WO2008099521A1

WO2008099521A1 - Method and device for producing tight-flask molds

Info

Publication number: WO2008099521A1
Application number: PCT/JP2007/063517
Authority: WO
Inventors: Minoru Hirata
Original assignee: Sintokogio, Ltd.
Priority date: 2007-02-17
Filing date: 2007-06-29
Publication date: 2008-08-21
Also published as: EP1964626A1; JP2010519040A

Abstract

A method and a device for producing tight-flask molds, in as short a cycle as possible, is provided. The method of the invention is a method for producing a tight-flask mold by transferring a flask to a position between a pattern carrier and a sand hopper by a flask conveyor that horizontally transfers flasks at a transfer level. The method includes the steps of keeping the flask in the position at the transfer level, while lowering the sand hopper, squeeze means, and a filling frame to the flask and lifting the pattern carrier and a box-like frame to the frame, thereby defining a mold space by the sand hopper, the squeeze means, the filling frame, the flask, the pattern carrier, and the box-like frame; filling molding sand into the mold space; squeezing the molding sand in the mold space to produce a tight-flask mold; and lifting the sand hopper, the squeeze means, and the filling frame and lowering the pattern carrier and the box-like frame, thereby allowing the tight-flask mold to be ready to be transferred.

Description

DESCRIPTION

Method and Device for Producing Tight-Flask Molds

Field of the Invention

[0001] This invention relates to a method and a device for producing a tight- flask mold, especially one for successively producing a plurality of tight-flask molds.

Background of the Invention [0002] A PCT application that was published as International Publication

WO0132333 discloses a prior-art method and device relating to the method and device of the present invention for producing tight-flask molds. The molding device disclosed by this publication, for squeezing molding sand in a mold space defined by a pattern plate having a pattern and located in a predetermined position, a flask to be placed on the pattern plate for enclosing the pattern, and a filling frame to be placed on the flask, comprises a plurality of spaced-apart, fixedly and uprightly mounted, and upwardly-facing cylinders; a mounting frame secured to the tips of the piston rods of the upwardly-facing cylinders and supported above the mold space for vertical movement; a sand hopper secured to the mounting frame, holding molding sand therein and having a plurality of spaced-apart sand-filling nozzles at the lower part thereof for supplying the molding sand from the sand hopper to the mold space, the sand hopper being capable of advancing into the filling frame when lowered by the upwardly-facing cylinders; and a plurality of squeeze feet disposed at the lower parts of the sand hopper that are adjacent to the sides of the sand-filling nozzles, for substantially covering the upper part of the filling frame together with the lower part of the sand hopper when the sand hopper is lowered by the upwardly-facing cylinders, and for squeezing the molding sand together with the lower part of the sand hopper when the sand hopper is lowered by the upwardly-facing cylinders to advance into the filling frame. The entire disclosure of WO132333 is herein incorporated by reference. [0003] Forming a mold space (a space in which molding sand is filled) in the molding device disclosed in WO 132333 includes two steps, namely, a step of placing a flask on a leveling frame, and a step of placing a filling frame on the flask and lowering the squeeze feet to allow it to advance into the filling frame. Further, to transfer the tight-flask mold after demolding, lifting it also includes two steps, namely, a step of allowing a roller device to come into contact with the flask, and after that contact a step of lifting the tight-flask mold to an upper stop end. Accordingly, in that conventional mold-space forming, a problem is caused in that the cycle to produce a mold is long. Thus the industries in this art have a need for a method and a device that can shorten as much as possible the cycle to produce a mold. Summary of the Invention

[0004] This invention has been conceived in view of the above circumstances. The purpose of it is to provide a method and a device that can shorten as much as possible the cycle to produce a mold.

[0005] To the above end, the method of the invention is a method for producing a tight- flask mold by transferring the mold to a position between a pattern carrier and a sand hopper by a flask conveyor that horizontally transfers flasks at a transfer level. The method includes the steps of keeping the flask in the position at the transfer level, while lowering the sand hopper, squeeze means, and a filling frame to the flask and lifting the pattern carrier and a box-like frame to the frame, thereby defining a mold space by the sand hopper, the squeeze means, the filling frame, the flask, the pattern carrier, and the box-like frame; squeezing molding sand in the mold space to produce a tight-flask mold; and lifting the sand hopper, the squeeze means, and the filling frame and lowering the pattern carrier and the box-like frame, thereby allowing the tight-flask mold to be ready to be transferred. [0006] Further, to the above end, the device of the invention is a molding device for producing a tight-flask mold, comprising a lifting and supporting frame mounted on tops of upwardly-facing cylinders that are uprightly mounted on right and left sides of the base of the molding device; a pattern carrier for holding a pattern plate; a box-like frame for surrounding the periphery of the pattern carrier, said boxlike frame being vertically movable; a pattern changer rotatably mounted on one of the upwardly-facing cylinders, for holding a plurality of said pattern carriers and for alternatively transferring the pattern carriers to and away from a position above a central part of the base of the molding device; a two-stage lifting means disposed below the pattern carrier that is located above the central part of the base of the molding device, for lifting the pattern carrier and the box-like frame; a sand hopper suspended from the lifting and supporting frame, said sand hopper including an air-ejecting chamber for an aeration that allows air to be ejected into molding sand to fluidize the molding sand; squeeze means mounted on the bottom of the sand hopper; sand-filling nozzles disposed around the squeeze means; a vertically movable filling frame for surrounding the group of the squeeze means and the sand-filling nozzles; and a flask conveyor disposed between the pattern carrier located above the base of the molding device and the sand hopper, for horizontally transferring flasks at a transfer level.

[0007] Clearly, from the above structure of the invention, since in the invention the mold space is formed by substantially one step, namely, by lowering the sand hopper, the squeeze means, and the filling frame, and by lifting the pattern carrier and the box-like frame to the flask, the cycle to produce a mold is shorter than in the conventional two-step mold space forming. Further, since after demolding the tight-flask mold is made ready to be transferred by substantially one step, namely, by lifting the sand hopper, the squeeze means, and the filling frame, and by lowering the pattern carrier and the box-like frame, the cycle to produce a mold is again shortened compared with the conventional method, wherein the tight-flask mold is made ready to be transferred by the two steps.

Other embodiments and advantages of the invention will be apparent by reviewing the following embodiments described below in reference to the accompanying drawings.

Brief Description of the Drawings

Figure 1 is a vertical cross-sectional view of the molding device of the embodiment of the present invention, showing the starting state of the operation of the molding device. Figure 2 is a view taken in the direction of arrows A in Figure 1.

Figure 3 is a vertical cross-sectional view of the molding device of Figure 1, showing a defined mold space.

Figure 4 is a vertical cross-sectional view of the molding device of Figure 1, showing the filling of molding sand by aerating.

Figure 5 is a vertical cross-sectional view of the molding device of Figure 1, showing the primary squeeze of the molding sand.

Figure 6 is a vertical cross-sectional view of the molding device of Figure 1 , showing the secondary squeeze of the molding sand. Figure 7 is a vertical cross-sectional view of the molding device of Figure 1, showing the demolding.

Figure 8 is a vertical cross-sectional view of the molding device of Figure 1, showing that the tight-flask mold is ready to be transferred.

Best Mode for Carrying out the Invention

[0008] The embodiment of the present invention will be explained below in detail. In Fig. 1, upwardly-facing cylinders 2, 2 are uprightly mounted on right and left sides of the base 1 of a molding device. A lifting and supporting frame 3 is mounted on the tops of the piston rods 2a, 2a of the upwardly-facing cylinders 2, 2. Further, a rotary pattern changer 4, which is rotatable in a horizontal plane, is mounted at its central part on one of the upwardly-facing cylinders 2, 2 (the cylinder located at the left side in Fig. 1) at its lower part. Pattern carriers 6 and 6 A are placed on the ends of the pattern changer 4. The pattern carriers 6 and 6 A hold pattern plates 5 a and 5a, respectively. The pattern plates 5a, 5a may hold the same patterns or different patterns (for example, an upper pattern half for a cope and a lower pattern half for a drag). The pattern carriers 6, 6 A are alternately transferred to or from a position located above the base 1 of the molding device.

[0009] Further, a plurality of guide rods 7, 7 are secured to the four corners of the bottom of each pattern carrier 6 or 6 A. The guide rods 7, 7 are vertically and slidably inserted in holder parts 8a, 8a of box-like frames 8, 8A, which surround the pattern carriers 6, 6A and are movable vertically. Further, a plurality of positioning members 4b, 4b (Fig. 2) are secured to the upper surfaces of frame parts 4a, 4a of the pattern changer 4. The box-like frames 8, 8A are placed in position on the pattern changer 4 by allowing depressions formed in the box-like frames 8, 8A to be placed on and engaged by the positioning members 4b, 4b. Thus the pattern carriers 6, 6A are set on the pattern changer 4 through the box-like frames 8, 8 A. By this arrangement, the box-like frames 8, 8 A are moved upward with respect to the frame parts 4a, 4a.

[0010] To lift the box-like frame 8, and pattern carrier 6, which is located above the central part of the base 1 of the molding device, a two-stage lifting means 9 is disposed below that pattern carrier 6. The structure of the two-stage lifting means (a telescopic cylinder) 9 is now explained in detail. A first lifting member 9c, of which the periphery extends upward, is secured to the upper end of a first lifting rod 9b of a first cylinder 9a of the two-stage lifting means 9. A through hole 9d is formed in the center of the first lifting members 9c. Further, the two-stage lifting means is arranged such that a second lifting rod 9f of a second cylinder 9e is disposed in the first lifting rod 9b. Namely, the first lifting rod 9b of the first cylinder 9a acts as a cylinder of the second cylinder 9e. The second lifting rod 9f passes through the through hole 9d. Further, a second lifting member 9g is secured to the upper end of the second lifting rod 9f. The second lifting member 9g has holding means 9h, 9h (Fig. 2). The pattern-carrier holding means 9h, 9h in this embodiment are means that use electromagnets for holding the pattern carrier. However, those means are not limited to this. There may be other means such as suction or some mechanical members to hold the pattern carrier.

[0011] Further, a sand hopper 14 is suspended from the lifting and supporting frame 3. The sand hopper 14 has a sand-feeding port 11 at its top, which is opened or closed by a sliding gate 10, and has an air-supply pipe 12 at its lower part. By opening a valve (not shown) for the air-supply pipe 12, a low-pressure airflow (for example, at a pressure of 0.05 — 0.18 MPa) may be introduced into the sand hopper 14 through the air-supply pipe 12. The sand hopper 14 also has a number of air-ejecting chambers 13, 13 at its inner lower part. The air-ejecting chambers are connected to a pressurized-air source (not shown) through a valve (not shown) so that low-pressure airflows (for example, at a pressure of 0.05 — 0.18 MPa) are ejected from them into the sand hopper 14 for aerating molding sand S in the hopper to fluidize it. Further, a plurality of squeeze feet as a squeeze means are disposed at the lower end of the sand hopper 14. The squeeze feet are vertically movable and can stop at any level along their vertical passage. Sand-filling nozzles 16, 16 are disposed around the squeeze feet 15, 15.

[0012] Further, a filling frame 17 is disposed and connected to downwardly- facing, filling-frame cylinders 18, 18 such that it can vertically move and surround the group of the squeeze feet and the sand-filling nozzles 16, 16. Some vent holes (not shown) are formed in the upper part of the filling frame 17. Further, a roller conveyor 20, acting as a flask conveyor, is disposed in a position between the sand hopper 14 and the pattern carrier 6 that is located above the central part of the base 1 of the molding device for horizontally transferring flasks 19 to and from that position. The roller conveyor 20, which is secured to a frame (not shown), holds the flasks 19 at the transfer level of the roller conveyor 20, at which level the flasks 19 are transferred along the roller conveyor.

[0013] The operation of the molding device arranged as explained above will now be explained in detail. Fig. 1 shows the stage of a device wherein the pattern carrier 6 in which the pattern plate 5 is placed has been transferred to the position above the central part of the base 1 of the molding device, and wherein an empty flask 1 has been transferred by the roller conveyor 20 to the position between the sand hopper 14 and the pattern carrier 6. The molding sand S has been introduced into the sand hopper 14, and the plurality of squeeze feet 15, 15 are disposed to form a concave and convex shape (i.e., they are positioned at different levels) corresponding to the concave and convex shape of the pattern plate 5. Further, the box-like frame 8 is located to project upward by a small amount (30 mm in this embodiment) from the periphery of the surface of the pattern plate 5.

[0014] From this stage, the sliding gate 10 is operated to close the sand-feeding port 11. Then, the upwardly-facing cylinders 2, 2 are retracted to lower the sand hopper 14, the squeeze feet 15, 15, and the filling frame 17 to the flask 19, while the first lifting rod 9b is extended from the first cylinder 9a to lift the pattern carrier 6 and the box-like frame 8 to the flask 19, to define a mold space by the sand hopper 14, the squeeze feet 15, 15, the filling frame 17, the flask 19, the pattern plate 5, and the box-like frame 8. This stage is shown in Fig. 3. This mold space is shaped such that the concave and convex shape formed by the squeeze feet 15, 15 corresponds to the concave and convex shape of the pattern plate 5. While the extending operation of the first lifting rod 9b is started, the pattern carrier 6 is held by the second lifting member 9g via the operation of the pattern-carrier holding means 9h, 9h. [0015] Next, by ejecting low-pressure airflows from a number of the air-ejecting chambers 13, 13 into the sand hopper 14 to aerate and fluidize the molding sand S in the sand hopper 14, and by opening the valve (not shown) of the air-supply pipe 12 to introduce a low-pressure airflow from above to the molding sand S in the sand hopper 14, the molding sand S is blow- filled by low-pressure air from the sand-filling nozzles 16, 16 into the mold space, as shown in Fig. 4. During this blow-filling, the air for blow-filling at the low pressure is discharged from the aforementioned vent holes (not shown) formed in the filling frame and/or vent holes (not shown) of the pattern plate 5.

[0016] The upwardly-facing cylinders 2, 2 are then further retracted to lower the lifting and supporting frame 3 and the elements supported by it, while the filling-frame cylinders 18, 18 are retracted, to perform a primary squeeze of the molding sand until the bottoms of all the squeeze feet are at the same level (during the squeeze the hydraulic fluid for the squeeze feet is allowed to be discharged), while the sliding gate 10 is reversely operated to open the sand-feeding port 11, as shown in Fig. 5.

[0017] The second lifting rod 9f of the second cylinder 9e is then extended to allow the pattern carrier 6 to slidably move upward via the second lifting member 9g and with the aid of the guide rods 7, 7, to lift the pattern plate 5, to perform a secondary squeeze. Accordingly, the level of the periphery of the surface of the pattern plate 5 comes to coincide with the level of the mating surfaces of the flask 19 (its bottom) and the box-like frame 8 (its top), as shown in Fig. 6.

[0018] The second lifting rod 9f of the second cylinder 9e is then retracted to lower the pattern plate 5 via the second lifting member 9g, the pattern-carrier holding means 9h, 9h and the pattern carrier 6, to perform a demolding, as shown in Fig. 7. The demolding is carried out with the flask 19 being sandwiched between the filling frame 17 and the box-like frame 8.

[0019] The upwardly-facing cylinders 2, 2, are then extended to lift the sand hopper 14, the squeeze feet 15, 15, and the filling frame 17, while the first cylinder 9a is retracted to lower the pattern carrier 6 and the box-like frame 8, to allow the tight-flask mold M to be free to be transferred, as shown in Fig. 8. During this process an amount of molding sand S is refilled in the sand hopper 14. When the retracting operation of the first cylinder 9a terminates, the pattern-carrier holding means 9h, 9h are deactivated, so that the holding of the pattern carrier 6 by the second lifting member 9g, via the pattern-carrier holding means 9h, 9h, is released. [0020] The tight-flask mold M is then transferred by the roller conveyor 20, and an empty flask is transferred in, while the pattern changer 4 is rotated through 180 degrees to change the pattern plate 5 and the pattern plate 5A. Further, the squeeze feet 15, 15 are moved to form a concave and convex shape corresponding to the concave and convex shape of the pattern plate 5 A. The operation explained above may be repeated.

[0021] In the present invention, by lowering the sand hopper 14, the squeeze means 15, 15, and the filling frame 17, to the flask 19, and by lifting the pattern carrier 6 and the box-like frame 8 to the flask, a mold space is defined by the sand hopper 14, the squeeze means 15, 15, the filling frame 17, the flask 19, pattern plate 5, and the box-like frame 8. By this, the mold space (a space in which molding sand is filled) is defined by substantially one step. Thus the mold-producing cycle can be shorter than that when a mold space is conventionally formed, requiring two steps, namely, a step of placing a flask on a leveling frame and a step of placing a filling frame on the flask and lowering the squeeze feet to allow it to advance into the filling frame. Preferably, the contact of the bottom of the filling frame 17 with the top of the flask 19 coincides with the contact of the top of the box-like frame 8 with the bottom of the flask, although some time difference between the lowering operation of the sand hopper 14, the squeeze means 15, 15, and the filling frame 17 and the lifting operation of the pattern carrier 6 and the box-like frame 3 may be allowed. [0022] Further, in the present invention, by lifting the sand hopper 14, the squeeze feet 15, 15, and the filling frame 17, and by lowering the pattern carrier 6 and the box-like frame 8, the tight-flask mold M can be freely transferred. By this, the tight-flask mold can be freely transferred by substantially one step. Thus the mold-producing cycle can again be shorter than when a mold is conventionally free to be transferred, requiring two steps, namely, a step of allowing the roller device to come into contact with the flask and a step of lifting the flask to the upper stop end. Preferably, the disengagement of the bottom of the filling frame from the top of the flask coincides with the disengagement of the top of the box-like frame 8 from the bottom of the flask, although some difference of time between the lifting operation of the sand hopper 14, the squeeze means 15, 15, and the filling frame 17 and the lowering operation of the pattern carrier 6 and the box-like frame 8 may be allowed. [0023]

Further, since in the present invention the two-stage lifting means 9 for lifting the pattern carrier 6 and the box-like frame 8 is disposed below the pattern carrier 6, which is located above the central part of the base 1 of the molding device, the aforementioned secondary squeeze is easily carried out even in the structure of the present invention, where the flask 19 is not moved vertically. Further, the two-stage lifting means 9 includes the first cylinder 9a having the first lifting rod 9b, the tip of which is connected to the first lifting member 9c, and includes the second cylinder 9e having the second lifting rod 9f, wherein the tip of the second lifting rod 9f is connected to the second lifting member 9g, and the second lifting rod 9f is disposed within the first lifting rod 9b of the first cylinder 9a. Thus the lifting means 9 can be a compact structure.

[0024] In the embodiment of the present invention the flask 19 is sandwiched between the filling frame 17 and the box-like frame 8, with the flask 19 being in contact with rollers 20a, 20a of the roller conveyor 20, as in Fig. 3. However, the molding device of the invention is not limited to this structure. For example, the molding device may be provided with a flask-leveling mechanism (not shown). By using this flask-leveling mechanism the flask may be located above the rollers 20a, 20a by a small distance, for example, 5 mm, while being sandwiched between the filling frame 17 and the box-like frame 8.

Claims

1. A method for producing a tight- flask mold by transferring a flask to a position between a pattern carrier and a sand hopper by a flask conveyor that transfers flasks horizontally at a transfer level, comprising the steps of: keeping the flask in the position substantially at the transfer level, while lowering the sand hopper, squeeze means, and a filling frame to the flask and lifting the pattern carrier and a box-like frame to the flask, thereby defining a mold space by the sand hopper, the squeeze means, the filling frame, the flask, the pattern carrier, and the box-like frame; filling molding sand into the mold space; squeezing the molding sand in the mold space to produce a tight-flask mold; and lifting the sand hopper, the squeeze means, and the filling frame and lowering the pattern carrier and the box-like frame, thereby allowing the tight-flask mold to be ready to be transferred.

2. A method for producing a tight-flask mold, comprising the steps of: transferring a pattern carrier that holds a pattern plate to a position above a central part of a machine base of a molding device and transferring a flask to a position between the pattern carrier and a sand hopper; lowering the sand hopper, squeeze means, and a filling frame to the flask and lifting the pattern carrier and a box-like frame to the flask, thereby defining a mold space by the sand hopper, the squeeze means, the filling frame, the flask, the pattern carrier, and the box-like frame; filling molding sand from the sand hopper into the mold space through sand-filling nozzles, while aerating the molding sand fed into the sand hopper by ejecting air into the molding sand, to fluidize the molding sand: primarily squeezing the molding sand by the squeeze means; secondarily squeezing the molding sand by moving the pattern plate upward; demolding by lowering the pattern plate; and lifting the sand hopper, the squeeze means, and the filling frame and lowering the pattern carrier and the box-like frame, thereby allowing the tight-flask mold to be ready to be transferred.

3. A molding device for producing a tight-flask mold, comprising: a lifting and supporting frame mounted on top of upwardly-facing cylinders that are uprightly mounted on right and left sides of a base of the molding device; a pattern carrier for holding a pattern plate; a box-like frame for surrounding the periphery of the pattern carrier, said boxlike frame being vertically movable; a pattern changer rotatably mounted on one of the upwardly-facing cylinders, for holding a plurality of said pattern carriers and for alternatively transferring the pattern carriers to and from a position above a central part of the base of the molding device; a two-stage lifting means disposed below the pattern carrier that is located above the central part of the base of the molding device, for lifting the pattern carrier and the box-like frame; a sand hopper suspended from the lifting and supporting frame, said sand hopper including an air-ejecting chamber for an aeration that allows air to be ejected into molding sand to fluidize the molding sand; squeeze means mounted on the bottom of the sand hopper; sand-filling nozzles disposed around the squeeze means; a vertically movable filling frame for surrounding the group of the squeeze means and the sand-filling nozzles; and a flask conveyor disposed between the pattern carrier located above the base of the molding device and the sand hopper, for horizontally transferring flasks at a transfer level.

4. The molding device as set forth in claim 3, wherein the two-stage lifting means includes a first cylinder having a first lifting rod to which a first lifting member is connected and a second cylinder having a second lifting rod to which a second lifting member is connected, said second cylinder being arranged so that the second lifting rod is disposed in the first lifting rod of the first cylinder.