US2689375A - Apparatus for casting soles on shoes - Google Patents

Apparatus for casting soles on shoes Download PDF

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Publication number
US2689375A
US2689375A US192011A US19201150A US2689375A US 2689375 A US2689375 A US 2689375A US 192011 A US192011 A US 192011A US 19201150 A US19201150 A US 19201150A US 2689375 A US2689375 A US 2689375A
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United States
Prior art keywords
mold
latex
last
sole
shoe
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US192011A
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English (en)
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Richard H Hugger
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Uniroyal Inc
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United States Rubber Co
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Priority to US192011A priority Critical patent/US2689375A/en
Priority to ES0200125A priority patent/ES200125A1/es
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D35/00Producing footwear
    • B29D35/0054Producing footwear by compression moulding, vulcanising or the like; Apparatus therefor
    • B29D35/0063Moulds
    • B29D35/0072Last constructions; Mountings therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D35/00Producing footwear
    • B29D35/06Producing footwear having soles or heels formed and joined on to preformed uppers using a moulding technique, e.g. by injection moulding, pressing and vulcanising
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29KINDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
    • B29K2021/00Use of unspecified rubbers as moulding material

Definitions

  • This invention relates to an improved. shoe, and the improved method and apparatus. for
  • rubber composition soles have been formed on the bottom of lasted shoe uppers by molding processes, in which the upper was sealed against the rigid rim of a metal mold by forcing the bottom of the upper in. contact with the rim.
  • a closed mold was used to mold the charge ofrubber composition into a properly shaped shoe sole. Air was trapped inthe closed system and unless it was discharged prior to the vulcanization of the sole, which was carried out in the mold, the air caused voids or blisters to be formed. in the vulcanized sole.
  • a foxing integral with the outsole may be formed on the upper depending upon the distance the upper is lowered into the mold cavity. After the latex has gelled, the shoe is removed from the mold and the outsole is dried and vulcanized, which may occur simultaneously.
  • Fig. 1 illustrates the conventional method of lasting a shoe upper over an insole to which an outsole isapplied. in accordance with thisinvention
  • Fig. 2 is a perspective view of. the novel apparatus for casting a rubber composition sole onto the conventionally lasted shoe upper, which is being held above the casting position;
  • Fig. 3 is a side elevation. of the apparatus illustrated in Fig. 2,, but. showing some-of the parts in cross-section and with the shoe upper lowered into the gelable latex which is being cast onto the bottom of the upper, or outsole foundation;
  • Fig. 4 is a top plan view of a detail of the mechanism for adjusting the mold support in. a horizontal plane;
  • Fig. 5 is an elevationalview, partly in. section, of the adjusting mechanism shown in Fig. 4, taken on line. 5-5, and. looking. in the direction of the arrows;
  • Fig. 6 is atransverse cross-section through the toe portion of, the shoe andthe mold in the casting position shown in. Fig. 3, and, in which the last is shown in full frontelevation;
  • Fig. 7 is a. vertical longitudinal cross-section of, the elements shown in; Fig. 6, excepting the last is shown in side elevation;
  • Fig. 8 is a perspective view; partly in section, of the improved shoe: made inaccordance with this invention and by the. use of the apparatus illustrated in the. foregoing figures of the drawings;
  • Fig. 9 is a. longitudinalcross-section of a shoe and mold for making a modified: form of outsole, which is provided; with a raised heel; and
  • Fig. 10 is a side elevational view of the shoe made by means of the last and mold shown in Fig. 9.
  • Shoe manufactured: in accordance with this invention are illustrated in Figs. 8 and 110, and theremaining figures ofth'e drawings illustrate the method and apparatus used in the manufacture of the shoes.
  • the shoe I5 has. the appearance of a conventional tennis shoe. It comprises-a canvas upper I6i having its bottom edge I! lasted a conventional manner over an. insole. Ill;v to which the lower edge. I1 is adhered.
  • the bottom; of the upper I6 and the insole I8 forms an outsole foundation onto which I the outsole I9 is cast directly from a gelable latex.
  • the shoe is provided with a foxing 20, which is cast integrally with the outsole E9.
  • the foxing is provided to protect the bottom of the upper 16 from wear, and to strengthen the union between the sole and the upper; however, the foxing 20 may be omitted if desired.
  • a very good bond is formed between the cast outsole l9 and the upper by the penetration of the liquid latex into the interstices of the upper prior to the gelling of the latex.
  • the outsole foundation is made sufficiently rigid to resist the shrinkage of the deposited latex after being dried.
  • the insole I8 is relatively stiff, and it is also provided with perforations 2
  • the perforationsjl also operate to prevent blisters, or air pockets from forming between the outsole and the insole.
  • the latex After the latex has been dried and vulcanized, it contains tension strains due to the shrinkage of the wet gelled rubber composition.
  • the outsole l9 and foxing 2e In order to compensate for the shrinkage of the outsole l9 and foxing 2e, they are cast into a slightly different shape than the final desired shape of the shoe after vulcanization, and the induced tension strains in the dried and vulcanized outsole and foxing draws these members into the desired conventional shape.
  • the outsole as cast is provided with a convex tread surface for the purpose of relieving the subsequent shrinkage stresses to the extent required to prevent them from pulling the sole into an improper shape.
  • the stresses due to shrinkage are relieved by the curvature of the convex surface becoming, flatter and without any substantial change in the vertically projected area of the sole.
  • the unconfined surface of liquid latex comes to a level around the edge of the upper and forms a straight foxing line, The foxing is thinner than the outsole, and a greater portion of its contractive force due to shrinkage is resisted by the upper material.
  • the foxing shrinks to some extent and draws the toe portion of the shoe upwardly.
  • the longitudinal curvature of the shoe sole tread, as cast, may be so controlled that the downward shrinkage pull of the tread surface and the upward shrinkage pull of the foxing results in providing the shoe sole, and the foxing to some extent, with an upward curvature at the toe which gives the shoe toe spring.
  • the outsole l9 may be cast with a substantially flat bottom as shown in Fig. 8, or it may be provided with a raised heel 22 as illustrated in Fig. 10. In either case the cast outsole may be provided with an upwardly curved toe portion 23, which provides the usual toe spring to the shoe.
  • the upper 16 may be lasted in a conventional manner, in which the insole I8 is placed upon the bottom of a last 24, and an assembled upper I6 is slipped over thev last. Its bottom edge I! is turned over and cemented to the bottom of the insole IS.
  • the last 24 with the upper thereon is then removed from the stand 25 and aflixed to a jig 26 for manipulating the last so that it may be moved accurately downwardly into, and upwardly out of a mold cavity 2'! of a the mold cavity.
  • a lubricant for most efiicient operation of the process, the walls of the mold cavity are coated with a liquid, hereinafter referred to as a lubricant, and liquid gelable latex 29 is then poured
  • the lubricant prevents into the mold cavity. the latex from sticking to the cavity, and acts as a wetting agent for the latex.
  • a suitable mold lubricant for this purpose is the sodium salt of di-octyl ester of sulfo succinic acid, preferably mixed with gasoline in the proportion respectively of 100 to 315 parts by weight. Such lubricant also inhibits synaeresis of the latex which sometimes causes the fabric upper to be stained.
  • This lubricant is sufficient for four casting operations.
  • the lasted shoe upper I6 is lowered into the latex 29 and suspended therein in spaced relation to the walls of the mold cavity, as shown in Fig. 3, to form a space between the lasted upper and the walls of the cavity for the gelable latex.
  • the latex is cast onto the bottom of the lasted upper which forms the outsole foundation.
  • the volume of latex poured into the open mold cavity 21 is selected to produce an outsole of the desired thickness, and a foxing of the desired height when the bottom of the upper has been lowered to a certain level in the mold cavity 21 and preferably when the latex is forced to the level of the upper rim 3! of the cavity, such rim preferably being located in a horizontal plane.
  • the latex 29 is compounded with curing agents prior to adding the gelling agent, which latter is done immediately prior to pouring thelatex into A sufficient quantity of the gelling agent is added to cause the latex to gel quickly at a room temperature of about 70 F.
  • the lasted upper it with the gelled latex outsole i9 and foxing 2E3 adhered thereto are raised upwardly out of the mold cavity 2'5.
  • the sidewalls 3! of the mold 28 overhang the mold cavity, they aremade of flexible elastic material having a relatively low modulus of elasticity, such as soft elastic rubber, so that the side walls may be spread outwardly by the gelled latex without injury to the foxing and outsole.
  • the overhanging portions of the sidewalls 3i may result from their inward inclination to the top rim or from indentations formed therein to produce decorative surfaces on the sides of the outsole sole and foxing.
  • the last 24 is removed from the jig 2t, and it together with the lasted upper E5 and cast latex sole l9 thereon are passed through a vulcanizer, where the cast latex sole and foxing are simultaneously dried and vulcanized, preferably at a temperature of about 270 F. for minutes.
  • a vulcanizer where the cast latex sole and foxing are simultaneously dried and vulcanized, preferably at a temperature of about 270 F. for minutes.
  • tension strains are set up in the sole and foxi-ng due to the tendency of the gelled rubber composition to shrink.
  • the shoe I is removed from the last 24, and the tension strains in the rubber composition causes a change in the shape of the sole and foxing.
  • the change of shape is resisted by the stiifness of the outsole foundation including the bottom ofthe upper 16 and the insole I58, however, some change in shape takes place.
  • This invention is notlimited to a definite compound of gelable latex, and maybe varied for special conditions and results desired.
  • the compound may-be composed of components A, B, C, and D; in which all parts are by Weight, and where:
  • A is a 68% ammonia preserved concentrated natural rubber latex deammoniated with formaldehyde, and restabilized by the addition of 0.1 part ammonia and .045 part potassium hydroxide per 100 parts dry weight of rubber latex.
  • B is a conventional curing paste containing:
  • C is water.
  • D is a gelling agent per U. S. Patent 2,343,545, and containing:
  • A is mixed with 15.3 parts of B and then 39.7 parts of C are stirred into the mixture of A and B.
  • the mixture of A,.B and C is allowed to stand from 36 to 48 hours to deaerate and partially vulcanize the latex before adding the component D (the gelling agent).
  • the partial vulcanization is carried to the extent of chemically combining 0.05 parts of the sulphur in the latex compound.
  • the mixture of A, B and C' is mixed with the component D in the proportion of 150 grams of the mixture A, B and C to 5.8 cc. of component D.
  • the setting or gelling of the latex may be accomplished by the use of gelling agents other than sodium silicofluoride.
  • gelling agents other than sodium silicofluoride.
  • potassium silicofluoride, polyvinyl methyl ether and an acid, ammonium nitrate, etc. may be used.
  • a temperature of 95 F. or higher is required to set or gel the latex, where potassium silicofiuoride is used.
  • the period of time required for the latex to gelor set may be decreased by increasing the proportion of the gelling agent or by increasing the temperature of the latex for any selected gelling agent; It is also contemplated that the setting time of the latex may be decreased for a given proportion of the gelling agentused in the latex by either heating the mold 28 or the lasted upper I6, or both to raise the temperature of the latex after it has been poured in the mold. It is preferable to heat the lasted upper either by heating the last 24' prior to lasting the upper 16 thereon, or by heating the last 24: after thelasting operation and immediately before lowering the upper into the latex, because the accelerated gelling action due to the supplied heat will not be effective until the lasted upper is placed in position in the mold cavity.
  • the heating of the mold may be avoided, and the subsequent cooling of the mold prior to placing the gelable latex therein may also be avoided,
  • the heating of the shoe upper has the further advantage of quickly gelling the latex so as to prevent the staining of a fabric shoe upper due to the capillary attraction of the fabric of the latex, which causes it to rise above the level of the sole or foxing.
  • the staining of the fabric by the travel of the latex above the level line may be prevented-by thinly coating the bottom of the lasted upper i6 and the bottom edge of the upper to the height of the top of the foxing line with a latex cement, which is compounded with wetting agents and commonlyused for adhering unvulcanized rubber parts to fabric.
  • the cement is permitted to dry but not to be vulcanized prior to placing the bottom of the shoe upper in the mold cavity 21'. If the last is heated to accelerate the setting period of the latex in the mold cavity and a latex cement is also used, the latex cement should have a vulicanizing temperature above that to which the upper is heated.
  • the application of heat to the gelable latex in the mold has; the further advantage of permitting the gelling agent to be added to latex in bulk and held available for pouring into the mold as required. In such, case it is necessary to hold the gelable latex at a temperature below the active temperature of the gelling agent.
  • the sole of rubber coagulum. may be treated at temperatures higher than 220 F. to concurrently dry and vulcanize it.
  • a rubber sole deposited from latex compounded in accordance with the preceding specific example was completely dried and vulcanized Within minutes in. an oven through which. air was circulated at 270 F.
  • the thickness. of the dried sole was 0.120 to 0.125 inch. A longer time would be required for thicker soles.
  • the last 24 as shown in Figs. 6 and '7 is provided with a decidedly convex bottom 33, thatis, itsbottom surface is curved both transversely, and longitudinally from heel to toe-
  • the mold 281 isprovided with a correspondingly shaped. bottom surface 34.
  • the border of the convex. surface 33 of the last 24 lies in one. plane 35..
  • the borders of. the concave curvature of the bottom 34 of. the mold. 28, also lie in one plane, which. isparallel to the. plane 35 of thebordersof the curvature of the last 24.
  • insole l8.is,p referably astedto the curvature 33 of the last 24', so that a uniform thickness of rubber will be deposited between the insole and the bottom 34 of the cavity 2'! to form the outsole 59.
  • the foregoing construction causes the bottom surface of the outsole l9 to be cast with the convex curvature and of uniform thickness. When such curvature of the surface contracts after the shoe i is removed from the last, the convex surface decreases in area, and therefore flattens out and tries to assume a flat surface in response to the tension strains.
  • the initial convexity given the outsole is sulficient to allow the shrinkage of the surface of the bottom of the outsole to take place to relieve some of the tension strains and to allow them to be balanced or come into equilibrium with the resistance of the outsole foundation when the shoe has obtained its proper final shape.
  • the jig 26 for manipulating the last 24 and the mold 28 is provided with an overhanging arm 38, to which the last is attached by means of a hand wheel 39.
  • the hand wheel 39 is affixed to a stem 40, which is rotatably mounted in the arm 38 and held against removal by a screw 4
  • the stem to is provided with a threaded end 43, which screws into a threaded bore in a cap 44 which is attached to the last 24 by the screws 45.
  • Pins 45 secured in the arm 38 extend into bores in the top plate 44 of the last and locate the last in a fixed position in reference to the arm 38.
  • the arm 33 is carried by a vertically movable slide 46, which is slidably mounted on guide rods 4
  • the slide 45 is actuated by a screw 43 mounted on a block 49 and operated by hand wheel 59 mounted on the stem 5! of the screw.
  • the block 49 is affixed to a shaft 52, and the previously described system which is carried thereby is pivoted in a fixed journal 53 into which the round ends 54' of the shaft 52 are mounted.
  • an operating arm 54 is attached to the shaft 52 and is adapted to pivot the last 24 in a vertical plane about the axis of the shaft.
  • a latch 55 is slidably mounted on the operating arm 54, and it is provided with a detent 56 which is adapted to engage notches 51 in a fixed are 53, which is secured to the frame 59 of the jig.
  • the latch 55 is spring-pressed by a spring 59 held under compression between the latch guide 60 and a pin 6! secured to the latch 55.
  • a handle 62 is attached to the operating arm 54, and a handle 63 is attached to the latch 55. Both handles are placed adjacent to each other so that the latch detent 56 may be withdrawn from the notches 51 by the operators hand which grips the handle 62 to operate the arm 54.
  • the downward movement of the arm 54 is limited by an adjustable screw stop 64, which abuts against the stationary bed plate 65, of the jig 26.
  • the stop 64 is threaded into a bracket 66 attached to the arm 54.
  • the lower position of the arm 54 is adjustable to change the angularity of the plane 31 of the last 24 longitudinally, or in the heel to toe direction with respect to the plane of the mold rim 39. Such adjustment is made by the thumb nut 61 which is attached to the stem of the screw stop 64.
  • the stop 64 is also provided with a lock nut 68 which locks it in any adjusted position.
  • the transverse angularity of the plane 31 of the last to the plane of the mold rim 30 is also adjustable by two set screws 69, one in each of the ears IE! on each side of the slide block 46.
  • the overhanging last supporting arm 38 is pivotally attached to the block 46 on a stud H which passes through a downwardly extending projection I2 of the last supporting arm 38 and is secured in the slide block 46 below the laterally adjusted screws 69.
  • the ends of the screws 69 operate upon the arm 38 and pivot it about the stud l l.
  • the mold 28 is supported on a plate l3 which is adapted to be leveled and to be moved in a horizontal plane for the purpose of leveling the mold 28 and adjusting its position in all directions in the horizontal plane in respect to the last 24.
  • the plate 73 is leveled by three leveling screws 14 which are threaded into the plate. The ends of the screws project through the plate 13 and support it on the horizontal base plate 65.
  • the plate 13 may be adjusted in all directions in the horizontal plane by three thumb nuts 15, which are secured to the stems of horizontally arranged screws 16 threaded into brackets H on the plate 33.
  • the adjusting screws 16 are rotatably mounted in notches 78 in brackets 79, which are affixed to the base plate 65.
  • the details of the mechanism for adjusting the plate 13 horizontally are shown in Figs. 4 and 5.
  • the stem of each screw 76 is provided with flanges 8
  • the stem 84 of the screw 16 between the flanges BI is smaller in diameter than the length of the notch it?
  • the mold 28 is usually sufficiently heavy to prevent it from being lifted when the cast latex sole i9 is moved vertically upwardly out of the mold cavity 21, but in order to prevent the mold from creeping out of position, it is desirable to secure the mold in a well 82 in a rigid frame 83, which in turn is held in a fixed position on the plate 13.
  • the frame 83 is clamped to the plate 13 by two long bars 84 on opposite sides of the frame and by two short bars 35 placed on the opposite ends of the frame.
  • the bars 84 and 85 are adjustably secured to the plate by means of bolts 86 having T-shaped heads 81 slidably mounted in under cut slots 83 in the plate 13.
  • the bolts 86 extend up through the bars 84 and 85 and are aflixecl in place by tightening the nuts 89 thereon.
  • the bottom plane 35 of the last 24 as defined by the border of its convex curvature is positioned parallel with the top surface of the plate 13 by turning the thumb nut 61 on the vertically adjustable stop 64, and by turning the set screws 69 on the horizontal adjusting screws.
  • the lasted shoe [6 is then raised to its elevated position.
  • the frame 83 and the mold 28 carried thereby is placed on the supporting plate 13 underneath the elevated position of the lasted upper l6, and the bars 84 and 85 are released from the plate 13, so that the frame 83 and the mold 28 carried thereby may bemoved freely on the plate 13.
  • a layer of material, such as cardboard, having a thickness of the outsole to be cast on the bottom of the lasted upper IE is placed in the mold cavity as a thickness gauge for the purpose of determining the thickness of the outsole.
  • the jig arm 54 is then lowered, and the mold 28 is adjusted on the plate 13 so that the bottom of the upper I6 is positioned in the mold cavity 21, and the mold rim 30 is evenly spaced from the bottom side edges of the upper around the entire circumference. In such position the stop 64 should be resting upon the bed plate 65, and the bottom of the upper should be slightly spaced from the sole thickness gauge.
  • the vertically adjusting hand wheel 50 is then turned so as to bring the bottom of the shoe upper into contact with the outsole thickness gauge.
  • the securing bars 85 are brought up against the sides and ends of the mold frame 83, and the nuts 89 are turned downwardly on the studs 86 so as to secure the mold and the frame 83 in their located position.
  • the jig arm 54 is then elevated, and the sole thickness gauge is removed from the bottom of the mold cavity 21.
  • the jig is now in its adjusted position to begin the casting of integral outsoles and foxings onto the bottom of the lasted upper I6.
  • a predetermined quantity of gelable latex is then poured into the mold cavity 21 while the jig manipulating arm is in itsraised position as showninFig. 2.
  • the operator grasps the handles 52 and 63 of the arm 54 and lowers the bottomof the shoe upper l6 into the latex 29 until the. downward movement of the arm 54 is stopped by the screw stop 64 which strikes against the base plate 65.
  • the latex should be forced up to the level of the top rim 30 of the mold cavity, and it should flow in between the rim and the shoe upper around its entire circumference, provided the proper amount of latex has been poured into the mold cavity.
  • the latex normally gels in about three minutes, and the shoe with the cast latex sole thereon may be removed therefrom by lifting the jig varm 54 to the position shown in Fig. 2.
  • the last .24 and shoe I is then removed from the jig 26 by turning the hand wheel 39.
  • the last 24 with the shoe I5 thereon is then passed through the vulcanizer for the proper period of time to compound described herein is 80 minutes.
  • the flexible mold '28 may be prepared from well known liquid cold setting materials.
  • a suitable and inexpensive .mold may be made from Penna-Flex Cold Molding Compound which is manufactured by the Perma- Flex Mold Company, 243 North Fifth Street, Columbus, Ohio.
  • the foregoing particular cold molding compound is a polymercaptan. base synthetic rubber.
  • the compound when poured into the mold is a mixture of a clear, colorless syrup of a polymercaptan monomer, a curing agent comprising a thin paste containing a lead compound, and a thin light colored paste, which acts as a catalyst to cause the setting when poured into the mold.
  • the compound when set has the soft flexible elastic characteristics of rubber, which has a relatively low modulus of elasticity.
  • a model of the sole, or the sole and foxing to be cast is made. This is conveniently done by lasting an upper on the special last 24 in the conventional manher as described in Fig. 1, and then building onto the upper an outsole and foxing having the shape and decorations of the shoe parts, as cast. A box is then made similar to the frame 83, ex-.
  • cepting the depth of the well in the box is equal to the overall height of the mold to be cast from the molding compound.
  • the last 24 with the model thereon is placed in the jig 2d, and the plane 35 to the border of the bottom'curvature of the sole is leveled, or made parallel with the top surface of the leveled mold supporting plate 13 in the manner described ingreference to the leveling of the lasted shoe upper 16.
  • the hand wheel of the jig 50 is turned ,so as to raise the bottom of the model above the top rim of the box when it is placed on the leveling plate 13.
  • Marks are made on the sides of the model at the level of the latex to be cast on the upper to form the sole, or sole foxing.
  • the jig arm 54 is then lowered until the stop 64 strikes the base plate .65, and the hand wheel 55) is then turned .down into the molding liquid in the box until the markings placed on the sides of the model come even with the surface of the liquid moldin compound.
  • the model shoe is then left in that position -.until the molding compound firmy sets. It is desirable to so gauge the quantity of molding compound placed in the box that it rises slightly above the top edge. The excess of the set compound is trimmed off to form a smooth straight and level top rim on the cast mold.
  • the model is then released from the jig 26 by the hand wheel 39, and the model, mold, and box are removed together from the plate '13.
  • the mold is then removed from the box and stripped from the model.
  • the resulting mold has the soft, flexible, elastic characteristics of rubber, which has a relatively low modulus of elasticity.
  • the preceding procedure is followed .in making the last and mold shown in Fig. 9 and in casting the rubber parts on the shoe with a heel shown in Fig. 10.
  • the last 90 is provided with a convex bottom 91 in the toe portion of the last, which extends from the breast 92 of the heel to the toe.
  • the bottom of the mold cavity 91 forward of the breast of the heel is concave and conforms to the corresponding convex curvature of the last 90.
  • the bottom. of the heel portion of the cavity 91 is depressed and has a concave curvature to cast a corresponding convex curvature on the shoe heel from the gelable latex 98, and thereby relieve shrinkage strains after vulcanization.
  • An apparatus for casting a shoe sole onto a sole foundation formed on the bottom of a shoe upper comprising a mold having a sole forming cavity therein, said cavity having toe and heel portions, said toe portion having a concave bottom surface provided with a perimeter lying substantially in one plane, a last adapted to carry the shoe upper and sole foundation thereon, said last having a toe portion and a heel portion, said toe portion of said last being provided with a convex bottom surface conforming substantially to the bottom curvature of said concave bottom surface of said cavity, said convex surface of said last having a perimeter lying substantially in one plane, the entire bottom perimeter of said last being smaller than the top'rim of said cavity, and a support for said last adapted to suspend the sole foundation on said last within said mold cavity below the top rim of said mold cavity with said perimeters of said last and mold substantially parallel to each 1other when said last is in its sole casting posi ion.
  • An apparatus for'casting a shoe sole onto a sole foundation comprising a mold having a cavity adapted to remain open to the atmosphere while the sole is being cast onto the foundation, said mold cavity having an upwardly facing bottom and upwardly extending side walls, said bottom of said cavity having toe and heel portions, said toe portion having a concave bottom surface provided with a perimeter lying substantially in one plane, means for levelling saidperimeter, a last adapted to carry the shoe upper and sole foundation thereon, said last having toe and heel portions, said toe portion of said last having a convex bottom surface conforming substantially to the bottom curvature of said concave bottom surface of said cavity and 12 having a perimeter lying substantially in one plane, the entire bottom perimeter of said last being smaller than the top rim of said cavity, a movable support for said last adapted to suspend the sole foundation thereon within the mold cavity while the sole is being cast onto the sole foundation, and means for adjusting said last support to bring said perimeter of said convex surface of said last in parallelism with said perimeter of
  • An apparatus for casting a shoe sole onto a sole foundation comprising a mold having a cavity adapted to remain open to the atmosphere while the sole is being cast onto the foundation, said ,mold cavity having an upwardly facing bottom and upwardly extending side walls, said bottom of said cavity having a concave surface provided with a perimeter lying substantially in a horizontal plane, means for moving said mold in all directions in said plane and maintaining said mold in any position so moved, a last adapted to carry the shoe upper and sole foundation thereon, said last having a convex bottom surface conformin substantially to the bottom curvature of said concave bottom surface of said cavity and having a perimeter lying substantially in one plane, the entire bottom perimeter of said last being smaller than the top rim of said cavity, a support for said last, and means for lowering and raising said support to suspend the sole foundation on the last within and in spaced relation to the walls of the mold cavity with said perimeter of said concave and convex surfaces parallel to each other and to remove the sole foundation and sole cast thereon from said cavity.
  • an apparatus for casting a shoe sole onto a sole foundation comprising a mold having a cavity adapted to remain open to the atmosphere while the sole is being cast onto the foundation, said mold cavity having an upwardly facing bottom and upwardly extending side walls, said bottom of said cavity having a concave surface provided With a perimeter lying substantially in a horizontal plane, a support for said mold, means for moving said mold in all directions in said plane and maintaining said mold in'any position so moved on said support, a last adapted to carry the shoe upper and sole foundation thereon, said last having a convex bottom surface conforming substantially to the bottom curvature of said COD.
  • An apparatus for casting a shoe sole onto a sole foundation comprising a mold provided with an open mold cavity when the sole is being cast onto the sole foundation, said mold cavity having an upwardly facing bottom and flexible elastic side Walls having a relatively low modulus of elasticity, said side walls having portions overhanging said cavity, a last for carrying the sole foundation, and means for moving said last with the sole foundation thereon into and out of said mold cavity and supporting said sole foundation in said mold cavity in spaced relation to the bottom and side walls thereof when the sole is being cast onto the sole foundation.
  • An apparatus for casting an integral shoe sole and foxing onto a bottom of a shoe upper comprising a mold having a molding cavity therein, said cavity having a concave bottom surface which has a perimeter lying substantially in one plane and overhanging flexible elastic side walls having a relatively low modulus of elasticity extending upwardly from the plane of said perimeter to at least the height of the foxing to be formed in the shoe upper, a last having a convex bottom surface having a perimeter lying substantially in one plane and adapted to be arranged parallel to said perimeter of said concave surface of said cavity, said last being provided with vertical sides extending from the plane of the perimeter of said convex surface and adapted to extend within the top rim of said mold cavity, and a support for said last adapted to suspend the bottom perimeter of the last with the shoe upper thereon below said top rim of said cavity and in spaced relation to the Walls of the mold cavity to provide a space for the sole material between the bottom of the shoe upper and the walls of the mold cavity when the bottom of the shoe upper is in the

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
US192011A 1950-10-25 1950-10-25 Apparatus for casting soles on shoes Expired - Lifetime US2689375A (en)

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US192011A US2689375A (en) 1950-10-25 1950-10-25 Apparatus for casting soles on shoes
ES0200125A ES200125A1 (es) 1950-10-25 1951-10-24 Un aparato para fabricar suelas de calzado.

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2909807A (en) * 1955-05-26 1959-10-27 Matsuda Ichiro Automatic rotatory type machine for making shoes or boots rubber-soled with heat and compression
US3328845A (en) * 1964-12-24 1967-07-04 Ludwig Herbert Method and apparatus for forming and attaching elastomeric bottoms to footwear
US3343219A (en) * 1965-10-18 1967-09-26 Int Vulcanizing Corp Shoe sole molding apparatus
US3350748A (en) * 1965-07-27 1967-11-07 United Shoe Machinery Corp Quick change mold assemblies
US3994645A (en) * 1974-02-15 1976-11-30 Dr. Ing. Funck K.G. Apparatus for making a shoe with a sole applied by injection moulding or casting
US4302169A (en) * 1980-07-29 1981-11-24 Bartex Industries Corp. Method and mold for making plastic shoes
US4368870A (en) * 1981-08-31 1983-01-18 Alberto-Culver Company Molding assembly for plastic decorations
US5247741A (en) * 1992-03-06 1993-09-28 Suave Shoe Corporation Footwear having a molded sole

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1660441A (en) * 1927-01-14 1928-02-28 Isaac Q Gurnee Method of forming electrical insulators
US1763653A (en) * 1926-06-14 1930-06-17 Agasote Millboard Co Resin-coated pulpboard
US1994278A (en) * 1932-10-07 1935-03-12 Halsall Thomas Apparatus for the manufacture of rubber sole footwear
US2071646A (en) * 1932-12-16 1937-02-23 Melind Louis Means for making rubber printing type and plates
US2305945A (en) * 1940-08-31 1942-12-22 Univis Lens Co Method and apparatus for manufacture of synthetic resinous prisms
US2330989A (en) * 1942-03-04 1943-10-05 Guy D Nevills Apparatus for resoling footwear
US2406359A (en) * 1944-02-02 1946-08-27 William H Doherty Vacuum last and sole forming machine
US2464232A (en) * 1946-05-21 1949-03-15 Byron H King Jr Tire vulcanizer

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1763653A (en) * 1926-06-14 1930-06-17 Agasote Millboard Co Resin-coated pulpboard
US1660441A (en) * 1927-01-14 1928-02-28 Isaac Q Gurnee Method of forming electrical insulators
US1994278A (en) * 1932-10-07 1935-03-12 Halsall Thomas Apparatus for the manufacture of rubber sole footwear
US2071646A (en) * 1932-12-16 1937-02-23 Melind Louis Means for making rubber printing type and plates
US2305945A (en) * 1940-08-31 1942-12-22 Univis Lens Co Method and apparatus for manufacture of synthetic resinous prisms
US2330989A (en) * 1942-03-04 1943-10-05 Guy D Nevills Apparatus for resoling footwear
US2406359A (en) * 1944-02-02 1946-08-27 William H Doherty Vacuum last and sole forming machine
US2464232A (en) * 1946-05-21 1949-03-15 Byron H King Jr Tire vulcanizer

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2909807A (en) * 1955-05-26 1959-10-27 Matsuda Ichiro Automatic rotatory type machine for making shoes or boots rubber-soled with heat and compression
US3328845A (en) * 1964-12-24 1967-07-04 Ludwig Herbert Method and apparatus for forming and attaching elastomeric bottoms to footwear
US3350748A (en) * 1965-07-27 1967-11-07 United Shoe Machinery Corp Quick change mold assemblies
US3343219A (en) * 1965-10-18 1967-09-26 Int Vulcanizing Corp Shoe sole molding apparatus
US3994645A (en) * 1974-02-15 1976-11-30 Dr. Ing. Funck K.G. Apparatus for making a shoe with a sole applied by injection moulding or casting
US4302169A (en) * 1980-07-29 1981-11-24 Bartex Industries Corp. Method and mold for making plastic shoes
US4368870A (en) * 1981-08-31 1983-01-18 Alberto-Culver Company Molding assembly for plastic decorations
US5247741A (en) * 1992-03-06 1993-09-28 Suave Shoe Corporation Footwear having a molded sole

Also Published As

Publication number Publication date
ES200125A1 (es) 1952-03-16

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