US2669009A - Oil cup assembly machine - Google Patents

Oil cup assembly machine Download PDF

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Publication number
US2669009A
US2669009A US140487A US14048750A US2669009A US 2669009 A US2669009 A US 2669009A US 140487 A US140487 A US 140487A US 14048750 A US14048750 A US 14048750A US 2669009 A US2669009 A US 2669009A
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Prior art keywords
spring
coil
cap
cup
nail
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US140487A
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Otte Henry
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Bowen Products Corp
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Bowen Products Corp
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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
    • F16NLUBRICATING
    • F16N21/00Conduits; Junctions; Fittings for lubrication apertures
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23PMETAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
    • B23P19/00Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes
    • 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
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49609Spring making
    • 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
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49799Providing transitory integral holding or handling portion
    • 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
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49826Assembling or joining
    • Y10T29/4984Retaining clearance for motion between assembled parts
    • Y10T29/49845Retaining clearance for motion between assembled parts by deforming interlock
    • Y10T29/4986Outwardly deforming internally fitted rod
    • 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
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49826Assembling or joining
    • Y10T29/49863Assembling or joining with prestressing of part
    • Y10T29/49874Prestressing rod, filament or strand
    • 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
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49826Assembling or joining
    • Y10T29/49947Assembling or joining by applying separate fastener
    • Y10T29/49954Fastener deformed after application
    • 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
    • Y10T29/00Metal working
    • Y10T29/51Plural diverse manufacturing apparatus including means for metal shaping or assembling
    • Y10T29/5191Assembly
    • 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
    • Y10T29/00Metal working
    • Y10T29/53Means to assemble or disassemble
    • Y10T29/53613Spring applier or remover
    • Y10T29/53622Helical spring

Definitions

  • This invention relates generally to an assembly process and machine for a spring loaded cap assembly and more particularly, but not exclusively, to a machine and process for assembling an oil cup and cap with a closure spring and for a'utomatically tensioning the spring to hold the cap securely, yet yieldably, in its closed position.
  • Oil cups of the general type to which the present invention is concerned are extensively used in very large quantities in multifarious machines, such as electric motors.
  • Prior to the present invention it has not been possible to produce these oil cup units on amass production basis, but instead they were assembled manually after separate manufacture of each of the component parts. Due to the relatively small dimensions of the various parts of theassembly, the necessity for tensioning of the spring during assembly and the number of operations required to assemble a single unit, the manual assembly operation is difficult, slow and relatively expensive.
  • one oil cup assembly unit which is frequently used includes a spring having a diameter approximately of an inch and an overall length of approximately of an inch. Previously, it was necessary to form the spring in a special operation. The cup, cap and preformed spring were then held manually in an assembled position and assembled with a retaining pin or nail while maintaining the spring under tension.
  • the spring is formed and assembled undertension with a cup and cap entirely and automatically by a machine. While the novel process disclosedherein may be carried out by various machines, it is preferred that the machine operate in a timed cycle wherein the variouscomponent parts are coordinated to provide several operations simultaneously and to complete the entire assembly cycle in a minimum time period.
  • an. indexing table having a plurality of cup receiving recesses adapted to receive a cup and a cap in assembled relation thereon prior to indexing of the table to the spring assembly station.
  • the end of the spring wire is provided with an engaging tip and the wire is then formed to provide a spring coil adjacent the tip.
  • the mills still attached to the unfinished supply of wire.
  • the spring is then moved by means of the unfinished wire into assembled relation with the cup and all) 2 cap, between the spaced depending tabs thereof, and secured in assembled relation with the cup and cap by an automatically inserted nail.
  • the tensioning of the spring is effected by A drawing on the unformed end of the spring wire While simultaneously holding the free end of the coil against rotation relative to the cap and cup.
  • a cutting tool in the machine then automatically severs the spring wire at a point spaced somewhat from the spring coil so as to provide a second engaging tip on the coil. At this point, the engaging tips engage the cap and cup respectively, so as to maintain the spring under the desired tension and normally hold the cap in its closed position.
  • the table then indexes to bring the assembled cup and cap unit to the spring wire trim and nail cutoli" station. At this station the last formed engaging tip on the spring coil is trimmed to make the end thereof substantially coincide with the top of the cap. Also, the end of the nail is pinched off and flared to secure the component parts in assembled relation.
  • the table then indexes a second time and the finished cup and cap assembly is removed from the table, such as by an air blast.
  • Feeding of the spring wire, both to effect the formation of the spring coil, and to position the spring coil within assembled relation with the cap and cup is effected by a pair of feed rollers.
  • a second pair of rollers is provided to retract the spring wire and thus effect tensioning of the spring coil.
  • Another object is to provide a method and machine of the above type in which the spring coil is formed and assembled with the cap and cup prior to severing the coil from the unformed spring wire so as to use the latter in positioning the coilin'assembled relation with the cap with provide a second engaging tip to maintain tent sion on the assembled spring.
  • Another object is to provide a a. plurality of feed rollers for the spring; wire which operates in timed relation with theothercomponent parts of the machine, which rollers automatically operate to f1w-h lf$ f against a forming tool to produce a spring coil,
  • Still another object of the invention is; to provide amachine having provisions-fortrim-min the engagingtip on the coil spring so that the latter doesnot extend-abovethe top--of--'the cap "when in operative engagement with the latter.
  • H Fig. 3 is a side elevation of the wireforming and feeding mechanism, lookingin thedirection of the arrows 3-3 of Fig.2. i.
  • Fig.4 is a side elevationalview-oftheindexing table and nail feeding mechanism, looking in the direction of. the arrows 4-4-01 Fig.- 2.
  • Fig. 5 is a fragmentary:perspective.view'ofthe assemblymachineof the present invention.
  • Fig. 6 is an elevational view, partly in section. showing the spring .wire feedingmechanis'm and coil spring forming mechanism.andalsoshowing a cap. and cup. positioned to receivethecoil spring being formed 'L 1F 'ig.
  • 7 is a sectional view showing'theguide fork for holding the cap andcup' assembled rela ion. .Fig.
  • FIG. 8 is an elevational view,'-'par'tl'y in section, showing the coil spring in assembled" relation with the cap and cup and also showing'the nail pick-.up arm just prior to insertion of thenail into. the aligned openings of the cap, cup and;
  • Fig. 9 is a fragmentary perspective view-showing the nail hopper.
  • v l Fig. ,10 is a fragmentary elevational .viewshowing theramasit initially .engagesthe naileto movethe same .intoassembled relation. 5
  • Fig.111 is asimilarjview-.-showing .the.ram.in it trating the nail cut-off operation and showing the severed portion of the nail in phantom.
  • the oil cup unit IS with which the present invention is concerned is shown particularly in Fig. 1 and comprises a, cup [Shaving a pair of spaced tabs I! provided with aligned openings 18; a cap l9 having a similar pair of spaced downwardly depending tabs 20 overlying the tabs 11 andprovided with openings 2
  • the assembly machine com-prises generally an indexing table 30 (see particularly Fig. 5) adapted to index a cup 16 and cap I! at the spring assembly station 3
  • a spring tensioning mechanism (Fig. 12) adapted to tensionQthe coil. spring 18 after the same is secured with the cup and cap; a-coil spring cut-,ofi mechanism 12! (Fig 2) 7 adapted to sever the coilspring l8 from the spring wire I9 after the tensioning operation of the tensioning mechanism llllir'a coil'spring trim and nail flaring mechanism I40 (Figs. 13and 14);, and an assembly objector I50 (Fig. 5) for automatically removing the finished units from the table.
  • the table 30 isannular and is rotatably supported on a supporting structure 32.
  • the table is driven from below by suitable mechanism (not shown) whichis housed within the supporting structure and which is adapted to revolve the table in im crements in timed relation to the operation of the other component parts of the machine.
  • caps and cups are positioned manually in the recesses 33 prior to indexing of the same to the spring assembly station.
  • hoppers or the like may be provided for both the caps and cups to permit completely automatic assembly of the oil cup unit -I 5.
  • the coil spring forming mechanism 40 is shown particularly in Fig. 6 and includes the feed rollers 4
  • the curling tool 45 in its down position is in the path of movement of the spring wire and forms a coil on the end of the wire in response to movement of the wire thereagainst.
  • the curling tool is also adapted to move out of the path of the wire after formation of the coil thereon to permit positioning of the coil spring in assembled relation with the cap and cup. Movement of the curling tool (it, as well as movement of the pin i5, and feed rollers H, is controlled in timed relation with the other component parts of the machine to give a continuous cyclic operation for the coil spring forming mechanism 43.
  • are journaled in a sunporting housing 31 and are operatively connected to a driving shaft (not shown) by the nuts 48.
  • the feed rollers 48 are controlled by a clutch mechanism (not shown) which is adapted to move the rollers into engagement with the spring wire during the coil forming operation (Figs. 2 and 6) and also during feeding of the formed coil spring 22 into assembled relation with the cap and cup (Fig. 8).
  • the guide bars 43 are secured to the support housing d? by the bolts 49 and each bar is provided with a corresponding arcuate portion 50 (Figs. 2, 5, 8 and 12) to permit extension of the guide slots between the forward portions of the feed rollers ii.
  • the pin is axially slidable in the plate 5i secured to the supporting housing 4'! and its movement is also controlled, timed and actuated by mechanism (not shown) within the supporting housing.
  • the pin 4-5 is adapted to extend beneath the spring wire prior to downward movement of the curling tool it at the beginning of the spring forming cycle and remains in the extended position until the formation of the coil spring is completed. It then automatically retracts, after the curling tool has raised, to permit forward feeding of the coil spring by the fee rollers 4
  • the curling tool 45 is vertically slidable in the supporting housing :31 and is guided by the rear surface of the cutoff fork i2l.
  • the bracket 52 is secured to the supporting housing 47 by the screws'53.
  • One side of the curling tool .4'5 is formed with an arcuate face 54 (Fig. 8) to permit free rotation of the engaging tip 23 of the coil spring 22 during formation of the coil..
  • the curling tool 46 may be of any suitable type, it is preferably provided with a vertical groove (not shown) into which the end of the wire being formed is adapted to extend. The groove preferably extends at a slight angle to the vertical to guide the spiral formation of the coil approximately 1 degree to the vertical,.depending upon the gage of the wire.
  • the coil spring positioning mechanism 60 includes, in addition to the feed rollers (it, the guide fork 6
  • the guide fork (ii is controlled in timed relation to the operation of the machine by suitable mechanism (not shown).
  • the coil spring supporting bar is controlled by suitable mechanism (not shown) through the linkage (it and cam wheel 65.
  • the nail feeding mechanism 8i) (Fig. 8) comprises the nail hopper 8! (see also Fig. 9) a nail pickup arm 82 adapted to extract a nail 25 from the hopper 3
  • (Fig. 2) ismounted on a bracket 8d secured to the angle support 85, which support is carried by the vertical shaft 86 on the supporting structure 32.
  • the nail hopper z'il (Fig. 9) comprises a pair of spaced plates and 88 forming a channel 89 therein adapted to receive a row of nails 25 and a retainer secured to the plates8'l and 38.
  • the channel 89 slidably receives the shank of the nails 25 and engages the heads thereof to maintain the nails in alignment.
  • One of the plates 8? has the lower end cut away to provide an opening 92 into which the nail pickup arm 82 is adapted to move.
  • the retainer 53 has an upper tab 93 which extends over the end of the channel and cooperates with the lower tab (it to retain the nails in the hopper. The nails are held by gravity against the tabs but are free to move upward in the channel when the nail pickup arm moves into operative position to extract the lowermost nail.
  • the nail pickup arm 82 (Figs. 2 and 8) is also carried by the angle support as and is both pivotal and axially movable relative thereto.
  • the movement of the arm 82 is controlled by a suitable cam mechanism the details of which form no part of the present invention and are, accordingly, not shown in the drawings.
  • the shaft 95 of the nail pickup arm is slidableaxially within the housing 96 to permit movement of the spring detent 97 into the hopper (dotted line position, Fig. 8) and out of the hopper after extraction of the nail 25 therefrom.
  • the shaft 95 of the arm is rotatably journaled to pivot the arm downwardly to position the nail in axial alignment with the openings in the tabs of the cap and cup and in the coil sprin (Fig. 10). After the ram movesthe nail partially into the opening, the shaft 95 moves aecegooe;
  • the nail ram 83 shown particularly in Figs. 4, 10 and 11 is horizontally slidable in the cylinder 94 on the supporting housing 32 in axial alignment withthe openings l8 and 2
  • the ram 83pis12 operative upon rotation of the nail pickup arm 82 to its lowered position and automatically retracts after the spring detent ill releases the nail and after the latter has been fully moved into its'assembled position with the cap, cup and coil'sprin'g.
  • "'Ihe'coil spring tensioning mechanism .109 (Fig. 12) includes the draw rollers It! which aresimilar'to the feed rollers 5
  • the draw rollers IOI are each journaled in the supporting housing ll and are connected to a driving shaft by the nuts [32.
  • Thedraw rollers are adapted to rotate in the directionof thearrows [04 (see Fig. 12) after the'nail 25 has been inserted by the nail feeding mechanism 80 to tension the spring 22.
  • the coil spring severing mechanism I20 (Fig. 2) comprises the cut-off fork. 12! having the guide arms I22 and a cutting edge 123 between. thearmson the rearward edge thereof.
  • the cut-off fork is adapted to move upwardly, shown particularly in Fig. 12 to cooperate-with the lower forward cutting surface I24 ofthe curling tool 46.
  • FIG. 5 The details of this mechanism are illustrated in Figs. 13-15 inclusive.
  • the: coil spring trimming operation is effected by a pair of vertically movable blades MI and M2.
  • blades are each slidably mounted on the supporting structure and are operatively coupled by'suitable linkage to a prime mover (not shown) in the machine and their operation is suitably coordinated with the other operations of the machine.
  • the nail severing mechanism is shown particularly in Fig. 14.
  • This mechanism includes a pair of ver tically movable cutting members I43 and I slidably mounted on the supporting structure and adapted to also operate in synchronism with the other parts of the machine to sever and flare the end of the nail 25.
  • the flared end of the nail shown particularly in Fig. 15, retains the .nail in assembled relation with the cap, cup and coil spring.
  • the severed portion of the nail 2 5- isshown in phantom in Fig. 15.
  • the oil cup unit ejector I58 (Figs. 2 and. 5) includes the U-shaped hose Hit having an open endpositioned above the oil cup assembly and having the other end extending into a receptacle I52.
  • the ejector also includes the air line I53 which is connected to a suitable source of fluid such as air under pressure (not shown).
  • the air under pressure is preferably controlled by a suitable valvebperatediin synchronism with the other.
  • the tension of the feed rollers land the draw rollers IDI on the spring wire 26 may be adjusted by the adjusting screw I30.
  • a stud I3! is pivotally secured at I32 to the supporting housing H, and extends through an arcua ate spring bar [33.
  • the ends ofthe spring bar engage bearing blocks I34 "which journal the upper rollers'lOl and ll and'which are vertically slidable in the support housing 41.
  • Axial movement of the screw [30 on the threaded stud I3l varies the tension on the blocks I34 and accordingly varies the tension between the pairs of rollers M and mi.
  • the coil spring is not severed from the unfinished spring wire until after the coil spring is tensioned.
  • the unfinished spring may be used to guide and position the coil spring in its assembled position with the cup and cap and may also be used to tension the coil spring after assembly.
  • the spring coil may easily and readily be handled in spite of the relatively small dimensions of the coil spring and a substantial savings in material is effected since the retracted spring wire may be utilized in the'next successive spring coil.
  • a savings of material is also effected in that a smaller nail may be used with the automatic nail severing and flaring mechanism than was possible when the assembly was performed manually. While, per unit, this savings may appear relatively small, when manufacturing oil cup units in very large quantities, savings of a fractional cent per unit is very advantageous and important.
  • the engaging tips .on the spring coil are automatically provided on the spring coil, which tips maintain the desired tension on the spring after complete assembly.
  • the first tip is formed by a cooperation between the draw rollers lfii, the curling tool 46 and the pin 45. After completion of one cycle of the machine, the draw rollers return the spring wire to a position wherein the tip thereof extends beneath the curling tool. The latter then moves downwardly, engaging the tip and bending the same around the pin 45.
  • the second tip is produced by severing the spring wire at a point spaced from the coil. The length of the tip is determined by the width of the cutting tool.
  • feed-rollers ll are used to feed the spring wire against the curling tool to form the spring coil and these rollers are also used to feed the spring coil into its assembled position with the cup and cap.
  • the same rollers could also be employed to tension the spring, if desired, in which case mechanism would be required to reverse the rotation thereof.
  • the curling tool 46 is used to form the initial engaging tip in cooperation'with the pin 45, to form the coil spring, and to sever the coil from the spring wire in cooperation with the cut-off fork-.
  • the cut-off fork I21 not only affects the final cut off of the coil spring, but also provides a guide slot to direct thecoil spring into assembled relation with the cup and cap.
  • the present machine and process makes it possible for a isingleoperation to produce'sever'al times the production which was possible using former manual methods.
  • the present machine and process produces an article which is far superior to articles produced by prior methods, due to uniformity of product and also due to the sensitive control which may be exercised over the various operations in the assembly.

Description

Feb. 16, 1954 TT 2,669,009
OIL CUP ASSEMBLY MACHINE Filed Jan. 25, 1950 3 Sheets-Sheet l INVENTOR. J H ENRY O'r'ra Feb. 16, 1954 H. OTTE 2,669,009
OIL CUP ASSEMBLY MACHINE Filed Jan. 25, 1950 5 Sheets-Sheet 2 I EYE-J7 40 I so 45 49 47 6| L 0(44 26 E2 49 lZl 45 INVENTOR.
H ENRY 0 1-1-5.
Feb. 16, 1954 QTTE 2,669,009
OIL CUP ASSEMBLY MACHINE Filed Jan. 25, 1950 3 Sheets-Sheet 5 INVENTOR. HENRY 0 1-11 Patented Feb. 16, 1954 OILCUP ASSEMBLY MACHINE Henry Otte, Detroit, Mich., assignor to Bowen Products Corporation, Ecorse, Mich., a corporation of Michigan Application January 25, 1950, Serial No. 140,487
2 Claims.
This invention relates generally to an assembly process and machine for a spring loaded cap assembly and more particularly, but not exclusively, to a machine and process for assembling an oil cup and cap with a closure spring and for a'utomatically tensioning the spring to hold the cap securely, yet yieldably, in its closed position.
Oil cups of the general type to which the present invention is concerned are extensively used in very large quantities in multifarious machines, such as electric motors. Prior to the present invention, it has not been possible to produce these oil cup units on amass production basis, but instead they were assembled manually after separate manufacture of each of the component parts. Due to the relatively small dimensions of the various parts of theassembly, the necessity for tensioning of the spring during assembly and the number of operations required to assemble a single unit, the manual assembly operation is difficult, slow and relatively expensive. ForeX- ample, one oil cup assembly unit which is frequently used includes a spring having a diameter approximately of an inch and an overall length of approximately of an inch. Previously, it was necessary to form the spring in a special operation. The cup, cap and preformed spring were then held manually in an assembled position and assembled with a retaining pin or nail while maintaining the spring under tension. The
many economic and operational disadvantages of such procedure should be apparent. I
In the present invention, the spring is formed and assembled undertension with a cup and cap entirely and automatically by a machine. While the novel process disclosedherein may be carried out by various machines, it is preferred that the machine operate in a timed cycle wherein the variouscomponent parts are coordinated to provide several operations simultaneously and to complete the entire assembly cycle in a minimum time period.
In the embodiment of the machine shown in the drawings, an. indexing table is provided having a plurality of cup receiving recesses adapted to receive a cup and a cap in assembled relation thereon prior to indexing of the table to the spring assembly station. In the beginning of the operation of the machine the end of the spring wire is provided with an engaging tip and the wire is then formed to provide a spring coil adjacent the tip. At this point, the mills still attached to the unfinished supply of wire. The spring is then moved by means of the unfinished wire into assembled relation with the cup and all) 2 cap, between the spaced depending tabs thereof, and secured in assembled relation with the cup and cap by an automatically inserted nail.-
The tensioning of the spring is effected by A drawing on the unformed end of the spring wire While simultaneously holding the free end of the coil against rotation relative to the cap and cup.
A cutting tool in the machine then automatically severs the spring wire at a point spaced somewhat from the spring coil so as to provide a second engaging tip on the coil. At this point, the engaging tips engage the cap and cup respectively, so as to maintain the spring under the desired tension and normally hold the cap in its closed position. I
The table then indexes to bring the assembled cup and cap unit to the spring wire trim and nail cutoli" station. At this station the last formed engaging tip on the spring coil is trimmed to make the end thereof substantially coincide with the top of the cap. Also, the end of the nail is pinched off and flared to secure the component parts in assembled relation.
The table then indexes a second time and the finished cup and cap assembly is removed from the table, such as by an air blast.
The latter operations have been described in timed relation to the same oil cup and cap unit. However, it should be understood that the operations at the various work stations of the machine are preferably performed simultaneously on different assembly units.
Feeding of the spring wire, both to effect the formation of the spring coil, and to position the spring coil within assembled relation with the cap and cup is effected by a pair of feed rollers. A second pair of rollers is provided to retract the spring wire and thus effect tensioning of the spring coil. These rollers engage opposite sides of the spring wire and are coordinated in operation with the operation of the other component parts of the machine.
It is, therefore, a primary object of this invention to provide a method and machine for automatically and mechanically assembling complete oil cup assemblyunits and for automatically forming the cap closure spring and for tensioning the same while in assembled relation thecap and cup.
Another object is to provide a method and machine of the above type in which the spring coil is formed and assembled with the cap and cup prior to severing the coil from the unformed spring wire so as to use the latter in positioning the coilin'assembled relation with the cap with provide a second engaging tip to maintain tent sion on the assembled spring.
Another object is to provide a a. plurality of feed rollers for the spring; wire which operates in timed relation with theothercomponent parts of the machine, which rollers automatically operate to f1w-h lf$ f against a forming tool to produce a spring coil,
to feed the formed spring coil into assembled po sition with the cap and cup, to draw on the spring wire after it is secured to the captandscup etc effectthe 'tensioning ot the coilsspring and-to return the spring wire to itsinitial-positionafter it has'been severed fromthe spring coils Still another object of the invention is; to provide amachine having provisions-fortrim-min the engagingtip on the coil spring so that the latter doesnot extend-abovethe top--of--'the cap "when in operative engagement with the latter.
.Another objectis-to provide-a means for flaring the end of the nail 'so'as to'secure the unit in assembled relation andalsoa means for automatically removing the finished oil cup-unit from the indexing table. Other objects of this invention will appear in the: 1 following description and appended claims, reference being had to the accompanying-prawings forming a part of this specificationwherein like reference. characters; designate cct-responding ipartstin the several.views-Les; ..:Fig. l is a-perspective view 'ofianbiLcup Hn-it assembled in the machine and in accordance with the process of the present invention. Fig. 2 is an end elevation at the machine embodying the features of the presentinventionand showing the two main parts of the machine some- .whatseparated fonclarity. H Fig. 3 is a side elevation of the wireforming and feeding mechanism, lookingin thedirection of the arrows 3-3 of Fig.2. i.
Fig.4 is a side elevationalview-oftheindexing table and nail feeding mechanism, looking in the direction of. the arrows 4-4-01 Fig.- 2. ,Fig. 5 is a fragmentary:perspective.view'ofthe assemblymachineof the present invention. y, Fig. 6 is an elevational view, partly in section. showing the spring .wire feedingmechanis'm and coil spring forming mechanism.andalsoshowing a cap. and cup. positioned to receivethecoil spring being formed 'L 1F 'ig. 7 is a sectional view showing'theguide fork for holding the cap andcup' assembled rela ion. .Fig. 8 is an elevational view,'-'par'tl'y in section, showing the coil spring in assembled" relation with the cap and cup and also showing'the nail pick-.up arm just prior to insertion of thenail into. the aligned openings of the cap, cup and;
spring. e
Fig. 9 is a fragmentary perspective view-showing the nail hopper. v l Fig. ,10 is a fragmentary elevational .viewshowing theramasit initially .engagesthe naileto movethe same .intoassembled relation. 5
Fig.111 is asimilarjview-.-showing .the.ram.in it trating the nail cut-off operation and showing the severed portion of the nail in phantom.
.WBefore explaining-the present invention in detail it is to be understood that the invention is not 'limited in its application to the details of construction and arrangement of parts illustratedin the accompanying drawings; since the invention is capableuof other embodiments andzof beingwpracticedj orcarried out in various ways. Also-it is to'be understood that the phraseology or-terminology employedherein is for the pure pose of description and notof limitation."
The oil cup unit IS with which the present invention is concerned is shown particularly in Fig. 1 and comprises a, cup [Shaving a pair of spaced tabs I! provided with aligned openings 18; a cap l9 having a similar pair of spaced downwardly depending tabs 20 overlying the tabs 11 andprovided with openings 2| in axialalignment'with the openings l8; a coil spring 22 having engaging tips 23 and 24 adapted to; engage a :portion of theca-p and, cup respectively tomaintain the spring; under tensionandresilientlyhold the cap 19 in closed position; and a" nail 25: extending through the openings l81and ,21; and the coil Spring 2- '5 .15..1 a
In the embodiment-i of the present invention shown in the drawings, the assembly machine com-prises generally an indexing table 30 (see particularly Fig. 5) adapted to index a cup 16 and cap I! at the spring assembly station 3| at'the beginning of each cycle of the machine; a coil spring forming mechanism Ml (Figxfi) adaptedto form acoil spring [Ben the end of the spring wire 26;- a coil spring positioning mechanism 60. (Fig. 6) adapted to move the coil spring into assembled relation with'the'capand cup and to align the axis of the coil with theopenings therein;. a nail feeding mechanism -(Fig. 8) adapted to pivotallysecure-the cap and cup and to assemble the-same with the coil spring |8; a spring tensioning mechanism (Fig. 12) adapted to tensionQthe coil. spring 18 after the same is secured with the cup and cap; a-coil spring cut-,ofi mechanism 12!) (Fig 2) 7 adapted to sever the coilspring l8 from the spring wire I9 after the tensioning operation of the tensioning mechanism llllir'a coil'spring trim and nail flaring mechanism I40 (Figs. 13and 14);, and an assembly objector I50 (Fig. 5) for automatically removing the finished units from the table. v e
As shown particularly in Figs. 2 and 5, the table 30 isannular and is rotatably supported on a supporting structure 32. The table is driven from below by suitable mechanism (not shown) whichis housed within the supporting structure and which is adapted to revolve the table in im crements in timed relation to the operation of the other component parts of the machine.
{llhetablen Ellis provided with a plurality of recesses-334mm. 6)". each adapted .to receive;'a
of the cup andcap extend.
In the modification shown herein, the caps and cups are positioned manually in the recesses 33 prior to indexing of the same to the spring assembly station. However, it should be understood that hoppers or the like may be provided for both the caps and cups to permit completely automatic assembly of the oil cup unit -I 5.
The coil spring forming mechanism 40 is shown particularly in Fig. 6 and includes the feed rollers 4| which are movable into and out of engagement with the spring wire 26 and, in the engaged position, are adapted to rotate in the direction indicated by the arrows 42 to feed the spring wire toward the indexing table the guide bars 63 providing a longitudinal guide slot 44 for the wire; a pin 45 movable in a horizontal plane and in a direction perpendicular to the direction of movement of the wire 25 and adapted to move under and engage the wire in the operative position thereof; and a curling tool 45 movable in a vertical plane, which plane is positioned to the right of the pin as viewed in Fig. 6 and is adapted to engage the projecting end of the spring wire to form, in cooperation with the pin 45, the engaging tip 23 on the coil spring The curling tool 45 in its down position is in the path of movement of the spring wire and forms a coil on the end of the wire in response to movement of the wire thereagainst. The curling tool is also adapted to move out of the path of the wire after formation of the coil thereon to permit positioning of the coil spring in assembled relation with the cap and cup. Movement of the curling tool (it, as well as movement of the pin i5, and feed rollers H, is controlled in timed relation with the other component parts of the machine to give a continuous cyclic operation for the coil spring forming mechanism 43.
The feed rollers 4| are journaled in a sunporting housing 31 and are operatively connected to a driving shaft (not shown) by the nuts 48. The feed rollers 48 are controlled by a clutch mechanism (not shown) which is adapted to move the rollers into engagement with the spring wire during the coil forming operation (Figs. 2 and 6) and also during feeding of the formed coil spring 22 into assembled relation with the cap and cup (Fig. 8).
The guide bars 43 are secured to the support housing d? by the bolts 49 and each bar is provided with a corresponding arcuate portion 50 (Figs. 2, 5, 8 and 12) to permit extension of the guide slots between the forward portions of the feed rollers ii.
The pin is axially slidable in the plate 5i secured to the supporting housing 4'! and its movement is also controlled, timed and actuated by mechanism (not shown) within the supporting housing. The pin 4-5 is adapted to extend beneath the spring wire prior to downward movement of the curling tool it at the beginning of the spring forming cycle and remains in the extended position until the formation of the coil spring is completed. It then automatically retracts, after the curling tool has raised, to permit forward feeding of the coil spring by the fee rollers 4|.
The curling tool 45 is vertically slidable in the supporting housing :31 and is guided by the rear surface of the cutoff fork i2l. The bracket 52 is secured to the supporting housing 47 by the screws'53. One side of the curling tool .4'5 is formed with an arcuate face 54 (Fig. 8) to permit free rotation of the engaging tip 23 of the coil spring 22 during formation of the coil.. While the curling tool 46 may be of any suitable type, it is preferably provided with a vertical groove (not shown) into which the end of the wire being formed is adapted to extend. The groove preferably extends at a slight angle to the vertical to guide the spiral formation of the coil approximately 1 degree to the vertical,.depending upon the gage of the wire.
The coil spring positioning mechanism 60 (Fig. 6) includes, in addition to the feed rollers (it, the guide fork 6| having the downward ex tension 82 (Fig. 2) slidably mounted for vertical movement in the bracket 63 for engaging opposite sides of the cap and cup carried by the indexing table 3d; the wire cut-off fork l2! which provides the coil guide slot I22; and the coil spring supporting bar 524 adapted to engage under and support the spring in assembled relation prior to insertion of the nail by the nail feeding mechanism iii. The guide fork (ii is controlled in timed relation to the operation of the machine by suitable mechanism (not shown). The coil spring supporting bar is controlled by suitable mechanism (not shown) through the linkage (it and cam wheel 65.
The nail feeding mechanism 8i) (Fig. 8) comprises the nail hopper 8! (see also Fig. 9) a nail pickup arm 82 adapted to extract a nail 25 from the hopper 3| during each cycle of the machine and position the same in axial alignment with the openings in the tabs I! and 2|] of the cap and cup and the coil spring 22; and a nail ram (Fig. 10) adapted to move the nail 25 into its assembled position.
The nail hopper 8| (Fig. 2) ismounted on a bracket 8d secured to the angle support 85, which support is carried by the vertical shaft 86 on the supporting structure 32. The nail hopper z'il (Fig. 9) comprises a pair of spaced plates and 88 forming a channel 89 therein adapted to receive a row of nails 25 and a retainer secured to the plates8'l and 38. The channel 89 slidably receives the shank of the nails 25 and engages the heads thereof to maintain the nails in alignment. One of the plates 8? has the lower end cut away to provide an opening 92 into which the nail pickup arm 82 is adapted to move.
The retainer 53 has an upper tab 93 which extends over the end of the channel and cooperates with the lower tab (it to retain the nails in the hopper. The nails are held by gravity against the tabs but are free to move upward in the channel when the nail pickup arm moves into operative position to extract the lowermost nail.
The nail pickup arm 82 (Figs. 2 and 8) is also carried by the angle support as and is both pivotal and axially movable relative thereto. The movement of the arm 82 is controlled by a suitable cam mechanism the details of which form no part of the present invention and are, accordingly, not shown in the drawings. As shown particularly in Figs. 2 and 5, the shaft 95 of the nail pickup arm is slidableaxially within the housing 96 to permit movement of the spring detent 97 into the hopper (dotted line position, Fig. 8) and out of the hopper after extraction of the nail 25 therefrom. The shaft 95 of the arm is rotatably journaled to pivot the arm downwardly to position the nail in axial alignment with the openings in the tabs of the cap and cup and in the coil sprin (Fig. 10). After the ram movesthe nail partially into the opening, the shaft 95 moves aecegooe;
axially outwardly relative '2 to "therhousing .9 6;: to
mechanism'form no part of the present invention, it is not shown or described herein;
' The nail ram 83, shown particularly in Figs. 4, 10 and 11 is horizontally slidable in the cylinder 94 on the supporting housing 32 in axial alignment withthe openings l8 and 2| of the oil cup unit and actuated and controlled by any suitable mechanism (not shown) which is timed to the other operations of the machine. The ram 83pis12 operative upon rotation of the nail pickup arm 82 to its lowered position and automatically retracts after the spring detent ill releases the nail and after the latter has been fully moved into its'assembled position with the cap, cup and coil'sprin'g.
"'Ihe'coil spring tensioning mechanism .109 (Fig. 12) includes the draw rollers It! which aresimilar'to the feed rollers 5|, being relatively movable into and out of operative engagement with the spring wire. The draw rollers IOI are each journaled in the supporting housing ll and are connected to a driving shaft by the nuts [32. Thedraw rollers are adapted to rotate in the directionof thearrows [04 (see Fig. 12) after the'nail 25 has been inserted by the nail feeding mechanism 80 to tension the spring 22.
The coil spring severing mechanism I20 (Fig. 2) comprises the cut-off fork. 12! having the guide arms I22 and a cutting edge 123 between. thearmson the rearward edge thereof. In operation, the cut-off fork is adapted to move upwardly, shown particularly in Fig. 12 to cooperate-with the lower forward cutting surface I24 ofthe curling tool 46.
'The coil spring trim and nail flaring mechanism [4|] (Fig. 14) is positioned on the supporting structure 32 at a subsequent station of the indexing table, relative to the assembly station, as
shown particularly in Fig. 5. The details of this mechanism are illustrated in Figs. 13-15 inclusive.
With particular reference to Figs. 13 and 14, the: coil spring trimming operation is effected by a pair of vertically movable blades MI and M2.
These blades are each slidably mounted on the supporting structure and are operatively coupled by'suitable linkage to a prime mover (not shown) in the machine and their operation is suitably coordinated with the other operations of the machine.
*The nail severing mechanism is shown particularly in Fig. 14. This mechanism includes a pair of ver tically movable cutting members I43 and I slidably mounted on the supporting structure and adapted to also operate in synchronism with the other parts of the machine to sever and flare the end of the nail 25. The flared end of the nail, shown particularly in Fig. 15, retains the .nail in assembled relation with the cap, cup and coil spring. The severed portion of the nail 2 5-isshown in phantom in Fig. 15.
.The oil cup unit ejector I58 (Figs. 2 and. 5) includes the U-shaped hose Hit having an open endpositioned above the oil cup assembly and having the other end extending into a receptacle I52. The ejector also includes the air line I53 which is connected to a suitable source of fluid such as air under pressure (not shown). The air under pressureis preferably controlled by a suitable valvebperatediin synchronism with the other.
operations" of the machina f The tension of the feed rollers land the draw rollers IDI on the spring wire 26 may be adjusted by the adjusting screw I30. As shown in Fig. 2, a stud I3! is pivotally secured at I32 to the supporting housing H, and extends through an arcua ate spring bar [33. The ends ofthe spring bar engage bearing blocks I34 "which journal the upper rollers'lOl and ll and'which are vertically slidable in the support housing 41. Axial movement of the screw [30 on the threaded stud I3l varies the tension on the blocks I34 and accordingly varies the tension between the pairs of rollers M and mi.
The coil spring is not severed from the unfinished spring wire until after the coil spring is tensioned. Thus, the unfinished spring may be used to guide and position the coil spring in its assembled position with the cup and cap and may also be used to tension the coil spring after assembly. In this'way, the spring coil may easily and readily be handled in spite of the relatively small dimensions of the coil spring and a substantial savings in material is effected since the retracted spring wire may be utilized in the'next successive spring coil.
A savings of material is also effected in that a smaller nail may be used with the automatic nail severing and flaring mechanism than was possible when the assembly was performed manually. While, per unit, this savings may appear relatively small, when manufacturing oil cup units in very large quantities, savings of a fractional cent per unit is very advantageous and important.
The engaging tips .on the spring coil are automatically provided on the spring coil, which tips maintain the desired tension on the spring after complete assembly. The first tip is formed by a cooperation between the draw rollers lfii, the curling tool 46 and the pin 45. After completion of one cycle of the machine, the draw rollers return the spring wire to a position wherein the tip thereof extends beneath the curling tool. The latter then moves downwardly, engaging the tip and bending the same around the pin 45. The second tip is produced by severing the spring wire at a point spaced from the coil. The length of the tip is determined by the width of the cutting tool.
It should be noted that in the particular emv bodiment of the invention disclosed herein, several elements or parts are employed to accomplish a plurality of operations so as to provide both efficiency and economy in manufacture and operation. The feed-rollers ll are used to feed the spring wire against the curling tool to form the spring coil and these rollers are also used to feed the spring coil into its assembled position with the cup and cap. The same rollers could also be employed to tension the spring, if desired, in which case mechanism would be required to reverse the rotation thereof.
The curling tool 46 is used to form the initial engaging tip in cooperation'with the pin 45, to form the coil spring, and to sever the coil from the spring wire in cooperation with the cut-off fork-.
The cut-off fork I21 not only affects the final cut off of the coil spring, but also provides a guide slot to direct thecoil spring into assembled relation with the cup and cap.
It should be apparent from the foregoing that the present machine and process makes it possible for a isingleoperation to produce'sever'al times the production which was possible using former manual methods. The present machine and process produces an article which is far superior to articles produced by prior methods, due to uniformity of product and also due to the sensitive control which may be exercised over the various operations in the assembly.
Havingjthus described my invention, I claim:
1. In af process for assembling oil cups having a cap hinged to a cup and resiliently held in closed position thereon, the novel steps of forming a spring coil on the spring wire spaced from the free'end thereof to provide an engaging tip on the free end, positioning the spring coil in axial alignment with the axis about which the cap is hinged, inserting a pin through said spring coil to secure said spring to said cap and cup, drawing on said unformed spring wire while said engaging tip is in engagement with said assembly to tension said spring and severing said spring wire at a point spaced from said coil to provide an engaging tip engaging said cap to hold said coil spring under tension and to yieldably hold said cap in closed position on said cup.
2. In a process for assembling oil cups having a cap hinged to a cup and resiliently held in closed position thereon, the novel steps of forming a coil on the spring wire spaced from the free end thereof to provide an engaging tip on the free end, positioning the spring coil in axial align- -ment with the axis about which the cap is hinged,
inserting a nail through said spring coil to secure said spring to said cap and cup, drawing on said unformed spring wire while said engaging tip is in engagement with said assembly to tension said spring, severing said spring wire at a point spaced from said coil to provide an engaging tip engaging said cap to hold said coil spring under tension and to yieldably hold said cap in closed position on said cup, and thereafter flaring the end of said nail to secure the component parts in assembled relation.
HENRY OTTE.
References Cited in the file of this patent UNITED STATES PATENTS
US140487A 1950-01-25 1950-01-25 Oil cup assembly machine Expired - Lifetime US2669009A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3708859A (en) * 1971-02-16 1973-01-09 R Bitney Method for assembling spring-biased hinge pin unit

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1050363A (en) * 1911-01-30 1913-01-14 American Steel & Wire Co Apparatus for coiling and bending helical springs.
US1531243A (en) * 1922-06-15 1925-03-24 Bowen Products Corp Oil cup
US1540435A (en) * 1924-04-30 1925-06-02 William A Tebo Means for mounting a bushing or the like in an opening
US1644137A (en) * 1922-07-14 1927-10-04 Charles E Linebarger Oil cup
US2052356A (en) * 1933-07-03 1936-08-25 Lubrication Corp Assembly machine
US2084411A (en) * 1936-05-29 1937-06-22 George F Robarge Assembly machine and method
US2270300A (en) * 1939-04-12 1942-01-20 American Can Co Machine for assembling spouts to containers
US2276579A (en) * 1940-08-24 1942-03-17 Torrington Mfg Co Spring coiling machine

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1050363A (en) * 1911-01-30 1913-01-14 American Steel & Wire Co Apparatus for coiling and bending helical springs.
US1531243A (en) * 1922-06-15 1925-03-24 Bowen Products Corp Oil cup
US1644137A (en) * 1922-07-14 1927-10-04 Charles E Linebarger Oil cup
US1540435A (en) * 1924-04-30 1925-06-02 William A Tebo Means for mounting a bushing or the like in an opening
US2052356A (en) * 1933-07-03 1936-08-25 Lubrication Corp Assembly machine
US2084411A (en) * 1936-05-29 1937-06-22 George F Robarge Assembly machine and method
US2270300A (en) * 1939-04-12 1942-01-20 American Can Co Machine for assembling spouts to containers
US2276579A (en) * 1940-08-24 1942-03-17 Torrington Mfg Co Spring coiling machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3708859A (en) * 1971-02-16 1973-01-09 R Bitney Method for assembling spring-biased hinge pin unit

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