US665812A - Expansion-coupling for shafting. - Google Patents

Expansion-coupling for shafting. Download PDF

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US665812A
US665812A US1967300A US1900019673A US665812A US 665812 A US665812 A US 665812A US 1967300 A US1967300 A US 1967300A US 1900019673 A US1900019673 A US 1900019673A US 665812 A US665812 A US 665812A
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coupling
bolts
flange
expansion
shafting
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Expired - Lifetime
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US1967300A
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Albert W Thompson
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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
    • F16DCOUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
    • F16D3/00Yielding couplings, i.e. with means permitting movement between the connected parts during the drive
    • F16D3/02Yielding couplings, i.e. with means permitting movement between the connected parts during the drive adapted to specific functions
    • F16D3/06Yielding couplings, i.e. with means permitting movement between the connected parts during the drive adapted to specific functions specially adapted to allow axial displacement
    • 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
    • Y10T74/19Gearing
    • Y10T74/1987Rotary bodies
    • Y10T74/19893Sectional

Definitions

  • This invention relates to expansion-couplings more particularly designed for heavy shafting; and one of the objects of my present invention is to provide means for supporting the ends of the connecting-bolts to maintain them in parallelism with each other and with the shafting and prevent twisting of such bolts.
  • Another object of my invention is to provide convenient means for lubricating the portions of the connecting-bolts which are in sliding engagement with one of the coupling members.
  • Figure 1 in side elevation and partly in section, represents a shaft-coupling showing one embodiment of my invention, the section at the lower portion of the figure being taken on the line m 00, Fig. 2; and Fig. 2 is a lefthand side elevation of the coupling with the shaft in section.
  • the adjacent ends of the shaft-sections S S to be coupled together are provided with coupling members B C, respectively, rigidly secured to the sections in any suitablemanner, the inner ends of said members having lateral annular flanges b 0.
  • These coupling members are connected by stud-bolts d, rigidly secured to the flange of one member and passing through the flange of the other member witha sliding fit to provide for expansion and contraction of the line of shafting.
  • Such portion of the coupling is not of my invention, broadly; but it has been found that with heavy shafting the connecting-bolts tend to twist out of parallelism with the shafting, being supported at only oneend, causing binding in the member of the coupling in which said bolts have a sliding fit and interfering with the proper and free operation of the coupling. So, too, such twisting tends to fracture or break the bolts, and one of the objects of my invention is to obviate this defect and also to strengthen the coupling as a Whole.
  • annular cover or case made in two parts, preferably divided diametrically, each part comprising parallel semicircular webs e 6, connected at their outer peripheries by a flange e the edges of the flange being preferably extended beyond the webs, as at e".
  • the ends of the extensions e of the flange are inturned radially, as at 6 along the dividing-line of each part of the cover for a purpose to be described.
  • the inner circumference of the web 6 is herein shown as tightly fitting the coupling member 0, and its inner face is butted against the side of the flange c, the reduced ends (1 of the connecting-bolts also passing through the Web, nuts d drawing the flange c and web (2 together, with the flange bearing on the bolt-shoulder 01
  • the web 6 embraces the coupling member B with a sliding fit, and the adjacent ends of the stud-bolts pass through holes e in said web, (see Fig. 1,) so that the bolts are supported at both ends by the Webs, the latter in turn being centered and sustained by the coupling members, and as the two webs are rigidly connected by the flange (2 the bolts cannot be twisted.
  • each bolt extended through the web 6 is threaded at d and preferably provided with a square or other polygonal end 01 and a retaining-nut d is screwed onto the threaded end outside of the web to hold the bolt in place, a suitable washer to being interposed between the bottom of the nut and the Web to close the opening through which the bolt passes and maintain the cover oil-tight.
  • Oil or other lubricant is introduced into the chambered interior E of the cover up to, say, the dotted line 60, Fig.1, and as the cover rotates with the shafting the centrifugal force will act to spread the oil and maintain it in a substantially annular body against the circular Wallof the chamber E while the shafting is in motion, the lubrication having access to the hearings in the flanges b, in which the connecting-bolts slide, such lubrication of the parts greatly reducing the friction and wear.
  • I prefer to introduce a bushing 80, of phosphor-bronze or other suitable material, into the holes in the flange I), through which the stud-bolts pass, to provide better wearing-surfaces for the bolts.
  • the circular wall of the chamber E in the cover is of such diameter that it will snugly fit the periphery of the flange c of one of the coupling members, the Wall of the chamber, however, being cored out or enlarged, as at 90, to prevent any contact with the flange of the other coupling member.
  • the polygonal head (1 on the stud-bolt provides for holding the bolt from rotation when removing the retaining-nuts, the latter sometimes sticking, and were it not for the head d it would be difficult to prevent rotative movement of the bolt when one or the other of the nuts was turned.
  • An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts rigidly secured to one of said members and in sliding engagement with the other, and means to support the ends of the bolts beyond the portions of the coupling members engaged thereby.
  • An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts parallel to the shaft, rigidly secured to one and in sliding engagement with the other of said members, and a closed annular cover embracing said members and secured to one of them.
  • An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, and having annular flanges at their inner ends, connecting bolts extended through said flanges and rigidly secured to one of them, and an annular closed cover embracing the flanges and providing supports for the connecting-bolts beyond each flange.
  • An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts parallel to the shaft, rigidly secured to one and in sliding engagement with the other of said members, and an oil-tight annular cover secured to one and in sliding engagement with the other member, the sides of the cover providing supports for both ends of the connecting-bolts and maintaining them parallel to the shaftaxis.
  • An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts parallel to the shaft, rigidly secured to one and in sliding engagement with the other of said members, a two-part annular cover embracing said members, diametral flanges on the parts of the cover, and bolts extended through the flanges to hold the parts of the cover together.
  • An expansion shaft-coupling comprising annularly-flanged coupling members secured to adjacent shaft ends, connecting-bolts rigidly secured to the flange of one member and in sliding engagement with bushings in the flange of the other member, and an oiltight annular cover surrounding said flanges and providing a reservoir for lubricant.
  • An expansion shaft-coupling comprising annularly-flanged coupling members secured to adjacent shaft ends,connecting-bolts rigidly secured to the flange of one member and in sliding engagementv with the flange of the other member, the ends of said bolts projecting beyond the flanges, and an annular cover surrounding the flanges and having openings in its sides to receive and support the projecting ends of'said bolts.
  • An expansion coupling comprising coupling members rigidly secured to adjacent shaft ends, connections between them, and an annular oil-reservoir surrounding the adjacent ends of the coupling members and their connections, said cover being secured to one member and in sliding engagement with the other.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mutual Connection Of Rods And Tubes (AREA)

Description

Patentp'd Ian. 8, I91".
B SHAFTING.
v A. W. THONPS EXPANSION COUPLING F0 (Application filed June 9 (No Model.)
Canon r1307; a v
UNITED STATES ALBERT W. THOMPSON, OF MANCHESTER, NEW HAMPSHIRE.
EXPANSION-COUPLING FOR SHAFTING.
SPECIFICATION forming part of Letters Patent No. 665,812, dated January 8, 1901.
Application filed June 9, 1900. Serial No. 19,673. (No model.)
To all whom it ntay concern.-
Be it known that I, ALBERT W. THOMPSON, a citizen of the United States, and a resident of Manchester, county of Hillsborough, State of New Hampshire, have invented an ImE provement in Expansion-Couplings for Shafting, of which the following description, in connection with the accompanying drawings, is a specification, like characters on the drawings representing like parts.
This invention relates to expansion-couplings more particularly designed for heavy shafting; and one of the objects of my present invention is to provide means for supporting the ends of the connecting-bolts to maintain them in parallelism with each other and with the shafting and prevent twisting of such bolts.
Another object of my invention is to provide convenient means for lubricating the portions of the connecting-bolts which are in sliding engagement with one of the coupling members.
The various novel features of my invention will be hereinafter fully described, and particularly pointed out in the following claims.
Figure 1, in side elevation and partly in section, represents a shaft-coupling showing one embodiment of my invention, the section at the lower portion of the figure being taken on the line m 00, Fig. 2; and Fig. 2 is a lefthand side elevation of the coupling with the shaft in section.
Referring to Fig. l, the adjacent ends of the shaft-sections S S to be coupled together are provided with coupling members B C, respectively, rigidly secured to the sections in any suitablemanner, the inner ends of said members having lateral annular flanges b 0. These coupling members are connected by stud-bolts d, rigidly secured to the flange of one member and passing through the flange of the other member witha sliding fit to provide for expansion and contraction of the line of shafting. Such portion of the coupling is not of my invention, broadly; but it has been found that with heavy shafting the connecting-bolts tend to twist out of parallelism with the shafting, being supported at only oneend, causing binding in the member of the coupling in which said bolts have a sliding fit and interfering with the proper and free operation of the coupling. So, too, such twisting tends to fracture or break the bolts, and one of the objects of my invention is to obviate this defect and also to strengthen the coupling as a Whole. To this end I provide an annular cover or case made in two parts, preferably divided diametrically, each part comprising parallel semicircular webs e 6, connected at their outer peripheries by a flange e the edges of the flange being preferably extended beyond the webs, as at e". The ends of the extensions e of the flange are inturned radially, as at 6 along the dividing-line of each part of the cover for a purpose to be described.
Referring to Fig. 2, the radial portions 6 of the flange of each cover member are faced and drawn tightly against each other by suitable bolts 20, fitted with nuts 22, to rigidly connect the halves of the cover, which presents an annular chamber E, embracing the flanges of the coupling members.
The inner circumference of the web 6 is herein shown as tightly fitting the coupling member 0, and its inner face is butted against the side of the flange c, the reduced ends (1 of the connecting-bolts also passing through the Web, nuts d drawing the flange c and web (2 together, with the flange bearing on the bolt-shoulder 01 The web 6 embraces the coupling member B with a sliding fit, and the adjacent ends of the stud-bolts pass through holes e in said web, (see Fig. 1,) so that the bolts are supported at both ends by the Webs, the latter in turn being centered and sustained by the coupling members, and as the two webs are rigidly connected by the flange (2 the bolts cannot be twisted. The end of each bolt extended through the web 6 is threaded at d and preferably provided with a square or other polygonal end 01 and a retaining-nut d is screwed onto the threaded end outside of the web to hold the bolt in place, a suitable washer to being interposed between the bottom of the nut and the Web to close the opening through which the bolt passes and maintain the cover oil-tight.
Oil or other lubricant is introduced into the chambered interior E of the cover up to, say, the dotted line 60, Fig.1, and as the cover rotates with the shafting the centrifugal force will act to spread the oil and maintain it in a substantially annular body against the circular Wallof the chamber E while the shafting is in motion, the lubrication having access to the hearings in the flanges b, in which the connecting-bolts slide, such lubrication of the parts greatly reducing the friction and wear.
I prefer to introduce a bushing 80, of phosphor-bronze or other suitable material, into the holes in the flange I), through which the stud-bolts pass, to provide better wearing-surfaces for the bolts.
Referring to Fig. 1, it will be seen that the circular wall of the chamber E in the cover is of such diameter that it will snugly fit the periphery of the flange c of one of the coupling members, the Wall of the chamber, however, being cored out or enlarged, as at 90, to prevent any contact with the flange of the other coupling member. The polygonal head (1 on the stud-bolt provides for holding the bolt from rotation when removing the retaining-nuts, the latter sometimes sticking, and were it not for the head d it would be difficult to prevent rotative movement of the bolt when one or the other of the nuts was turned. I
My invention is not restricted to the precise construction and arrangement herein shown, as I have illustrated one practical embodiment of my invention Without attempting to illustrate or describe changes or modifications which might be made by those skilled in the art without departing from the spirit and scope of my invention.
Having described my invention, What I claim as new, and desire to secure by Letters Patent, is
1. An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts rigidly secured to one of said members and in sliding engagement with the other, and means to support the ends of the bolts beyond the portions of the coupling members engaged thereby.
2. An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts parallel to the shaft, rigidly secured to one and in sliding engagement with the other of said members, and a closed annular cover embracing said members and secured to one of them.
3. An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, and having annular flanges at their inner ends, connecting bolts extended through said flanges and rigidly secured to one of them, and an annular closed cover embracing the flanges and providing supports for the connecting-bolts beyond each flange.
4. An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts parallel to the shaft, rigidly secured to one and in sliding engagement with the other of said members, and an oil-tight annular cover secured to one and in sliding engagement with the other member, the sides of the cover providing supports for both ends of the connecting-bolts and maintaining them parallel to the shaftaxis.
5. An expansion shaft-coupling comprising coupling members secured to adjacent shaft ends, connecting-bolts parallel to the shaft, rigidly secured to one and in sliding engagement with the other of said members, a two-part annular cover embracing said members, diametral flanges on the parts of the cover, and bolts extended through the flanges to hold the parts of the cover together.
6. An expansion shaft-coupling comprising annularly-flanged coupling members secured to adjacent shaft ends, connecting-bolts rigidly secured to the flange of one member and in sliding engagement with bushings in the flange of the other member, and an oiltight annular cover surrounding said flanges and providing a reservoir for lubricant.
7. An expansion shaft-coupling comprising annularly-flanged coupling members secured to adjacent shaft ends,connecting-bolts rigidly secured to the flange of one member and in sliding engagementv with the flange of the other member, the ends of said bolts projecting beyond the flanges, and an annular cover surrounding the flanges and having openings in its sides to receive and support the projecting ends of'said bolts.
8. An expansion couplingcomprising coupling members rigidly secured to adjacent shaft ends, connections between them, and an annular oil-reservoir surrounding the adjacent ends of the coupling members and their connections, said cover being secured to one member and in sliding engagement with the other.
In testimony whereof I have signed my name to this specification in the presence of two subscribing witnesses.
ALBERT NV. THOMPSON.
Witnesses:
- ROBERT L. MANNING,
HENRY E. BURNHAM.
US1967300A 1900-06-09 1900-06-09 Expansion-coupling for shafting. Expired - Lifetime US665812A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2016098085A1 (en) * 2014-12-19 2016-06-23 Waldemar Piskorz Shaft coupling

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2016098085A1 (en) * 2014-12-19 2016-06-23 Waldemar Piskorz Shaft coupling

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