KR102453483B1 - device for inspecting the vacuum block in die casting machine - Google Patents

Abstract

Provided is a vacuum block inspection device for a die casting casting machine.
A moving table that is slidably assembled to the slider of the fixed base from which the holder protrudes from one end is provided, and a handle that is operated to rotate to widen or close the distance between the holder and the moving table is provided to fix and separate the vacuum block. vice part; A pair of first fixing plates fixedly installed on one side of the holder and contacting one side of the vacuum block, and a pair of fixed installations on one side of the moving table and protruding from one side of the vacuum block while coming into contact with one side of the vacuum block A jig part having a second fixing plate in contact with the end of the push pin of ; The blockage of the internal flow path while discharging foreign substances remaining in the internal flow path of the vacuum block communicating with the mold by the high-pressure air forcibly supplied through the air supply hole formed on the upper surface of the vacuum block to the outside through the air discharge hole can check whether

Description

Vacuum block inspection device for die casting casting machine {device for inspecting the vacuum block in die casting machine}

The present invention relates to an apparatus for inspecting a vacuum block provided in a die-casting casting machine, and more particularly, to remove foreign substances remaining in the internal flow path of a vacuum block that is replaced and used repeatedly after die-casting casting, and at the same time, the internal flow path of the vacuum block. It relates to a vacuum block inspection device for a die-casting casting machine that can easily check the clogging state.

Casting technology is an economical method to obtain a shape by making a mold with a space of the opposite shape of the desired shape, and injecting a high-temperature liquid metal into the cavity of the mold to obtain a shape. It is a core parts industry that determines the competitiveness of not only traditional industries such as automobiles, shipbuilding, and machine tools, but also various IT industries that are emerging recently.

Among these casting technologies, die casting refers to casting by press-fitting molten molten metal into a mold of a predetermined shape at a pressure higher than atmospheric pressure and pressurizing until the end of solidification. It has the advantage that it is possible and is widely used in the manufacture of molds for automobile parts, etc.

And, there are two types of die casting machines, a hot chamber and a cold chamber machine. The former is mainly used for alloys with a low melting point such as tin, zinc, or lead, and the latter is copper, magnesium, or aluminum. It is used for casting alloys with relatively high melting points among non-ferrous metals such as alloys.

In such die-casting casting, gas is generated while the molten metal is connected to the air inside the mold in the process of injecting the molten metal into the mold.

The high-pressure die-casting casting process is a process in which molten metal is filled into the mold in a very short time by a plunger advancing at high speed. When molten metal is injected, air and gas existing in the molten metal injection part and cavity such as sleeve and runner are pushed in and generated as bubbles, which can cause defects inside the product.

The bubbles generated in the cast product lowered the mechanical properties, and there was a problem of lowering the high strength characteristics and weldability in various industrial fields including the automobile industry that require large aluminum parts.

For this reason, the die casting mold is equipped with a vacuum block which is a separate ventilation means for discharging the air remaining inside the mold to the outside and used in the casting process.

(Patent Document 1) KR10-1994-0019385 A

(Patent Document 2) KR10-1527788 B1

Patent Document 1 and Patent Document 2 include a floating piston that is guided by a push pin and placed in a groove of a movable block, a venting piston and an actuating piston that are spaced apart from the floating piston and interlocked with the floating piston, and the venting piston Disclosed is a vacuum block which is a valve assembly for ventilation including a ventilation discharge hole through which a flow path is opened and closed by the

When the casting block is fixedly coupled to one surface of the movable block and one surface of the casting block on which the casting flow path is formed is incorporated into the mold, one end of each of the ventilation piston and the floating piston is formed in the casting flow path through a through hole formed in the casting flow path. exposed inside.

At this time, since the casting passage and the ventilation discharge hole are in communication with each other by the ventilation piston, when the vacuum pump connected to the ventilation discharge hole is operated, the casting passage space is converted to a vacuum state within the intended range. The mold space of the die-casting mold located below also achieves a vacuum state.

In this state, when the molten casting is injected into the mold space of the die-casting mold, the molten casting fills the mold space of the die-casting mold and then flows into the casting block through the inlet, filling the space located at the bottom of the casting block and filling the upper part of the casting block. moving slowly in the direction When the casting moving in the upward direction is filled in the casting flow path where the floating piston is located, the floating piston presses the elastic means by the pressure of the casting filled in the casting flow path and slowly retreats.

At this time, the floating piston and the ventilation piston and the operating piston interlocked with the movement also retreat together, and as the ventilation piston retreats, the communication state between the casting flow path and the ventilation discharge hole is cut off. Accordingly, the exhaust by the vacuum pump is stopped, and then, the movable block and the casting block are separated from the molding unit, and the operation is completed while taking out the molded product on which the molding operation is completed from the die-casting mold and the casting block.

However, in the process of vacuuming the air in the cavity of the mold to the outside by the vacuum pressure of the vacuum pump in a state where the casting flow path and the ventilation discharge hole are communicated with each other by the ventilation piston, a part of the casting injected into the mold is part of the vacuum block. The case of entering the internal flow path occurred frequently.

Accordingly, the vacuum block, which is repeatedly replaced and used after one die casting casting, has to be repeatedly inspected whether a part of the casting remains in the flow path. There was a problem in that it was not possible to completely and reliably check whether the flow path was clogged.

Accordingly, the present invention is to solve the above problems, and the purpose is to remove foreign substances remaining in the internal flow path of the vacuum block that is replaced and installed and used repeatedly after die casting, and at the same time, the clogging state of the internal flow path of the vacuum block An object of the present invention is to provide a vacuum block inspection device for a die-casting casting machine that can easily check the

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be able

As a specific means for achieving the above object, a preferred embodiment of the present invention is a first block coupled to the casting block to discharge the air remaining in the mold to the outside by the vacuum pressure transmitted from the vacuum pump during casting. In the device for inspecting a vacuum block having a ventilation piston, a floating piston, an operating piston, and a pair of push pins interlocking with each other in the interior of a combined and a second block, the sliding movement of the slider of the fixed base protruding from one end a vise unit for fixing and separating the vacuum block with a handle that is rotatably operated to widen or close a distance between the holder and the moving table, and having a movable stand that can be assembled; A first fixing plate that is fixedly installed on one side of the holder and comes into contact with one side of the vacuum block, and a first fixing plate that is fixedly installed on one side of the moving table and comes in contact with one side of the vacuum block, protrudes toward one side of the vacuum block A jig having a second fixing plate in contact with the ends of the pair of push pins and opening the internal flow path of the vacuum block communicating with the mold when the pair of push pins comes into contact with the second fixing plate while fixing the position of the vacuum block interposed between the first and second fixing plates wealth ; The blockage of the internal flow path while discharging foreign substances remaining in the internal flow path of the vacuum block communicating with the mold by the high-pressure air forcibly supplied through the air supply hole formed on the upper surface of the vacuum block to the outside through the air discharge hole It provides a vacuum block inspection device for a die-casting casting machine, characterized in that to check whether or not.

In this case, the first fixing plate and the second fixing plate may each have a first supporting jaw and a second supporting jaw protruding a predetermined length in a direction facing each other from each lower end to stably support and support the vacuum block.

In this case, the second fixing plate may be provided with a pair of left and right stoppers at both upper ends to prevent the left and right movement of the vacuum block supported by the first and second support jaws while being in contact with both sides of the upper end of the vacuum block.

In this case, the second fixing plate may be provided with a pair of contact terminals so that a series of electrical circuits can be formed when the ends of the pair of push pins are in contact with the inner surface so that simultaneous contact can be confirmed.

At this time, the second fixing plate is recessed to a certain depth and includes a recess into which the tip of the floating piston is inserted correspondingly, and a bottom surface of the recess includes a touch sensor that generates a detection signal when it comes into contact with the tip of the floating piston. can do.

According to the preferred embodiment of the present invention as described above, there are the following effects.

It removes foreign substances remaining in the internal flow path of the vacuum block that is replaced and installed after die casting, and is used repeatedly, and at the same time, it can increase work productivity by easily checking the clogging state of the internal flow path of the vacuum block, and reduce the manufacturing cost by simplifying the casting process can do.

1 is an overall perspective view showing a vacuum block inspection apparatus for a die casting casting machine according to an embodiment of the present invention.
2 is a perspective view illustrating a vacuum block applied to a vacuum block inspection apparatus for a die casting casting machine according to an embodiment of the present invention.
Figure 3 is a perspective view showing a state of inspecting the vacuum block in the vacuum block inspection apparatus for a die casting casting machine according to an embodiment of the present invention.
Figure 4 is a cross-sectional view showing a state of inspecting the vacuum block in the vacuum block inspection apparatus for a die-casting casting machine according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment in which a person of ordinary skill in the art to which the present invention pertains can easily practice the present invention will be described in detail. However, in the detailed description of the structural principle of the preferred embodiment of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when it is said that a part is 'connected' with another part, it is not only 'directly connected' but also 'indirectly connected' with another element interposed therebetween. include In addition, 'including' a certain component does not exclude other components unless otherwise stated, but means that other components may be further included.

As shown in Figs. 1, 2, 3 and 4, the vacuum block inspection apparatus 100 for a die casting casting machine according to a preferred embodiment of the present invention includes a first block 10a and a second block 10b. A floating piston 32, a venting piston 34, an operating piston 35, and a pair of push pins 31 are provided inside the combined body, and are combined with a casting block (not shown) during the casting process and the vacuum pressure delivered from the vacuum pump It may include a vise part 10 and a block jig part 20 so that the vacuum block 30 for discharging the air remaining in the mold to the outside can be easily pre-inspected before combining with the casting block.

As shown in Figs. 1 and 3, the vise unit 10 is a movable table ( 14).

An end of the slider 12 includes a handle 15 to widen or close a gap between the fixing and moving tables during rotation, and the handle includes a lower end and a screw that is slidably assembled with the guide groove of the slider. It is connected to the end of the conveying shaft to be coupled.

Accordingly, the vacuum block 30, which is the inspection object, is to be inspected by moving the moving table 14 closer to or spaced apart from the fixed base 13, which is fixed in position by the forward or reverse rotation operation of the handle, thereby widening or closing the gap between them. ) can be easily removed or fixed in position.

As shown in FIGS. 1, 3 and 4, the block jig unit 20 is fixedly installed on one side of the holder 13 and has an approximately square plate shape so as to be in contact with one side of the vacuum block 30. It includes a first fixing plate 21, is fixedly installed on one side of the moving table 14 facing the fixing table, and comes in contact with the other side of the vacuum block 30 while in contact with the end of the pair of push pins 31 It includes a second fixing plate 23 in a substantially square plate shape so as to be lowered.

The vacuum block 30, which is an inspection object before replacement and installation in the casting block, is interposed between the first fixing plate 21 and the second fixing plate 23 and fixed, and at the same time, a pair of push pins protruding from the other side of the vacuum block 31 enters into the inner side of the vacuum block while being in contact with the second fixing plate to open the inner flow path of the vacuum block.

The first fixing plate 21 and the second fixing plate 23 protrude a predetermined length from each lower end in a direction facing each other to stably support and support the vacuum block 30, which is a heavy object. It is preferable to have a second support protrusion 24, respectively.

The second fixing plate 23 is provided with a pair of left and right stoppers 26 at both upper ends to prevent the left and right movement of the vacuum block supported by the first and second support jaws while being in contact with both sides of the upper end of the vacuum block. can do.

Accordingly, the vacuum block 30, which is the inspection object, is interposed between the first and second fixed plates to be stably positioned, and is mounted on the first and second support jaws 22 and 24 to be supported. , in this state, both side stoppers 26 of the second fixing plate and both sides of the upper end of the vacuum block are in contact with each other to prevent the left and right movement of the vacuum block, so that the inspection operation can be performed stably.

Then, when the pair of push pins in contact with the inner surface of the second fixing plate are moved backward in the horizontal direction, the inner flow path of the vacuum block communicating with the mold is opened.

On the inner surface of the second fixing plate 23 facing the pair of push pins 31 provided in the vacuum block 30, a series of electrical circuits are formed when the pair of push pins 31 are in contact to determine whether simultaneous contact is made or not. It is preferable to provide a pair of contact terminals 27a and 27b so that it can be confirmed.

In addition, the second fixing plate 23 facing the floating piston 32 of the vacuum block 30 is recessed to a predetermined depth and includes a groove 25 into which the tip of the floating piston is inserted correspondingly, A touch sensor 25a for generating a detection signal when the tip of the floating piston is in contact with the tip of the floating piston may be included on the bottom surface of the recess 25 to which the tip is in contact.

On the other hand, the vacuum block 30 is, as shown in Figs. 2 and 4, a first block 30a having a ventilation discharge hole 39 for discharging the air inside the mold to the outside by the vacuum pressure of the vacuum pump. ) and an air supply hole (38a) and an air discharge hole (38b) located on the rear side of the first block and communicating with the internal flow path, respectively, a second block (30b) that is jointly assembled with the first block (30a) includes

In the vacuum block 30, a floating piston 32 is disposed reciprocally between a pair of push pins 31 elastically supported toward the first block by the elastic force of the elastic body 33b located in the second block. and may include a ventilation piston 34 disposed adjacent to the floating piston to open and close the ventilation discharge hole 39 and an operation piston 35 interlocking therewith.

At this time, when the pair of push pins in contact with the second fixing plate are moved to the second block, the inner flow path of the vacuum block is opened through communication with the cavity of the mold to transmit vacuum pressure.

Accordingly, as shown in FIGS. 3 and 4, the vacuum block 30, which is an inspection object, is interposed between the first fixing plate 21 and the second fixing plate 23 and the position is fixed, and air is supplied. When the outlet end of the line P is connected in communication with the air supply hole 38a of the vacuum block and then air is supplied, the inside of the vacuum block that is in contact with the second fixing plate is opened by backward movement of a pair of push pins. High-pressure air is forcibly supplied to the flow path.

Continuously, the foreign substances remaining in the internal flow path of the vacuum block by the air forcibly supplied through the air supply hole 38a are discharged to the outside through the air discharge hole 38b, and the vacuum pressure is transferred to the mold during the casting process. It is possible to check the clogging while preventing the clogging of the internal flow path.

At this time, the floating piston 32 moved backward to the second block 30b in conjunction with the backward movement of the pair of push pins 31 is the first block 30a by the air pressure forced into the vacuum block. moves forward to the side.

And, the tip of the floating piston 32 moving forward toward the first block 30a is inserted corresponding to the recess 25 formed in the second fixing plate 23, and a touch sensor provided on the bottom surface of the recess. As it comes into contact with (25a), a detection signal is generated.

The inspection work on the vacuum block is finished while checking whether the vacuum block is clogged by the sensing signal of the touch sensor.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

10: vise part 10a, 10b: first and second blocks
11: fixed base 12: slider
20: block jig portion 21: first fixed plate
22: first support jaw 23: second fixing plate
24: second fixing plate 26: stopper
30: vacuum block 31: mill pin

Claims (5)

Ventilation piston, floating piston, operation that is coupled to the casting block and interlocks with each other inside the first block and the second block to discharge the air remaining inside the mold to the outside by the vacuum pressure transmitted from the vacuum pump during casting An apparatus for inspecting a vacuum block having a piston and a pair of push pins,
A moving table that is slidably assembled to the slider of the fixed base from which the holder protrudes from one end is provided, and a handle that is operated to rotate to widen or close the distance between the holder and the moving table is provided to fix and separate the vacuum block. vice part;
A first fixing plate that is fixedly installed on one side of the holder and comes into contact with one side of the vacuum block, and a first fixing plate that is fixedly installed on one side of the moving table and comes in contact with one side of the vacuum block, protrudes toward one side of the vacuum block A jig having a second fixing plate in contact with the ends of the pair of push pins and opening the internal flow path of the vacuum block communicating with the mold when the pair of push pins comes into contact with the second fixing plate while fixing the position of the vacuum block interposed between the first and second fixing plates wealth ; including,
Check whether the internal flow path is clogged while discharging foreign substances remaining in the internal flow path of the vacuum block communicating with the mold by the high-pressure air forcibly supplied through the air supply hole formed on the upper surface of the vacuum block to the outside through the air discharge hole, ,
The second fixing plate is a vacuum block inspection device for a die-casting casting machine, characterized in that it has a pair of contact terminals so as to configure a series of electrical circuits when the ends of the pair of mill pins are in contact with the inner surface to check whether they are in simultaneous contact. Ventilation piston, floating piston, operation that is coupled to the casting block and interlocks with each other inside the first block and the second block to discharge the air remaining inside the mold to the outside by the vacuum pressure transmitted from the vacuum pump during casting An apparatus for inspecting a vacuum block having a piston and a pair of push pins,
A moving table that is slidably assembled to the slider of the fixed base from which the holder protrudes from one end is provided, and a handle that is operated to rotate to widen or close the distance between the holder and the moving table is provided to fix and separate the vacuum block. vice part;
A first fixing plate that is fixedly installed on one side of the holder and comes into contact with one side of the vacuum block, and a first fixing plate that is fixedly installed on one side of the moving table and comes in contact with one side of the vacuum block, protrudes toward one side of the vacuum block A jig having a second fixing plate in contact with the ends of the pair of push pins and opening the internal flow path of the vacuum block communicating with the mold when the pair of push pins comes into contact with the second fixing plate while fixing the position of the vacuum block interposed between the first and second fixing plates wealth ; including,
Check whether the internal flow path is clogged while discharging foreign substances remaining in the internal flow path of the vacuum block communicating with the mold by the high-pressure air forcibly supplied through the air supply hole formed on the upper surface of the vacuum block to the outside through the air discharge hole, ,
The second fixing plate is recessed to a certain depth and includes a groove into which the tip of the floating piston is inserted correspondingly, and the bottom surface of the groove includes a touch sensor that generates a detection signal when it comes into contact with the tip of the floating piston. Vacuum block inspection device for die-casting casting machine. 3. The method of claim 1 or 2,
The first fixing plate and the second fixing plate are respectively provided with a first supporting jaw and a second supporting jaw for stably supporting and supporting the vacuum block by projecting a predetermined length from each lower end in the direction opposite to each other for a die casting casting machine. Vacuum block inspection device. 4. The method of claim 3,
Die casting, characterized in that the second fixing plate is provided with a pair of left and right stoppers on both sides of the upper side to prevent the left and right movement of the vacuum block supported by the first and second support jaws while being in contact with both sides of the upper end of the vacuum block. Vacuum block inspection device for casting machine. delete

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