US3203717A - Tie-rod coupler - Google Patents

Tie-rod coupler Download PDF

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US3203717A
US3203717A US191484A US19148462A US3203717A US 3203717 A US3203717 A US 3203717A US 191484 A US191484 A US 191484A US 19148462 A US19148462 A US 19148462A US 3203717 A US3203717 A US 3203717A
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rod
trough
trough portion
head
extension
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Carl M Jahn
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G17/00Connecting or other auxiliary members for forms, falsework structures, or shutterings
    • E04G17/06Tying means; Spacers ; Devices for extracting or inserting wall ties
    • E04G17/07Tying means, the tensional elements of which are fastened or tensioned by means of wedge-shaped members
    • E04G17/0728Tying means, the tensional elements of which are fastened or tensioned by means of wedge-shaped members the element consisting of several parts
    • E04G17/0742Tying means, the tensional elements of which are fastened or tensioned by means of wedge-shaped members the element consisting of several parts remaining completely or partially embedded in the cast material
    • 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
    • Y10T403/00Joints and connections
    • Y10T403/57Distinct end coupler
    • Y10T403/5706Diverse serial connections

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  • This invention relates to the art and practice of fabricating forms for the reception and shaping of concrete, and more particularly to that technique of concrete form construction characterized by the use of headed tie-rods applied perpendicularly through and to project at each end exteriorly from the opposed walls of a form thereby related and maintained in desired separation, and has as an object to provide novel and practical means useful in optional coaction with the exterior ends of such tie-rods as associated with a form to facilitate and to expedite the operations requisite to ready the form for intended use.
  • a further object of the invention is to provide a novel and improved coupler applicable at option in coaction with the headed end of a tlC-rI'Od exterior to a form wall to extend the effective length of the tie-rod projection outwardly from the Wall.
  • a further object of the invention is to provide a novel and improved coupler that is expedient of attachment in lengthextending coaction with headed tie-rod terminals exterior to a concrete form wall without recourse to tools.
  • a further object of the invention is to provide a novel and improved tie-rod coupler that is useful in the organization of concrete forms to simplify and facilitate appropriately effective correlation of form tie-rod, panel, and bracing components.
  • a further object of the invention is to provide a novel and improved tie-rod coupler that is applicable to accommodate efficient organization of forms characterized by tie-rod components alike as to headed terminal length and consequent projection exteriorly from a form wall wherewith engaged.
  • a further object of the invention is to provide a novel and improved tie-rod coupler that is effectual to selectively associate walers and strongbacks of diverse sizes in appropriate operative relation with a form wall and the headed terminals of tie-rods correspondingly projecting therefrom.
  • a further object 'of the invention is to provide a novel and improved tie-rod coupler that is simple and economical of production in any of various specific embodiments, that is in all embodiments compact in a unitary arrangement conveniently manipulable to and away from use relations, that is adapted to function without impairment throughout long periods of repetitious service, and that is positive and efficient in attainment of the purposes for which designed.
  • FIGURE 1 is a top plan view of one practical embodiment of the invention as applied in position 'of use to couple a headed rod extension to the headed terminal projection of a conventional tie-rod.
  • FIGURE 2 is a side elevational view of the arrangement according to FIGURE 1.
  • FIGURE 3 is a section taken transversely and substantially on the indicated line 3-3 of FIGURE 1.
  • FIGURE 4 is a section taken transversely and substantially on the indicated line 4-4 of FIGURE 1.
  • FIGURE 5 is a section taken transversely and substantially on the indicated line 55 of FIGURE 1.
  • FIGURE 6 is a side elevational view, on a relativelyenlarged scale, of an alternative embodiment of the invention as applied in coupling coaction with the headed ends of a conventional tie-rod projection and a rod extension thereof.
  • FIGURE 7 is an end elevational view of the arrangement according to FIGURE 6.
  • FIGURE 8 is a section taken transversely and substantially on the indicated line 88 of FIGURE 6.
  • FIGURE 9 is a side elevational view similar to FIG- URE 6 of another practical embodiment of the invention apart from association with the tie-rod components it is designed to couple.
  • FIGURE 10 is a section taken transversely and substantially on the indicated line 10-40 of FIGURE 9.
  • Terminally-headed tie-rods suited for use as above described are commercially available in a range of lengths and length subdivisions effective to determine separation of the opposed walls of the form to which applied and also to provide, for and in connection with each particular wall-separating potential featuring the rods, headed terminals of different lengths symmetrically paired on a given rod for correspondingly-different projection exteriorly from the wall panels whereto applied.
  • a large proportion of the tie-rods utilized in concrete form fabrication as above described are those having headed terterminals alike in a length to establish projection exteriorly of the form wall panels slightly exceeding the width of the waler wherewith they are designed to cooperate, irrespective of their wall-separating capability.
  • the tierods terminally proportioned for direct correlation with the waler are customarily adequate for consolidation of the form in condition to receive and confine a charge of concrete without failure or distortions, but specialized conditions attending erection and use of a form frequently present occasion for supplementing and reinforcing the wall bracing provided by the walers, as by means of width-doubled or relatively-wider waler components, strongbacks bridging in bearing engagement exteriorly across the walers, and the like, clamp-yoked by the tie-rods to and through the form to resist forces tending to separate the form walls.
  • a rod portion terminating in a shouldered head 11 typifies, as shown in certain views of the drawing, the exterior projection of any conventional tie-rod in customary use association with a concrete form structure as to which outward extension of effective length is desired, and the numeral 12 designates a separate portion of rod material equivalent to that of the rod 10 terminating in opposed, shouldered heads 13 identical with the head 11 which determine for the rod portion 12 a length appropriate to effect desired outward extension of the rod projection 10 when said portions 10 and 12 are coaligned with one of the heads 13 closely and abuttingly approached to the head 11.
  • the extensions characterized by the rod portion 12 and heads 13 are supplied for contemplated supplementing attachment to selected exterior projections presented by an array of identical conventional tie-rods comprised in a given form to be braced, whereby to accommodate attachment of an extension of appropriate length in any and every location of intended such use.
  • FIGURES 1-5, inclusive, of the drawing Conveniently manipu-lable to detachably connect an extension of selected length to the projecting portion 10 of a conventional tie-rod comprised in a form structure with no strength impairment of the so-related components, the embodiment of the coupler illustrated by FIGURES 1-5, inclusive, of the drawing is susceptible of economical production and eminently feasible of use.
  • the coupler is integrally formed and unitarily contrived from suitable strong material, such as metal, as a straight, elongated, trough portion 15 adapted to laterally receive and conformably seat a corresponding length of the extension rod 12, a shorter trough portion 16 spacedly opposed to and aligned with said portion 15 adapted to laterally receive and conformably seat a corresponding length of the rod projection 10, and a radiallyenlarged trough portion 17 intermediately and integrally conjoining the trough portions 15 and 16.
  • suitable strong material such as metal
  • the trough portions 15, 16 and 17 are formed with full-length, open sides which for the portions 15 and 16 are alike in a Width of opening appropriate to freely pass the like diameters of the rods 10 and 12 while that of the portion 17 has a greater width of opening suitable to freely pass the like diameters of the heads 11 and 13, and said trough portions are arranged with a longitudinal bisectors of their open sides coaligned to establish a channel ful y traversing and opening through the opposite ends of the unit therefrom comprised.
  • the channels of the trough portions 15 and 16 are concavely and coaxially bottomed to the rod radius in axial registration with and at the opposite sides of the enlarged channel of the trough portion 17 which is concavely bottomed to the radius of the rod heads, whereby to accommodate lateral seating of a headed rod section in each of the trough portions 15 and 16 with the head component thereof received in the channel of the trough portion 17.
  • the channels of the trough portions 15 and 16 are defined in depths, not necessarily alike, exceeding the radius of the rod receivable therein and expand inwardly of the unit to merge with the deeper channel of the trough portion 17 provided in a depth approximating the diameter of the rod head, all of which expediently results from a shaping of the material from which the trough portions are formed to substantial ly the outline represented by the views of the drawing characterized, in particular, by an outward bulge of the trough portion 17 from smooth convergence with the trough portions 15 and 16 thereby conjoined; an inherent feature of the resulting outline being a definite offset of the mar-gins of the trough 17 limiting the width of the channel thereof laterally and outwardly beyond the convergently-associated channel margins of the trough portions 15 and 16.
  • the coupler of the invention having as practical purpose to effect a definite and known length extension of a tie-rod projection exterior to a form wall in a manner to qualify the extension as a functional continuation of the associated tie-rod, provision is made for uniformly and depend-ably relating one head of the applied extension with the terminal head of the tie-rod so supplemented for invariable determination of the length increase as reflection of the length of the extension utilized with concomitant effective resolution and transmission to the tierod of the stresses imposed upon the extension.
  • Appr0- priate correlation of one head 13 of the extension with the head 11 of the tie-rod project-ion effective through and to realize the purposes of the coupler results from intrusive deformation of the coupler material conjoining the trough portion 17 with the portions 15 and 16 to establish opposed lugs 18 inwardly restricting the convergence of the chan nel of the trough portion 15 with that of the portion 17 and similar lugs 19 inwardly restricting the convergence of the channel of the trough portion 16 with that of the portion 17 spacedly confronting said lugs 18.
  • the lugs 18 terminate the flat end faces coplanar interiorly and laterally of the trough portion 17 where the full-dimension channel of the latter begins to merge with the channel of the trough portion 15, whereby to dispose the end faces of said lugs 18 as abutments at and interiorly obstructing one end of the full-dimension channel of the trough portion 17 effective in coaction with the shouldered, annular face of a head 13 entered laterally within said portion 17 to limit and determine shift of said head and its associated rod 12 axially in a direction outwardly of the trough portion 15.
  • the lugs 19 are separated to avoid interference with the seating of a rod 10 and its head 11 in the channels of the coupler and terminate in fiat end faces coplanar interiorly and laterally of the trough portion 17 in parallelism with the plane of the end faces terminating the lugs 18 at a spacing from the latter slightly exceeding the combined axial lengths of the like heads 11 and 13 simultaneously engageable within the trough portion 17 of the coupler, whereby said lugs 19 are arranged to limit and determine shift of a head 11 axially and in a direction outwardly of the trough portion 16 from operative seated coaction with the coupler.
  • the lugs 18 and 19 serve in engagement with the heads 11 and 13 of the rod elements 10 and 12 to couple the extension to the rod projection in a definite, predetermined length combination dependably reflecting the length of the selected extension unit and function to reliably transmit tensioning stresses imposed upon the so-coupled extension to and for resolution by the tie-rod of which the rod portion 10 is a projection.
  • the clip 20 may be turned on the trough portion to register its interruption with the open side of the trough channel thereby cleared to receive the rod 12 for intended coaction with the coupler as above set forth, and the said clip thereafter turned to close over the channel and the rod received therein, as represented by FIGURE 3, to retain the rod against separation from the coupler.
  • the rod 12 may be moderately oscillated thereunder to enter the inner of its heads 13 within the channel of the trough portion 17, or to retract said head radially and outwardly away from said channel, in connection with or independently of axial shift of the rod relative to the clip and the trough portion 15 directed to clear and fully open the channel of the trough portion 17, when and as desired, and alternatively to seat the rod 12 in the channel of the trough portion 15 with one of its terminal heads 13 seated in the channel of the trough portion 17 and therein coacting with the ends of the intruded lugs 18, in which latter illustrated association of the rod extension and coupler the clip 20 may be shifted on and inwardly along the trough portion 15 in maintained embracing relation with the rod 12 to inhibit inadvertent separation of the head 13 from its full-seated connection with the coupler.
  • opposed free margins of the side walls bordering the channel of the trough porion 17 are converged adjacent the conjunction of the trough portions 16 and 17 as lips 21 effectively restricting and narrowing the opening to the channel of the trough portion 17 immediately above and inwardly of the trough portion from the ends of the lugs 19 in partially-circumscribing relation with the position of the head 11 when in its intended operative coaction with the coupler.
  • the lips 21 serve to confine the head 11 against escape laterally of the trough portion 17 from a seat in the channel of the latter such as to engage the head with the ends of the lugs 19, as represented in FIGURE 1, and extend in overhanging relation with the inward ends of said lugs 19 toward the lugs 18 but slightly to leave unobstructed the major length of the channel opening to the trough portion 17 in a width adequate to freely pass the heads 11 and 13 laterally to and from said channel.
  • FIGURES l- 5, inclusive Furnished with the clip 20 and lips 21 as illustrated and above described the coupler represented by FIGURES l- 5, inclusive, is conditioned to effect attachment of a headed rod extension to and in retained operative relation with any selected headed terminal projection of a tie-rod conventionally associated with a concrete form organization pursuant to manipulations conveniently simple of speedy execution.
  • a supply of the coupler units is readied for subsequent use in individual association with a headed rod extension 12 loosely retained thereon under and by means of the clip 26 located near the outer end of the trough portion 15.
  • a coupler carrying an extension 12 of appropriate length is arranged through relative adjustment of the latter to clear the inner head 13 from and out of obstructing relation with the opening to the channel of the trough portion 17 and is then applied to receive the head 11 in said channel through the unobstructed and unrestricted area of its lateral opening as said opening is approached upwardly to and from below the head 11 with the coupler trough portion 16 underlying the rod 10 in downward divergence therefrom.
  • the coupler With the head 11 received to full seated engagement within the channel of the trough portion 17, the coupler is rocked thereon to coaxial alignment with the rod 10 and simultaneously shifted outwardly on the rod to abutment of said head against the intruded ends of the lugs 19 and entrapment of the salient arc of said head beneath the lips 21 as the rod 10 seats adjacent its conjunction with the head in the channel of the trough portion 16, whereby the coupler carrying the extension rod 12 is linked to and retained against inadvertent separation on the tie-rod projection designed to be extended.
  • FIGURES 6, 7 and 8 is a structurally-modified, functional equivalent of the coupler hereinbefore described and is employable to operatively interlink the head 11 of a tie-rod projection 10 and a juxtaposed head 13 of a rod extension 12 in a correlation identical as to purpose and analogues as to facility with that of the first-described unit.
  • the coupler is a tubular sleeve 22 end-closed by integral webs 23 parallel transversely of the sleeve in a spacing of their opposed faces slightly exceeding the combined lengths of the head 11 and its duplicate 13.
  • the sleeve 22 defines a semicircular cavity sized and concaved to receive and conformably seat the half-circumferences of the heads 11 and 13 in a coaxial correlation of said heads, sleeve, and the rod portions terminated by the heads, which cavity opens laterally in its full diametric dimension through one side of the sleeve across the extent of web 23 separation to intersect the exterior cylindrical wall of the sleeve in parallel lips 24 establishing a plane chordally of the sleeve which is continued through the end webs 23; said lateral opening of the cavity providing passage for the heads 11 and 13 to and from seated accommodation within the cavity.
  • the plane common to the lips 24 is laterally and symmetrically interrupted by a notch 25 intruded radially in and to open axially through each of the end webs 23 in a size to receive and pass the diameter of the like rods 10 and 12, which said identical, complementarily-disposed notches 25 alike terminate centrally of the end webs 23 as arcuate seats 26 concentric with the sleeve and its end webs adapted to conformably accommodate and coaxially align the rod portions 10 and 12 mounting the heads 11 and 13 engageable in juxtaposed opposition within the cavity of the sleeve 22.
  • the coupler comprised from the sleeve 22 and end webs 23 is expediently applicable to operatively connect the extension 12 to the tie-rod projection 14) through simultaneous embracing engagement with the associated heads 11 and 13 entered in opposition through the cavity opening to seated reception within the cavity and bearing coaction with inner faces of the end webs 23 as the rod components traverse the latter by Way of the notches 25, in which operative correlation, clearly represented by FIGURE 6, the coupler serves to establish and determine the axial cooperation of the rod components and is effective to transmit to the tie-rod typified by the projection 10 tensioning stresses imposed upon the extension 12 when and as provision is made to obviate inadvertant release of said heads, either or both, from the interior of the sleeve.
  • the retainer is contrived as an interrupted, annular band 27 of constrictively-biased, spring material, such as metal, adapted to conformably and rotatably embrace in excess of the half-circumference of the exterior of the sleeve 22 in a width, or dimension axially of the sleeve, approximating the length of the sleeve cavity receivable with restraint of relative axial displacement between radially-narrow, annular shoulders 28 exteriorly and circumferentially enlarging the end webs 23 relative to the sleeve 22 at and about their conjunctions.
  • the retainer 27 is revoluble in a maintained axial correlation on and about the sleeve 22 to selectively and alternatively fully expose the cavity opening between the lips 24 and to entirely close over said opening with concomitant envelopment of the exposed arcs of the heads 11 and 13, as in FIGURE 8, efiective to inhibit escape of said heads, and their associated rod components, from operative coaction with the coupler.
  • the coupler typified by the sleeve 22 is detachably applicable in analogy with the coupler typified by the trough portion 17 to effectuate the purposes and to attain the results characterizing the latter.
  • FIGURES 9 and 10 Functionally equivalent to the two coupler embodiments previously described, the organization represented by FIGURES 9 and 10 is characteristicaily and operatively similarto the embodiment typified by the sleeve 22 in a structural departure therefrom distinguished by a unitary construction dispensing with the inclusion of, or occasion for, relatively-movable components.
  • FIGURES 9 and 10 Organized as a sleeve 29 resembling the sleeve 22 and end webs 30 transverse thereof comparable to the end webs 23 in a combination sized and proportioned for application to and seated reception of the heads 11 and 13 to be interlinked in functional conformity with the coupler last above discussed, the embodiment according to FIGURES 9 and 10 is distinguished by means for and a manner of coaction with the rod components of the heads 11 and 13 adapting the coupler to effectuate its purposes and to maintain its operative capability in reflection of simple rotational manipulations of the unit incident to its use application.
  • the ends webs 30 of the modified coupler embodiment are alike intersected by concentric, semi-circular rod seats 31 sized and disposed as are the seats 26 terminating the notches 25 of the analogous embodiment for operative coaction with the rod components 10 and 12, and in contrast with the access notches 25 terminating in said seats 26 the seats 31 are .alike served by and terminate spiral throats 32 sized to pass the diameter of the rod components which curve from convergence to the associated seat outwardly and away from the axis of the sleeve 29 toward the periphery of the end web 30 thereby interrupted through which periphery they open by way of a correspondingly-sized, reversely-curved, throat continuation 33; said seats 31, throats 32, and throat continuations 33 of each end Web 30 being registered axially of the unit.
  • the rod components to be coupled are entered through the access passages provided by the throats in the end webs of the unit to engagement with their respective seats 31 and simultaneously carry their head elements to reception within the cavity of the sleeve 29 and shouldered bearing coaction with the opposed inner faces of the end Webs 30 for ultimate coupled correlation as shown by FIGURE 6 and previously described, retention of the components and heads in the so-established coupled relation with inhibition of component and head separation from the coupler being assured through such rotation of the coupler on and about the seated rod components as will preclude their outward traverse of the throats 32 and continuations 33 in reaction to the influence of gravity.
  • a rod coupler for detachably engaging a terminallyheaded rod to and as a coaligned extension of a like headed projection conventionally terminating a tie-rod horizontally fixed in use association with a concrete form comprising an elongated, rigid member formed with a laterally-open, concavely-bottomed trough portion adapted to receive and conformably seat in closely-spaced coaxial opposition the head of said projection and a terminal head of said rod, laterally-open, concavely-bottomed trough, extensions aligned in fixed engagement with an unequal opposite projection from the ends of said trough portion adapted to receive and conformably seat the rod components terminated by the heads accommodated in said trough portion, said trough extensions being relatively shorter and longer in lengths of projection from the trough portion exceeding the combined length dimensions of the heads receivable in said portion, abutments at the conjunctions of said trough portion and trough extensions coactable with the heads engaged within the trough portion to inhibit axially-directed separation
  • the elongated, rigid, coupler member is unitarily shaped from suitable material with smooth convergence of trough portion and trough extensions in a straight-line continuity of their lateral openings, and said abutments are lugs integrally intruded from the conjunctions of said trough portion and trough extensions to provide ends coactable with annular faces of the heads coplanar .at and transversely of each end of the trough portion opposed in a separation but slightly exceeding the combined lengths of the heads receivable therebetween.
  • the elongated, rigid, coupler member is unitarily shaped from suitable material with smooth convergence of trough portion and trough extensions in a straight-line continuity of their lateral openings
  • said abutments are lugs integrally intruded from the conjunctions of said trough portion and trough extensions to provide ends coactable with annular faces of the heads coplanar at and transversely of each end of the trough portion
  • the means fixedly restricting the lateral opening at one end of the trough portion consists of integral lips marginally of the trough portion convergent from opposite sides of the lateral opening of said portion over inner ends of the subjacent abutment in position to radially confine a head entered .to engagement with the associated abutment axially thereunder.
  • the means manipulable along and about the longer trough extension is an interrupted, annular clip axially short in relation to the length of the associated trough extension cor related in frictional retention on said extension alternatively to fully uncover and to close over the lateral opening thereof in all dispositions longitudinally of the extension between a radial enlargement at the free outer end of the extension and the conjunction of the extension With the trough portion.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Mechanical Engineering (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Mutual Connection Of Rods And Tubes (AREA)

Description

1965 c. M. JAHN 3,203,717
TIE-ROD COUPLER Filed May 1 1962 Fig. 3
F .9 INVENTGR. g CARL M. JAH/V ATTORNEY United States Patent 3,203,717 TIE-ROD COUPLER Carl M. Jahn, 2120 S. Joliet St., Denver, Colo. Filed May 1, 1962, Ser. No. 191,484 4 Claims. (Cl. 287-111) This invention relates to the art and practice of fabricating forms for the reception and shaping of concrete, and more particularly to that technique of concrete form construction characterized by the use of headed tie-rods applied perpendicularly through and to project at each end exteriorly from the opposed walls of a form thereby related and maintained in desired separation, and has as an object to provide novel and practical means useful in optional coaction with the exterior ends of such tie-rods as associated with a form to facilitate and to expedite the operations requisite to ready the form for intended use.
A further object of the invention is to provide a novel and improved coupler applicable at option in coaction with the headed end of a tlC-rI'Od exterior to a form wall to extend the effective length of the tie-rod projection outwardly from the Wall.
A further object of the invention is to provide a novel and improved coupler that is expedient of attachment in lengthextending coaction with headed tie-rod terminals exterior to a concrete form wall without recourse to tools.
A further object of the invention is to provide a novel and improved tie-rod coupler that is useful in the organization of concrete forms to simplify and facilitate appropriately effective correlation of form tie-rod, panel, and bracing components.
A further object of the invention is to provide a novel and improved tie-rod coupler that is applicable to accommodate efficient organization of forms characterized by tie-rod components alike as to headed terminal length and consequent projection exteriorly from a form wall wherewith engaged.
A further object of the invention is to provide a novel and improved tie-rod coupler that is effectual to selectively associate walers and strongbacks of diverse sizes in appropriate operative relation with a form wall and the headed terminals of tie-rods correspondingly projecting therefrom.
A further object 'of the invention is to provide a novel and improved tie-rod coupler that is simple and economical of production in any of various specific embodiments, that is in all embodiments compact in a unitary arrangement conveniently manipulable to and away from use relations, that is adapted to function without impairment throughout long periods of repetitious service, and that is positive and efficient in attainment of the purposes for which designed.
With the foregoing and other objects in view, my invention consists in the construction, arrangement, and operative combination of elements as hereinafter set forth, pointed out in the appended claims, and illustrated by the accompanying drawing, in which:
FIGURE 1 is a top plan view of one practical embodiment of the invention as applied in position 'of use to couple a headed rod extension to the headed terminal projection of a conventional tie-rod.
FIGURE 2 is a side elevational view of the arrangement according to FIGURE 1.
FIGURE 3 is a section taken transversely and substantially on the indicated line 3-3 of FIGURE 1.
FIGURE 4 is a section taken transversely and substantially on the indicated line 4-4 of FIGURE 1.
FIGURE 5 is a section taken transversely and substantially on the indicated line 55 of FIGURE 1.
FIGURE 6 is a side elevational view, on a relativelyenlarged scale, of an alternative embodiment of the invention as applied in coupling coaction with the headed ends of a conventional tie-rod projection and a rod extension thereof.
FIGURE 7 is an end elevational view of the arrangement according to FIGURE 6.
FIGURE 8 is a section taken transversely and substantially on the indicated line 88 of FIGURE 6.
FIGURE 9 is a side elevational view similar to FIG- URE 6 of another practical embodiment of the invention apart from association with the tie-rod components it is designed to couple.
FIGURE 10 is a section taken transversely and substantially on the indicated line 10-40 of FIGURE 9.
Conventional, widely-practiced techniques of concrete form fabrication have in common the use of edgeabutted coplanarly-aligned, upright panels defining form walls intersected and spaced apart by tie-rods having like, opposite, headed terminals adapted to project as a patterned array outwardly from the wall panels for coaction with wedging means actuable in reaction to the terminal heads of the rods to clamp walers, strongbacks, and equivalent reinforcements to bracing and retaining relation with the panels effective to consolidate the form with provision for convenient subsequent disassembly thereof. Terminally-headed tie-rods suited for use as above described are commercially available in a range of lengths and length subdivisions effective to determine separation of the opposed walls of the form to which applied and also to provide, for and in connection with each particular wall-separating potential featuring the rods, headed terminals of different lengths symmetrically paired on a given rod for correspondingly-different projection exteriorly from the wall panels whereto applied. Intended for and applied to effect clamping coaction of a rod projection and a waler transverse thereof, a large proportion of the tie-rods utilized in concrete form fabrication as above described are those having headed terterminals alike in a length to establish projection exteriorly of the form wall panels slightly exceeding the width of the waler wherewith they are designed to cooperate, irrespective of their wall-separating capability. Suitably spaced apart in appropriate pattern, the tierods terminally proportioned for direct correlation with the waler are customarily adequate for consolidation of the form in condition to receive and confine a charge of concrete without failure or distortions, but specialized conditions attending erection and use of a form frequently present occasion for supplementing and reinforcing the wall bracing provided by the walers, as by means of width-doubled or relatively-wider waler components, strongbacks bridging in bearing engagement exteriorly across the walers, and the like, clamp-yoked by the tie-rods to and through the form to resist forces tending to separate the form walls. It is conventional practice to attempt anticipation of the need for and the location of supplementary reinforcement to be included in a concrete form organization and to correspondingly adapt the form during its erection for satisfaction of the anticipated needs through provision at the predetermined locations of tie-rods having headed terminals lengthsuited to span and coact with components of the supplementary reinforcement exterior to the walers in substitution for the tie-rods terminally conditioned to cooperate with the walers. The conventional practice of supplementary form reinforcement just discussed substantially precludes any such strengthening of the form save at the predetermined locations furnished with the tie-rods having the longer headed terminals and thus seriously restricts correction of weaknesses in the form structure apparent only after erection has been completed, and such practice, necessitating suitable supply of tie-rods differing as to the length of their headed terminals and supervised attention as to their selective placement in timely correlation with the progress of form organization, is less than agreeably conservative of material and labor costs. Obviously, were it feasible to construct the form with tie-rods of but one, uniform length of headed terminals adapted for coaction with the walers and, where and as desired, to subsequently and expediently extend the terminals of selected said rods to effect desired coaction with strongbacks, wider walers, and the equivalent, facility and flexibility of supplementary reinforcement of the form would result with economy of time and expense, and the instant invention is hence directed to the provision of a coupler manually applicable to detachably engage a terminallyheaded, short tie-rod of appropriate variable length to and as an operative extension of any one of the tie-rod projections characterizing the form organization.
Indicative of the function and representative of the use environment common to the several embodiments of the invention illustrated and hereinafter particularly described, a rod portion terminating in a shouldered head 11 typifies, as shown in certain views of the drawing, the exterior projection of any conventional tie-rod in customary use association with a concrete form structure as to which outward extension of effective length is desired, and the numeral 12 designates a separate portion of rod material equivalent to that of the rod 10 terminating in opposed, shouldered heads 13 identical with the head 11 which determine for the rod portion 12 a length appropriate to effect desired outward extension of the rod projection 10 when said portions 10 and 12 are coaligned with one of the heads 13 closely and abuttingly approached to the head 11. Preformed to different, and expediently assorted lengths, the extensions characterized by the rod portion 12 and heads 13 are supplied for contemplated supplementing attachment to selected exterior projections presented by an array of identical conventional tie-rods comprised in a given form to be braced, whereby to accommodate attachment of an extension of appropriate length in any and every location of intended such use.
Conveniently manipu-lable to detachably connect an extension of selected length to the projecting portion 10 of a conventional tie-rod comprised in a form structure with no strength impairment of the so-related components, the embodiment of the coupler illustrated by FIGURES 1-5, inclusive, of the drawing is susceptible of economical production and eminently feasible of use. As shown in the views just noted, the coupler is integrally formed and unitarily contrived from suitable strong material, such as metal, as a straight, elongated, trough portion 15 adapted to laterally receive and conformably seat a corresponding length of the extension rod 12, a shorter trough portion 16 spacedly opposed to and aligned with said portion 15 adapted to laterally receive and conformably seat a corresponding length of the rod projection 10, and a radiallyenlarged trough portion 17 intermediately and integrally conjoining the trough portions 15 and 16. Characteristically, the trough portions 15, 16 and 17 are formed with full-length, open sides which for the portions 15 and 16 are alike in a Width of opening appropriate to freely pass the like diameters of the rods 10 and 12 while that of the portion 17 has a greater width of opening suitable to freely pass the like diameters of the heads 11 and 13, and said trough portions are arranged with a longitudinal bisectors of their open sides coaligned to establish a channel ful y traversing and opening through the opposite ends of the unit therefrom comprised. *F-or intended coaction with sections of the rods 10 and 12, the channels of the trough portions 15 and 16 are concavely and coaxially bottomed to the rod radius in axial registration with and at the opposite sides of the enlarged channel of the trough portion 17 which is concavely bottomed to the radius of the rod heads, whereby to accommodate lateral seating of a headed rod section in each of the trough portions 15 and 16 with the head component thereof received in the channel of the trough portion 17. The channels of the trough portions 15 and 16 are defined in depths, not necessarily alike, exceeding the radius of the rod receivable therein and expand inwardly of the unit to merge with the deeper channel of the trough portion 17 provided in a depth approximating the diameter of the rod head, all of which expediently results from a shaping of the material from which the trough portions are formed to substantial ly the outline represented by the views of the drawing characterized, in particular, by an outward bulge of the trough portion 17 from smooth convergence with the trough portions 15 and 16 thereby conjoined; an inherent feature of the resulting outline being a definite offset of the mar-gins of the trough 17 limiting the width of the channel thereof laterally and outwardly beyond the convergently-associated channel margins of the trough portions 15 and 16.
The coupler of the invention having as practical purpose to effect a definite and known length extension of a tie-rod projection exterior to a form wall in a manner to qualify the extension as a functional continuation of the associated tie-rod, provision is made for uniformly and depend-ably relating one head of the applied extension with the terminal head of the tie-rod so supplemented for invariable determination of the length increase as reflection of the length of the extension utilized with concomitant effective resolution and transmission to the tierod of the stresses imposed upon the extension. Appr0- priate correlation of one head 13 of the extension with the head 11 of the tie-rod project-ion effective through and to realize the purposes of the coupler results from intrusive deformation of the coupler material conjoining the trough portion 17 with the portions 15 and 16 to establish opposed lugs 18 inwardly restricting the convergence of the chan nel of the trough portion 15 with that of the portion 17 and similar lugs 19 inwardly restricting the convergence of the channel of the trough portion 16 with that of the portion 17 spacedly confronting said lugs 18. In a separation that does not interfere with full seating of the rod 12 and its head 13 in the channels of the trough portions 15 and 17, the lugs 18 terminate the flat end faces coplanar interiorly and laterally of the trough portion 17 where the full-dimension channel of the latter begins to merge with the channel of the trough portion 15, whereby to dispose the end faces of said lugs 18 as abutments at and interiorly obstructing one end of the full-dimension channel of the trough portion 17 effective in coaction with the shouldered, annular face of a head 13 entered laterally within said portion 17 to limit and determine shift of said head and its associated rod 12 axially in a direction outwardly of the trough portion 15. Similarly, the lugs 19 are separated to avoid interference with the seating of a rod 10 and its head 11 in the channels of the coupler and terminate in fiat end faces coplanar interiorly and laterally of the trough portion 17 in parallelism with the plane of the end faces terminating the lugs 18 at a spacing from the latter slightly exceeding the combined axial lengths of the like heads 11 and 13 simultaneously engageable within the trough portion 17 of the coupler, whereby said lugs 19 are arranged to limit and determine shift of a head 11 axially and in a direction outwardly of the trough portion 16 from operative seated coaction with the coupler. Arranged and spaced as shown and described, the lugs 18 and 19 serve in engagement with the heads 11 and 13 of the rod elements 10 and 12 to couple the extension to the rod projection in a definite, predetermined length combination dependably reflecting the length of the selected extension unit and function to reliably transmit tensioning stresses imposed upon the so-coupled extension to and for resolution by the tie-rod of which the rod portion 10 is a projection.
Structurally adequate and functionally complete as shown and thus far described, the manipulative convenience and practical utility of the improved coupler are enhanced by supplementing features which facilitate its application to and retention in position of use. Quite obviously, preliminary attachment of an extension rod 12 with its double heads 13 to and for manipulation to position of use as a unit with the coupler promotes ease and speed of the intended coupling operation, to which end an annular clip 20 of appropriate spring material interrupted to pass the diameter of the rod 12 is slidably and rotatably engaged about and to embrace in excess of the half-circumference of the trough portion 15 inwardly of a retaining bead, or enlargement, outwardly terminating the said portion. The clip 20 may be turned on the trough portion to register its interruption with the open side of the trough channel thereby cleared to receive the rod 12 for intended coaction with the coupler as above set forth, and the said clip thereafter turned to close over the channel and the rod received therein, as represented by FIGURE 3, to retain the rod against separation from the coupler. With the clip 20 shifted outwardly along the trough portion 15, the rod 12 may be moderately oscillated thereunder to enter the inner of its heads 13 within the channel of the trough portion 17, or to retract said head radially and outwardly away from said channel, in connection with or independently of axial shift of the rod relative to the clip and the trough portion 15 directed to clear and fully open the channel of the trough portion 17, when and as desired, and alternatively to seat the rod 12 in the channel of the trough portion 15 with one of its terminal heads 13 seated in the channel of the trough portion 17 and therein coacting with the ends of the intruded lugs 18, in which latter illustrated association of the rod extension and coupler the clip 20 may be shifted on and inwardly along the trough portion 15 in maintained embracing relation with the rod 12 to inhibit inadvertent separation of the head 13 from its full-seated connection with the coupler. Facilitating connection of the coupler in retained use association with the rod projection 10 and its head 11, opposed free margins of the side walls bordering the channel of the trough porion 17 are converged adjacent the conjunction of the trough portions 16 and 17 as lips 21 effectively restricting and narrowing the opening to the channel of the trough portion 17 immediately above and inwardly of the trough portion from the ends of the lugs 19 in partially-circumscribing relation with the position of the head 11 when in its intended operative coaction with the coupler. The lips 21 serve to confine the head 11 against escape laterally of the trough portion 17 from a seat in the channel of the latter such as to engage the head with the ends of the lugs 19, as represented in FIGURE 1, and extend in overhanging relation with the inward ends of said lugs 19 toward the lugs 18 but slightly to leave unobstructed the major length of the channel opening to the trough portion 17 in a width adequate to freely pass the heads 11 and 13 laterally to and from said channel.
Furnished with the clip 20 and lips 21 as illustrated and above described the coupler represented by FIGURES l- 5, inclusive, is conditioned to effect attachment of a headed rod extension to and in retained operative relation with any selected headed terminal projection of a tie-rod conventionally associated with a concrete form organization pursuant to manipulations conveniently simple of speedy execution. Desirably, although not necessarily, a supply of the coupler units is readied for subsequent use in individual association with a headed rod extension 12 loosely retained thereon under and by means of the clip 26 located near the outer end of the trough portion 15. Upon occasion for length-extension of a tie-rod projection 10, a coupler carrying an extension 12 of appropriate length is arranged through relative adjustment of the latter to clear the inner head 13 from and out of obstructing relation with the opening to the channel of the trough portion 17 and is then applied to receive the head 11 in said channel through the unobstructed and unrestricted area of its lateral opening as said opening is approached upwardly to and from below the head 11 with the coupler trough portion 16 underlying the rod 10 in downward divergence therefrom. With the head 11 received to full seated engagement within the channel of the trough portion 17, the coupler is rocked thereon to coaxial alignment with the rod 10 and simultaneously shifted outwardly on the rod to abutment of said head against the intruded ends of the lugs 19 and entrapment of the salient arc of said head beneath the lips 21 as the rod 10 seats adjacent its conjunction with the head in the channel of the trough portion 16, whereby the coupler carrying the extension rod 12 is linked to and retained against inadvertent separation on the tie-rod projection designed to be extended. Shift of the coupler on the rod 10 to engagement of the head 11 with the ends of the lugs 19 clears a length of the channel of the trough portion 17 adequate to receive and accommodate the inner head 13 of the extension 12 engageable therewithin through oscillation and shift of the latter appropriate to seat said rod 12 in the channel of the trough portion 15 in coalignment with the rod 11) as the said head 13 is entered to its seat within the trough portion 17 adjacent and in position to bear against the intruded ends of the lugs 18, whereafter slide adjustment of the clip 20 on and inwardly of the trough portion 15 in maintained embracing coaction with the rod 12 serves to inhibit escape of the head 13 from a disposition wherein it opposes retraction of the head 11 from the restraining influence of the lips 21 and preserves a self-supporting, operative correlation of the extension rod 12 and rod projection 10 effective to transmit tensioning stresses imposed upon the rod 12 to and for resolution through the tie-rod thereby extended. Obviously, recovery of the coupler and its associated rod extension from use position in condition for reuse involves but a reversal of the operations above set forth, shift of the clip 20 outwardly on the trough portion 15 to free the rod 12 for oscillation effective to displace the head 13 from the channel of the trough portion 17 and subsequent shift of the coupler on the rod 10 to free the head 11 from the influence of the lips 21 being fullyadequate to detach the coupler and extension from the rod projection in unimpaired condition.
While it is of practical advantage to connect the rod extensions 12 to the couplers by means of the clips 20 prior to use application thereof, it is fully apparent that the coupler separate from its rod extension may be first connected to the rod projection 10 as above described and the extension 12 then applied to the mounted coupler through manipulation of the clip 20 with attainment of the same ultimate result and the combination as characterizes the technique first detailed.
The alternative embodiment represented by FIGURES 6, 7 and 8 is a structurally-modified, functional equivalent of the coupler hereinbefore described and is employable to operatively interlink the head 11 of a tie-rod projection 10 and a juxtaposed head 13 of a rod extension 12 in a correlation identical as to purpose and analogues as to facility with that of the first-described unit.
As shown in the views last noted, the coupler is a tubular sleeve 22 end-closed by integral webs 23 parallel transversely of the sleeve in a spacing of their opposed faces slightly exceeding the combined lengths of the head 11 and its duplicate 13. The sleeve 22 defines a semicircular cavity sized and concaved to receive and conformably seat the half-circumferences of the heads 11 and 13 in a coaxial correlation of said heads, sleeve, and the rod portions terminated by the heads, which cavity opens laterally in its full diametric dimension through one side of the sleeve across the extent of web 23 separation to intersect the exterior cylindrical wall of the sleeve in parallel lips 24 establishing a plane chordally of the sleeve which is continued through the end webs 23; said lateral opening of the cavity providing passage for the heads 11 and 13 to and from seated accommodation within the cavity. At its intersection with the end webs 23, the plane common to the lips 24 is laterally and symmetrically interrupted by a notch 25 intruded radially in and to open axially through each of the end webs 23 in a size to receive and pass the diameter of the like rods 10 and 12, which said identical, complementarily-disposed notches 25 alike terminate centrally of the end webs 23 as arcuate seats 26 concentric with the sleeve and its end webs adapted to conformably accommodate and coaxially align the rod portions 10 and 12 mounting the heads 11 and 13 engageable in juxtaposed opposition within the cavity of the sleeve 22. With the lateral opening of its sleeve cavity unobstructed, the coupler comprised from the sleeve 22 and end webs 23 is expediently applicable to operatively connect the extension 12 to the tie-rod projection 14) through simultaneous embracing engagement with the associated heads 11 and 13 entered in opposition through the cavity opening to seated reception within the cavity and bearing coaction with inner faces of the end webs 23 as the rod components traverse the latter by Way of the notches 25, in which operative correlation, clearly represented by FIGURE 6, the coupler serves to establish and determine the axial cooperation of the rod components and is effective to transmit to the tie-rod typified by the projection 10 tensioning stresses imposed upon the extension 12 when and as provision is made to obviate inadvertant release of said heads, either or both, from the interior of the sleeve. Where the plane established by the lips 24 interrupts the cylindrical exterior and alters the radial projection of the sleeve 22 there is consequent exposure outwardly through the opening to the sleeve cavity of corresponding peripheral arcs of the heads 11 and 13 received and seated Within said cavity, as is clearly shown in FIGURES 7 and 8, availably disposed for coaction with a retainer manipulable to close thereover and secure the heads within and against separation from the sleeve. In the simple, practical arrangement illustrated, the retainer is contrived as an interrupted, annular band 27 of constrictively-biased, spring material, such as metal, adapted to conformably and rotatably embrace in excess of the half-circumference of the exterior of the sleeve 22 in a width, or dimension axially of the sleeve, approximating the length of the sleeve cavity receivable with restraint of relative axial displacement between radially-narrow, annular shoulders 28 exteriorly and circumferentially enlarging the end webs 23 relative to the sleeve 22 at and about their conjunctions. Constrictively engaged on and about the sleeve 22 between the shoulders 28 to present an annular interruption adequate to at times fully expose the lateral opening to the sleeve cavity separating the lips 24, the retainer 27 is revoluble in a maintained axial correlation on and about the sleeve 22 to selectively and alternatively fully expose the cavity opening between the lips 24 and to entirely close over said opening with concomitant envelopment of the exposed arcs of the heads 11 and 13, as in FIGURE 8, efiective to inhibit escape of said heads, and their associated rod components, from operative coaction with the coupler. Employable in an obvious manner, the coupler typified by the sleeve 22 is detachably applicable in analogy with the coupler typified by the trough portion 17 to effectuate the purposes and to attain the results characterizing the latter.
Functionally equivalent to the two coupler embodiments previously described, the organization represented by FIGURES 9 and 10 is characteristicaily and operatively similarto the embodiment typified by the sleeve 22 in a structural departure therefrom distinguished by a unitary construction dispensing with the inclusion of, or occasion for, relatively-movable components. Organized as a sleeve 29 resembling the sleeve 22 and end webs 30 transverse thereof comparable to the end webs 23 in a combination sized and proportioned for application to and seated reception of the heads 11 and 13 to be interlinked in functional conformity with the coupler last above discussed, the embodiment according to FIGURES 9 and 10 is distinguished by means for and a manner of coaction with the rod components of the heads 11 and 13 adapting the coupler to effectuate its purposes and to maintain its operative capability in reflection of simple rotational manipulations of the unit incident to its use application. Designed for centered accommodation and seating of the rod components 10 and 12, the ends webs 30 of the modified coupler embodiment are alike intersected by concentric, semi-circular rod seats 31 sized and disposed as are the seats 26 terminating the notches 25 of the analogous embodiment for operative coaction with the rod components 10 and 12, and in contrast with the access notches 25 terminating in said seats 26 the seats 31 are .alike served by and terminate spiral throats 32 sized to pass the diameter of the rod components which curve from convergence to the associated seat outwardly and away from the axis of the sleeve 29 toward the periphery of the end web 30 thereby interrupted through which periphery they open by way of a correspondingly-sized, reversely-curved, throat continuation 33; said seats 31, throats 32, and throat continuations 33 of each end Web 30 being registered axially of the unit. Since the features 31, 32 and 33 constitute a passage for a rod component thereby seated coaxially of the sleeve 29 and such rod component terminates in an enlarged, concentric head movable therewith to reception within the sleeve, it is manifest that the path of head access to the cavity of the sleeve is necessarily established by the trace generated by the periphery of the head as it moves with the rod component along and in centered registration with the bisector of the throat 32 and its continuation 33, which trace determines .a spiral convergence of the wall of the sleeve 29 remote from the outlet opening of the throat continuation 33 and lips 34 in spaced parallelism axially of the sleeve defining a lateral opening to the cavity of said sleeve somewhat Wider than that between the lips 24 of the analogous embodiment but considerably less than one hundred and eighty degrees of arc, whereby to leave intact more than the half-circumference of the wall of the sleeve 29, substantially as shown by FIGURE 10. As should be readily apparent, the rod components to be coupled are entered through the access passages provided by the throats in the end webs of the unit to engagement with their respective seats 31 and simultaneously carry their head elements to reception within the cavity of the sleeve 29 and shouldered bearing coaction with the opposed inner faces of the end Webs 30 for ultimate coupled correlation as shown by FIGURE 6 and previously described, retention of the components and heads in the so-established coupled relation with inhibition of component and head separation from the coupler being assured through such rotation of the coupler on and about the seated rod components as will preclude their outward traverse of the throats 32 and continuations 33 in reaction to the influence of gravity.
Since changes, variations, and modifications in the form, construction, and arrangement of the elements shown and described may be had without departing from the spirit of my invention, I Wish to be understood as being limited solely by the scope of the appended claims, rather than by any details of the illustrative showing and foregoing description.
I claim as my invent-ion:
1. A rod coupler for detachably engaging a terminallyheaded rod to and as a coaligned extension of a like headed projection conventionally terminating a tie-rod horizontally fixed in use association with a concrete form, comprising an elongated, rigid member formed with a laterally-open, concavely-bottomed trough portion adapted to receive and conformably seat in closely-spaced coaxial opposition the head of said projection and a terminal head of said rod, laterally-open, concavely-bottomed trough, extensions aligned in fixed engagement with an unequal opposite projection from the ends of said trough portion adapted to receive and conformably seat the rod components terminated by the heads accommodated in said trough portion, said trough extensions being relatively shorter and longer in lengths of projection from the trough portion exceeding the combined length dimensions of the heads receivable in said portion, abutments at the conjunctions of said trough portion and trough extensions coactable with the heads engaged within the trough portion to inhibit axially-directed separation thereof, means fixedly restricting the lateral opening of the trough portion in overhanging relation with the abutment at the joinder of said trough portion and shorter trough extension effective to prevent release from the trough portion of a head bearing against the abutment in termination of a rod component traversing the shorter trough extension, and other means slidably and revolubly embracing the longer trough extension selectively manipulable to effect seated reception of a terminally-headed rod in the trough portion and associated longer extension, to accommodate lat option oscillation of the so-seated rod with attendant displacement of its head relative to the trough portion, and to latch the head of the so-seated rod in bearing engagement with the contiguous abutment interiorly of the trough portion.
2. The organization according to claim 1, wherein the elongated, rigid, coupler member is unitarily shaped from suitable material with smooth convergence of trough portion and trough extensions in a straight-line continuity of their lateral openings, and said abutments are lugs integrally intruded from the conjunctions of said trough portion and trough extensions to provide ends coactable with annular faces of the heads coplanar .at and transversely of each end of the trough portion opposed in a separation but slightly exceeding the combined lengths of the heads receivable therebetween.
3. The organization according to claim 1, wherein the elongated, rigid, coupler member is unitarily shaped from suitable material with smooth convergence of trough portion and trough extensions in a straight-line continuity of their lateral openings, said abutments are lugs integrally intruded from the conjunctions of said trough portion and trough extensions to provide ends coactable with annular faces of the heads coplanar at and transversely of each end of the trough portion, and the means fixedly restricting the lateral opening at one end of the trough portion consists of integral lips marginally of the trough portion convergent from opposite sides of the lateral opening of said portion over inner ends of the subjacent abutment in position to radially confine a head entered .to engagement with the associated abutment axially thereunder.
4. The organization according to claim 1, wherein the means manipulable along and about the longer trough extension is an interrupted, annular clip axially short in relation to the length of the associated trough extension cor related in frictional retention on said extension alternatively to fully uncover and to close over the lateral opening thereof in all dispositions longitudinally of the extension between a radial enlargement at the free outer end of the extension and the conjunction of the extension With the trough portion.
References Cited by the Examiner UNITED STATES PATENTS 946,594 1/10 Brock 287-413 1,458,811 6/ 2-3 Eckert 2871 1-3 1,536,738 5/25 Wirkkala 24-123.1 1,582,757 4/26 lines 287-113 1,620,985 3/27 Standlee 24123 1,997,430 4/ Peirce 24132 2,060,548 11/36 Bolling 287-113 3,092,408 6/63 Berman 287-113 CARL W. TOMLIN, Primary Examiner.

Claims (1)

1. A ROD COUPLER FOR DETACHABLY ENGAGING A TERMINALLYHEADED ROD TO AND AS A COALIGNED EXTENSION OF A LIKE HEADED PROJECTION CONVENTIONALLY TERMINATING A TIE-ROD HORIZONTALLY FIXED IN USE ASSOCIATION WITH A CONCRETE FORM, COMPRISNG AN ELONGATED, RIGID MEMBER FORMED WITH A LATERALLY-OPEN, CONCAVELY-BOTTOMED TROUGH PORTION ADAPTED TO RECEIVE AND CONFORMABLY SEAT IN CLOSELY-SPACED COAXIAL OPPOSITION THE HEAD OF SAID PROJECTION AND A TERMINAL HEAD OF SAID ROD, LATERALLY-OPEN, CONCAVELY-BOTTOMED TROUGH EXTENSIONS ALIGNED IN FIXED ENGAGEMENT WITH AN UNEQUAL OPPOSITE PORJECTION FROM THE ENDS OF SAID TROUGH POTION ADAPTED TO RECEIVE AND CONFORMABLY SEAT THE ROD COMPONENTS TERMINATED BY THE HEADS ACCOMMODATED IN SAID TROUGH PORTION, SAID TROUGH EXTENSIONS BEING RELATIVELY SHORTER AND LONGER IN LENGTHS OF PROJECTIONS FROM THE TROUGH PORTION EXCEEDING THE COMBINED LENGTH DIMENSIONS OF THE HEADS RECEIVABLE IN SAID PORTION, ABUTMENTS AT THE CONJUNCTIONS OF SAID TROUGH PORTION AND TROUGH EXTENSIONS COACTALE WITH THE HEADS ENGAGED WITHIN THE TROUGH PORTION TO INHIBIT AXIALLY-DIRECTED SEPARATION THEREOF, MEANS FIXEDLY RESTRICTING THE LATERAL OPENING OF THE TROUGH PORTION IN OVERHANGING RELATION WITH THE ABUTMENT AT THE JOINDER OF SAID TROUGH PORTION AND SHORTER TROUGH EXTENSION EFFECTIVE TO PREVENT RELEASE FROM THE TROUGH PORTION OF A HEAD BEARING AGAINS THE ABUTMENT IN TERMINATION OF A ROD COMMEANS SLIDABLY AND REVOLUBLY EMBRACING THE LONGER TROUGH MEANS SLIDABLY AND REVOLUBLY EMBRACING THE LONGER TROUGH EXTENSION SELECTIVELY MANIPULABLE TO EFFECT SEATED RECEPTION OF A TERMINALLY-HEADED ROD IN THE TROUGH PORTION AND ASSOCIATED LONGER EXTENSION, TO ACCOMMODATE AT OPTION OSCILLATION OF THE SO-SEATED ROD WITH ATTENDANT DISPLACEMENT OF ITS HEAD RELATIVE TO THE TROUGH PORTION, AND TO LATCH THE HEAD OF THE SO-SEATED ROD IN BEARING ENGAGEMENT WITH THE CONTIGUOUS ABUTMENT INTERIORLY OF THE TROUGH PORTION.
US191484A 1962-05-01 1962-05-01 Tie-rod coupler Expired - Lifetime US3203717A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3305254A (en) * 1964-05-04 1967-02-21 Gen Motors Corp Snap-in rod connector
DE3428134A1 (en) * 1984-07-31 1986-02-13 Alfred Teves GmbH & Co oHG, 5275 Bergneustadt Brake cable assembly fixing
DE4115658A1 (en) * 1991-05-14 1992-11-19 Teves Gmbh Alfred BRAKE CABLE FASTENING
DE29713354U1 (en) * 1997-07-26 1998-12-24 Glötzl, Gesellschaft für Baumeßtechnik mbH, 76287 Rheinstetten Pipe coupling, especially for drill pipe
WO2019089794A1 (en) * 2017-11-01 2019-05-09 Cetres Holdings, Llc Hydraulic expandable connector

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US946594A (en) * 1908-06-24 1910-01-18 William E Brock Turnbuckle or coupling.
US1458811A (en) * 1920-09-30 1923-06-12 R Thomas & Sons Co Insulator connector
US1536738A (en) * 1924-07-16 1925-05-05 Oscar A Wirkkala Bull hook
US1582757A (en) * 1924-11-15 1926-04-27 Jines Tillman Sucker rod
US1620985A (en) * 1924-10-21 1927-03-15 Paul Arbon & Company Combined socket and jar
US1997430A (en) * 1933-04-28 1935-04-09 Hubbard & Co Solderless connecter
US2060548A (en) * 1935-06-03 1936-11-10 Douglass T Bolling Rod coupling
US3092408A (en) * 1962-01-22 1963-06-04 Aarving Displays Inc Connection member for display racks

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US946594A (en) * 1908-06-24 1910-01-18 William E Brock Turnbuckle or coupling.
US1458811A (en) * 1920-09-30 1923-06-12 R Thomas & Sons Co Insulator connector
US1536738A (en) * 1924-07-16 1925-05-05 Oscar A Wirkkala Bull hook
US1620985A (en) * 1924-10-21 1927-03-15 Paul Arbon & Company Combined socket and jar
US1582757A (en) * 1924-11-15 1926-04-27 Jines Tillman Sucker rod
US1997430A (en) * 1933-04-28 1935-04-09 Hubbard & Co Solderless connecter
US2060548A (en) * 1935-06-03 1936-11-10 Douglass T Bolling Rod coupling
US3092408A (en) * 1962-01-22 1963-06-04 Aarving Displays Inc Connection member for display racks

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3305254A (en) * 1964-05-04 1967-02-21 Gen Motors Corp Snap-in rod connector
DE3428134A1 (en) * 1984-07-31 1986-02-13 Alfred Teves GmbH & Co oHG, 5275 Bergneustadt Brake cable assembly fixing
DE4115658A1 (en) * 1991-05-14 1992-11-19 Teves Gmbh Alfred BRAKE CABLE FASTENING
DE29713354U1 (en) * 1997-07-26 1998-12-24 Glötzl, Gesellschaft für Baumeßtechnik mbH, 76287 Rheinstetten Pipe coupling, especially for drill pipe
WO2019089794A1 (en) * 2017-11-01 2019-05-09 Cetres Holdings, Llc Hydraulic expandable connector
US11643804B2 (en) 2017-11-01 2023-05-09 Cetres Holdings, Llc Hydraulic expandable connector
US11643805B2 (en) 2017-11-01 2023-05-09 Cetres Holdings, Llc Hydraulic expandable connector

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