company Rotary impact wrench clutch
US4767379A (en) * 1986-10-03 1988-08-30 Atlas Copco Aktiebolag Hydraulic torque impulse generator
US4991472A (en) * 1988-11-04 1991-02-12 James Curtis Hilliard D.C. direct drive impact wrench
US5622230A (en) * 1995-06-15 1997-04-22 Chicago Pneumatic Tool Company Rotary impact wrench clutch improvement
US5906244A (en) * 1997-10-02 1999-05-25 Ingersoll-Rand Company Rotary impact tool with involute profile hammer
US6196332B1 (en) * 1998-12-03 2001-03-06 Ingersoll-Rand Company Rotational energy storage device and tools incorporating same
US6491111B1 (en) 2000-07-17 2002-12-10 Ingersoll-Rand Company Rotary impact tool having a twin hammer mechanism
US20040149469A1 (en) * 2003-01-31 2004-08-05 Ingersoll-Rand Company Rotary tool
US20060225903A1 (en) * 2005-04-07 2006-10-12 Sterling Robert E Rotary impact tool, shock attenuating coupling device for a rotary impact tool, and rotary impact attenuating device
US20070187125A1 (en) * 2006-01-27 2007-08-16 Sterling Robert E Shock attenuating device for a rotary impact tool
EP1918071A2 (en) * 2006-10-26 2008-05-07 Ingersoll-Rand Company Electric motor impact tool
US9272400B2 (en) 2012-12-12 2016-03-01 Ingersoll-Rand Company Torque-limited impact tool
US9289886B2 (en) 2010-11-04 2016-03-22 Milwaukee Electric Tool Corporation Impact tool with adjustable clutch
US9308636B2 (en) 2012-02-03 2016-04-12 Milwaukee Electric Tool Corporation Rotary hammer with vibration dampening
US9737978B2 (en) 2014-02-14 2017-08-22 Ingersoll-Rand Company Impact tools with torque-limited swinging weight impact mechanisms

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US2600495A (en) * 1948-10-27 1952-06-17 Clifford E Fitch Impact wrench
US3174597A (en) * 1961-12-19 1965-03-23 Chicago Pneumatic Tool Co Impact clutch
US3210960A (en) * 1962-12-12 1965-10-12 Ingersoll Rand Co Centrifugal type impulse tool
US3272265A (en) * 1964-03-26 1966-09-13 Ingersoll Rand Co Rotary impact tool

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2600495A (en) * 1948-10-27 1952-06-17 Clifford E Fitch Impact wrench
US3174597A (en) * 1961-12-19 1965-03-23 Chicago Pneumatic Tool Co Impact clutch
US3210960A (en) * 1962-12-12 1965-10-12 Ingersoll Rand Co Centrifugal type impulse tool
US3272265A (en) * 1964-03-26 1966-09-13 Ingersoll Rand Co Rotary impact tool

Cited By (25)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3661217A (en) * 1970-07-07 1972-05-09 Spencer B Maurer Rotary impact tool and clutch therefor
US4287956A (en) * 1979-08-10 1981-09-08 Maurer Spencer B Impact wrench mechanism and pivot clutch
US4347902A (en) * 1979-12-18 1982-09-07 Chicago Pneumatic Tool Company Rotary impact wrench clutch
US4767379A (en) * 1986-10-03 1988-08-30 Atlas Copco Aktiebolag Hydraulic torque impulse generator
US4991472A (en) * 1988-11-04 1991-02-12 James Curtis Hilliard D.C. direct drive impact wrench
US5622230A (en) * 1995-06-15 1997-04-22 Chicago Pneumatic Tool Company Rotary impact wrench clutch improvement
US5906244A (en) * 1997-10-02 1999-05-25 Ingersoll-Rand Company Rotary impact tool with involute profile hammer
US6196332B1 (en) * 1998-12-03 2001-03-06 Ingersoll-Rand Company Rotational energy storage device and tools incorporating same
US6491111B1 (en) 2000-07-17 2002-12-10 Ingersoll-Rand Company Rotary impact tool having a twin hammer mechanism
US20040149469A1 (en) * 2003-01-31 2004-08-05 Ingersoll-Rand Company Rotary tool
US6889778B2 (en) 2003-01-31 2005-05-10 Ingersoll-Rand Company Rotary tool
US20070158090A1 (en) * 2005-04-07 2007-07-12 Exhaust Technologies, Inc. Rotary impact tool, shock attenuating coupling device for a rotary impact tool, and rotary impact attenuating device
US20060225903A1 (en) * 2005-04-07 2006-10-12 Sterling Robert E Rotary impact tool, shock attenuating coupling device for a rotary impact tool, and rotary impact attenuating device
US7438140B2 (en) 2006-01-27 2008-10-21 Exhaust Technologies, Inc. Shock attenuating device for a rotary impact tool
US20070187125A1 (en) * 2006-01-27 2007-08-16 Sterling Robert E Shock attenuating device for a rotary impact tool
US7562720B2 (en) 2006-10-26 2009-07-21 Ingersoll-Rand Company Electric motor impact tool
US20080173458A1 (en) * 2006-10-26 2008-07-24 Ingersoll-Rand Company Electric motor impact tool
EP1918071A3 (en) * 2006-10-26 2008-05-14 Ingersoll-Rand Company Electric motor impact tool
EP1918071A2 (en) * 2006-10-26 2008-05-07 Ingersoll-Rand Company Electric motor impact tool
US7607492B2 (en) 2006-10-26 2009-10-27 Ingersoll Rand Company Electric motor impact tool
US9289886B2 (en) 2010-11-04 2016-03-22 Milwaukee Electric Tool Corporation Impact tool with adjustable clutch
US9308636B2 (en) 2012-02-03 2016-04-12 Milwaukee Electric Tool Corporation Rotary hammer with vibration dampening
US10195730B2 (en) 2012-02-03 2019-02-05 Milwaukee Electric Tool Corporation Rotary hammer
US9272400B2 (en) 2012-12-12 2016-03-01 Ingersoll-Rand Company Torque-limited impact tool
US9737978B2 (en) 2014-02-14 2017-08-22 Ingersoll-Rand Company Impact tools with torque-limited swinging weight impact mechanisms

Also Published As

Publication number Publication date
GB1278463A (en) 1972-06-21
DE1949073C3 (en) 1975-11-13
DE1949073A1 (en) 1970-06-04
DE1949073B2 (en) 1975-04-03
FR2020281A1 (en) 1970-07-10

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