KR200437976Y1 - Holding furnace pressure exhausting device of low pressure die casting machine - Google Patents

Abstract

The present invention relates to a pressurized discharge device for holding a low pressure casting machine, and through the supply valve for controlling the supply of an air supply source for supplying compressed air, the compressed air supplied by filtration with an air filter formed on one side of the supply pipe is foreign matter in the dust separator. Is connected to the pressure regulator to supply by the set pressure in a separated state, and the air supply unit formed with a pressure indicator for indicating the pressure to one side of the pressure regulator, and the electrical supply connected to the supply pipe of the air supply unit to control the compressed air An air control unit configured to supply a proportional valve having a flow control device to regulate a supply amount of compressed air according to a signal, and a constant pressure valve configured to supply a regulated supply air to the supply valve at a constant pressure, and the air control unit Compressed to the air inlet formed in the holding passage connected to the supply valve of the And a melt discharge part formed to supply a gas, and to form a pressure sensing tube having a pressure sensing sensor on one side of the holding furnace to sense the supply pressure of the holding furnace and to adjust the supply amount of the proportional valve of the air control unit according to the pressure; And an exhaust part having an exhaust pipe having an exhaust valve for discharging the compressed air according to the change in the internal pressure to the other side of the holding furnace of the melt discharge part.

Air supply part, dust separator, proportional valve, positive pressure valve, pressure sensor, exhaust part

Description

Holding furnace pressure exhausting device of low pressure die casting machine

1 is a circuit diagram showing a holding furnace pressurized discharge device of the low pressure casting machine according to the present invention.

Figure 2 is a plan view showing the main part of the holding furnace pressurized discharge device of the low pressure casting machine according to the present invention.

Figure 3 is a block diagram showing the main part of the pressurized discharge device holding the low pressure casting machine according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: pressure discharge device 110: air supply unit

111: air supply source 112: supply valve

113: supply pipe 114: air filter

115: dust separator 116: pressure regulator

117: pressure indicator 120: air control unit

121: proportional valve 122: flow control

123: constant pressure valve 124: supply valve

130: melt discharge part 131: holding furnace

132: air inlet 133: pressure sensing tube

134: pressure sensor 135: emergency exhaust valve

136: pressure switch 137: pressure gauge

140: exhaust portion 141: exhaust pipe

142: exhaust valve 143: exhaust operation valve

144: safety valve

The present invention relates to a pressurized discharge device for holding a low pressure casting machine.

In general, the low pressure casting method presses the molten metal through air or an inert gas into the mold placed on top of the closed molten metal or crucible by pressing the molten metal through a discharge device provided with a holding path in the opposite direction to gravity, After the filling, pressurizing pressure is applied to it to maintain the pressure effect for a certain period of time so that the product solidifies, and the hot water in contact with the hot water pipe and the mouth opening open pressure at the time of non-solidification. Come and finish casting. After the end of the process, the tap surface of the holding furnace is reduced by the amount of the bath made of the product. At the next casting, corrections are made to the corresponding pressurization conditions.

The pressing force and the process duration of the low pressure casting machine as described above vary depending on the type of the product and the mass produced, and are widely used in the production of aluminum castings, and are also applied to copper alloys, magnesium alloys, and low melting point alloys. Molds are often used as molds, and molds of other casting materials are also used.

Thus, the low pressure casting method used for aluminum casting and low melting alloy is to press the air and inject the melt of the holding furnace into the molten metal to produce the casting by pouring, and if the pressing force of the melt discharged from the holding furnace is low, bubbles inside When the product quality is lowered and the pressing force of the melt is high, not only the loss of the melt occurs due to the excessive supply of the melt, there is a problem that the overload occurs in the discharge portion.

The low pressure casting machine of the prior art supplies compressed air to the holding furnace to pressurize the melt supplied to the molten metal and supplies the melt to the molten metal under the pressurized pressure of the compressed air. Even if the change is supplied at a constant pressure, there is a problem in that a failure occurs as the melt can not be discharged at a pressure suitable for molding as it is supplied only at a constant pressing pressure without considering a change in the melt supply pressure.

In addition, the pressurization time is increased by not being able to control the pressurization time determined by the pressure change of the molten metal by supplying a constant amount of air without displacing the pressure of the pressurized air according to the pressure change of the melt supplied to the mold. There was a problem.

In addition, foreign matters of the compressed air mixed to pressurize the melt supplied to the mold are mixed, and there is a problem in that a defect of the product is caused by mixing of the foreign matter in the pressurized melt mixed with the melt and discharged under pressure.

In order to solve the problems, the main purpose of the present invention is to detect the amount of air supplied to the holding furnace for supplying the melt of the low pressure casting machine and the pressure change according to the set time and time and the pressure of the melt pressurized by the holding furnace. It is supplied to the positive pressure valve while controlling with the proportional valve operated by the control signal according to the pressure pressure amount to keep the pressure pressure variation of the holding furnace constant while reducing the defect rate when forming the melt in the mold, and shortening the pressing time to improve productivity. To improve.

As such, the pressurized discharge device of the low pressure casting machine according to the present invention devised to achieve the object is compressed and supplied by filtration with an air filter formed at one side in a supply pipe through a supply valve for controlling supply of an air supply source for supplying compressed air. Connected to the pressure regulator to supply air by the pressure set in the state in which the foreign matter is separated from the dust separator, the air supply unit formed with a pressure indicator indicating the pressure to one side of the pressure regulator, and connected to the supply pipe of the air supply unit and compressed Air which supplies air to the proportional valve equipped with a flow regulator to regulate the supply of compressed air by a controlled electrical signal, and a positive pressure valve for supplying the regulated air supply to the supply valve at a constant pressure A holding furnace connected to a control unit and a supply valve of the air control unit to supply a melt to a mold; It is formed to supply compressed air to the formed air inlet, and to form a pressure sensing tube with a pressure sensor on one side of the holding passage to sense the supply pressure of the holding passage to adjust the supply amount of the proportional valve of the air control unit according to the pressure. And an exhaust part having an exhaust pipe formed with a molten discharge part formed and an exhaust valve for discharging compressed air in accordance with a change in internal pressure to the other side of the holding path of the melt discharge part.

In addition, the melt discharge portion forms a pressure switch to display a high pressure and a low pressure in accordance with the internal pressure to one side of the pressure sensing tube, to form a pressure gauge connected to the pressure sensing tube to display the pressure amount of the pressure sensing sensor, pressure sensing By forming an emergency exhaust valve for exhausting the internal compressed air in the emergency to the other side of the pipe characterized in that configured to exhaust in the emergency while displaying the pressure to the outside.

In addition, the exhaust portion is connected to the exhaust operation valve for operating the exhaust valve to form a safety valve to one side of the exhaust pipe is characterized in that it is formed to be exhausted when the compressed air supplied to the holding passage is generated.

Thus, looking at the preferred embodiment of the pressurized discharge device of the low pressure casting machine of the present invention configured with reference to the drawings as follows.

First, in the drawings, the same components or parts are to be noted that the same reference numerals as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

1 is a circuit diagram showing a holding furnace pressurized discharge device of the low pressure casting machine according to the present invention, Figure 2 is a plan view showing a holding furnace pressurized discharge device of the low pressure casting machine according to the present invention, Figure 3 is a low pressure casting machine according to the present invention Fig. 1 is a block diagram showing a pressurized discharge device in a holding furnace.

As shown in Figures 1 to 3, the pressurized discharge device 100 of the low pressure casting machine of the present invention is connected to the air supply source 111 for supplying the compressed air connected to the air supply 111 while maintaining the pressure at a constant pressure to supply air The air supply unit 110 and the air control unit 120 and the air control unit 120 is formed to supply the compressed air connected to the air supply unit 110 while controlling the supply amount according to the control signal, and the air supplied from the air control unit 120 The melt is formed to be supplied to the holding furnace 131 stored therein to be supplied to the mold 1 by the pressing force of the compressed air, and a pressure sensor 134 is formed on one side of the holding furnace 131 to sense the supply pressure therein. It comprises a melt discharge unit 130 and an exhaust unit 140, the exhaust pipe 141 is formed to exhaust the compressed air supplied to the inside of the holding passage 131 of the melt discharge unit 130 to the other side. .

The air supply unit 110 is supplied with compressed air filtered by the air filter 114 formed on one side of the supply pipe 113 through a supply valve 112 for controlling the supply of the air supply source 111 for supplying compressed air. The pressure regulator 116 is connected to be formed to be supplied by the pressure set in the state of separating the foreign matter from the dust separator 115, and is configured to form a pressure indicator 117 indicating the pressure to one side of the pressure regulator 116.

The air control unit 120 is connected to the supply pipe 113 of the air supply unit 110 is a proportional valve 121 is provided with a flow regulating sphere 122 to adjust the supply amount of compressed air by an electrical signal to control the compressed air It is configured to form a positive pressure valve 123 for supplying to the supply valve 112, the supply of air to the supply valve 112 at a constant pressure.

The molten discharge part 130 is formed to supply compressed air to the air inlet 132 formed in the holding passage 131 which is connected to the supply valve 112 of the air control unit 120 to supply the melt to the mold, and holding A pressure sensing tube 133 having a pressure sensing sensor 134 is formed at one side of the furnace 131 to sense a supply pressure of the holding furnace 131, and according to the pressure, a proportional valve 121 of the air control unit 120. It is configured to regulate the supply amount of.

Here, the melt discharge unit 130 forms a pressure switch 136 for displaying a high pressure and a low pressure in accordance with the internal pressure to one side of the pressure sensing tube 133, the pressure to display the pressure amount of the pressure sensor 134 The gauge 137 is connected to the pressure sensing tube 133, and an emergency exhaust valve 135 is formed on the other side of the pressure sensing tube 133 to exhaust internal compressed air in case of emergency, and the pressure is displayed to the outside while exhausting in case of emergency. It is preferable to configure so that.

The exhaust unit 140 is configured to form an exhaust pipe 141 having an exhaust valve 142 for discharging the compressed air to the other side of the holding passage 131 of the melt discharge unit 130 according to the change in the internal pressure.

Here, the exhaust unit 140 connects and forms an exhaust operation valve 143 for operating the exhaust valve 142, and forms a safety valve 144 on one side of the exhaust pipe 141 to compress the supplied supply of the holding passage 131. It is preferable that the air is formed to be exhausted when an overpressure occurs.

Thus, look at the action on the pressure discharge device of the low pressure casting machine of the present invention is configured as follows.

First, by opening the supply valve 112 connected to the air supply 111 to supply pressurized compressed air of the holding passage 131 for supplying the melt to the low pressure casting machine, the compressed air through the supply pipe 113, the air filter 114 ), The foreign material of the compressed air is separated and removed from the dust separator 115 in the state of first filtering, and the compressed air from which the foreign matter is removed is displayed with a pressure indicator 117 to display the pressure in the pressure regulator 116. Supply constant pressure through

As such, when foreign matter is removed from the compressed air supplied from the air supply source 111 of the air supply unit 110 and supplied to the supply pipe 113 at a constant pressure, the amount of change in pressure according to the set time and time and the melt of the holding furnace 131 are removed. By converting the pressure pressure amount of the pressure sensor 134 for sensing the pressure to be supplied to the electrical signal applied to the proportional valve 121 provided with the flow rate regulator 122 to the melt supplied to the mold to the optimum pressure It is supplied to the positive pressure valve 123 for supplying the set pressure while adjusting the compressed air supply amount through the proportional valve 121 is set to supply.

As described above, the compressed air supplied while adjusting the supply pressure from the proportional valve 121 to the positive pressure valve 123 of the air control unit 120, the holding passage 131 through the supply valve 112 is operated by a control signal It is supplied to the air inlet 132 side of.

Thus, the compressed air supplied to the air inlet 132 side is discharged to the mold 1 by the pressing force mixed with the melt to perform molding.

At this time, a pressure sensing tube 133 is formed to sense the pressurized pressure of the melt to one side of the holding passage 131 to detect the pressure with the pressure sensing sensor 134 provided in the pressure sensing tube 133. While displaying the pressure gauge 137 on the outside, the pressure sensed by the pressure sensor 134 is sent to the proportional valve 121 to adjust the supply amount of air, and to the one side of the pressure sensor tube 133 An emergency exhaust valve is formed to form a pressure switch 136 that operates according to the low pressure, and is supplied with overpressure to the other side of the pressure sensing tube 133 so that the pressure sensing sensor 134 exhausts in an emergency to prevent damage from occurring. 135 to detect the pressure of the holding passage (131).

As described above, holding the compressed air supplied at the time of pressurization to correct the pressurized environment therein for supplying the pressurized air of the holding furnace 131 and supplying the melt in the pressurized state and then molding the mold. The exhaust operation valve 143 is operated by the exhaust operation valve 143 formed at the other side of the furnace 131 to exhaust the exhaust valve 142 through the exhaust pipe 141, and the exhaust operation valve 143 operating the exhaust valve 142 is provided with an air supply unit ( Connected to the air supply 111 in the 110, the safety valve 144 is formed on one side of the exhaust pipe 141, and the compressed air supplied to the holding passage 131 is exhausted when the overpressure occurs to complete the molding, the next molding Create a pressurized atmosphere for the process.

As described above, the holding furnace pressurized discharge device of the low pressure casting machine according to the present invention is configured to determine the amount of air supplied to the holding furnace for supplying the melt of the low pressure casting machine according to the set time and time, and the pressure of the melt pressurized by the holding furnace. While supplying to the positive pressure valve by adjusting the proportional valve operated by the control signal according to the pressure pressure sensed to keep the pressure pressure change in the holding furnace constant, the defect rate is reduced when forming the melt in the mold, and the pressurization time is shortened. It provides the effect of improving the productivity.

In addition, the holding furnace pressurized discharge device of the low pressure casting machine of the present invention is connected to the holding passage for supplying the melt to the mold of the low pressure casting machine, the air filter is connected to the supply pipe connected to the supply valve to the air supply source to supply the melt with the pressurized pressure mixed with the compressed air By forming a primary filter and supplying the foreign material of the compressed air supplied by removing the foreign matter therein while passing through the dust separator while removing the foreign matter of the compressed air supplied, thereby reducing the defective rate of the mixed melt to improve productivity. It provides an effect.

In addition, the holding furnace pressurized discharge device of the low pressure casting machine according to the present invention displays the pressure with a pressure display port at a pressure set in a state in which impurities are removed from an air supply, and the compressed air supplied at a constant pressure through a constant pressure is set according to the set time and time. The pressure of the pressure sensor which senses the amount of change and the pressure supplying the melt to the holding furnace is converted into an electrical signal and applied to the proportional valve equipped with a flow control to supply the melt to the mold at the optimum pressure By supplying the pressure and flow rate of the compressed air to be mixed so as to generate a pressing force of the melt in an optimal state, the melt melted by the holding furnace in the mold is discharged while maintaining a constant pressure change in the holding furnace. To reduce the defect rate during molding and shorten the press time to improve productivity It provides the effect.

In addition, the pressurized discharge device of the low pressure casting machine of the present invention is connected to the air supply unit for supplying air is a positive pressure valve for supplying the compressed air with a controlled supply amount in the proportional valve for adjusting the pressure and flow rate of the compressed air By supplying the compressed air to the holding furnace by the operation of the supply valve actuated by the control signal through the air supply, the compressed air regulated flow rate and pressure is supplied to the constant pressure valve to supply a constant pressure to supply stable compressed air To improve the effect.

In addition, the holding furnace pressurized discharge device of the low pressure casting machine of the present invention controls the air supplied from the air supply unit to the holding furnace in which the melt is dissolved and pressurized while mixing with the melt to supply the mold to the holding furnace at the time of molding. The pressure sensing tube formed to sense the pressure to one side of the pressure sensor detects the internal pressure and changes the applied pressure by changing the electrical signal to the proportional valve that controls the flow rate and pressure of the air. By adjusting the supply amount of air accordingly, it provides an effect of reducing the defect rate during molding, shortening the pressurization time to improve productivity.

In addition, the holding furnace pressurized discharge device of the low pressure casting machine of the present invention forms a pressure switch displaying high pressure and low pressure while displaying the pressure with a pressure gauge on one side of the pressure sensing tube equipped with a pressure sensor for detecting the pressure of the holding furnace. In addition, if overpressure occurs inside the pressure gauge and the pressure switch to the other side of the pressure sensing pipe, the exhaust gas is formed to be exhausted to the emergency exhaust port, which facilitates pressure management and prevents damage of the pressure sensing sensor due to overpressure, thereby increasing the service life.

In addition, the holding furnace pressurized discharge device of the low pressure casting machine of the present invention forms an exhaust pipe exhausted by the operation of an exhaust valve acting as an exhaust operation valve to the other side of the holding furnace for supplying the melt, and when an overpressure occurs on one side of the exhaust pipe Forming a safety valve to be exhausted in the exhaust after the molding to easily compensate for the internal pressure to improve the circulation speed of the process, to prevent the breakage of the exhaust port due to overpressure supply to the safety valve provides an effect of increasing the life.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and variations can be made therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the attached utility model registration claims.

Claims (3)

Through the supply valve that controls the supply of the air supply source for supplying the compressed air, the supply line is connected to the pressure regulator so that the supplied compressed air is supplied by the pressure set in a state in which the foreign matter is separated from the dust separator through the supply filter. An air supply unit formed with a pressure indicator for indicating pressure to one side of the constant pressure regulator; Connected to the supply pipe of the air supply unit is supplied to the proportional valve having a flow rate control to adjust the supply amount of compressed air by the electrical signal to control the compressed air, supplying the regulated air supply amount to the constant pressure in the proportional valve An air control unit having a positive pressure valve for supplying the Connected to the supply valve of the air control unit is formed to supply compressed air to the air inlet formed in the holding passage for supplying the melt to the mold, and to one side of the pressure sensing tube equipped with a pressure sensor to one side of the holding passage to the internal pressure According to the pressure switch to display the high pressure and low pressure, the pressure gauge is connected to the pressure sensing tube to display the pressure amount of the pressure sensor, and the emergency exhaust valve for exhausting the internal compressed air to the other side of the pressure sensing tube in case of emergency A molten discharge part formed to sense the supply pressure of the holding furnace and to control the supply amount of the proportional valve of the air control unit according to the pressure and to display the pressure to the outside while exhausting in emergency; Forming an exhaust pipe having an exhaust valve for discharging the compressed air to the other side by the holding of the melt discharge portion, the exhaust valve is connected to the exhaust operation valve for operating the exhaust valve, the safety valve is formed on one side of the exhaust pipe holding The holding furnace pressurized discharge device of the low pressure casting machine, characterized in that it comprises an exhaust portion formed so that the compressed air supplied to the furnace is exhausted when overpressure occurs. delete delete

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