US2580953A - Cam mechanism - Google Patents

Cam mechanism Download PDF

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US2580953A
US2580953A US90200A US9020049A US2580953A US 2580953 A US2580953 A US 2580953A US 90200 A US90200 A US 90200A US 9020049 A US9020049 A US 9020049A US 2580953 A US2580953 A US 2580953A
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cam
roll
groove
looper
rotation
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US90200A
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Bernard N Pierce
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Merrow Machine Co
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Merrow Machine Co
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16HGEARING
    • F16H53/00Cams ; Non-rotary cams; or cam-followers, e.g. rollers for gearing mechanisms
    • F16H53/06Cam-followers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • Y10T74/18288Cam and lever
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/21Elements
    • Y10T74/2101Cams
    • Y10T74/2107Follower

Definitions

  • This invention relates to a-cam mechanism of the type employing a rotary cylinder having a peripheralcam groove with a cam roller arranged to follow the groove.
  • Cam mechanisms of this type have been employed in sewing machines for actuating looper elements at high rates of speed.
  • An example of a'looper operating mechanism is disclosed in United States Letters Patent No. 1,983,631,
  • an important feature of the invention resides in the provision of ventilating passages or channels in the cam roll so air is circulated through the roll during operation of the mechanism. Another important feature resides in the arrangement of the cam While the invention is defined in the appended claims.
  • Figure l is a longitudinal sectional view of part of the frame of an overseaming machine and parts supported thereby including looper carriers bearing cam rolls formed in accordance with the invention.
  • Fig. 2 is a transverse sectional view of cams shown in Fig. '1, looper carriers operable by the camsand a'irame cap for supporting the looper carriers.
  • Fig. 5 is a view of parts shown in Fig. 4 looking in the direction of arrow A.
  • alooper carrier is 'pivotally supported on a reciprocable carriage.
  • apair of rotary cylinders are arranged parallel to the path of movement of the carriage and each cylinder has a peripheral cam groove, the side walls of which form cam surfaces.
  • oppositely extending arms on the looper carrier have studs projecting into-the grooves of the respective cylinders and carry cam rolls engageable with the-cam surfaces to impart movement to the carrier.
  • Ventilating passages 01' channels are formed in each cam roll parallel to its axis of rotation.
  • each cam r011 has its end substantially tangent to but slightly spaced from, the bottom of a cam groove, so the pressure differential created by rotation of the respective cylinders will force air to circulate through the ventilating passages.
  • the studs are located on the arms so that the arms cover some of the.
  • mechanism illustrated therein is characteristic of the well known Merrow over-seaming machine in which a needle I and a lower looper 2 cooperate with an upper looper 3 to form overedge stitches.
  • the upper looper 3 is secured in a looper carrier 4 which is designed to be actuated by mechanism suitable to impart to the looper a compound motion effective to pass the thread engaging end of the looper in a required path.
  • the looper carrier 4 has a hub 5 pivoted on stud 6 extending from sleeve 7 which is reciprocable on a rod carried by frame cap 9. With this mounting, the looper carrier 4 may oscillate on the axis of its'hub 5 while it is shifted bodily back and forth as in a rectilinear path.
  • Cam mechanism for actuating the looper carrier l includes a pair of rotary members, such as cylinders in and II I, arranged'to be rotated in unison, and provided at their respective peripheries with suitably contoured cam grooves I2 and I3. These cylinders I and H are approximately parallel with and located in proximity to the rod 8.
  • a pair of motion receiving members or arms [5 and IS extend in opposite directions from hub 5.
  • Arm I5 is provided with stud I1 and arm I5 is provided with stud I8.
  • Each stud supports a cam follower in the form of a roll positioned in cam grooves I2 and I3 for engagement with side walls of a respective groove.
  • the side walls of the grooves serve as cam surfaces for engaging the rolls 20, 20, which are free to rotate as they follow the grooves and impart movement to the carrier 4.
  • the looper 3 will, upon rotation of the cam cylinders, be actuated to cooperate with the needle I and lower looper 2 to produce overedge stitches in a manner well known in this art.
  • the looper carrier 4 is laterally confined to its field of movement by a guide bar 2
  • the object of the present invention is to provide means .whereby overheating of the cam rolls due to the effect of high speed operation may be prevented.
  • rolls 20, 20 have each been provided with longitudinally extending ventilation passages or channels 24, 24, preferably arranged in substantially parallel relation to the axis of rotation of the respective rolls. 7
  • each cam rotates in a direction suitable to build up air pressure toward that portion of each respective cam roll which is unobstructed by a supporting arm of carrier 4, therefore the move- .4 ment of air through holes in each roll will be as indicated in Fig. 4, that is, from the free end of the roll toward the supporting arm.
  • the carrier 30 for lower looper 2 may also be provided with a cam roll as 31 for engagement with a groove 32 in cam cylinder I I.
  • This lower carrier is not mounted for bodily movement but simply oscillates on a pivot 33 in a manner that is obvious.
  • a cam mechanism comprising a rotary member having at its periphery a radially extending wall forming a cam surface, a motion receiving member, and a cam follower on said motion receiving member for engaging and following said cam surface to impart motion to said motion receiving member upon rotation of said rotary member, said cam follower being formed with ventilating passages extending between its ends and being so positioned that the openings of said passages at one end of said follower are adjacent a peripheral surface of said rotary member and exposed to an area of pressure differential created by rotation of said rotary member.
  • a cam mechanism comprising a rotary member having cam surfaces formed by the walls of a groove at its periphery, a motion receiving member, and a cam follower on said motion receiving member for engaging and following said cam surfaces to impart motion to said motion receiving member upon rotation of said rotary member, said cam follower being formed with ventilating passages extending between its ends and being so positioned in said groove with one end adjacent the bottom of said groove so that the openings of said passages at said one end of said follower are exposed to an area of pressure differential created by rotation of said rotary member.
  • a cam mechanism comprising a rotary member having at its periphery a radially extending wall forming a cam surface, a motion receiving member, and a cam roll rotatable on the motion receiving member about an axis parallel to said cam surface for engagement with said cam sur-- face, the latter being efiective to impart movement to the motion receiving member upon rotation of said rotary member, said cam roll being formed with ventilating channels extending between its ends substantially parallel to its axis of rotation, said cam roll being positioned with respect to said member in a manner such that said ends of the roll are exposed to areas of differential pressure.
  • a cam mechanism comprising a rotary member having at its periphery cam surfaces formed by walls of a groove, a motion receiving member, and a cam roll disposed in said groove and carried by the motion receiving member for rotatable engagement with the walls of said groove, the latter being effective to impart movement to the motion receiving member upon rotation of said rotary member, said cam roll having ventilating channels extending between its ends substantially parallel to its axis or rotation, said cam roll being positioned with respect to said member in a manner such that said ends of the roll are exposed to areas of differential pressure.
  • a cam mechanism comprising a rotary member having at its periphery cam surfaces formed by the walls of a groove, a motion receiving member, and a cam roll carried by the motion receiving member for rotatable engagement with the walls of said groove, the latter being effective to impart movement to the motion receiving member upon rotation of said rotary member, said cam roll being formed with ventilating channels extending between its ends substantially parallel to its axis of. rotation, said cam roll having one end positioned adjacent the bottom of said groove so that the channel openings at said one end are exposed to an area of pressure differential created upon rotation of said rotary member.
  • a cam mechanism comprising a rotary member having a peripheral cam groove, a motion receiving member, and a cam roll rotatable on said motion receiving member and positioned in said groove with its end substantially tangent to but spaced from the bottom of the groove, said cam roll being formed with ventilating passages extending through it parallel to its axis of rotation.
  • a cam mechanism comprising a rotary member having a peripheral cam groove, a movable arm, a stud extending from the arm, and a cam roll on the stud and disposed in the groove for rotatable engagement with the walls of the cam groove, the latter being effective to impart movement to the arm, said cam roll having ventilating channels extending between its ends substantially parallel to its axis of rotation, said arm overlying only a portion of one end of the roll so that said channels successively pass into and out of registration with the arm upon rotation of the roll, said cam roll being positioned with respect to said member in a manner such that said ends of the roll are exposed to areas of difierential pressure.
  • a cam mechanism comprising a rotary member having a peripheral cam groove, a movable arm, a stud extending from the arm, a cam roll rotatable on the stud and having ventilating channels extending therethrough substantially parallel to its axis of rotation, said stud being so located on the arm that only a portion of one end of the roll is covered by the arm, the latter being so arranged with respect to the rotary member that the roll is positioned in the cam groove with the other end of the roll substantially tangent to the bottom of the groove.
  • looper actuating mechanism comprising a looper carrier supported 6 for pivotal movements on a reciprocable carriage, a pair of rotary cylinders parallel to thefpath of said carriage, each cylinderbeing formed with a peripheral cam groove, a pair of arms extending oppositely from the pivot of said carrier, a stud at the end of each of said arms, one stud projecting into each of said grooves, a cam roll on each of said studs, said cam rolls being provided with longitudinally extending ventilation passages, said arms being so arranged that said rolls have their ends substantially tangent to and slightly spaced from the bottoms of the respective cam grooves.
  • looper actuating mechanism comprising a looper carrier supported for pivotal movements on a reciproca'ble carriage, a pair of rotary cylinders parallel to the" path of said carriage, each cylinder being formed with a peripheral cam groove, a pair of arms extending oppositely from the pivot of said carrier, a stud at the end of each of said arms, one stud projecting into each oi said grooves, a cam roll on each of said studs, said cam rolls being provided with longitudinally extending ventilating passages, said studs being so located on said arms that only a portion of the end of each roll is'covered and said passages successively pass into and out of registration with the respective arms, said arms being so arranged that said rolls have their ends substantially tangent to and slightly spaced from the bottoms of the respective cam grooves.

Description

Jam 1, 1952 B. N. PIERCE CAM MECHANISM Filed April 28, 1949 2 SHEETSSHEET 1 In venzfor:
.Ber d JV P rce His A156 ormeys Jan. 1, 1952 N, PIERCE 2,580,953
CAM MEG-IANISM Filed April 28, 1949 2 SHEETSSHEET 2 [alien/150;":
BernardA LP 'erce WQM Patented Jan. 1, 1952 UNITED STATES PATENT "OFFICE CAM MECHANISM Bernard N. Pierce, Avon, Gonn.,:assignor to The :Mcrrow Machine Company, Hartford, Conn.,
a-corporation .of Connecticut Application April 28, 1949, SerialNo. 90,200
10-Claims.
This invention relates to a-cam mechanism of the type employing a rotary cylinder having a peripheralcam groove with a cam roller arranged to follow the groove.
Cam mechanisms of this type have been employed in sewing machines for actuating looper elements at high rates of speed. An example of a'looper operating mechanism is disclosed in United States Letters Patent No. 1,983,631,
. granted December 11, 1934, upon an application of Joseph M. Merrow, also-in United States Letters Patent No. 1,966,367, granted July 10, 1934, upon application of John M. Washburn. In the mechanismshown in those patents, a'looper carrier is actuated by cam :rolls following cam grooves in rotary cylinders. With this arrangement, considerable heatis developed when thesewing machine is operated at speeds demanded by modern industrial production. Due-to the position ofthe cam rolls, partially enclosed by the side walls-of the cam groove, the heat is. not dissipated rapidly enough.
It is, therefore, a major object of the present invention to reduce overheating of a cam roll in a cam groove by more rapidly dissipating heat generated by operation of the cam mechanism. More particularly, it is an object of the invention to improve the ventilation of a cam roll operating in a cam groove on a rotary .cam.
In accordance with these objects, an important feature of the invention resides in the provision of ventilating passages or channels in the cam roll so air is circulated through the roll during operation of the mechanism. Another important feature resides in the arrangement of the cam While the invention is defined in the appended claims.
Figure l is a longitudinal sectional view of part of the frame of an overseaming machine and parts supported thereby including looper carriers bearing cam rolls formed in accordance with the invention.
Fig. 2 is a transverse sectional view of cams shown in Fig. '1, looper carriers operable by the camsand a'irame cap for supporting the looper carriers.
supporting the cam roll; and
Fig. 5 is a view of parts shown in Fig. 4 looking in the direction of arrow A.
In accordance with this preferred form of the invention, alooper carrier is 'pivotally supported on a reciprocable carriage. To bodily shift "the looper carrier and effect pivotal move-- ment thereof, apair of rotary cylinders are arranged parallel to the path of movement of the carriage and each cylinder has a peripheral cam groove, the side walls of which form cam surfaces. oppositely extending arms on the looper carrier have studs projecting into-the grooves of the respective cylinders and carry cam rolls engageable with the-cam surfaces to impart movement to the carrier. Ventilating passages 01' channels are formed in each cam roll parallel to its axis of rotation. The arms and studs are so arranged that each cam r011 has its end substantially tangent to but slightly spaced from, the bottom of a cam groove, so the pressure differential created by rotation of the respective cylinders will force air to circulate through the ventilating passages. Also, the studs are located on the arms so that the arms cover some of the.
- cam rolls, pass into and out of registration with the arms.
Referring to the drawings, mechanism illustrated therein is characteristic of the well known Merrow over-seaming machine in which a needle I and a lower looper 2 cooperate with an upper looper 3 to form overedge stitches. The upper looper 3 is secured in a looper carrier 4 which is designed to be actuated by mechanism suitable to impart to the looper a compound motion effective to pass the thread engaging end of the looper in a required path. For this purposethe looper carrier 4 has a hub 5 pivoted on stud 6 extending from sleeve 7 which is reciprocable on a rod carried by frame cap 9. With this mounting, the looper carrier 4 may oscillate on the axis of its'hub 5 while it is shifted bodily back and forth as in a rectilinear path.
Cam mechanism for actuating the looper carrier l, includes a pair of rotary members, such as cylinders in and II I, arranged'to be rotated in unison, and provided at their respective peripheries with suitably contoured cam grooves I2 and I3. These cylinders I and H are approximately parallel with and located in proximity to the rod 8. In addition to looper receiving arm I4 extending from hub of looper carrier 4, a pair of motion receiving members or arms [5 and IS extend in opposite directions from hub 5. Arm I5 is provided with stud I1 and arm I5 is provided with stud I8. Each stud supports a cam follower in the form of a roll positioned in cam grooves I2 and I3 for engagement with side walls of a respective groove. The side walls of the grooves serve as cam surfaces for engaging the rolls 20, 20, which are free to rotate as they follow the grooves and impart movement to the carrier 4. By virtue of the connections just described the looper 3 will, upon rotation of the cam cylinders, be actuated to cooperate with the needle I and lower looper 2 to produce overedge stitches in a manner well known in this art. It is to be understood that the looper carrier 4 is laterally confined to its field of movement by a guide bar 2| on one side and guide rails 22 and 23 on the opposite side.
As hereinbefore stated the object of the present invention is to provide means .whereby overheating of the cam rolls due to the effect of high speed operation may be prevented. For this purpose rolls 20, 20, have each been provided with longitudinally extending ventilation passages or channels 24, 24, preferably arranged in substantially parallel relation to the axis of rotation of the respective rolls. 7
Serving to promote flow of air through passages 24, 24, is the arrangement of the cam rolls 2B, 20, substantially tangent to the bottoms of grooves 12 and I3, but slightly spaced therefrom. As the cam cylinder, with the groove of which the cam roll is engaged, rapidly rotates, air diiferential is developed at the free end of the roll. Thus, near the portion of the roll presented toward the oncoming surface of the cam air compression is developed, and near the portion of the roll presented toward the withdrawing surface of the cam a partial vacuum is developed. This air pressure differential in proximity to the roll directs flow of air through the holes in the roll thereby imparting the cooling eiiect which is desired.
Referring to Figs. 4 and 5, it will be seen that the free end of arm I5 terminates as in peripheral surface 25 and angled surfaces 28 and 21 only slightly beyond the adjacent peripheral surface of stud I'l. Thus stud I1 is so located on arm I5 that perforations 24 in roll 29 successively pass out of register with the arm as said roll rotates. It will, therefore, be apparent that air may pass freely through roll perforations and provide ventilation to keep the roll relatively cool.
Thus, with a cam'c linder rotating in the direction indicated by arrow B in Fig. 4, air compression would be built up in proximity to the roll in the vicinity of the holes unobstructed by arm I5 and cause an air current moving in the direction indicated by the small arrows, while if the cam were rotated in the opposite direction to arrow B, a partial vacuum would be created in the vicinity of the unobstructed holes and air currents established therethrough would flow in the opposite direction to that shown by the small arrows. In the arrangement of parts shown in Fig. 2 each cam rotates in a direction suitable to build up air pressure toward that portion of each respective cam roll which is unobstructed by a supporting arm of carrier 4, therefore the move- .4 ment of air through holes in each roll will be as indicated in Fig. 4, that is, from the free end of the roll toward the supporting arm.
I The carrier 30 for lower looper 2 may also be provided with a cam roll as 31 for engagement with a groove 32 in cam cylinder I I. This lower carrier is not mounted for bodily movement but simply oscillates on a pivot 33 in a manner that is obvious.
Having thus described my invention, what I claim is:
1. A cam mechanism comprising a rotary member having at its periphery a radially extending wall forming a cam surface, a motion receiving member, and a cam follower on said motion receiving member for engaging and following said cam surface to impart motion to said motion receiving member upon rotation of said rotary member, said cam follower being formed with ventilating passages extending between its ends and being so positioned that the openings of said passages at one end of said follower are adjacent a peripheral surface of said rotary member and exposed to an area of pressure differential created by rotation of said rotary member.
2. A cam mechanism comprising a rotary member having cam surfaces formed by the walls of a groove at its periphery, a motion receiving member, and a cam follower on said motion receiving member for engaging and following said cam surfaces to impart motion to said motion receiving member upon rotation of said rotary member, said cam follower being formed with ventilating passages extending between its ends and being so positioned in said groove with one end adjacent the bottom of said groove so that the openings of said passages at said one end of said follower are exposed to an area of pressure differential created by rotation of said rotary member.
3. A cam mechanism comprising a rotary member having at its periphery a radially extending wall forming a cam surface, a motion receiving member, and a cam roll rotatable on the motion receiving member about an axis parallel to said cam surface for engagement with said cam sur-- face, the latter being efiective to impart movement to the motion receiving member upon rotation of said rotary member, said cam roll being formed with ventilating channels extending between its ends substantially parallel to its axis of rotation, said cam roll being positioned with respect to said member in a manner such that said ends of the roll are exposed to areas of differential pressure.
4. A cam mechanism comprising a rotary member having at its periphery cam surfaces formed by walls of a groove, a motion receiving member, and a cam roll disposed in said groove and carried by the motion receiving member for rotatable engagement with the walls of said groove, the latter being effective to impart movement to the motion receiving member upon rotation of said rotary member, said cam roll having ventilating channels extending between its ends substantially parallel to its axis or rotation, said cam roll being positioned with respect to said member in a manner such that said ends of the roll are exposed to areas of differential pressure.
5. A cam mechanism comprising a rotary member having at its periphery cam surfaces formed by the walls of a groove, a motion receiving member, and a cam roll carried by the motion receiving member for rotatable engagement with the walls of said groove, the latter being effective to impart movement to the motion receiving member upon rotation of said rotary member, said cam roll being formed with ventilating channels extending between its ends substantially parallel to its axis of. rotation, said cam roll having one end positioned adjacent the bottom of said groove so that the channel openings at said one end are exposed to an area of pressure differential created upon rotation of said rotary member.
6. A cam mechanism comprising a rotary member having a peripheral cam groove, a motion receiving member, and a cam roll rotatable on said motion receiving member and positioned in said groove with its end substantially tangent to but spaced from the bottom of the groove, said cam roll being formed with ventilating passages extending through it parallel to its axis of rotation.
7. A cam mechanism comprising a rotary member having a peripheral cam groove, a movable arm, a stud extending from the arm, and a cam roll on the stud and disposed in the groove for rotatable engagement with the walls of the cam groove, the latter being effective to impart movement to the arm, said cam roll having ventilating channels extending between its ends substantially parallel to its axis of rotation, said arm overlying only a portion of one end of the roll so that said channels successively pass into and out of registration with the arm upon rotation of the roll, said cam roll being positioned with respect to said member in a manner such that said ends of the roll are exposed to areas of difierential pressure.
8. A cam mechanism comprising a rotary member having a peripheral cam groove, a movable arm, a stud extending from the arm, a cam roll rotatable on the stud and having ventilating channels extending therethrough substantially parallel to its axis of rotation, said stud being so located on the arm that only a portion of one end of the roll is covered by the arm, the latter being so arranged with respect to the rotary member that the roll is positioned in the cam groove with the other end of the roll substantially tangent to the bottom of the groove.
9. In a sewing machine, looper actuating mechanism comprising a looper carrier supported 6 for pivotal movements on a reciprocable carriage, a pair of rotary cylinders parallel to thefpath of said carriage, each cylinderbeing formed with a peripheral cam groove, a pair of arms extending oppositely from the pivot of said carrier, a stud at the end of each of said arms, one stud projecting into each of said grooves, a cam roll on each of said studs, said cam rolls being provided with longitudinally extending ventilation passages, said arms being so arranged that said rolls have their ends substantially tangent to and slightly spaced from the bottoms of the respective cam grooves.
10. In a sewing machine, looper actuating mechanism comprising a looper carrier supported for pivotal movements on a reciproca'ble carriage, a pair of rotary cylinders parallel to the" path of said carriage, each cylinder being formed with a peripheral cam groove, a pair of arms extending oppositely from the pivot of said carrier, a stud at the end of each of said arms, one stud projecting into each oi said grooves, a cam roll on each of said studs, said cam rolls being provided with longitudinally extending ventilating passages, said studs being so located on said arms that only a portion of the end of each roll is'covered and said passages successively pass into and out of registration with the respective arms, said arms being so arranged that said rolls have their ends substantially tangent to and slightly spaced from the bottoms of the respective cam grooves.
BERNARD N. PIERCE.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 1,169,715 Erickson Jan. 25, 1916 1,751,634 Holmes Mar. 25, 1930 1,824,938 Voorhees Sept. 29,1931 1,983,631 Merrow Dec. 11, 1934 2,129,559 Blackwell Sept. '6, 1938 FOREIGN PATENTS Number Country Date 461,149 France Aug. 6, 1913
US90200A 1949-04-28 1949-04-28 Cam mechanism Expired - Lifetime US2580953A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2907290A (en) * 1955-10-27 1959-10-06 Greist Mfg Co Decorative stitchers
US3085653A (en) * 1959-07-27 1963-04-16 Auto Research Corp Lubrication system
US3197999A (en) * 1960-06-22 1965-08-03 Thelma E Laxo Can body making machine

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR461149A (en) * 1913-08-06 1913-12-20 Herdtle Et Bruneau Soc Improvement in friction transmissions
US1169715A (en) * 1915-04-24 1916-01-25 Victor Shoe Machinery Co Mechanical movement.
US1751634A (en) * 1927-03-03 1930-03-25 Novo Engine Company Power-driven pump
US1824938A (en) * 1926-10-25 1931-09-29 Voorhees Gardner Tufts Piston process and apparatus
US1983631A (en) * 1933-05-29 1934-12-11 Merrow Machine Co Looper carrier
US2129559A (en) * 1937-08-03 1938-09-06 Herbert H Blackwell Electric vacuum shaver

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR461149A (en) * 1913-08-06 1913-12-20 Herdtle Et Bruneau Soc Improvement in friction transmissions
US1169715A (en) * 1915-04-24 1916-01-25 Victor Shoe Machinery Co Mechanical movement.
US1824938A (en) * 1926-10-25 1931-09-29 Voorhees Gardner Tufts Piston process and apparatus
US1751634A (en) * 1927-03-03 1930-03-25 Novo Engine Company Power-driven pump
US1983631A (en) * 1933-05-29 1934-12-11 Merrow Machine Co Looper carrier
US2129559A (en) * 1937-08-03 1938-09-06 Herbert H Blackwell Electric vacuum shaver

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2907290A (en) * 1955-10-27 1959-10-06 Greist Mfg Co Decorative stitchers
US3085653A (en) * 1959-07-27 1963-04-16 Auto Research Corp Lubrication system
US3197999A (en) * 1960-06-22 1965-08-03 Thelma E Laxo Can body making machine

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