US1550348A - Machine eoe - Google Patents

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US1550348A
US1550348A US1550348DA US1550348A US 1550348 A US1550348 A US 1550348A US 1550348D A US1550348D A US 1550348DA US 1550348 A US1550348 A US 1550348A
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shaft
expanded metal
staple
cam
aug
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • B65B13/20Means for compressing or compacting bundles prior to bundling
    • 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
    • Y10T29/18Expanded metal making

Definitions

  • This invention relates to machines for tying bundles of expanded metal and the like; and is fully described in the following specification and shown in the drawings; in which:
  • Figure 1 and F igurelf together constitute a plan view of the machine
  • Fig. 2 and Fig. 2a together Viiorm a side elevation of the same;
  • Fig. 3 is a section of the drive on the line 3 3 of Fig. 2a; l
  • Fig. 4 is a longitudinal section oi the same on the line 4 of Fig. 3; y i
  • Fig. 5 is a transverse section on the line 5 oi' Fig. la;
  • Fig. G is a transverse section on the line 6 of Fig. 2; l
  • Fig. 7 is a partial transverse section on the line 7 of Fig. 1n; y j
  • Fig. 8 is partial longitudinal section on the line 8 of Fig. 7;
  • Figs. e, 10, 1i is, verse sections as of Fig. 2;
  • Fig. is a the Fig. 13;
  • Fig. 16 is an enlarged front elevation partly in section of the. stapling head as shown in Fig. 6;
  • Fig. 17 is a partial longitudinal section on the line 17 of Fig. 16 showing the wire Vfeeding mechanism; f
  • Fig. 18 and F ig. 18a together constitute a vertical section on the line 18 of Fig. 16;
  • Fig. 19 is a section" on the line 19 of Fig. 1S showing the operating parts of the stapling head;
  • Fig. 20 is an enlarged detailed view of the plunger and needles of Fig. 19;
  • Figs. 21; 22 and 23 are horizontal sections on the lines 21, 22 and 24 of Figs. 18 and 19;
  • Figs. 24 and' 2.5 are partial sections similar to Fig. 18, hut showing the parts of the stapling head in variouspositions during the operation of 'stapling; f
  • FIG. 13 and 14 are transshown by the dotted lines partial section on the line of accompanying* lshowing the operating head
  • FIGs. 26 and 27 are plan and front elevations respectively of the slider which grips the pile of expanded metal to he bundled;
  • Fig. 28 is a detail of the anvil about which y thestaple is formed; f
  • Figs. 29 and 30 are sections under lines 29 and 30 respectively of Fig. 16;
  • Fig. 3l is a front elevation of the shear for cutting the wire
  • Fig. 32 is a front elevation of the needles which protect the wire while passing through the pile of expanded metal;
  • Fig. 33 is a view similar to Fig. 16; but
  • Fig. 34 is an enlarged section on the line 34 oi' Fig. 33 showing the mechanism for gripping and twisting the wire;
  • Fig. 35 is a detailed side elevation of the wire gripping mechanism
  • Fig.l 36 is Va vertical section on the line 36 of Fig. 35;
  • Fig. 37 is a top plan view of the same.
  • Fig. 38 is a similar view showing the. circular guard and bar upon which the wire is bent removed; n
  • Fig. 39 is a horizontal section on the line -3301: Fig. 36;
  • Figs. 40, 41, 42 and 43 are perspective views of details of the grip mechanism
  • Fig. 44 is a horizontal section on the line 44-44 of Fig. 45;
  • Fig. 45 is a vertical section on the line 45-45 of Fig. 44; K f
  • - Fig. 46 is an enlarged vertical section similar'to Fig. 33 showing the staple passing through the pile of expanded metal and ready to be gripped by the gripping and twisting mechanism; f
  • Fig. 47 is a similar view staple twisted
  • Fig. 48 is a diagrannnatic view of the machine showing a number of pileso expanded metal thereon.
  • the embodiment illustrated comprises a main frame having end members 50 and 5l bolted to a base 52 which carries a horizontal table 53 in which slide the chains which feed the piles of expanded metal asy will later he explained.
  • the operations of the machine consists oi' forming two staples from straight pieces oi wire; passing these staples showing the over opposite edges of the pile B which lie beneath the operating head as shown in Fie. 46, and forcing at least one side 0f the staple through the pile, twisting the lower ends of said staples to secure the bundle, advancing the conveyor chains the desired distance between staples, and repeating the stapling operation the desired number of times on the bundle, when the machine is automatically stopped with the next pile of expanded metal sheets brought into position for the first stapling operation.
  • the drive shaft 5l is journallcd in suitable bearings and is driven by means of a gear 55, journalled thereon as shown in Fig. fland held between a ⁇ set eollar 56 and the gear 57 both of which are secured to the shaft 54.
  • Dent-al clutch teeth are formed on the hub 55- of the gear which are adapted to engage similar teeth on the face of the sliding clutch 5S which is keyed on the shaft 54.
  • the sliding clutch element 58 has a cam 60 formed thereon which is adapted to be engaged by a pin (il carried by a bell crank G2 which is pivotally mounted at G3.
  • This bell crank carries a roller 641 which rides upon the face of a cam G5 which lis carried by a shaft 00 as shown in Figs. la and 3,the latter being driven by a gear 57 which meshes with the gear 5'? on the shaft 54.
  • the gears 57 and 6T are ⁇ so proportioned that four revolutions of the shaft 5leause one revolution of the shaft 0G so that the depressed portion of the cam (55 is brought against the cam follower 6%, thereby permitting the spring (3S to force the pin 61 into the path of the cam G0 .so that on the next revolution the shaft 54 the cam 50 will be forced past the pin 61 thereby withdrawing the clutch element 58 and disengaging it from the driving member 55a.
  • Sha-ft 5st carries a mutilated or segmental gear G9 which meshes with they pinion 70 on the shaft T1, the segmental gear turning the pinion T0 through one complete revolution on each revolution of the shaftl 54.
  • These gears are also supplied with a Geneva gear attachment 72 which prevents the shaft T1 from turning except when driven by the segmental gear 69.
  • a bevel gear 73 on the 'A where they are picked up by the cleats shaft 71 drives the bevel gear 74 on the shaft '75, these shaft-s being liournalled in suitable b'earings.
  • The. shaft 75 carries two head sprockets 7G which drive two parallel conveyor chains 77 which slide in the angles 53a as shown in Fig. 5, these chains passing around tail-sprockets 7S as shown in Fig. 8.
  • 'lhe shaft T5 also carries sprockets 79 which drive a conveyor chain 80, the forward end passing over sprockets S1.
  • Links 92, 93 and 9st are pivotally connected at their ends to the outer ends of these links and levers 95, 90 and 97 which are keyed to shafts 9S, 99 and 100 respee tivelv, the latter being journalled in the main frame castings 50 and 51 as shown in Figs. 5 and
  • These shafts largely control the parts of the stapling head which acts to tie the bundle of expanded metal on one side, a similar set of shafts 98a, 99a and 100 controlling similar n'iechanism for ⁇ ying the opposite sides of the bundles.
  • Gears 101V ⁇ 102 and 103 carried by the shafts 9S, 99 and 100 mesh with similar gears 101 and 103 on the shafts 98a, 99a and 100.
  • the shaft 100 controls the bundle grip-- ping mechanism and has a lever ⁇ lll-l keyed thereon and to this is pivotally connected a link 105 the opposite end of which is pivotally connected to a bloeit 106 which is slidably mounted in a guideway 107 as shown in Fig. 22. p
  • a cut-ting tool 108 adjustably held thereon by a plate 108 and screws 108", as shown in Figs. 16 and 31, passes the end of the guide 109 shearing of'l the wire F which has pre-- viously been fed therethrough by a mechanism which will later be described.
  • a needle holding block 113 is also slide.- bly mounted in the guide-way 10'? and is operably connected to the shaft 99 by means of a link 113n and lever 113b which is secured to the shaft 99.
  • the block 113 as shown in Fig. 32 has a pair of grooved needles 114 secured thereto as by screws 1141. rlhese needles extend downwardly and are slidably mounted in grooves 114b in the block 106 (F ig.26). These needles have grooves 114C on their facing' sides as shown ,in Figs. 20 and 22 so as to permit a bar 115 on the lower end of the plunger 111 to pass therethrough.
  • the anvil 110 is pivotally mounted upon a pin 116 and is maintained in vthe position shown in Fig. 24 by means of ears 11T which bear against the back of the block 106.
  • the latter has a slot 118 27) which permits it to pass over the anvil 110 and two parallel slots 119 are formed on the back of the block which are so located that theyregister with the ears 11'?, thereby permitting the anvil 110 to swing about the pin 116 and out of the way of the plunger 1,11, when the block 106 has reached a point near the lowervend of its movement as shown in Fig. 25.
  • the needles 114 have been descending, iirstto complete the formation of a staple and second to guide the staple which they now surround on three sides through the meshes B of the metal in the bundle B as shown in Figs. 33 and 46.
  • the plunger 111 is moving down and continues to move ⁇ down until it presses the staple F upon the top ofthe bundle B as shown in Fig. 25.
  • the needles 114 then start to withdraw, exposing the lower ends of the staple F'. These ends then entend down between the jaws 120 and121 oftheV gripping mechanism (Figs. 34 and 46), which then close so as to grip these lower ends of the staple as will now be eX# plained.
  • the worm wheel shaft 124 (F ig. 16) has a worm wheel 125 lkeyed thereon which drives a worin 126 keyed on the vertical sleeve 127, the latter being journalled in sui-table bearings 123 and 126, and having an actuating rod 130 slidably mounted therein, the lower end of rthis rodcarrying pins Vwhich are slidable in the bi1'urcatedv end of t-he lever 132.
  • This lever is keyed to a shaft 133 which is provided with suitable bearings and has a cani follower arm 134 which carries a ⁇ circular cam follower 135 which rides upon the cam 136, (as shown in Fig.
  • the latter has a rounded head 136 which is placed between the rounded lower ends of the jaws 120 and 121, the latter being pivotally mounted on pins and 140 iixed inthe spaced projecting lugs 12'?au in which the sleeve 127 terminates.v V c' c v
  • This downward vmovement of the rounded -end 138 spreadsthe lower ends of these jaws, vcausing the upper shouldered ends to firmly F.
  • these vjaws are preferably supplied with steel gripping elements 120a and 121d which are secured to the jaws 120 and 121by means of screws 141 and 142. the circular guard 143 shown in Figs. 40
  • a bar 144 (Figs. 43 and 47) is secured to the jaw 120 and serves as an vabutment about which the wire staple is twisted, as will later be explained.
  • a spring 145 between the jaws 120 and 121 tends to hold the latter normally separated.l t

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)
  • Collation Of Sheets And Webs (AREA)

Description

Filed June 2 L E CURTIS lMACHINE! FOR TYING BUNDLES .OF EXPANDED METAL Aug-1 8, 1925.
Filed June 25, 1924 1111111111 l1 1 1, K. hm
L E' CURTIS MCHINE FOR TYING BNDLES OF EXPANDED METAL Aug. 18; 1925.
Aug. 1s, 1925. 1,550,348v
L. E. CURTIS 1IIIACHIINE FOR TYING BUNDLES OF EXPANDED METAL Filed Jun@` 2s, 1924 17 sheets-sheet s Aug. '18, 1925.
` 1,550,348 1,.. E. CURTIS l.
MACHINE FOR TYING BUNDLES OF EXPANDED METAL l Filed June 23, 1924 17 heebS-Sheet 4 m w1 w e l @9j/M@ M6936 Filed Junef'Z. 1924 L E CURTIS MACHINE FOR TYING BUNDLES OF EXPANDED vMETAL Aug. 18, 19.25. 1,550,348
|.. E. cuRls' muslims Fon TYING BUNDLES. oF EXPANDED msm.
Filed June' 23. 1924 17 Sheets-Sheet 6 Aug.4 1 8, 1925.
.| E. cuRTls HACHINE FOR TYING BUNDLES OF EXPANDED METAL Filed June 23,
HIHIIIIIII HIIIIIIII Aug. 1s, 192s. 1,550,348
L. E. CU RTlS MACHINE FOR TYING BUNDLES -OF EXPANDED METAL Filed Junev 25. 17 Sheets-Sheet 8.
Aug.' 18, i925. f y
L. E. CURTIS IIAQHINEl FOR TYNG BUNDLES EXPANDED METAL Filed June 2s. 1924.
17 Spee/ts-sneve't sA Aug. 18, 1925. n 1,550,348
L. E. CUR-ns HCHEINE FOR TYING BUNDLES OF EXPANDED METAL Filed June 23, 1924 17 Sheets-Sheet 1o Aug.4 18,1925. 1,550,348
. L. E. CURTIS MACHINE FOR TYING BUNDLES 0F EXPANDED METAL Filed June 23, 1924 17 Sheets-Sheet l Aug. 1s, 1925'. 1,550,348
' L. E. CURTIS `IIACHIINH`EOR TYING BUNDLES OF EXPANDED METAL riladau'neA 25,. 1924 1.7 sheets-sheet 1sl 1,550,348 L. E. cum'xs Y MACHINE FOR TYING BUNDLES OF EXPANDED METAL Filed June 23, 1924 17 ShBefSv-Shee' 14 Aug. 18, 1925.
Aug. 18, 1925..' l 1,550,348
- L. E. CURTIS uAcHmE pon T/YING BuNpLEs oF EXPANDED METAL I Filed June 25, 1924 17 Sheets-Sheet 15 ""mllum Aug; 1s, 192s. 1,550,348
L. E. CURTIS MACHINE FOR TYING BUNDLES OF EXYANDED METAL lFna@ June 2z. 1924 17 sheets-sheet 1e Aug. 18, 1925; 1,550,348
L. E. CURTIS MACHINE FOR TYING BUNDLES OIF BXPANDED METAL Filed June 23, 1924 17 Sheets-Sheet 17 Patented Aug. is, 1925.
UNITED STATESv n 1,550,348N n PATENT oFF-ICE..
LEVIS E. CRTIS, OF MILWAUKEE, WISCONSIN ASSIGNOR TO THE YOUNGSTOWN PRESSED STEEL CO'IVIPANY, A CORPORATION OF OHIO. i i
MACI-INE FOR TYING BUNDLES OF EXPANDED METAL.
Application filed .Tune 23, 1924. Serial` No. 721,814.
To all whom; it may concern! Be it known that L'Lnwis E. CURTIS; a citizen of the United States; residingat Mil waukee; in the county of Milwaukee and State of lVisconsin, have invented a new and useful improvement in itaohines for Tying Bundles of Expanded Metal; oil which the vfollowing is a specilication.
This invention relates to machines for tying bundles of expanded metal and the like; and is fully described in the following specification and shown in the drawings; in which:
Figure 1 and F igurelf" together constitute a plan view of the machine;
Fig. 2 and Fig. 2a together Viiorm a side elevation of the same;
Fig. 3 is a section of the drive on the line 3 3 of Fig. 2a; l
Fig. 4 is a longitudinal section oi the same on the line 4 of Fig. 3; y i
Fig. 5 is a transverse section on the line 5 oi' Fig. la;
Fig. G is a transverse section on the line 6 of Fig. 2; l
Fig. 7 is a partial transverse section on the line 7 of Fig. 1n; y j
Fig. 8 is partial longitudinal section on the line 8 of Fig. 7;
Figs. e, 10, 1i, is, verse sections as of Fig. 2;
Fig. is a the Fig. 13;
Fig. 16 is an enlarged front elevation partly in section of the. stapling head as shown in Fig. 6;
Fig. 17 is a partial longitudinal section on the line 17 of Fig. 16 showing the wire Vfeeding mechanism; f
Fig. 18 and F ig. 18a together constitute a vertical section on the line 18 of Fig. 16;
Fig. 19 is a section" on the line 19 of Fig. 1S showing the operating parts of the stapling head;
Fig. 20 is an enlarged detailed view of the plunger and needles of Fig. 19;
Figs. 21; 22 and 23 are horizontal sections on the lines 21, 22 and 24 of Figs. 18 and 19;
Figs. 24 and' 2.5 are partial sections similar to Fig. 18, hut showing the parts of the stapling head in variouspositions during the operation of 'stapling; f
13 and 14 are transshown by the dotted lines partial section on the line of accompanying* lshowing the operating head Figs. 26 and 27 are plan and front elevations respectively of the slider which grips the pile of expanded metal to he bundled;
Fig. 28 is a detail of the anvil about which y thestaple is formed; f
Figs. 29 and 30 are sections under lines 29 and 30 respectively of Fig. 16;
Fig. 3l is a front elevation of the shear for cutting the wire; Y
Fig. 32 is a front elevation of the needles which protect the wire while passing through the pile of expanded metal;
Fig. 33 is a view similar to Fig. 16; but
moved tostapling position; Y i
Fig. 34 is an enlarged section on the line 34 oi' Fig. 33 showing the mechanism for gripping and twisting the wire;
Fig. 35 is a detailed side elevation of the wire gripping mechanism; p
Fig.l 36 is Va vertical section on the line 36 of Fig. 35;
Fig. 37 is a top plan view of the same;
Fig. 38 is a similar view showing the. circular guard and bar upon which the wire is bent removed; n
Fig. 39 is a horizontal section on the line -3301: Fig. 36;
Figs. 40, 41, 42 and 43 are perspective views of details of the grip mechanism;
Fig. 44 is a horizontal section on the line 44-44 of Fig. 45;
Fig. 45 is a vertical section on the line 45-45 of Fig. 44; K f
- Fig. 46 is an enlarged vertical section similar'to Fig. 33 showing the staple passing through the pile of expanded metal and ready to be gripped by the gripping and twisting mechanism; f
Fig. 47 is a similar view staple twisted; and
Fig. 48 is a diagrannnatic view of the machine showing a number of pileso expanded metal thereon.
The embodiment illustrated comprises a main frame having end members 50 and 5l bolted to a base 52 which carries a horizontal table 53 in which slide the chains which feed the piles of expanded metal asy will later he explained.
Briefly, the operations of the machine consists oi' forming two staples from straight pieces oi wire; passing these staples showing the over opposite edges of the pile B which lie beneath the operating head as shown in Fie. 46, and forcing at least one side 0f the staple through the pile, twisting the lower ends of said staples to secure the bundle, advancing the conveyor chains the desired distance between staples, and repeating the stapling operation the desired number of times on the bundle, when the machine is automatically stopped with the next pile of expanded metal sheets brought into position for the first stapling operation.
Beginning now with the power drive and referring to Fig. 1, the drive shaft 5l is journallcd in suitable bearings and is driven by means of a gear 55, journalled thereon as shown in Fig. fland held between a` set eollar 56 and the gear 57 both of which are secured to the shaft 54. Dent-al clutch teeth are formed on the hub 55- of the gear which are adapted to engage similar teeth on the face of the sliding clutch 5S which is keyed on the shaft 54.
Springs 59 normally tend to hold the clutch elements in engagementf The sliding clutch element 58 has a cam 60 formed thereon which is adapted to be engaged by a pin (il carried by a bell crank G2 which is pivotally mounted at G3. This bell crank carries a roller 641 which rides upon the face of a cam G5 which lis carried by a shaft 00 as shown in Figs. la and 3,the latter being driven by a gear 57 which meshes with the gear 5'? on the shaft 54. The gears 57 and 6T are` so proportioned that four revolutions of the shaft 5leause one revolution of the shaft 0G so that the depressed portion of the cam (55 is brought against the cam follower 6%, thereby permitting the spring (3S to force the pin 61 into the path of the cam G0 .so that on the next revolution the shaft 54 the cam 50 will be forced past the pin 61 thereby withdrawing the clutch element 58 and disengaging it from the driving member 55a.
vWhile the drive gear is in operation, the operator grasps the lever GS as shown in Fig. 3 forcing it to the right and holding it in this position 'until theI springs 59 force the clutch element 58 into engagement with the teeth ou the hub of the gear 55.
The driving gear 55 will then drive thel shaft four complete revolutions when the cam G5 will automaticall): throw the clutch out of engagen'unt as hs been previously explained Sha-ft 5st carries a mutilated or segmental gear G9 which meshes with they pinion 70 on the shaft T1, the segmental gear turning the pinion T0 through one complete revolution on each revolution of the shaftl 54. These gears are also supplied with a Geneva gear attachment 72 which prevents the shaft T1 from turning except when driven by the segmental gear 69. A bevel gear 73 on the 'A where they are picked up by the cleats shaft 71 drives the bevel gear 74 on the shaft '75, these shaft-s being liournalled in suitable b'earings. The. shaft 75 carries two head sprockets 7G which drive two parallel conveyor chains 77 which slide in the angles 53a as shown in Fig. 5, these chains passing around tail-sprockets 7S as shown in Fig. 8. 'lhe shaft T5 also carries sprockets 79 which drive a conveyor chain 80, the forward end passing over sprockets S1.
'lheseconveyors receive piles of expanded metal which are placed on the conveyors at on chains 77, these cleats being spaced at predetermined intervals so as to maintain a proper distance betweenthe piles as shown by A, B, C, l), and E of Fig. lll, so ythat the bundling or tying operatie which will later be descriliied, will come at predetermined points in the length of the piles as they advance.
Referring again to Fig. 1a the shaft 54 nas keyed thereon a Geneva gear 82 meshing with a pinion 83 on the cam shaft Sil. These gears are so timed that they do not begin to operate until after the shaft 71 and the two conveyors just described have come to rest. lThis shaft, too is turned just one revolution before being brought to rest and carries a series of cams S5, 8G, and S7 as shown in Figs. 9, 10, and l1. The cams have cam followers 85a, 86 and 87a which are pivotally mounted on arms 88, 89 and 90 which are pivotally mounted at their inner ends on a rod 91. Links 92, 93 and 9st are pivotally connected at their ends to the outer ends of these links and levers 95, 90 and 97 which are keyed to shafts 9S, 99 and 100 respee tivelv, the latter being journalled in the main frame castings 50 and 51 as shown in Figs. 5 and These shafts largely control the parts of the stapling head which acts to tie the bundle of expanded metal on one side, a similar set of shafts 98a, 99a and 100 controlling similar n'iechanism for` ying the opposite sides of the bundles. Gears 101V` 102 and 103 carried by the shafts 9S, 99 and 100 mesh with similar gears 101 and 103 on the shafts 98a, 99a and 100.
Bundle (/rippag mec/www1.
The shaft 100 controls the bundle grip-- ping mechanism and has a lever `lll-l keyed thereon and to this is pivotally connected a link 105 the opposite end of which is pivotally connected to a bloeit 106 which is slidably mounted in a guideway 107 as shown in Fig. 22. p
As the block 106 starts down, a cut-ting tool 108 adjustably held thereon by a plate 108 and screws 108", as shown in Figs. 16 and 31, passes the end of the guide 109 shearing of'l the wire F which has pre-- viously been fed therethrough by a mechanism which will later be described. The
Tia'
lll() wire F as it is cut oif is held between the groove in the anvil 110 and the lower face of the plunger 111 which isslidably mounted in the block 106 and connected to the shaft 98 by means of aV connecting-link 112 and lever arm 112 which is secured to the shaft 98. The wire F is thus held between the plunger 111 and the anvil 110 while the block 106 descends until the anvil is swung out of theway, as shown in Fig.
Staple forming mechanism.
A needle holding block 113 is also slide.- bly mounted in the guide-way 10'? and is operably connected to the shaft 99 by means of a link 113n and lever 113b which is secured to the shaft 99. The block 113 as shown in Fig. 32 has a pair of grooved needles 114 secured thereto as by screws 1141. rlhese needles extend downwardly and are slidably mounted in grooves 114b in the block 106 (F ig.26). These needles have grooves 114C on their facing' sides as shown ,in Figs. 20 and 22 so as to permit a bar 115 on the lower end of the plunger 111 to pass therethrough.
, Tith the plunger 111 hoiding the wire F upon the anvil 110, they block 106 descends bending the ends of the wire .about the anvil 110 to forma staple passing through thev guide ways 1141 The needli` 114 then dcscend, the wire Fbeing forced into their grooves thus completing the formation of the U-shaped staple.
Staple setting mechanism.
The anvil 110 is pivotally mounted upon a pin 116 and is maintained in vthe position shown in Fig. 24 by means of ears 11T which bear against the back of the block 106. The latter, however, has a slot 118 27) which permits it to pass over the anvil 110 and two parallel slots 119 are formed on the back of the block which are so located that theyregister with the ears 11'?, thereby permitting the anvil 110 to swing about the pin 116 and out of the way of the plunger 1,11, when the block 106 has reached a point near the lowervend of its movement as shown in Fig. 25. V 1
During the descent of the block 106 and the wire plunger 111, the needles 114 have been descending, iirstto complete the formation of a staple and second to guide the staple which they now surround on three sides through the meshes B of the metal in the bundle B as shown in Figs. 33 and 46. At the'same time the plunger 111 is moving down and continues to move` down until it presses the staple F upon the top ofthe bundle B as shown in Fig. 25. The needles 114 then start to withdraw, exposing the lower ends of the staple F'. These ends then entend down between the jaws 120 and121 oftheV gripping mechanism (Figs. 34 and 46), which then close so as to grip these lower ends of the staple as will now be eX# plained.
Staple grippe/ig und twist-ng narco/infliger.
Referring now to Fig. 12, the Geneva gear 122 keyed lon the cam shaft S4 meshes with the pinion 123 on the worin wheel shaft 124. rFliese gears are so proportioned that the worm wheel sh aft 124 is turned two revolutions for each'revolution ofthe cam sha-ft 84. L
The worm wheel shaft 124 (F ig. 16) has a worm wheel 125 lkeyed thereon which drives a worin 126 keyed on the vertical sleeve 127, the latter being journalled in sui- table bearings 123 and 126, and having an actuating rod 130 slidably mounted therein, the lower end of rthis rodcarrying pins Vwhich are slidable in the bi1'urcatedv end of t-he lever 132. This lever is keyed to a shaft 133 which is provided with suitable bearings and has a cani follower arm 134 which carries a `circular cam follower 135 which rides upon the cam 136, (as shown in Fig. 14,) the latter being keyed upon the cam shaft 84. A spring 137 (Fig. 34) holds this cani follower against the face of the cam 136. As the cam shaft 84 revolves in a clockwise direction as shown in Fig. 14, the follower 135 drops oii the shoulder 136a ofA the cam 136, thereby permitting j the spring 137 to draw down the rod 130.
The latter has a rounded head 136 which is placed between the rounded lower ends of the jaws 120 and 121, the latter being pivotally mounted on pins and 140 iixed inthe spaced projecting lugs 12'?au in which the sleeve 127 terminates.v V c' c v This downward vmovement of the rounded -end 138 spreadsthe lower ends of these jaws, vcausing the upper shouldered ends to firmly F. As shown in Figs. 41 and 42, these vjaws are preferably supplied with steel gripping elements 120a and 121d which are secured to the jaws 120 and 121by means of screws 141 and 142. the circular guard 143 shown in Figs. 40
' and 46 throughwhich the ends of the staple 1+ pass.
A bar 144 (Figs. 43 and 47) is secured to the jaw 120 and serves as an vabutment about which the wire staple is twisted, as will later be explained. A spring 145 between the jaws 120 and 121 tends to hold the latter normally separated.l t
While the ends of the staple F are gripped by the jaws 120 and 121, the gear 122 turns y the pinion 123`and the shaft 124two cornple-te revolutions, thereby turning the gripping jaws one and one-half revolutions through the worm 126 and the worin wheel 125.l At the beginning of this twisting operation'the staple appears as shown in Fig.
grip the lower ends of the wire vstaple c The latter screws also retain
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2938452A (en) * 1958-03-31 1960-05-31 Wheeling Steel Corp Apparatus for bundling lath or the like
US3149557A (en) * 1962-06-11 1964-09-22 Johnson Co Gordon Wire feeding mechanism for bird tying machine

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2938452A (en) * 1958-03-31 1960-05-31 Wheeling Steel Corp Apparatus for bundling lath or the like
US3149557A (en) * 1962-06-11 1964-09-22 Johnson Co Gordon Wire feeding mechanism for bird tying machine

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