KR101565444B1 - Green sand mold casting molds compression-type steering system for production - Google Patents

Abstract

The present invention relates to a molding apparatus to make a casting mold using sand to mold an external surface of a pattern plate to be molded to maintain a certain shape through compression using high pressure and sand. The present invention comprises: a flask (400) into which sand (S) is injected, and an auxiliary flask (405) fixated on a moving carrier (300) by a fixing means (450); a carrier rotating unit (20) installed in one side of a bottom frame (110) to replace one or more entire moving carriers (300) which are detachable; a squeeze elevating unit (30), which vertically raises and lowers the moving carrier (300), installed in a front side of the carrier rotating unit (20); a side frame (120) formed on the front side of the squeeze elevating unit (30); a top frame (130) formed on a top of the side frame (120); one or more circular or square pressing plates (510) installed in a vertical line from the moving carrier (300) on one side of the top frame (130) to pressurize a top end surface of the moving carrier (300); a multi pressurizing head unit (50) installed in the top of the pressing plate (510) to receive oil pressure from the outside, generating a different pressurizing distribution pressure; and a dissimilar unit (40) which separately fixates the flask (400) and the auxiliary flask (405) formed on a top frame (130) on the top end of both sides of the multi pressurizing head unit (50).

Description

Technical Field [0001] The present invention relates to a molding apparatus for molding a casting mold,

The present invention relates to a molding apparatus for molding a mold using a die to mold a pattern plate outer surface by sand (hereinafter, referred to as "die") outer surface of a pattern plate to be molded, .

Generally, in the case of a molding apparatus for a conventional mold making apparatus, a casting mold is formed by pouring a casting mold into a mold which is hollow in accordance with the shape of the object to be made in the mold, thereby maintaining a constant shape.

In addition, in the case of a mold making machine using a mold, most of them are produced by using a pressurizing method. In this case, when a mold is pressed, a mold is usually produced by applying a uniform pressure. In the case of a pattern plate, It is difficult to produce precise molds in recent years. In recent years, there has been developed a molding apparatus in which a pressurization time is inevitably increased and a pressure is increased at the time of a working process in order to produce such a precision molding mold .

In order to overcome the above-mentioned conventional problems, Japanese Patent Registration No. 0721633 discloses a pattern plate having a pattern and mounted at a predetermined position, a flask mounted on the pattern plate to surround the pattern, A molding machine for producing a sand mold by compressing molding sand into a molding space formed by a frame, comprising: a plurality of stationary mounted upright cylinders spaced apart from each other; a plurality of fixed upright cylinders fixed to the distal ends of the piston rods of the plurality of cylinders, A sand hopper fixed to the mounting frame to hold the molding sand therein and having a plurality of spaced apart sand discharge nozzles for supplying molding sand into the molding space at its lower portion, A sand hopper capable of entering the inside of the peeling frame when it is lowered, The sand hopper is lowered by the cylinder to approach the upper part of the peeling frame, the upper part of the peeling frame is closed together with the lower part of the sand hopper, and after the molding sand is introduced into the molding space, A squeeze foot for compressing the molding sand in the molding space together with a lower portion of the sand hopper when the squeeze frame is lowered by the cylinder and enters the peeling frame, A structure including a squeeze foot was adopted.

However, such a structure has a problem that a compression device for feeding and shaping the casting sand is constituted, but the sand mold and the pressing process are installed in one place, and the operation efficiency and the production time are increased due to the complicated and inefficient working structure ,

Further, since the entire compression apparatus is lowered in accordance with the operation of the upper piston rod after the mold frame is first lowered from the upper part to the lower part, the pressing process is ineffective in the working process itself, There is a need for an improvement plan.

Patent Registration Patent No. 10-0721633

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a method and apparatus for quickly performing a molding operation of a mold frame, And to provide a molding apparatus for molding a casting mold which can improve the quality of a mold and significantly reduce the risk of a safety accident.

The present invention is characterized in that the plaster 400 and the auxiliary plaster 405 to which the sand mold S is injected are fixed to the movable carrier 300 by the fixing means 450 and at least one removable attachment A carrier rotation unit 20 installed on one side of the lower frame 110 so that the entirety of the lower frame 110 can be replaced; A squeeze lifting unit 30 vertically lifting the mobile carrier 300 on the front side of the carrier rotating unit 20; A side frame 120 is formed on the front side of the squeeze lifting unit 30. An upper frame 130 is formed on the upper side of the side frame 120 and a lower frame 130 is provided on one side of the upper frame 130 300 and the upper surface of the movable carrier 300. The upper surface of the presser plate 510 is formed with a circular shape or a square shape, A multi-pressing head unit (50) which is supplied with hydraulic pressure and can generate different pressurization distribution pressures; The upper and lower upper frames 130 of the multi-pressing head unit 50 are provided with a release unit 40 which can detachably fix the plaster 400 and the auxiliary plaster 405 separately .

According to the present invention configured as described above, after a movable carrier, which is set at a time by moving a die, a mold, and a pattern plate, is moved by a movable carrier that can be quickly or manually moved from the outside, There is an advantage that the work process can be performed so as to maximize the work production efficiency,

In addition, since the squeeze-up / down unit and the multi-pressure head unit can be rapidly pressed to both sides so that pressurization can be performed at the same time in the up and down directions,

Furthermore, there is an advantage in that the working efficiency in which the pressing force biased at one side by both pressures at the same time can be uniformly dispersed and installed can be obtained,

Particularly, the independent operation structure of the release unit and the multi-head pressurizing unit allows the mold to be discharged by separating the auxiliary plaster and the plaster through the release unit at the same time, thereby shortening the work process.

In addition, since the product supply line can be remarkably shortened through the carrier rotation unit, there is an advantage that a quick operation can be performed even in a narrow space.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a partially enlarged view showing a preferred embodiment of the carrier rotation unit of the present invention
3 is an exemplary view showing an operation state of the squeeze lifting unit of the present invention
4 is a cross-sectional view showing a squeeze lifting unit of the present invention,
5 is an exemplary view showing an operation state of the mold releasing unit of the present invention
Fig. 6 is an enlarged view of a side section of a squeeze lifting unit of the present invention
7 is an exemplary view showing the operation state of the conveyance carrier and the squeeze lifting unit of the present invention
Fig. 8 is an exemplary diagram showing an operating state of the multi-pressure head unit of the present invention
Fig. 9 is an exemplary view showing the operation of the mold releasing unit according to the present invention
FIG. 10 is an exemplary view showing an operation state in which the plaster and the auxiliary plask of the present invention are removed. FIG.
Fig. 11 is an exemplary view showing an operation state in which the plaster and the auxiliary plaster are picked up again after the molded article of the present invention is removed. Fig.
12 is an exemplary view showing an operating state of a conveyance carrier combined with a plaster and an auxiliary plaster of the present invention
Fig. 13 is an exemplary view showing an operating state of the carrier rotation unit according to the present invention. Fig.
14 is an exemplary view showing a state in which the multi-pressing head unit is operated according to the present invention
15 is an exemplary view showing another application state of the multi-pressure head unit of the present invention
16 is a plan view of the multi-pressure head unit of the present invention
17 is an exemplary view showing an operating state of the carrier rotation unit of the present invention
18 is an exemplary view showing an operating state of the movable carrier according to the present invention;
Figure 19 is an enlarged cross-sectional side view of a side cross-section of a moving carrier and a plask auxiliary plask of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A molding apparatus for molding a casting mold using a mold of the present invention will be described in more detail with reference to the accompanying drawings.

A carrier rotation unit 20 capable of replacing the movable carrier 300 in a detachable form at an upper end of the lower frame 110;

A movable carrier 300 capable of stacking the plaster 400 and the auxiliary plaster 405 at one side or the other side of the carrier rotation unit 20;

Fixing means (450) for fixing the plaster (400) and the auxiliary plaster (405) on the upper outer side of the movable carrier (300);

A squeeze-up / down unit 30 for moving and lifting the mobile carrier 300 is mounted on a front lower-side frame 110 of the carrier rotation unit 20;

An upper frame 130 fixed to the upper side of the squeeze-up / down unit 30 and having a lower frame 110 and a side frame 120 fixedly installed thereon;

On the upper surface of one side of the upper frame 130, a plurality of pressure pushing plates 510 capable of pressing the upper surface of the movable carrier 300;

A multi-pressing head unit 50 which receives hydraulic pressure from the outside and generates different pressurization distribution pressures on the upper side of the pressurizing presser plate 510;

And a release unit 40 which can fix the plaster 400 and the auxiliary plaster 405 separately on both sides of the multi-pressing head unit 50.

The carrier rotation unit (20)

A rotating shaft rod 210 fixedly installed between the lower frame 110 and the upper frame 130,

A rotating body 211 is formed below the rotating shaft 210 to rotate along the rotating shaft 210,

A rotary bracket 212 constituted by a reverse rotation pin 213 is formed on one side of the outer circumferential surface of the rotary body 211,

A rotary cylinder 216 for actuating an operating rod 215 having a rotary groove 214 hinged to the reverse rotation pin 213 of the rotary bracket 212 is formed,

A rotating unit 250 is provided to rotate the rotating cylinder 216 so that the rotating operation of the rotating cylinder 216 can be smoothly performed. On the upper side of the rotating body 211, a carrier inversion Block 217,

It is preferable that the conveying rollers 219 constitute guide rails 218 provided on both sides of the carrier reversing block 217 in the form of "= &

The rotation unit (250)

A cylinder fixing mount 259 provided at one side of the upper end of the lower frame 110,

A rotating body 258 is formed on the mounting table 259,

The rotating body 258 is provided at its center with a rotating jaw 251 for fixing the rotating cylinder 216 in a state where the rotating cylinder 216 is fitted and a fixing block 252 for fixing the rotating jaw 251 is formed outside the rotating jaw 251,

A bearing 253 is formed on the outer side of the fixed block 252,

The fixing bolts 257 are fixed on the upper and lower sides of the bearings 253 with the detachment preventing plate 256 interposed therebetween.

And may be hinge-fixed to the rotary body 258 by engaging with the bearings 253,

The squeeze-up / down unit (30)

A hydraulic pressure supply unit 331 for supplying hydraulic pressure from the outside,

A fixed cap 333 having a hydraulic return line 333a is disposed above the hydraulic pressure supply unit 331,

A carrier squeeze cylinder 310 is installed on the outer circumferential surface of the upper surface of the fixed cap 333,

A squeeze body 311 integrally fixed to the upper end of the carrier squeeze cylinder 310,

The fixed block 371 constitutes a piston rod 312 having a hydraulic pressure preventing packing 332 which is lifted and lowered along the inner peripheral surface of the carrier squeeze cylinder 310,

At the upper end of the piston rod 312, a pressing plate 313 having at least one or more alignment pins 335 is formed on both sides,

On both sides or one side of the pressure plate 313, a guide shaft rod 334 which slides when the pressure plate 313 ascends and descends is formed,

The guide shaft rod 334 is configured to move up and down along a slide block 336 which is formed at one side of the squeeze body 311 and has a circular shape.

The multi-pressing head unit (50)

At least one hydraulic pressure supply line (520, 530) supplied from the outside is installed,

The hydraulic pressures supplied through the hydraulic pressure supply lines 520 and 530 constitute supply passages 520a and 530a which can be supplied with different pressurization distribution pressures, respectively,

The hydraulic pressure supplied through the supply passages 520a and 530a is partitioned to constitute a pressurized body 550 to which hydraulic pressure is supplied by a hydraulic pressure supply line 561,

And a variable block 560 fixedly installed on the lower side of the pressing body 550,

The variable block 560 constitutes at least one hydraulic pressure supply line 561,

The lower end of the hydraulic pressure supply line 561 is assembled to the detachable manifold body 516,

An inner side of the detachable manifold body 516 is formed with a hydraulic seal packing 512 having a rubber seal 522 fitted therein,

The hydraulic pressure-resistant packing 512 is formed at the center thereof with a lifting rod 511 having a shaft rod 511a in a longitudinal direction.

A packing fixing bolt 513 for fixing the hydraulic pressure prevention packing 512 fitted to the shaft rod 511a is formed,

A pressure pushing plate 510 is formed below the lifting rod 511,

The lower limit of the meniscus body 516 may be a lowering cap 515 for preventing the meniscus from falling out,

The release unit (40)

A support bracket 410 fixedly installed on both upper side frames 130 of the multi-pressing head unit 50,

The front and rear support brackets 410 are axially installed with a rotary pin 411 in the form of a shaft,

A variable bracket 416 is formed on both sides of the rotation pin 411,

At the inner upper end of the variable bracket 416,

A sensing sensor 416a for detecting the presence or absence of the operation of the variable bracket 416 may be provided on the opposite side of the supporting bracket 410,

At the inner stop of the variable bracket 416,

A guide bar 419 provided with the latching groove 419a is formed, and a guide rail 418 in the form of a slide rail is formed below the latching bar 419,

At the lower inner side of the variable bracket 416,

And is connected to the front and rear support brackets 410 to constitute a fixing variable mounting bracket 420,

A plast fastening means (490) for fixing a plast (400), which is manually or automatically supplied, is formed inside the variable mounting bracket (420)

On the outer side of the variable bracket 416,

A support plate 430 integrally fixed to the front and rear flexible brackets 416,

A hinge piece 432 having a hinge groove 431 is formed on the outer side of the support plate 430,

The fixing bracket 413 is fixed to the upper frame 130 on the upper side of the hinge piece 432 so that the pressing cylinder 413 having the variable rod 415 is connected to the fixing bracket 413. In addition,

It is preferable that the variable rod 415 is connected to the hinge groove 431,

The fixing means (450)

At the lower end of the movable carrier 300, a binding rod 345 is formed on both sides, and left and right upper portions are constituted by a fixed shaft rod 434 having a pull-in groove 454a,

The upper end of the fixed shaft rod 434 is formed with at least one reinforcing insertion block 453 having a perforated hole at the lower side thereof,

At least one reinforcing fixing block 452 having an insertion groove 452 is formed on the opposite side of the reinforcing insertion block 453,

The auxiliary puck 405 may be configured with a fixing pin 415 that is fitted and fixed to the insertion groove 452 of the reinforcing fixing block 452,

The carrier rotation unit (20)

The conveying rollers 219 are provided on the front and rear sides of the both side guide rails 218 of the carrier rotation unit 20 to prevent the swinging or the outward movement, At least one or more separation preventing plates 227 and 227a may be provided on both sides,

The carrier rotation unit (20)

The operation rod 215 operated through the rotary cylinder 216 is inserted into the reverse rotation pin 213 of the rotary bracket 212 and is rotated in the reverse direction by 180 ° so that the rotary motion of the guide rail 218 The rotation restricting plate 231 may be formed on one side of the inner surface,

On the front side of the upper and lower rotation limiting plate 231,

A rotational measurement sensor 288 for detecting the real-time reverse position of the rotating bracket 212 according to the rotational operation of the rotating body 211,

The moving carrier (300)

The plaster 400 and the auxiliary plaster 405 are stacked according to the injection amount of the sand mold S and the size of the object,

The plast fastening means (490)

In the case of the plaster 400 that is automatically supplied from the outside,

In the state where the plaster 400 is lifted up on the circulation rail (not shown), the lower side variable mounting bracket 420 of the both side variable brackets 416 is pulled by the rotary roller 417 constituted by one or more Lt; / RTI &

Alternatively, in the case of the manually supplied plaster 400,

It is preferable that the fixing bracket 417a is fixed to the lower inner variable mounting bracket 420 of the both side variable brackets 416.

The operational relationship of the present invention constituted as described above will be described below.

The present invention provides a method of manufacturing a mold for molding a cast mold (B) by pressing the mold (S) and fixing the pattern plate (P) to be molded on the movable carrier (300)

And a plaster 400 configured to surround the outer circumferential surface of the pattern plate P can be fixed by the fixing means 450,

At this time, a fixed shaft rod 434 having an inclined inclined groove 454a for allowing the plaster 400 to be fixedly coupled to one side or both sides of the movable carrier 300 can be easily and easily inserted into the inlet groove 401, Is fixed to the fixed shaft rod 434 on which the phosphorus gradient groove 454a is fitted,

A plaster 400 having a lead-in groove 401 is inserted into the upper side of the fixed shaft rod 434 and is operated to hold the mold B in a pressurized state,

In the case of the plaster 400, the plaster 400 can be manually or automatically supplied according to the manufacturing facility. A plurality of plastics 400 are moved in a circulating pattern along a general automatic conveyor to form a mold B The supply and discharge can be continuously performed,

In addition, when the automatic feeding can not be performed according to the installation environment, it is operated so as to be operated by the puck fixing means 490 so that the operator can manually supply from the outside using the carrier rotation unit 20,

The auxiliary plaster 405 may be selectively installed at the upper end of the plaster 400 which may be automatically or manually supplied by the plaster fixing means 490 according to the size of the pattern plate P and the amount of the thread S, So that it is possible to provide working conditions in which various forms of the molds B can be manufactured,

In the case of the plaster 400 that is automatically supplied from the outside, the plaster 400 is mounted on the circulating rail (not shown), and the plaster 400 is mounted on the lower inner variable mounting bracket 420 of the both side variable brackets 416 Or may be configured to be retracted into the rotation roller 417 constituted in the above described manner,

In the case of the manually-supplied plaster 400, the fixing bracket 417a is configured to be fixed to one or more of the lower inner variable mounting brackets 420 of the both side variable brackets 416, Operating,

A reinforcing fixing block 452 having an insertion groove 452 is provided on the opposite side of the reinforcing insertion block 453 in order to fix the plaster 400 and the auxiliary plaster 405 in a pin- It can be configured to easily fix one or more,

It can be easily and securely fixed by using the auxiliary plaster 405 having the fixing pin 415 so as to be fitted and fixed in the insertion groove 452 of the reinforcing fixing block 452, Not working,

The movable carrier 300 which is replaced in the detachable form can easily be set to the correct position when it is pulled along the conveying roller 219 provided on the guide rail 218 of the carrier rotation unit 20 227 and the departure prevention plate 227a, so that it can be easily and easily inserted and removed,

The carrier rotation unit 20, which is installed on one side of the lower frame 110,

A shaft carrier type rotary shafts 210 are fixedly installed between the lower frame 110 and the upper frame 130 so that the movable carriers 300 having the serrations S, pattern plates P, ) Is operated so that it can easily be moved in or out from the outside because it can be easily moved in the moving or reversing operation or operated without being biased to one side,

In order to perform the reverse rotation operation of the carrier rotation unit 20, a rotation bracket 212 having an inverted rotation pin 213 formed on the outer peripheral surface at the lower end of the rotation axis rod 210, And the other end of the upper frame 110 is rotated at an angle of 180 ° by an inversion rotation pin 213 connected to the rotation groove 214 at one end of the operation rod 215, A rotary body 258 having a predetermined shape is formed in the cylinder fixing mount 259 and a rotary jaw 251 formed in a stepped shape to fix the rotary cylinder 216 inserted into the rotary body 258 ), And is fixed to the outside through a fixing block,

The fixing block 252 fastened to the outer side of the rotary jaw 251 is operated so that the bearing 253 is inserted in the upper and lower sides for smooth rotation operation during the reverse operation,

In order to firmly fix the bearing 253 in the fitted state, the detachment prevention plate 256 is fixed with the fixing bolt 257 so that the portion to be engaged with the outer bearing 253 is fixed to the rotating body 258 And is operated so that the reversing operation can be easily and quickly performed by the rotating unit 250 configured to be able to perform the smooth rotating operation by being engaged,

A carrier reversing block 217 which receives and supports the movable carrier 300 on both sides of the rotating body 211 can be rotated in a reverse direction without being biased or tilted by the rotating shaft bar 210 Operating,

A conveying roller 219 is provided at both sides of the outer end of the carrier reversing block 217 to constitute a guide rail 218 in which a movable carrier 300 can be inserted thereinto, It is operated so that it can be easily changed from the outside to the detachable form,

The movable carrier 300 in a state in which the sander S is supplied from the outside through the carrier rotating unit 20 is reversed and moved to the front side of the carrier rotation unit 20, So that the hydraulic pressure is supplied through the hydraulic pressure supply unit 331 supplied with hydraulic pressure from the outside so that the hydraulic pressure can be raised and lowered,

A fixed cap 333 having a hydraulic return line 333a is attached to the upper side of the hydraulic pressure supply unit 331 so that hydraulic pressure is returned to the hydraulic pressure return line 333a during operation to disperse and supply the hydraulic pressure,

The carrier squeeze cylinder 310 is installed on the outer circumferential surface of the upper surface of the fixed cap 333 so as to be firmly fixed by the squeeze body 311 fixed to the lower frame 110,

The inner side of the carrier squeeze cylinder 310 is pushed up by the hydraulic pressure supplied to the hydraulic pressure supply part 331 to the hydraulic pressure prevention packing 332 in which a sealing material (not shown) of rubber material is inserted, The rod 312 is operated to ascend and descend upward,

An alignment pin 335 of the pressing plate 313 is fixed to the coupling groove 245 of the movable carrier 300 at the upper end of the piston rod 312,

On both sides or one side of the pressure plate 313, there is provided a slide member 311, which is provided on one side of the squeeze body 311 so as to move up and down the movable carrier 300 in a specific gravity during the ascending and descending of the pressure plate 313, A guide shaft rod 334 which is fitted to the block 336 and is configured to be elevated and lowered by the upper multi-pressing head unit 50 without being shaken stably during lifting and lowering,

The movable carrier 300 raised and lowered by the multi-pressing head unit 50 is installed firmly on the upper upper frame 130 and then separated from the external hydraulic pressure so that the hydraulic pressure supply line (520) and (530), respectively,

As shown in FIG. 16, the hydraulic pressure supplied through the hydraulic pressure supply lines 520 and 530 is supplied to the hydraulic pressure supply lines 520 and 530, respectively, The hydraulic pressure supply lines 520 and 530 composed of the respective compartments are operated by the supply passages 520a and 530a to be separated and uniformly injected,

The hydraulic pressure supplied through the supply passages 520a and 530a is operated by a pressurizing body 550 that is operated to be supplied to each of the hydraulic pressure supply lines 561 by the partition internal line,

A variable block 560 having a hydraulic pressure supply line 561 is provided on the lower side of the pressing body 550 so that the pressing parts of the detachable form can be installed to withstand the high pressure,

The hydraulic pressure supply line 561 is operated to firmly fix the inner pressure and the pressure platen 510 to the detachable manifold body 516 for smooth operation,

Inside the detachable manifold body 516, a hydraulic seal is operated to prevent the hydraulic pressure from being leaked to the outside by the hydraulic seal packing 512 having the rubber seal 522,

A lowering rod 511 is formed below the shaft rod 511a on which the hydraulic pressure protection packing 512 is inserted and is integrally formed with the lower pressure pushing plate 510 so as to be moved up and down,

A packing fixing bolt 513 for fixing the hydraulic pressure prevention packing 512 and the hydraulic pressure prevention packing 512 fitted to the shaft rod 511a is coupled to prevent the hydraulic pressure prevention packing 512 from being separated or damaged during operation, The rubber seal 522 and the hydraulic pressure packing 512 can be easily configured and repaired,

A lowering limit cap 515 is provided on the lower side of the manifold body 516 to prevent internal components from being detached to the outside,

As shown in Fig. 5, the mold releasing unit 40,

The support bracket 410 fixed to both upper side frames 130 of the multi-pressing head unit 50 is symmetrically formed before and after the support bracket 410, A rotary pin 411 in the form of a shaft is fixedly inserted through the rotary pin 411 so as to smoothly operate the variable bracket 416,

The rotary bracket 416 of the variable bracket 416 is provided with a flexible bracket 416 provided on the rotary base 411 to press the squeeze lift unit 30 and press the upper multi- The mold 400 is separated from the auxiliary plastics 405 while descending sequentially so that the mold B pressed by the internal mold S is fixed so that the pattern plate P is operated to separate downward,

In order to sequentially separate and discharge the plaster 400 and the auxiliary plaster 405 which are fixed to the variable bracket 416, on the inside upper side of the variable bracket 416, The operation of the variable bracket 416 is operated to be measured through the measuring receiver 410a,

An upper portion of the variable bracket 416 is configured to be easily and easily operated by a sensing sensor 416a capable of detecting the presence or absence of operation,

The inner bracket 416 is provided with a latching bar 419 having the latching groove 419a to fix the auxiliary plaster 405 and to be moved along the guide rail 418 And,

A plaster 400, which is manually or automatically supplied downwardly in a state where the auxiliary plaster 405 is removed, is inserted into a lower inner side of the variable bracket 416, The user can easily and easily move the plaster 400 using the guide rail 418 provided with the rotating roller 417 so as to be seated on the rotating roller 417 provided on the inner side of the movable carrier 300, Engaging and moving,

A pressurizing cylinder 413 is connected to a hinge piece 432 provided on the upper frame 130 for actuating the left and right opening of the variable bracket 416 so that the variable rod 415 is connected to the variable bracket 416 The hinge rotation operation is performed so as to smoothly perform the opening operation,

The carrier rotation unit 20 is provided with an operation rod 215 which is operated through the rotation cylinder 216 and is inserted into the rotation rotation pin 213 of the rotation bracket 212 to be rotated The guide rail 218 is provided with an inner one-side rotation restriction plate 231 so as to be set in a predetermined position,

A rotational measurement sensor 288 for detecting the real-time reverse position of the rotating bracket 212 is disposed on the front side of the upper and lower rotation limiting plates 231 in accordance with the rotation operation of the rotating body 211, It is installed and operated so that it can be detected in real time.

S: die 20: carrier rotation unit
30: Squeeze lift unit 40: Release unit
50: pressure head unit 110: lower frame
120: side frame 130: upper frame
300: mobile carrier 400: prasma
410: Auxiliary plaster 450: Securing means
510:

Claims (12)

A carrier rotation unit 20 capable of replacing the movable carrier 300 in a detachable form at an upper end of the lower frame 110;
A movable carrier 300 capable of stacking the plaster 400 and the auxiliary plaster 405 at one side or the other side of the carrier rotation unit 20;
Fixing means (450) for fixing the plaster (400) and the auxiliary plaster (405) on the upper outer side of the movable carrier (300);
A squeeze-up / down unit 30 for moving and lifting the mobile carrier 300 is mounted on a front lower-side frame 110 of the carrier rotation unit 20;
An upper frame 130 fixed to the upper side of the squeeze-up / down unit 30 and having a lower frame 110 and a side frame 120 fixedly installed thereon;
On the upper surface of one side of the upper frame 130, a plurality of pressure pushing plates 510 capable of pressing the upper surface of the movable carrier 300;
A multi-pressing head unit 50 which receives hydraulic pressure from the outside and generates different pressurization distribution pressures on the upper side of the pressurizing presser plate 510;
And a release unit (40) capable of separately fixing the plaster (400) and the auxiliary plaster (405) to both sides of the multi-pressing head unit (50)

The carrier rotation unit (20)
A rotating shaft rod 210 fixedly installed between the lower frame 110 and the upper frame 130,
A rotating body 211 is formed below the rotating shaft 210 to rotate along the rotating shaft 210,
A rotary bracket 212 constituted by a reverse rotation pin 213 is formed on one side of the outer circumferential surface of the rotary body 211,
A rotary cylinder 216 for actuating an operating rod 215 having a rotary groove 214 hinged to the reverse rotation pin 213 of the rotary bracket 212 is formed,
A rotating unit 250 is provided to rotate the rotating cylinder 216 so that the rotating operation of the rotating cylinder 216 can be smoothly performed. On the upper side of the rotating body 211, a carrier inversion Block 217,
And a conveying roller (219) is provided at both outer sides of the carrier reversing block (217) to form a guide rail (218) provided in a "=" shape.
delete The method according to claim 1,
The rotation unit (250)
A cylinder fixing mount 259 provided on one side of the upper end of the lower frame 110,
A rotating body 258 is formed on the mounting table 259,
The rotating body 258 is provided at its center with a rotating jaw 251 for fixing the rotating cylinder 216 in a state where the rotating cylinder 216 is fitted and a fixing block 252 for fixing the rotating jaw 251 is formed outside the rotating jaw 251,
A bearing 253 is formed on the outer side of the fixed block 252,
The fixing bolts 257 are fixed on the upper and lower sides of the bearings 253 with the detachment preventing plate 256 interposed therebetween.
And the hinge is fixed to the rotary body (258) by engaging with the bearings (253). The shaping apparatus for forming a casting mold using a sand mold.
The method according to claim 1,
The squeeze-up / down unit (30)
A hydraulic pressure supply unit 331 for supplying hydraulic pressure from the outside,
A fixed cap 333 having a hydraulic return line 333a is disposed above the hydraulic pressure supply unit 331,
A carrier squeeze cylinder 310 is installed on the outer circumferential surface of the upper surface of the fixed cap 333,
A squeeze body 311 integrally fixed to the upper end of the carrier squeeze cylinder 310,
The fixed block 371 constitutes a piston rod 312 provided with a hydraulic pressure protection packing 332 which is lifted and lowered along the inner peripheral surface of the carrier squeeze cylinder 310,
At the upper end of the piston rod 312, a pressing plate 313 having at least one or more alignment pins 335 is formed on both sides,
On both sides or one side of the pressure plate 313, a guide shaft rod 334 which slides when the pressure plate 313 ascends and descends is formed,
Wherein the guide shaft rod (334) is configured to move up and down along a slide block (336) which is formed at one side of the squeeze body (311) and has a circular shape.
The method according to claim 1,
The multi-pressing head unit (50)
At least one hydraulic pressure supply line (520, 530) supplied from the outside is installed,
The hydraulic pressures supplied through the hydraulic pressure supply lines 520 and 530 constitute supply passages 520a and 530a which can be supplied with different pressurization distribution pressures, respectively,
The hydraulic pressure supplied through the supply passages 520a and 530a is partitioned to constitute a pressurized body 550 to which hydraulic pressure is supplied by a hydraulic pressure supply line 561,

And a variable block 560 fixedly installed on the lower side of the pressing body 550,
The variable block 560 constitutes at least one hydraulic pressure supply line 561,
A removably mounted manifold body 516 is disposed at the lower center of the hydraulic pressure supply line 561,
An inner side of the detachable manifold body 516 is formed with a hydraulic seal packing 512 having a rubber seal 522 fitted therein,
The hydraulic pressure-resistant packing 512 is formed at the center thereof with a lifting rod 511 having a shaft rod 511a in a longitudinal direction.
A packing fixing bolt 513 for fixing the hydraulic pressure prevention packing 512 fitted to the shaft rod 511a is formed,
A pressure pushing plate 510 is formed below the lifting rod 511,
And a lowering cap (515) for preventing the mold body (516) from being detached from the outside is formed on the lower side of the manifold body (516).
The method according to claim 1,
The release unit (40)
A support bracket 410 fixedly installed on both upper side frames 130 of the multi-pressing head unit 50,
The front and rear support brackets 410 are axially installed with a rotary pin 411 in the form of a shaft,
A variable bracket 416 is formed on both sides of the rotation pin 411,

At the inner upper end of the variable bracket 416,
A sensing sensor 416a for detecting the presence or absence of the operation of the variable bracket 416 may be provided on the opposite side of the supporting bracket 410,

At the inner stop of the variable bracket 416,
A guide bar 419 having a latching groove 419a is formed, and a guide rail 418 in the form of a slide rail is formed below the latching bar 419,

At the lower inner side of the variable bracket 416,
And is connected to the front and rear support brackets 410 to constitute a fixing variable mounting bracket 420,
A plast fastening means (490) for fixing a plast (400), which is manually or automatically supplied, is formed inside the variable mounting bracket (420)

On the outer side of the variable bracket 416,
A support plate 430 integrally fixed to the front and rear flexible brackets 416,
A hinge piece 432 having a hinge groove 431 is formed on the outer side of the support plate 430,
The fixing bracket 413 is fixed to the upper frame 130 on the upper side of the hinge piece 432 so that the pressing cylinder 413 having the variable rod 415 is connected to the fixing bracket 413. In addition,
And the variable rod (415) is connected to the hinge groove (431).

The method according to claim 1,
The fixing means (450)
At the lower end of the movable carrier 300, a binding rod 345 is formed on both sides, and left and right upper portions are constituted by a fixed shaft rod 434 having a pull-in groove 454a,
The upper end of the fixed shaft rod 434 is formed with at least one reinforcing insertion block 453 having a perforated hole at the lower side thereof,
At least one reinforcing fixing block 452 having an insertion groove 452 is formed on the opposite side of the reinforcing insertion block 453,
And a fixing pin (415) fitted and fixed to an insertion groove (452) of the reinforcing fixing block (452). The shaping apparatus for forming a casting mold using a sand mold.
delete delete delete delete The method according to claim 6,
The plast fastening means (490)
In the case of the plaster 400 that is automatically supplied from the outside,
In the state where the plaster 400 is lifted up on the circulation rail (not shown), the lower side variable mounting bracket 420 of the both side variable brackets 416 is pulled by the rotary roller 417 constituted by one or more Lt; / RTI &
Alternatively, in the case of the manually supplied plaster 400,
And a fixing bracket (417a) formed at the lower inner variable mounting bracket (420) of the both side variable brackets (416).

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