The present invention relates to an appropriate method for making flaskless upper and lower molds placed one above the other, an apparatus therefor, and a method for placing a core.
Molding machines that make flaskless upper and lower molds are publicly known. It comprises a compressing station and a stripping station. The compressing station is placed above a base and squeezes molding sand in a direction that is horizontal and parallel to the surface of the base floor. The pulling out station is placed near the base floor and matches upper and lower molds and strips molding flasks in a direction vertical to the surface of the floor. The machine gets two pairs of cope and drag flasks to intermittently and alternately reciprocate between the compressing station and the stripping station so as to make flaskless upper and lower molds.
However, the conventional molding machine to mold flaskless upper and lower molds has a problem such as insufficient molding efficiency. Especially, a release agent is sprayed in a closed space at the final stage, and the concern has been that the release agent may not be dried sufficiently. Therefore, this is one of the reasons that the next step cannot promptly begin. Also it has been a problem that it is difficult to quickly place a core in the mold (see Japanese Patent Publication of Examined Application No. S62-16736).
The problem to be solved by the present invention is that the conventional technology cannot efficiently make flaskless upper and lower molds or efficiently spray a release agent in a closed space, or place a core quickly.
In order to solve these problems, the method for making flaskless upper and lower molds is a method for making flaskless upper and lower molds that are stacked, that comprises the steps of
holding a match-plate between a pair of cope and drag flasks that are horizontally positioned and each of them has a sand filling port for supplying molding sand at its side wall,
putting the pair of cope and drag flasks and the match-plate in a vertical position, so as to place the sand filling port be in an upper position, while inserting upper and lower squeeze-plates to the respective openings of the pair of cope and drag flasks which openings are opposed to the match-plate, thereby defining two upper and lower molding spaces,
spraying a release agent to the upper and lower spaces defined by inserting the upper and lower squeeze-plates to the openings,
supplying molding sand through the sand filling ports to the two molding spaces, and
squeezing the molding sand in the two molding spaces.
Also, in order to solve these problems, the method for making flaskless upper and lower molds is a method for making flaskless upper and lower molds which are stacked, that comprises the steps of:
holding a match-plate between a pair of cope and drag flasks that are horizontally positioned, each of them having a sand filling port at its side wall,
putting the cope and drag flasks and the match-plate in a vertical position, so as to place the sand filling ports in upper position, while inserting upper and lower squeeze-plates to the respective openings of the cope and drag flasks which openings are opposed to the match-plate, thereby defining upper and lower molding spaces,
spraying a release agent to the upper and lower spaces defined by inserting an upper and lower squeeze-plate to the openings,
supplying molding sand through the sand filling ports to the two molding spaces, and
squeezing the molding sand in the two molding spaces,
Further, in order to solve these problems, the molding machine for forming flaskless upper and lower molds is an apparatus for molding flaskless upper and lower molds that are stacked, that comprises
two pairs of cope and drag flask each of which has a sand filling port for supplying molding sand at its side wall,
a match-plate that is arranged so as to be able to be inserted in and withdrawn from between the cope and drag flasks by a conveying mechanism for inserting and withdrawing it,
a squeezing mechanism for squeezing the molding sand, wherein the match-plate is held between the cope and drag flasks, upper and lower squeeze-plates are arranged so as to be able to be inserted in and pulled out from the respective openings of the cope and drag flasks which openings are opposed to the match-plate, and the pair of cope and drag flasks and the match-plate, are held around the supporting shaft so as to be rotatable in the forward and backward directions in a vertical plane between the positions in which the molding flasks are vertical and in which they are horizontal,
a rotating mechanism that rotates the squeezing mechanism in forward and backward directions,
spraying mechanisms for spraying a release agent that are provided at each of the cope and drag flasks,
a sand-supplying mechanism that supplies molding sand through the sand filling ports to the pair of cope and drag flasks that are positioned in a vertical position by the movement of the rotating mechanism.
Also, in order to solve these problems, the molding machine for making flaskless upper and lower molds is an apparatus for making flaskless upper and lower molds that are stacked, that comprises
a unit of an cope and drag flasks in which the upper molding flask is connected with the lower one by connecting rods in a manner of moving toward or away from each other,
a match-plate that is arranged so as to be able to be inserted in and withdrawn from between the cope and drag flasks of the unit by a conveying mechanism for insertion and withdrawal,
spraying mechanisms for spraying a release agent that are provided at each of the cope and drag flasks,
a squeezing mechanism for squeezing molding sand, wherein the unit of the cope and drag flasks is provided so as to be freely attached to and detached from each other by two or more clamping mechanisms, the match-plate is held between the cope and drag flasks, upper and lower squeeze-plates are arranged so as to be able to be inserted in and pulled out from the respective openings of the cope and drag flasks which openings are opposed to the match-plate, and the pair of cope and drag flasks, between which the match-plate is held, are held around the supporting shaft so as to be rotatable in the forward and backward directions in a vertical plane between the positions in which the molding flasks are vertical and in which they are horizontal,
a rotating mechanism that rotates the squeezing mechanism in forward and backward directions,
a sand-supplying mechanism that supplies molding sand through the sand filling ports to the cope and drag flasks that are placed in a vertical position by the rotating mechanism.
As in clear from the above, the methods comprise the step of putting a pair of cope and drag flasks and the match-plate in a vertical position, thereby moving the sand filling ports to an upper position, while defining upper and lower molding spaces by inserting upper and lower squeeze-plates to the respective openings of the pair of cope and drag flasks which openings are opposed to the match-plate, and the step of spraying a release agent to the two molding spaces in an upper and lower position which spaces are defined by inserting the upper and lower squeeze plates to the openings. Thus, the release agent can be sprayed at the time or after the molding spaces are defined and before the match-plate is moved to a vertical position, and then, after the release agent is dried, the molding sand can be supplied to the spaces. Accordingly, the methods can achieve such an excellent practical effect in that they can mold flaskless upper and lower molds in a shorter period of time and more effectively than the conventional method for making a mold.
Also, the apparatuses for making flaskless upper and lower molds comprise spraying mechanisms for spraying a release agent that are provided at each of the cope and drag flasks. Therefore, the release agent can be sprayed at the time or after the molding spaces are defined and before the match-plate is in a vertical position, and then, after the release agent is dried, the molding sand can be supplied to the spaces. Accordingly, the apparatuses can achieve such an excellent practical effect in that they can mold flaskless upper and lower molds in a shorter period of time and more effectively than conventional apparatus for making a mold.
Also, the apparatus for making flaskless upper and lower molds further comprise a mechanism for stripping the upper and lower molds from the cope and drag flasks containing the molds under the condition that the molding flasks are stacked and horizontally placed, and a mechanism for swiveling molding flasks that can intermittently and alternately reciprocate two pairs of the cope and drag flasks, in which each pair of the flasks are horizontally positioned and stacked on, so that the pairs of flasks can move between the squeezing mechanism and the stripping mechanism, where the cope flask is arranged to be able to move upwardly and downwardly. Accordingly, the match-plate can be removed from between the cope and drag flasks, and the pair of the cope and drag flasks containing the molds can be detached from the match-plate. During this process, if necessary, a core can be set in the molds that have been molded and then the pair of the cope and drag flasks can be stacked on each other, and the molds can be stripped from the pair of flasks containing the molds. Therefore, the apparatuses can achieve such an excellent practical effect in that they can set a core in a shorter period of time and more effectively than the conventional method for making a mold.
Even in a single station, it further comprises a mechanism for setting a core corresponding to said each unit of cope and drag flasks. Accordingly, the method can achieve such an excellent practical effect in that they can set a core in a shorter period of time and more effectively than conventional method for setting this kind of core.
In the present invention, a method for spraying a release agent in molding spaces that are defined by an cope and drag flasks, a match-plate, and an upper and lower squeeze-plates may include setting spray nozzles on the cope and drag flasks or the upper and lower squeeze-plates or both, and spraying a release agent toward the match-plate.
Also, in the present invention, whatever mechanism may be applied for setting a core, such as core-mask method, a method using a robot arm, etc.
Now, we discuss one embodiment of a molding machine of the present invention for molding flaskless upper and lower molds, referring to
The release agent spraying mechanisms comprises a tank for the release agent (not shown) that is mounted on the molding machine and stores the release agent, spray-nozzles (not shown) that are mounted on the pair of a cope and drag flasks 2, 3 and spray a release agent toward the match-plate 5, and pumps (not shown) that are provided near the spray-nozzle and supply the release agent to the spray-nozzles from the tank for the release agent for spraying the agent.
As for each of the cope and drag flasks 2, 3 of the two pairs of them 2, 3, 2, 3, as in
The conveying mechanism 4 for inserting and withdrawing the match-plate 5, as in
In the squeezing mechanism 9, as in
The upper lifting and lowering frame 20 is equipped with two or more cylinders 24, 24 that move the upper squeeze-plate 6 backward and forward. The lower lifting and lowering frame 21 is equipped with two or more cylinders 25, 25 that move the lower squeeze-plate 7 backward and forward. The upper surface of each of the upper and lower frames 20, 21, which is plain and normal to the moving direction, has enough dimensions to push the cope and drag flasks 2, 3, respectively.
Also, the sand-supplying mechanism 11 is furnished on the left part of the ceiling of the main frame 1 in
In the stripping mechanism 12, a stripping plate 28, which can be inserted into the cope and drag flasks 2, 3 that are stacked, is fixed to the lower end of the piston rod of a downward-expanding cylinder 29 that is adhered to the ceiling of the main frame 1. The stripping plate 28 can move up and down with the expansion and contraction of the cylinder 29. Also, a table 30 for receiving the upper and lower molds that are stripped from the cope and drag flasks 2, 3 is placed directly below the stripping plate 28 so as to be moved up and down. The receiving table 30 is moved up and down by a pantograph 32 that expands and contracts with the expansion and contraction of a cylinder 31, but it may be moved up and down by a lift-table that uses an ordinary cylinder as a driving source. By using this pantograph 32, any pit will not have to be prepared (see
In the mechanism 13 for swiveling the flasks, a rotating shaft 33 is vertically installed in the main frame 1 so as to freely horizontally rotate. The upper end of the rotating shaft 33 is connected with the output shaft of a motor 34 that is mounted on the ceiling of the main frame 1. The rotating shaft 33 can rotate 180 degrees in forward and backward directions. A cylinder may be used instead of the motor 34. On the upper part of the rotating shaft 33, a supporting member 35 is mounted. On the supporting member 35, two pairs of guiding rods 36, 36 that extend downward and have certain distances from each other are vertically mounted. These two pairs of guiding rods 36, 36 are diagonally placed around the rotating shaft 33. On each pair of the guiding rods 36, 36, an upper hooking member 37 that hooks the protruding portions 2a, 2a of the upper molding flask 2 is mounted so as to slide upward and downward. The distal end of an upwardly directed piston rod of the cylinder 38 that is mounted on the rotating shaft 33 is fixed on each of the hooking member 37. Each of the member 37 can be moved up and down with the expansion and contraction of the cylinder 38. Also, on the lower end of each pair of the guiding rods 36, 36, a lower hooking member 39 that hooks the protruding portions 3a, 3a of two of the drag flasks 3, 3 is provided.
The number 40 in the drawings denotes an apparatus that takes out upper and lower molds that are stripped from the cope and drag flasks 2, 3, and placed on a receiving table 30.
Now, we discuss a procedure for making flaskless upper and lower molds from the condition of
Then, by contracting of the upwardly directed cylinder 22 and the downwardly directed cylinder 23 of the squeezing mechanism 9 causes the cope and drag flasks 2, 3 to move toward each other via the upper and lower lifting frames 20, 21. While the molding flasks 2, 3 hold the match-plate 5, the expansion of the plural cylinders 24, 24, 25, 25 of the squeezing mechanism 9 causes the upper squeeze-plate 6 and lower squeeze-plate 7 to be inserted in predetermined length into the molding flasks 2, 3, thereby defining upper and lower molding spaces. Maintaining the molding spaces, the expansion of the cylinder 10 causes the squeezing mechanism 9 to rotate clockwise around the supporting shaft 8, and accordingly the pair of molding flasks 2, 3 and the match-plate 5 are put in a vertical position and the sand sand-filling ports are put in a upper position. Further, the sand-filling ports are made to come into contact with the lower ends of the two aeration tanks 27, 27 of the sand-supplying mechanism 11 (see
In the periods from the time that the upper and lower molding spaces are defined to the time that the sand-filling ports are in contact with the lower ends of the sand-supplying mechanism 11, the release agent is sprayed onto the match-plate 5 through the spray nozzles that are mounted on the cope and drag flasks 2, 3. The timing of the spraying may be after the molding flask 2, 3 and the match-plate 5 are put in a vertical position, or while the molding flasks 2, 3 and the match-plate 5 are moved from a horizontal position to a vertical position. Also, as for the order of spraying of the release agent, it may be sprayed onto the side of the lower molding space after being sprayed onto the side of the upper molding space, or sprayed onto the sides of the upper and lower spaces at the same time.
Then, the sand-supplying mechanism 11 supplies molding sand into the upper and lower molding spaces. Next, while the pair of cope and drag flasks 2, 3 and the match-plate 5 are returning to the horizontal position, the molding sand in the upper and lower molding spaces is squeezed by moving the upper and lower squeeze-plates 6, 7 forward. Then, the upward-expanding cylinder 22 and the downward-expanding cylinder 23 are expanded and the upper and lower lifting and lowering frames 20, 21 are drawn apart from each other.
Next, the cylinder 38 in the mechanism 13 for swiveling the molding flasks is expanded and the upper flask 2 containing the mold that is made by squeezing the molding sand is lifted by the upper hooking member 37 and separated from the match-plate 5. The drag flask 3 is put on the lower hooking member 39 of the swiveling mechanism 13. Then, the cylinder 16 is contracted and the arms 17, 17 withdraw the match-plate 5 from between the cope and drag molding flasks 2, 3. Next, the motor 34 of the swiveling mechanism 13 rotates the rotating shaft 33 in a required degree of angle and causes the cope and drag flasks 2, 3 containing the molds to move to a position that is in line with the stripping mechanism 12. Then, if required, after setting a core in the mold, the cylinder 38 is contracted and lowers the upper flask 2 containing the mold and places it on top of the lower flask 3 via upper hooking member 37.
Next, the cylinder 31 of the stripping mechanism 12 is expanded, the table 30 for receiving molds is raised, and the cope and drag flask 2, 3 that contains the molds are put on the receiving table 30. Then, the cylinder 29 of the stripping mechanism 12 is expanded and causes the stripping plate 28 to contact the mold in the cope flask 2. After that, the cylinder 31 is contracted, the stripping plate 28 and the receiving table 30 are simultaneously lowered, and the molds are stripped from the cope and drag flask 2, 3. Then, the apparatus 40 for pushing out molds pushes out the upper and lower molds on the table 30.
In the above procedure, before moving the cope and drag flasks 2, 3 containing the molds to a position in line with the stripping mechanism 12, if necessary, the core may be set in the molds, which have previously been formed using a mechanism for setting a core (not shown) or by hand. Then, as above explained, a pair of molding flask 2, 3 that contain molds are stacked, and then the molds may be stripped.
Now, we discuss another embodiment of the molding machine of the present invention for making flaskless upper and lower molds, referring to
As for the unit of cope and drag flasks 127, as shown in
The clamping mechanism 128, as shown in
A clamping mechanism 128, is also mounted on each of the front and back, surface of a lower lifting and lowering frame 115, as described later. It moves into a lower notch of each of the connecting rods 118, 118 so as to hold the lower parts of the rods.
In the squeezing mechanism 109, as shown in
The upper lifting and lowering frame 114 that moves up and down is equipped with two or more cylinders 119, 119 that move the upper squeeze-plate 106 backward and forward. The lower lifting and lowering frame 115 is equipped with two or more cylinders 120, 120 that move the lower squeeze-plate 107 backward and forward. The upper surface of each of the upper and lower frames 114, 115, which has a plain surface, has enough dimensions to push each of the cope and drag flasks 102, 103. Also, upward-expanding cylinders 122, 122 are mounted on the front and back, outer surface of the lower lifting and lowering frame 115. Further, a leveling frame 121, which is shaped a square and slidably fitted on the lower-squeeze plate 107, is fixed on the upper ends of the upward-expanding cylinders 122, 122.
The conveying mechanism 104 for inserting and withdrawing the match-plate 105, as shown in
Also, the sand-supplying mechanism 111 is furnished on the left part of the ceiling of the main frame 101 in
The reference number 126 in the drawings denotes an apparatus that takes out an upper and lower molds that are stripped from the cope and drag flasks 102, 103, and places them on a receiving table.
If necessary, a core may be set in a mold using a mechanism for setting a core (not shown) or by hand. Then, a pair of the molding flasks 102, 103 that have contain molds are stacked, and then the molds may be stripped.
Number | Date | Country | Kind |
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2005-172396 | Jun 2005 | JP | national |
This application is a divisional of U.S. application Ser. No. 11/917,221 filed Dec. 12, 2007, which is a §371 of PCT/JP2006/311220 filed Jun. 5, 2006 and claims priority of Japanese patent application No. 2005-172396 filed Jun. 13, 2005, the contents of all of which are incorporated herein by reference.
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Number | Date | Country | |
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20100089545 A1 | Apr 2010 | US |
Number | Date | Country | |
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Parent | 11917221 | US | |
Child | 12585893 | US |