US3709282A - Molding machine - Google Patents

Molding machine Download PDF

Info

Publication number
US3709282A
US3709282A US00074161A US3709282DA US3709282A US 3709282 A US3709282 A US 3709282A US 00074161 A US00074161 A US 00074161A US 3709282D A US3709282D A US 3709282DA US 3709282 A US3709282 A US 3709282A
Authority
US
United States
Prior art keywords
flask
pattern plate
mold
pattern
sand
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US00074161A
Inventor
R Taccone
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Bangor Punta Operations Inc
Original Assignee
Bangor Punta Operations Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Bangor Punta Operations Inc filed Critical Bangor Punta Operations Inc
Application granted granted Critical
Publication of US3709282A publication Critical patent/US3709282A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22CFOUNDRY MOULDING
    • B22C17/00Moulding machines characterised by the mechanism for separating the pattern from the mould or for turning over the flask or the pattern plate
    • B22C17/08Moulding machines with mechanisms to turn over the pattern plate or the mould around a horizontal axis
    • B22C17/12Turning-over pattern plate, flask, and compacting device as a unit
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22CFOUNDRY MOULDING
    • B22C11/00Moulding machines characterised by the relative arrangement of the parts of same
    • B22C11/10Moulding machines characterised by the relative arrangement of the parts of same with one or more flasks forming part of the machine, from which only the sand moulds made by compacting are removed

Definitions

  • a molding machine for making sand molds includes means for vertically filling and squeezing a sand mold between pattern plates which enclose the ends of a molding flask. After mold formation the flask is tilted from the vertical to the horizontal for pushing the mold horizontally out of the flask onto a receiving conveyor for the metal pouring operation.
  • This invention relates to molding machines, and more particularly, to the type generally called flaskless molding.
  • the machine disclosed herein overcomes the foregoing difficulty by gravity filling from the top with well prepared sand, dropping it into a lower pattern, moving an upper pattern into position above the sand, and squeezing the mold from the bottom.
  • An arrangement is made in the present invention to position the flask together with the sand mold in mechanical alignment with the receiving conveyor so that the mold is precisely aligned with the next previously formed mold. Pushout occurs while the flask is in this position thereby supporting the mold during the critical moment when the force necessary for pushout is applied to the mold.
  • This machine also shaves off the outside of sand and sizes the mold.
  • One embodiment of the invention is a machine consisting of a main framework supporting a rotatable cradle on trunnions on which is mounted a squeeze cylinder or cylinder (linear actuator) with the lower pattern plate and molding chamber which must be of a suitable size and shape to accommodate the desired pattern.
  • the cradle may be held with the squeeze cylinder in a vertical position by a tilting cylinder (linear actuator) pinned at one end to the main framework and at the other to the rotatable cradle, rocking trunnion, other tilting mechanism, rotary actuator, electric or hydraulic motor, and be rotatable to a horizontal position.
  • Suitable stops and de-acceleration devices may be provided to limit and control the movement of the cradle.
  • the lower pattern plate and the molding chamber are mounted on the squeeze cylinder, the pattern plate being fixed firmly to the rod end and the molding chamber on a floating yoke with a clamping device, which allows it to be engaged or disengaged from the rod at will.
  • the molding chamber has replaceable inside plates which serve to guide the pattern plate when it moves in relation to the molding chamber, and bushings which engage pins on the upper pattern plate or on the pouring tube when the molding chamber is in contact with these parts.
  • the pattern plate must be a fairly tight fit inside the molding chamber and should never disengage downward from it.
  • outside guide rods fixed to the molding chamber passing through bushings fixed to the rotatable cradle relieve the front bushings of the squeeze cylinder from unnecessary strain during the movement of the molding chamber and provide proper alignment for the molding chamber.
  • the trunnions of the cradle are removable for ease of assembly and hollow to permit entry of the operating medium for the squeeze cylinder without the use of hoses.
  • a high pressure rotating joint is provided in the line to allow for the movement of the trunnions.
  • a movable carriage Above the molding chamber allowing clearance for the pattern character is a movable carriage, underneath which, on a hinged mounting, is supported the upper pattern plate with pins to match the bushings in the molding chamber the movable carriage defines a pattern shuttle for moving the upper pattern plate into position over the molding chamber.
  • Part of the movable carriage is a sand chute which exactly corresponds in its interior dimensions to the interior dimensions of the molding chamber.
  • the movable carriage may be provided with stops and deacceleration devices and be capable of having the upper pattern in alignment above the lower pattern in one position and the sand chute in alignment with the molding chamber in its opposite position.
  • a cover at the front of the machine protects the operator from accidently stepping into the path of the moving mold chamber when the cradle is being rotated.
  • a pouring channel tube is provided to be in line with the molding chamber in the horizontal position and keyed directly to the molding machine.
  • a space for the operator to set cores if needed is provided between the front cover and the pouring channel tube.
  • Another object of the invention is to provide a molding machine that is simple in construction, economical to manufacture, and simple and efiicient to use.
  • Another object of the invention is to-provide a molding machine wherein the flasks are filled with sand and compressed in a vertical position, then swung to a horizontal position, and the mold is forced from the flask into a tunnel to form mold cavities with other molds for pouring.
  • Another object of the invention is to provide an improved flaskless molding machine.
  • Another object of the invention is to provide a molding machine that applies a vacuum to molds in an improved manner.
  • FIG. 1 is a longitudinal cross sectional view of the machine according to the invention.
  • FIGS. 2 through 11 are partial cross sectional views of the machine showing the flasks swung to various positions during several sequences of the molding and pouring cycles.
  • FIG. 12 is a side elevation view partially in section of a clamping device
  • FIG. 13 is a plan view thereof.
  • the machine shown has a frame 10 that supports the molding mechanism adjacent the pouring section.
  • the frame has a hydraulic cylinder 41 rockably supported on the frame with a pattern plate on the upper end of its piston rod and the flask 12 supported on the frame, so
  • the flask 12 may be of the type familiar to those skilled in the molding art a movable carriage 20 mounted on the roller conveyor 33 defines a shuttle for moving the pattern plate 15 mounted on pattern plate support 15a pattern and for moving the sand chute 16 into position over the molding chamber 12.
  • An upper pattern plate 15a with pattern 15 is supported on movable carriage to roll into position over the flask for molding or to roll to the left out of molding position and bring the sand chute 16 which is fixed to the pattern plate into position under the high speed sand propeller unit 17.
  • sand can be dispensed from suitable batching equipment 18 into the flask on top of the pattern 13, as shown in FIG. 2.
  • the roller conveyor carries the sand chute to the right, as shown in FIG. 3, and brings the pattern 15 over the flask.
  • the locating pins shown fit into the locating holes in the flask, and as the piston rod of cylinder 41 continues to rise, it brings the pattern plate 14 upward to compress the sand between the patterns 13 and 15, as shown in FIG. 4.
  • the piston rod of cylinder 41 retracts and lowers the flask from the pattern plate to the position shown in FIG. 5.
  • the rockover unit 19 will swing the flask l2 and pattern plate 14 and associated equipment into horizontal position in alignment with the tunnel on top of table 22, as shown in FIG. 6.
  • Table 22 is a water cooled table. Water is supplied through a pipe 23 for cooling the table.
  • the locating pins 34 are received in the holes 35 when the flask is forced toward the tunnel by the cylinder 41
  • the molds 28 are formed in the flask and are extruded from the flask into the tunnel shown in FIGS. 7 and 8.
  • the cavities 36 may have cores 37 set in them by a suitable operator.
  • a pattern may be changed by suitable equipment as shown in FIG.1I.
  • the pouring and cooling channel 24 receives the molds 28 as they are extruded from the flask 12, and this pouring and cooling channel is slightly smaller than the inside of the flask so that the sharp edges 31 on the trim frame 30 clean the edges of the sand molds and allow them to fit snugly inside the pouring and cooling chamber.
  • the ladle 21 is supported above the pouring and cooling chamber and from it molten metal may be poured in a well known manner.
  • a vacuum line 25 is provided below the flasks and this exerts a vacuum on the flask and draws all air out from the pores in the sand to provide a smoother casting job.
  • the cooling chamber has cleanout plates 26 that may be removed to inspect the magnets inside the cooling chamber and a metal transfer ladle of a suitable type indicated at 27 and familiar to those skilled in the art is supported on track 29.
  • the pouring and cooling channel 24 may be considered to have an opening 32 at its forward end.
  • the operation of this machine begins with the squeeze cylinder in the upright position and the sand chute lines up between the mold chamber and the opening in the crown.
  • the mold chamber is'then filled with the molding medium through the opening in the crown.
  • the carriage is moved to align the upper and lower patterns. Any overfill of the mold chamber is struck OE and pressure is applied to the squeeze cylinder moving the mold chamber and the lower pattern plate up until the mold chamber contacts the upper pattern plate and engages the pins and bushings.
  • the mold chamber continues up closing the clearance between the pattern carriage and the crown.
  • the squeeze cylinder decompresses while the locking device engages.
  • the squeeze cylinder retracts slowly, stripping the mold, still with molding chamber, from the upper pattern, the molding chamber and the lower pattern maintaining the same positions relative to each other that they had when the squeeze cylinder decompressed and stops with the mold chamber and mold clear of the upper pattern.
  • the tilt cylinder is actuated to rotate the cradle bringing the molding chamber and mold to the horizontal position.
  • the squeeze cylinder is extended, carrying the molding chamber, into contact with the pouring channel and aligning on the pins and bushings.
  • the locking device slips or is disengaged and the squeeze cylinder continues to push the completed mold into the pouring channel.
  • the carriage can begin to move to the starting position at any time while the molding chamber is in the-horizontal position.
  • the squeeze cylinder must retract, stripping the mold from the lower pattern.
  • a locking device must engage to present the face of the when the molding chamber engages the pattern carriage 20 and the pouring channel 24. Disengagement or slippage of the locking device allows for the cylinder 41 to squeeze the sand mold against the upper pattern plate and for push out of the mold onto the pouring channel.
  • a locking deviceof this kind is well-known and is manufactured by Fawick Corporation, Cleveland, Ohio. Fawick Corporation illustrates a typical locking device in Bulletin No. 500-A, pages 24 and 25.
  • the locking device is illustrated in FIGS. 12 and 13 of the drawing and comprises an outer doughnut shaped frame 45 having a plurality of brake shoe segments 46 which collectively define a cylindrical interior surface 47 for engaging the cylinder rod 42 to be braked.
  • Each shoe segment 46 is mounted for movement radially inwardly and outwardly of the frame, and is urged radially outwardly by spring member 50 which bears against fixed rod 51.
  • An annular pneumatically actuated tube 48 when inflated is effective to move the shoe segments 46 radially inwardly to bear against piston rod to cause locking action to occur.
  • a suitable fitting 49 provides for inlet and exhaust of air from the pneumatic tube 48.
  • the locking action may be ended by releasing air from the pneumatic tube in which case springs 50 urge the shoes radially outward within the outer frame 45.
  • the locking action may be overcome by causing the piston rod 42 to slip through the locking device, that is, overcome the friction force of the shoe segments.
  • Cores can be set in the last mold in the pouring channel during the molding cycle.
  • An electric eye or other safety device can prevent the molding chamber from extending while the operator is in the core setting area.
  • a molding machine comprising a machine frame,
  • said hydraulic cylinder being swingably supported on said machine to swing said flask from a vertical molding position to a horizontal position on said table.
  • said molds being forced onto said table in engagement with each other with a cavity formed by said patterns between each two said molds, and means is provided to pour molten metal into said 5 cavities while in said mold.
  • vacuum means is connected to said table to remove air from said molds.
  • said frame has a cutting edge around it for sizing said molds so they fit snugly into said channel.
  • a molding machine comprising a machine frame
  • said lower pattern plate has a lower pattern on it
  • said means to swing said lower pattern plate comprises a cylinder swingably supported on said machine
  • said lower pattern plate being attached to said piston rod whereby said piston rod may push said lower pattern plate through said flask to compress sand therein and to force said mold therefrom.
  • a molding machine comprising:
  • a cradle rotatably mounted on said frame for movement from a generally vertical orientation to a generally horizontal orientation
  • a second pattern plate mounted on said cradle being adapted to close one end of the flask andbeing further adapted for movement in a linear direction through the interior of said flask
  • a molding machine as defined in claim 13 which further includes means for moving the flask together with the sand mold and the lower pattern plate in a generally horizontal direction toward the horizontally disposed table.
  • a molding machine comprising:
  • a cradle rotatably mounted on said frame for movement from a generally vertical orientation to a generally horizontal orientation
  • a second pattern plate mounted on said cradle being adapted to close one end of the flask and being further adapted for movement in a linear direction through the interior of said flask
  • a molding machine comprising a machine frame, a flask and means supporting said flask relative to said machine frame, an upper pattern supported on said machine frame in a position above said flask,
  • a molding machine comprising a machine frame
  • said rod connected to said pattern plate to move said pattern plate through said flask and to support said pattern plate normally to close the lower end of said flask

Abstract

A molding machine for making sand molds includes means for vertically filling and squeezing a sand mold between pattern plates which enclose the ends of a molding flask. After mold formation the flask is tilted from the vertical to the horizontal for pushing the mold horizontally out of the flask onto a receiving conveyor for the metal pouring operation.

Description

United States Patent 1 Taccone 1 Jan. 9, 1973 [54] MOLDING MACHINE [75] Inventor:
[73] Assignee: Banger Punta Operations, Inc., New
York, NY.
[22] Filed: Sept. 21, 1970 211 Appl.No.: 74,161
Related U.S. Application Data I [63] Continuation of Ser. No. 687,750, Dec. 4, 1967,
Russell W. Taccone, Erie, Pa.
abandoned.
[52] U.S. Cl. ..164/187, 164/40, 164/212, 164/224 [51] Int. Cl ..B22c 15/08 [58] Field of Search....164/15, 37, 40,172,173,180, 164/181, 187, 188, 192, 195, 196, 205, 207, 209, 212, 213, 224; 25/120; 249/137 [56] References Cited UNITED STATES PATENTS 5/1960 Taccone ..164/207 X 3,008,199 11/1961 Jeppesen 164/22 3,303,535 2/1967 Rearwin et al.... .....164/213 X 3,103,717 9/1963 Taccone ..164/192 3,172,173 3/1965 Ellms ..164/192 X FOREIGN PATENTS OR APPLICATIONS 129,625 10/1948 Australia ..164/212 Primary Examiner-J. Spencer Overholser Assistant Examiner.lohn E. Roethel AttorneyPatrick vJ. Walsh [57] ABSTRACT A molding machine for making sand molds includes means for vertically filling and squeezing a sand mold between pattern plates which enclose the ends of a molding flask. After mold formation the flask is tilted from the vertical to the horizontal for pushing the mold horizontally out of the flask onto a receiving conveyor for the metal pouring operation.
19 Claims, 13 Drawing Figures PATENTEU JAN 9 I975 SHEET 2 BF 5 PATENTEDJAH 91915 3.709.282
sum 3 or 5 JNVENTOR.
BY W {M RUSSELL- 'Wficcmvs PATENTEU JAN 9 I975 SHEET h UF 5 INVENTOR. P055514. 75((005 MOLDING MACHINE This application is a continuation of Ser. No. 687,750 filed Dec. 4, l967, now abandoned.
This invention relates to molding machines, and more particularly, to the type generally called flaskless molding.
BACKGROUND OF INVENTION Green sand molding is generally done by filling flasks from the top and squeezing from the sides, top or bottom. An inherent disadvantage of such a machine is the small size of the mold that can be produced successfully, the top of the mold being somewhat softer than the middle and bottom sections.
The machine disclosed herein overcomes the foregoing difficulty by gravity filling from the top with well prepared sand, dropping it into a lower pattern, moving an upper pattern into position above the sand, and squeezing the mold from the bottom. I
According to the present invention the flaskless molding machines include a molding station and a flask with top and bottom openings to receive top and bottom pattern plates. With this arrangement the flask is filled with sand by the use of propellor aerating devices which provide an improved packing of the sand in the flask. After filling the top pattern plate is brought into position and the mold is squeezed in the vertical direction. Thereafter the flask is titled so that the mold may be pushed in the horizontal direction out of the mold onto a receiving conveyor.
An arrangement is made in the present invention to position the flask together with the sand mold in mechanical alignment with the receiving conveyor so that the mold is precisely aligned with the next previously formed mold. Pushout occurs while the flask is in this position thereby supporting the mold during the critical moment when the force necessary for pushout is applied to the mold.
This machine also shaves off the outside of sand and sizes the mold.
One embodiment of the invention is a machine consisting of a main framework supporting a rotatable cradle on trunnions on which is mounted a squeeze cylinder or cylinder (linear actuator) with the lower pattern plate and molding chamber which must be of a suitable size and shape to accommodate the desired pattern. The cradle may be held with the squeeze cylinder in a vertical position by a tilting cylinder (linear actuator) pinned at one end to the main framework and at the other to the rotatable cradle, rocking trunnion, other tilting mechanism, rotary actuator, electric or hydraulic motor, and be rotatable to a horizontal position. Suitable stops and de-acceleration devices may be provided to limit and control the movement of the cradle.
The lower pattern plate and the molding chamber are mounted on the squeeze cylinder, the pattern plate being fixed firmly to the rod end and the molding chamber on a floating yoke with a clamping device, which allows it to be engaged or disengaged from the rod at will. The molding chamber has replaceable inside plates which serve to guide the pattern plate when it moves in relation to the molding chamber, and bushings which engage pins on the upper pattern plate or on the pouring tube when the molding chamber is in contact with these parts. The pattern plate must be a fairly tight fit inside the molding chamber and should never disengage downward from it. Outside guide rods fixed to the molding chamber passing through bushings fixed to the rotatable cradle relieve the front bushings of the squeeze cylinder from unnecessary strain during the movement of the molding chamber and provide proper alignment for the molding chamber. The trunnions of the cradle are removable for ease of assembly and hollow to permit entry of the operating medium for the squeeze cylinder without the use of hoses. A high pressure rotating joint is provided in the line to allow for the movement of the trunnions.
Above the molding chamber allowing clearance for the pattern character is a movable carriage, underneath which, on a hinged mounting, is supported the upper pattern plate with pins to match the bushings in the molding chamber the movable carriage defines a pattern shuttle for moving the upper pattern plate into position over the molding chamber. Part of the movable carriage is a sand chute which exactly corresponds in its interior dimensions to the interior dimensions of the molding chamber. The movable carriage may be provided with stops and deacceleration devices and be capable of having the upper pattern in alignment above the lower pattern in one position and the sand chute in alignment with the molding chamber in its opposite position.
The movable carriage is operated by a cylinder trunnion mounted to the main framework of the machine and pinned for flexibility to the carriage.
A cover at the front of the machine protects the operator from accidently stepping into the path of the moving mold chamber when the cradle is being rotated. A pouring channel tube is provided to be in line with the molding chamber in the horizontal position and keyed directly to the molding machine. A space for the operator to set cores if needed is provided between the front cover and the pouring channel tube.
It is, accordingly, an object of the invention to provide an improved molding machine.
Another object of the invention is to provide a molding machine that is simple in construction, economical to manufacture, and simple and efiicient to use.
Another object of the invention is to-provide a molding machine wherein the flasks are filled with sand and compressed in a vertical position, then swung to a horizontal position, and the mold is forced from the flask into a tunnel to form mold cavities with other molds for pouring.
Another object of the invention is to provide an improved flaskless molding machine.
Another object of the invention is to provide a molding machine that applies a vacuum to molds in an improved manner.
With theabove and other objects in view, the present invention consists of the combination and arrangement of parts hereinafter more fully described, illustrated in the accompanying drawings and more particularly pointed out in the appended claims, it being understood that changes may be made in the form, size, proportions, and minor details of construction without departing from the spirit or sacrificing any of the advantages of the invention.
In the drawings:
FIG. 1 is a longitudinal cross sectional view of the machine according to the invention; and
FIGS. 2 through 11 are partial cross sectional views of the machine showing the flasks swung to various positions during several sequences of the molding and pouring cycles.
FIG. 12 is a side elevation view partially in section of a clamping device,
FIG. 13 is a plan view thereof.
Now with more particular reference to the drawings, the machine shown has a frame 10 that supports the molding mechanism adjacent the pouring section. The frame has a hydraulic cylinder 41 rockably supported on the frame with a pattern plate on the upper end of its piston rod and the flask 12 supported on the frame, so
that the piston rod will reciprocate the pattern plate 14 inside the flask 12. The flask 12 may be of the type familiar to those skilled in the molding art a movable carriage 20 mounted on the roller conveyor 33 defines a shuttle for moving the pattern plate 15 mounted on pattern plate support 15a pattern and for moving the sand chute 16 into position over the molding chamber 12. An upper pattern plate 15a with pattern 15 is supported on movable carriage to roll into position over the flask for molding or to roll to the left out of molding position and bring the sand chute 16 which is fixed to the pattern plate into position under the high speed sand propeller unit 17. When the chute is in position over the flask, sand can be dispensed from suitable batching equipment 18 into the flask on top of the pattern 13, as shown in FIG. 2. After the flask has been filled with sand, the roller conveyor carries the sand chute to the right, as shown in FIG. 3, and brings the pattern 15 over the flask. As the flask is raised by cylinder 41, the locating pins shown fit into the locating holes in the flask, and as the piston rod of cylinder 41 continues to rise, it brings the pattern plate 14 upward to compress the sand between the patterns 13 and 15, as shown in FIG. 4. When the sand has been compressed to the desired density, the piston rod of cylinder 41 retracts and lowers the flask from the pattern plate to the position shown in FIG. 5.
The rockover unit 19 will swing the flask l2 and pattern plate 14 and associated equipment into horizontal position in alignment with the tunnel on top of table 22, as shown in FIG. 6. Table 22 is a water cooled table. Water is supplied through a pipe 23 for cooling the table. The locating pins 34 are received in the holes 35 when the flask is forced toward the tunnel by the cylinder 41 The molds 28 are formed in the flask and are extruded from the flask into the tunnel shown in FIGS. 7 and 8. The cavities 36 may have cores 37 set in them by a suitable operator.
The piston of cylinder 41 then retracts to the position shown in FIG. 9, and as the cylinder further retracts the flask is withdrawn to the position shown in FIG. 10. A pattern may be changed by suitable equipment as shown in FIG.1I.
The pouring and cooling channel 24 receives the molds 28 as they are extruded from the flask 12, and this pouring and cooling channel is slightly smaller than the inside of the flask so that the sharp edges 31 on the trim frame 30 clean the edges of the sand molds and allow them to fit snugly inside the pouring and cooling chamber.
The ladle 21 is supported above the pouring and cooling chamber and from it molten metal may be poured in a well known manner.
A vacuum line 25 is provided below the flasks and this exerts a vacuum on the flask and draws all air out from the pores in the sand to provide a smoother casting job.
The cooling chamber has cleanout plates 26 that may be removed to inspect the magnets inside the cooling chamber and a metal transfer ladle of a suitable type indicated at 27 and familiar to those skilled in the art is supported on track 29. The pouring and cooling channel 24 may be considered to have an opening 32 at its forward end. I
The operation of this machine begins with the squeeze cylinder in the upright position and the sand chute lines up between the mold chamber and the opening in the crown. The mold chamber is'then filled with the molding medium through the opening in the crown. The carriage is moved to align the upper and lower patterns. Any overfill of the mold chamber is struck OE and pressure is applied to the squeeze cylinder moving the mold chamber and the lower pattern plate up until the mold chamber contacts the upper pattern plate and engages the pins and bushings. The mold chamber continues up closing the clearance between the pattern carriage and the crown. The mold chamber stops, the locking device either slipping or disengaged, while the lower pattern continues up, squeezing the mold. The squeeze cylinder decompresses while the locking device engages. The squeeze cylinder retracts slowly, stripping the mold, still with molding chamber, from the upper pattern, the molding chamber and the lower pattern maintaining the same positions relative to each other that they had when the squeeze cylinder decompressed and stops with the mold chamber and mold clear of the upper pattern.
The tilt cylinder is actuated to rotate the cradle bringing the molding chamber and mold to the horizontal position. The squeeze cylinder is extended, carrying the molding chamber, into contact with the pouring channel and aligning on the pins and bushings. The locking device slips or is disengaged and the squeeze cylinder continues to push the completed mold into the pouring channel. The carriage can begin to move to the starting position at any time while the molding chamber is in the-horizontal position. The squeeze cylinder must retract, stripping the mold from the lower pattern. The
locking device must engage to present the face of the when the molding chamber engages the pattern carriage 20 and the pouring channel 24. Disengagement or slippage of the locking device allows for the cylinder 41 to squeeze the sand mold against the upper pattern plate and for push out of the mold onto the pouring channel. A locking deviceof this kind is well-known and is manufactured by Fawick Corporation, Cleveland, Ohio. Fawick Corporation illustrates a typical locking device in Bulletin No. 500-A, pages 24 and 25.
The locking device is illustrated in FIGS. 12 and 13 of the drawing and comprises an outer doughnut shaped frame 45 having a plurality of brake shoe segments 46 which collectively define a cylindrical interior surface 47 for engaging the cylinder rod 42 to be braked. Each shoe segment 46 is mounted for movement radially inwardly and outwardly of the frame, and is urged radially outwardly by spring member 50 which bears against fixed rod 51. An annular pneumatically actuated tube 48 when inflated is effective to move the shoe segments 46 radially inwardly to bear against piston rod to cause locking action to occur. A suitable fitting 49 provides for inlet and exhaust of air from the pneumatic tube 48. The locking action may be ended by releasing air from the pneumatic tube in which case springs 50 urge the shoes radially outward within the outer frame 45. Altemately, the locking action may be overcome by causing the piston rod 42 to slip through the locking device, that is, overcome the friction force of the shoe segments.
Cores can be set in the last mold in the pouring channel during the molding cycle. An electric eye or other safety device can prevent the molding chamber from extending while the operator is in the core setting area.
The foregoing specification sets forth the invention in its preferred practical forms but the structure shown is capable of modification within a range of equivalents without departing from the invention which is to be understood is broadly novel as is commensurate with the appended claims.
What is claimed is:
l. A molding machine comprising a machine frame,
a flask and means supporting said flask relative to said machine frame,
a pattern shuttle,
sand loading means,
means supporting said pattern shuttle on said machine frame,
an upper pattern supported on said pattern shuttle,
a lower pattern plate,
a lower pattern supported on said pattern plate,
means connected to said lower pattern plate to move said pattern plate through said flask and to position said pattern plate normally to close the lower end of said flask,
a generally horizontally disposed table,
means for exerting a vertical compression force on sand in said flask whereby said sand is compressed into a mold between said upper pattern and said lower pattern,
and means for swinging said lower pattern plate and said flask to bring one edge of said sand into general alignment with said table,
and means to force said mold from said flask onto said horizontal table.
2. The machine recited in claim 1 wherein said flask support and said lower pattern plate are carried on the piston rod of a hydraulic cylinder,
and said hydraulic cylinder being swingably supported on said machine to swing said flask from a vertical molding position to a horizontal position on said table.
3. The machine recited in claim 1 wherein said table is adapted to receive a plurality of said molds,
said molds being forced onto said table in engagement with each other with a cavity formed by said patterns between each two said molds, and means is provided to pour molten metal into said 5 cavities while in said mold.
4. The machine recited in claim 3 wherein vacuum means is connected to said table to remove air from said molds.
5. The machine recited in claim 3 wherein said table forms one side of an open channel,
and said molds are forced from said flask into said channel.
6. The machine recited in claim 5 wherein a frame is provided around the open end of said channel,
and said frame has a cutting edge around it for sizing said molds so they fit snugly into said channel.
7. A molding machine comprising a machine frame,
a lower pattern plate,
an upper pattern plate,
means to support a flask between said upper pattern plate and said lower pattern plate,
means to move said lower pattern plate and said upper pattern plate relative to each other in a generally vertical direction for causing compression of the sand in said flask,
means to separate said flask from said-upper pattern plate,
a generally horizontally disposed support for molds disposed on said machine,
means to swing said flask and said lower pattern plate from a generally vertical orientation to a generally horizontal orientation position adjacent said support means to engage said pattern plate and to force said mold out of said flask and onto said support means,
and means to pour molten metal into said mold while said mold is on said support means.
8. The machine recited in claim 7 wherein said generally horizontally disposed support is a part of a channel and means is provided onsaid channel to remove sand from the outside edge'ofsaid mold to cause said mold to fit into said channel,
9. The machine recited in claim 7 wherein said flask is fixed to a hydraulic cylinder,
and said lower pattern plate is fixed to a piston rod in said cylinder.
10. The machine recited in claim 7 wherein means to exert a vacuum on said molds is provided on said machine.
1 1. The machine recited in claim 7 wherein said upper pattern plate has an upper pattern on it,
and said lower pattern plate has a lower pattern on it,
and said pattern plates each form cavities in said mold,
one of each of the said cavities made by said upper pattern and one of the cavities made by lower pattern each being disposed beside each other providing a space to receive molten metal.
12. The machine recited in claim 7 wherein said means to swing said lower pattern plate comprises a cylinder swingably supported on said machine,
said flask being attached to said cylinder,
a piston rod on said cylinder,
said lower pattern plate being attached to said piston rod whereby said piston rod may push said lower pattern plate through said flask to compress sand therein and to force said mold therefrom.
13. A molding machine comprising:
a machine frame,
a first pattern plate supported on said machine frame,
a cradle rotatably mounted on said frame for movement from a generally vertical orientation to a generally horizontal orientation, 1
an open-ended flask mounted on the cradle for rotatable movement with the cradle,
a second pattern plate mounted on said cradle being adapted to close one end of the flask andbeing further adapted for movement in a linear direction through the interior of said flask,
means for placing sand in the flask,
means for moving the flask in a generally vertical direction toward the first pattern plate,
means for moving the second pattern plate toward the first pattern plate so that the flask and the second pattern plate travel together toward the first pattern plate,
means for exerting a compression force on sand in said flask whereby said sand is compressed into a mold between the first pattern plate and the second pattern plate,
means for moving the flask and the sand mold together with the second pattern plate away from the first pattern plate in a generally vertical direction so that the first pattern plate is disengaged from the sand mold,
means for rotatably moving the cradle from a generally vertical orientation to a generally horizontal orientation,
a generally horizontally disposed table,
means for moving the second pattern plate through the flask to push the sand mold out of the flask onto the horizontally disposed table, and for withdrawing the second pattern plate away from the sand mold.
14. A molding machine as defined in claim 13 which further includes means for moving the flask together with the sand mold and the lower pattern plate in a generally horizontal direction toward the horizontally disposed table.
15. A molding machine comprising:
a machine frame,
a first pattern plate mounted on said machine frame,
a cradle rotatably mounted on said frame for movement from a generally vertical orientation to a generally horizontal orientation,
an open-ended flask mounted on the cradle for rotatable movement with the cradle,
a second pattern plate mounted on said cradle being adapted to close one end of the flask and being further adapted for movement in a linear direction through the interior of said flask,
means for locking the second pattern plate in position at said one end of the flask,
means for placing sand in the flask,
means for moving the flask together with the second pattern plate toward the first pattern plate,
means for further moving the second pattern plate in the flask toward the first pattern plate to squeeze sand in the flask thereby to form a sand mold,
means for locking the second pattem plate relative to the flask after formation of the sand mold,
means for moving the flask and the sand mold together with the second pattern plate away from the first pattern plate in a vertical direction,
means for rotatably moving the cradle from a generally vertical orientation to a generally horizontal orientation,
a generally horizontally disposed table,
means for moving the flask together with the sand mold and the lower pattern plate in a generally horizontal direction toward the horizontally disposed table,
and means for moving the second pattern plate through the flask to push the sand mold out of the flask onto the horizontally disposed table.
16. The molding machine according to claim 15 in which the means for locking the second pattern plate is adapted to slip.
17. The molding machine according to claim 15 in which the means for locking the second pattern plate is adapted to be released.
18. A molding machinecomprising a machine frame, a flask and means supporting said flask relative to said machine frame, an upper pattern supported on said machine frame in a position above said flask,
a pattern plate,
a lower pattern supported on said pattern plate,
means connected to said pattern plate to move said pattern plate through said flask and to support said pattern plate normally to close the lower end of said flask,
a generally horizontally disposed table,
means for exerting a compression force on sand in said flask whereby said sand is compressed into a mold between said upper pattern and said lower pattern,
means for locking the lower pattern plate with respect to said flask and mold,
means for separating the mold from the upper pat-' tern,
and means for swinging said pattern plate and said,
said mold,
and means to force said mold from said flask onto said horizontal table.
19. A molding machine comprising a machine frame,
a flask and a rod supporting said flask relative to said machine frame, .7
an upper pattern supported on said machine frame in a position above said flask,
a pattern plate,
a lower pattern supported on said pattern plate,
said rod connected to said pattern plate to move said pattern plate through said flask and to support said pattern plate normally to close the lower end of said flask,
a generally horizontally disposed table,
power means for exerting a compression force on sand in said flask through said rod whereby said sand is compressed into a mold between said upper pattern and said lower pattern,
of said mold into general alignment with said table, means for releasing said locking devices,
and means to force said moldfrom said-flask onto said horizontal table.

Claims (19)

1. A molding mAchine comprising a machine frame, a flask and means supporting said flask relative to said machine frame, a pattern shuttle, sand loading means, means supporting said pattern shuttle on said machine frame, an upper pattern supported on said pattern shuttle, a lower pattern plate, a lower pattern supported on said pattern plate, means connected to said lower pattern plate to move said pattern plate through said flask and to position said pattern plate normally to close the lower end of said flask, a generally horizontally disposed table, means for exerting a vertical compression force on sand in said flask whereby said sand is compressed into a mold between said upper pattern and said lower pattern, and means for swinging said lower pattern plate and said flask to bring one edge of said sand into general alignment with said table, and means to force said mold from said flask onto said horizontal table.
2. The machine recited in claim 1 wherein said flask support and said lower pattern plate are carried on the piston rod of a hydraulic cylinder, and said hydraulic cylinder being swingably supported on said machine to swing said flask from a vertical molding position to a horizontal position on said table.
3. The machine recited in claim 1 wherein said table is adapted to receive a plurality of said molds, said molds being forced onto said table in engagement with each other with a cavity formed by said patterns between each two said molds, and means is provided to pour molten metal into said cavities while in said mold.
4. The machine recited in claim 3 wherein vacuum means is connected to said table to remove air from said molds.
5. The machine recited in claim 3 wherein said table forms one side of an open channel, and said molds are forced from said flask into said channel.
6. The machine recited in claim 5 wherein a frame is provided around the open end of said channel, and said frame has a cutting edge around it for sizing said molds so they fit snugly into said channel.
7. A molding machine comprising a machine frame, a lower pattern plate, an upper pattern plate, means to support a flask between said upper pattern plate and said lower pattern plate, means to move said lower pattern plate and said upper pattern plate relative to each other in a generally vertical direction for causing compression of the sand in said flask, means to separate said flask from said upper pattern plate, a generally horizontally disposed support for molds disposed on said machine, means to swing said flask and said lower pattern plate from a generally vertical orientation to a generally horizontal orientation position adjacent said support, means to engage said pattern plate and to force said mold out of said flask and onto said support means, and means to pour molten metal into said mold while said mold is on said support means.
8. The machine recited in claim 7 wherein said generally horizontally disposed support is a part of a channel and means is provided on said channel to remove sand from the outside edge of said mold to cause said mold to fit into said channel,
9. The machine recited in claim 7 wherein said flask is fixed to a hydraulic cylinder, and said lower pattern plate is fixed to a piston rod in said cylinder.
10. The machine recited in claim 7 wherein means to exert a vacuum on said molds is provided on said machine.
11. The machine recited in claim 7 wherein said upper pattern plate has an upper pattern on it, and said lower pattern plate has a lower pattern on it, and said pattern plates each form cavities in said mold, one of each of the said cavities made by said upper pattern and one of the cavities made by lower pattern each being disposed beside each other providing a space to receive molten metal.
12. The machine recited in claim 7 wherein said means tO swing said lower pattern plate comprises a cylinder swingably supported on said machine, said flask being attached to said cylinder, a piston rod on said cylinder, said lower pattern plate being attached to said piston rod whereby said piston rod may push said lower pattern plate through said flask to compress sand therein and to force said mold therefrom.
13. A molding machine comprising: a machine frame, a first pattern plate supported on said machine frame, a cradle rotatably mounted on said frame for movement from a generally vertical orientation to a generally horizontal orientation, an open-ended flask mounted on the cradle for rotatable movement with the cradle, a second pattern plate mounted on said cradle being adapted to close one end of the flask and being further adapted for movement in a linear direction through the interior of said flask, means for placing sand in the flask, means for moving the flask in a generally vertical direction toward the first pattern plate, means for moving the second pattern plate toward the first pattern plate so that the flask and the second pattern plate travel together toward the first pattern plate, means for exerting a compression force on sand in said flask whereby said sand is compressed into a mold between the first pattern plate and the second pattern plate, means for moving the flask and the sand mold together with the second pattern plate away from the first pattern plate in a generally vertical direction so that the first pattern plate is disengaged from the sand mold, means for rotatably moving the cradle from a generally vertical orientation to a generally horizontal orientation, a generally horizontally disposed table, means for moving the second pattern plate through the flask to push the sand mold out of the flask onto the horizontally disposed table, and for withdrawing the second pattern plate away from the sand mold.
14. A molding machine as defined in claim 13 which further includes means for moving the flask together with the sand mold and the lower pattern plate in a generally horizontal direction toward the horizontally disposed table.
15. A molding machine comprising: a machine frame, a first pattern plate mounted on said machine frame, a cradle rotatably mounted on said frame for movement from a generally vertical orientation to a generally horizontal orientation, an open-ended flask mounted on the cradle for rotatable movement with the cradle, a second pattern plate mounted on said cradle being adapted to close one end of the flask and being further adapted for movement in a linear direction through the interior of said flask, means for locking the second pattern plate in position at said one end of the flask, means for placing sand in the flask, means for moving the flask together with the second pattern plate toward the first pattern plate, means for further moving the second pattern plate in the flask toward the first pattern plate to squeeze sand in the flask thereby to form a sand mold, means for locking the second pattern plate relative to the flask after formation of the sand mold, means for moving the flask and the sand mold together with the second pattern plate away from the first pattern plate in a vertical direction, means for rotatably moving the cradle from a generally vertical orientation to a generally horizontal orientation, a generally horizontally disposed table, means for moving the flask together with the sand mold and the lower pattern plate in a generally horizontal direction toward the horizontally disposed table, and means for moving the second pattern plate through the flask to push the sand mold out of the flask onto the horizontally disposed table.
16. The molding machine according to claim 15 in which the means for locking the second pattern plate is adapted to slip.
17. The molding machine according to claim 15 in which the means for locking the second pattern plate is adapted to be released.
18. A molding machine comprising a machine frame, a flask and means supporting said flask relative to said machine frame, an upper pattern supported on said machine frame in a position above said flask, a pattern plate, a lower pattern supported on said pattern plate, means connected to said pattern plate to move said pattern plate through said flask and to support said pattern plate normally to close the lower end of said flask, a generally horizontally disposed table, means for exerting a compression force on sand in said flask whereby said sand is compressed into a mold between said upper pattern and said lower pattern, means for locking the lower pattern plate with respect to said flask and mold, means for separating the mold from the upper pattern, and means for swinging said pattern plate and said flask to bring one edge of said mold into general alignment with said table, means for releasing the locking condition of the lower patten plate with respect to said flask and said mold, and means to force said mold from said flask onto said horizontal table.
19. A molding machine comprising a machine frame, a flask and a rod supporting said flask relative to said machine frame, an upper pattern supported on said machine frame in a position above said flask, a pattern plate, a lower pattern supported on said pattern plate, said rod connected to said pattern plate to move said pattern plate through said flask and to support said pattern plate normally to close the lower end of said flask, a generally horizontally disposed table, power means for exerting a compression force on sand in said flask through said rod whereby said sand is compressed into a mold between said upper pattern and said lower pattern, a locking device to engage and lock said rod relative to said flask and said lower pattern, means for withdrawing the flask in said locked condition from said upper pattern, and means for swinging said pattern plate and said flask in said locked relationship to bring one edge of said mold into general alignment with said table, means for releasing said locking devices, and means to force said mold from said flask onto said horizontal table.
US00074161A 1970-09-21 1970-09-21 Molding machine Expired - Lifetime US3709282A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US7416170A 1970-09-21 1970-09-21

Publications (1)

Publication Number Publication Date
US3709282A true US3709282A (en) 1973-01-09

Family

ID=22118070

Family Applications (1)

Application Number Title Priority Date Filing Date
US00074161A Expired - Lifetime US3709282A (en) 1970-09-21 1970-09-21 Molding machine

Country Status (1)

Country Link
US (1) US3709282A (en)

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3817314A (en) * 1973-03-05 1974-06-18 Combustion Eng Flaskless molding machine
US3838731A (en) * 1971-04-15 1974-10-01 Sherwin Williams Co Horizontal stack foundry molding machine with indexing carriage
US3840971A (en) * 1971-12-30 1974-10-15 Goodyear Tire & Rubber Method of making a sand mold for casting tread rings utilized in tire molds
JPS5094210U (en) * 1974-01-01 1975-08-07
US3910343A (en) * 1974-08-16 1975-10-07 Alexei Ivanovich Popov Device for placing cores into removable-flask moulds
US3999594A (en) * 1974-09-05 1976-12-28 Dansk Industri Syndikat A/S Apparatus for producing casting moulds consisting of identical mould parts
US4030535A (en) * 1974-04-19 1977-06-21 Hitachi Metals, Ltd. Molding system
US4091858A (en) * 1974-11-12 1978-05-30 Grigory Mikhailovich Goldring Apparatus for making molds by sequential squeezing
US4159732A (en) * 1976-06-11 1979-07-03 Handkammer Herbert K Method of casting
EP0122116A2 (en) * 1983-04-07 1984-10-17 Dansk Industri Syndikat A/S A machine for the production of flaskless, horizontally divided casting moulds of sand or similar material
US5535809A (en) * 1993-11-24 1996-07-16 Grand Haven Brass Foundry Method and apparatus for packing a granular material for foundry use
US20150298203A1 (en) * 2011-12-22 2015-10-22 Luis Cobos Jimenez Molding method, equipment for carrying out said method and mold obtained by means of said method

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2937421A (en) * 1958-12-12 1960-05-24 Taccone Pneumatic Foundry Equi Machine for making molds for centrifugal castings
US3008199A (en) * 1957-08-30 1961-11-14 Jeppesen Vagn Aage Method of producing casting molds and a plant for carrying out the said method
US3103717A (en) * 1963-09-17 Molding machine with two shuttling
US3172173A (en) * 1965-03-09 ellms
US3303535A (en) * 1963-10-18 1967-02-14 Owens Dev Corp Sand mold patterns formed of porous or permeable metal

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3103717A (en) * 1963-09-17 Molding machine with two shuttling
US3172173A (en) * 1965-03-09 ellms
US3008199A (en) * 1957-08-30 1961-11-14 Jeppesen Vagn Aage Method of producing casting molds and a plant for carrying out the said method
US2937421A (en) * 1958-12-12 1960-05-24 Taccone Pneumatic Foundry Equi Machine for making molds for centrifugal castings
US3303535A (en) * 1963-10-18 1967-02-14 Owens Dev Corp Sand mold patterns formed of porous or permeable metal

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3838731A (en) * 1971-04-15 1974-10-01 Sherwin Williams Co Horizontal stack foundry molding machine with indexing carriage
US3840971A (en) * 1971-12-30 1974-10-15 Goodyear Tire & Rubber Method of making a sand mold for casting tread rings utilized in tire molds
US3817314A (en) * 1973-03-05 1974-06-18 Combustion Eng Flaskless molding machine
JPS5094210U (en) * 1974-01-01 1975-08-07
US4030535A (en) * 1974-04-19 1977-06-21 Hitachi Metals, Ltd. Molding system
US3910343A (en) * 1974-08-16 1975-10-07 Alexei Ivanovich Popov Device for placing cores into removable-flask moulds
US3999594A (en) * 1974-09-05 1976-12-28 Dansk Industri Syndikat A/S Apparatus for producing casting moulds consisting of identical mould parts
US4091858A (en) * 1974-11-12 1978-05-30 Grigory Mikhailovich Goldring Apparatus for making molds by sequential squeezing
US4159732A (en) * 1976-06-11 1979-07-03 Handkammer Herbert K Method of casting
EP0122116A2 (en) * 1983-04-07 1984-10-17 Dansk Industri Syndikat A/S A machine for the production of flaskless, horizontally divided casting moulds of sand or similar material
EP0122116A3 (en) * 1983-04-07 1985-01-02 Dansk Industri Syndikat A/S A machine for the production of flaskless, horizontally divided casting moulds of sand or similar material
US5535809A (en) * 1993-11-24 1996-07-16 Grand Haven Brass Foundry Method and apparatus for packing a granular material for foundry use
US20150298203A1 (en) * 2011-12-22 2015-10-22 Luis Cobos Jimenez Molding method, equipment for carrying out said method and mold obtained by means of said method

Similar Documents

Publication Publication Date Title
US3709282A (en) Molding machine
EP0468355B1 (en) Flaskless molding machine
US7210515B2 (en) Squeeze station for automated molding machine
US2588669A (en) Machine for forming molds
KR101086998B1 (en) Flask unit, cope and drag molding device, and molding line
US4463794A (en) Apparatus for producing containerless sand molds
US6499531B1 (en) Machine for producing flaskless moulds
US3828840A (en) Cyclicly-operable machine adapted to produce and assemble cope and drag mold parts
US2542243A (en) Molding machine
US3736978A (en) Mold forming apparatus with flask having opposed shoulder portions
US3695339A (en) Mold forming apparatus
US2767447A (en) Means for gripping and withdrawing moulding flasks from moulding machines
US4699199A (en) Automated mold making system
US2956317A (en) Apparatus and method of making molds
US3817314A (en) Flaskless molding machine
US3939899A (en) Shell molding machine in which blown core can be ejected outside vise assembly
EP0045121B1 (en) Foundry core or mold making machine
US3628592A (en) Flaskless squeeze molding machine
JP4341021B2 (en) Pattern plate reuse method and frameless mold making machine
US2951270A (en) taccone
US1957246A (en) Method of and apparatus for molding
US2877522A (en) Mold blowing apparatus
US3654986A (en) Automatic molding apparatus and mold-making machine therein
US3328852A (en) Foundry sand forming machines
US2268208A (en) Method of and apparatus for molding