KR20030056439A - A casting apparatus for manufacturing the precious metals personal ornaments - Google Patents

Abstract

PURPOSE: An apparatus for molding noble metal accessories is provided to easily and stably manufacture the noble metal accessories by using an automatic control operation. CONSTITUTION: The apparatus for molding noble metal accessories comprises: a main body(110) which includes a crucible installation chamber(112) and a flask installation chamber(114); a heating unit(120), which applies heat to a crucible(90) mounted in the crucible installation chamber; a crucible opening unit(130), which opens a hole(92) formed in the bottom of the crucible, after melting noble metals contained in the crucible in the state of blocking the hole; a negative pressure generation unit(150), which applies a sucking force, so that noble metal solution supplied from the crucible into the flask flows to an empty space in a gypsum mold by applying the negative pressure in the flask installation chamber; a controller(160) for controlling the above units.

Description

Precious metal jewelry casting equipment {A CASTING APPARATUS FOR MANUFACTURING THE PRECIOUS METALS PERSONAL ORNAMENTS}

The present invention relates to a noble metal jewelry casting device, and more particularly to a noble metal jewelry casting device for the process of melting or casting the noble metal in the manufacturing process of the precious metal jewelry is automatically performed by a control operation without manual labor. .

In general, the manufacturing process of precious metal ornaments such as rings, necklaces, earrings, etc. is first made of a model, and then formed into a mold using the model, and then a plurality of pieces having the same shape as the jewelry to be manufactured by injecting wax into the mold. A wax model is produced.

Then, the support 12 formed in the wax model 10 manufactured as described above is attached to the support 30 of the support cover 20 as shown in FIG. 1A and the support cover 20 as shown in FIG. 1B. ) Is inserted into the flask 40 so that it faces upwards, and then hardened by putting gypsum in a gel state.

As such, when the plaster in the flask 40 is hardened, the flask is put into an electric heating furnace, and when heated, the wax model 10 including the support 12 and the support 30 formed of wax are melted and discharged, and the flask 40 An empty space is formed inside the gypsum, and a hole in which the support 30 is fused is formed with a wax to introduce a noble metal solution into a wax model.

Meanwhile, the flask 40 formed as described above is inserted into the casting apparatus 50 as shown in FIG. 2 to manufacture precious metal ornaments. The casting apparatus is formed in a cylindrical shape, and the suction duct 52a is formed at one side. The flask mounting body 52, which is formed in communication with the flask seating portion 52b on which the flask is placed, and is mounted thereon, and the outside of the suction duct 52a of the flask installation body 52, is installed to suck internal air. A crucible mounting body 56 is formed to surround the outside of the flask mounting body 54 and a crucible 60 containing a precious metal introduced into the upper portion of the flask. ) Is configured.

In the casting device 50 configured as described above, the worker first installs the flask 40 in the flask installation body 52 and heats and melts the precious metal while driving the fan, and injects the completed precious metal into the crucible 60. When the bottom of the crucible is drilled with a sharp tool such as an awl, the precious metal solution introduced through the bottom hole of the crucible falls downward and flows through the hot water formed in the plaster mold.

At this time, since the fan is in the driven state, suction force is applied through the minute pores between the hole formed on the outside of the flask 40 and the gypsum particles of the plaster mold, and the precious metal solution introduced into the mouth is drawn into the empty space formed by dissolving the wax model. It flows in.

On the other hand, when the inlet of the precious metal is completed inside the empty space of the plaster frame as described above, hardening the precious metal for a certain time, when melting the plaster frame, only the portion of the precious metal introduced into the interior remains, the part corresponding to the jewelry in this state If you cut and execute the finishing work, such as polishing, the production of jewelry is completed.

However, the conventional casting apparatus as described above forms a flask to enable the manufacture of a particular ornament, and inserts a precious metal into the crucible while the flask is installed in the flask installation body, and a separate manual heating mechanism such as an oxygen / acetylene torch After melting and heating with a tool such as tongs, place it on the crucible installation body of the casting machine, and then use a tool such as a drill to drill the lower part of the crucible to make a hole, and then discharge the precious metal downward. There was a problem in that productivity was reduced due to increased time and manufacturing labor.

In addition, since the melting process of the precious metal is made by a manual heating mechanism, and the lower part of the crucible must be drilled by hand, there is a high risk of a safety accident such as a burn.

In addition, the process of introducing the precious metal solution from the crucible into the flask is carried out by the free fall method of self-weight of the precious metal solution, which slows down the operation time and increases the working time. There was a problem that workability is lowered.

The present invention is to solve the above problems, the object of the melting and casting process in the manufacturing process of precious metal jewelry is to be performed automatically by automatic control operation, not by manual operation, thereby improving productivity, workability and safety It is to provide a precious metal jewelry casting apparatus as possible.

In order to achieve the above object, the present invention relates to a device for melting and casting a precious metal, wherein the crucible seating portion is formed so that the crucible in which the precious metal is fused is formed and the compressed air is supplied and discharged from the outside while the supplied compression is supplied. A crucible mounting chamber formed to be selectively sealed to prevent air leakage, and a flask seating portion formed at a lower portion of the crucible mounting chamber to correspond to the crucible seating portion so that the body portion of the flask is inserted and received therein and a duct connection portion is formed at one side thereof. A main body configured with a flask installation chamber; A heating device configured to heat the crucible installed in the crucible installation chamber; Crucible opening and closing means for opening the hole when the precious metal contained in the crucible is melted by the heating device in a state in which the hole formed at the bottom of the crucible is blocked; A negative pressure generating device connected to the duct connecting portion to apply a suction force so that the precious metal solution introduced into the flask from the crucible is introduced into the flask by the negative pressure in the flask installation chamber; While controlling the heating device, the crucible opening and closing means and the negative pressure generating device is characterized in that it comprises a control unit for controlling the flow of compressed air flowing into the crucible installation room.

Preferably, the crucible opening and closing means is a rod-shaped opening and closing member that is selectively inserted into the lower hole of the crucible, the operating piece is connected to one end of the opening and closing member, the other end of the operating piece is connected to the rod side the opening and closing member And a pneumatic cylinder installed in the crucible installation chamber so as to elevate the gas, and a compressed air control driver for controlling the pneumatic cylinder according to the control signal of the controller and controlling the flow of compressed air flowing into the crucible installation chamber. It features.

In addition, the upper part of the main body is formed so that the upper door is opened and closed and the connector is in communication with the crucible installation chamber is formed on the upper surface of the door so that the compressed air is introduced and discharged by the compressed air control drive connected to the connector. The upper portion of the flask installation chamber is configured with a lower door for installation and separation of the flask, while the heating device is wound on the outer surface of the crucible to heat the crucible and to supply power according to the control signal of the controller The heating driving unit for heating the coil is configured to be included.

In addition, the temperature sensor is installed inside the crucible to sense the temperature in the crucible and applies the detected signal to the controller to control the driving of the crucible opening means, the negative pressure generating device and the heating device by a control signal generated by the controller. It is characterized in that the additional configuration.

According to such a precious metal jewelry casting device, it is possible to manufacture precious metal jewelry sequentially by automatic control without the need for heating and melting the precious metal by means of a separate heating mechanism, or by manually drilling a hole in the crucible. Since the process of introducing precious metal solution into the flask is pressurized, the discharge speed is improved, and thus the working time is shortened and the quality defects caused by hardening of the precious metal are prevented, thereby improving productivity and quality.

Figures 1a and 1b is a view for explaining the process of forming a plaster mold in the manufacturing process of the general precious metal jewelry,

2 is a view schematically showing a conventional precious metal jewelry casting device,

Figure 3 is a schematic diagram showing a precious metal jewelry casting apparatus according to a preferred embodiment of the present invention,

Figure 4 is a schematic perspective view showing a precious metal jewelry casting apparatus according to a preferred embodiment of the present invention.

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

40: flask, 90: crucible,

110: the body, 112: crucible installation room,

114: flask installation chamber, 120: heating device,

122: coil, 124: heating drive,

130: crucible opening and closing means, 132: opening and closing member,

134: working piece, 136: pneumatic cylinder,

138: compressed air control drive unit, 150: negative pressure generating device,

160: control unit, 170: temperature detection unit.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

3 is a schematic configuration diagram showing a noble metal jewelry casting apparatus according to a preferred embodiment of the present invention, Figure 4 is a schematic perspective view showing a noble metal jewelry casting apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 3, the apparatus for casting precious metal jewelry according to the present invention includes a main body 110 having a crucible installation chamber 112 and a flask installation chamber 114 therein, and installed in the crucible installation chamber 112. The heating apparatus 120 configured to heat the crucible 90 and the hole 92 formed in the lower portion of the crucible 90 are blocked in the crucible 90 by the heating apparatus 120. When the precious metal is melted, the crucible opening and closing means 130 for opening the hole and the precious metal solution introduced into the flask 40 from the crucible 90 by applying a negative pressure in the flask installation chamber 114 have an empty space inside the plaster frame. Negative pressure generating device 150 for applying a suction force to flow into the, and the control unit 160 for controlling each device is configured to include.

The main body 110 is configured inside the cover member 110a having a substantially hexahedral shape as shown in FIG. 4, while the crucible installation chamber 112 has a lower flask installation so that the crucible 90 in which the precious metal is fused is seated. The crucible seating portion 112b is formed on the separator 112a, which is isolated from the seal 114, and is formed to supply and discharge compressed air from the outside, and is selectively sealed to prevent leakage of the compressed air supplied in this way. The flask installation chamber 114 has a flask seating portion 114a formed at a lower portion of the crucible mounting chamber 112 to correspond to the crucible seating portion 112b, and the body portion 42 of the flask 40 is located therein. ) Is formed to be sealed to be inserted and received, and a duct connecting portion 114b connected to the outside is formed on an outer surface of the negative pressure generating device 150.

In addition, the upper portion of the main body 110 has an approximately hemispherical shape and an upper door 116 is formed to be opened and closed by a hinge, and a connector for communicating with the crucible installation chamber 112 on the upper surface of the upper door 116 ( 116a is formed so that the compressed air is introduced and discharged by the control operation of the compressed air control drive of the crucible opening and closing means 130 so as to be connected to the connector 116a, and the upper portion of the flask installation chamber 114 A lower door 118 is provided for the installation and removal of 40.

The heating device 120 is wound on the outer surface of the crucible 40, the coil 122 for heating the crucible, and the heating driving unit for supplying power in accordance with the control signal of the controller 160 to heat the coil 12 ( And 124).

The crucible opening and closing means 130 is a rod-shaped opening and closing member 132 selectively inserted into the lower hole 42 of the crucible 40, and the operating piece 134 is connected to one end of the crucible opening (132) And a pneumatic cylinder 136 installed in the crucible mounting chamber 112 so that the other end of the operation piece 134 is connected to the rod side to elevate the opening / closing member 132, and the control of the control unit 160. Compressed air control driver 138 for controlling the flow of compressed air flowing into the crucible installation chamber 112 while controlling the pneumatic cylinder 136 according to the signal, the compressed air control driver 138 is It consists of a solenoid valve having a plurality of ports, the pneumatic cylinder 146 is composed of a double-acting cylinder.

The negative pressure generating device 150 is composed of a suction device such as a fan that sucks air in the flask installation chamber 114, but may be modified and applied to various devices having the same function.

The crucible opening means 130 and the negative pressure generating device 150 are installed inside the crucible 40 to sense a temperature in the crucible and apply the detected signal to the controller 160 by a control signal generated by the controller. And a temperature sensing unit 170 further configured to control driving of the heating apparatus 120. The temperature sensing unit 170 is configured as a temperature sensor coupled to the opening / closing member 132 of the crucible opening and closing unit 130. Preferably, that is, the melting point of a particular precious metal used in the manufacture of jewelry is input to the control unit is detected by the temperature sensing unit 170 in the set state, the temperature applied to the control unit reaches the set temperature and put in such a state When a predetermined time is elapsed according to the amount of precious metal that is to be activated, the crucible opening and closing means 130 is operated so that the lower hole of the crucible is opened to discharge the precious metal melted downward. To control.

As shown in FIGS. 3 and 4, the controller 160 flows compressed air into the heating apparatus 120, the crucible opening and closing means 130, the negative pressure generating device 150, and the crucible installation chamber 112. By controlling the, as shown in Figure 4 on the panel 162 having a constant size, the temperature adjusting lever for adjusting the temperature of the heating device 120 to a predetermined range and the temperature setting button for setting the temperature, and A temperature controller including a display unit displaying a temperature set by a temperature setting button and a temperature sensed by the temperature sensing unit 170, a button for controlling the operation of the crucible opening and closing unit 130, and pressure of compressed air Compressed air control unit including a respirator for adjusting the negative pressure generating device control unit including a button for adjusting the intensity of the operation and suction force of the negative pressure generating device 150, the driving of each device is automatically or manual It consists of a setting button for setting to operate selectively, an emergency stop button for inputting an emergency stop.

The operation of the present invention as described above is as follows.

3 and 4, the flask seating portion 114a of the flask installation chamber 114 through the lower door 118 of the flask melted and discharged by dissolving the wax model of the jewelry to be manufactured and the support formed of wax. When the noble metal is placed in the crucible 40 through the upper door 116 and input to the control unit 160 at a temperature corresponding to the melting point of the noble metal, the control unit heats the driving unit of the heating apparatus ( 124 is operated to heat coil 122.

As the precious metal inside the crucible is heated by the coil to melt, the sensing temperature sensed by the temperature sensing unit 170 is applied to the control unit, and the sensing temperature applied in this way reaches a preset temperature, and according to the amount of precious metal introduced. When a predetermined time elapses when the precious metal is completely melted, the controller 160 drives the compressed air control driver 138 to operate the crucible opening and closing means 130 and simultaneously drives the negative pressure generating device 150.

That is, as the cylinder moves forward, the opening and closing member 132 which is blocking the lower hole of the crucible 40 is lifted by the operating piece 134 coupled to the rod to be advanced, thereby opening the lower hole and simultaneously compressing the lower hole. As the compressed air flows into the connector 116a of the upper door 116 by the control of the air control driver 138, a pressure having a predetermined size is applied to the inside of the crucible installation chamber 112, and thus the crucible 40 is placed on the crucible 40. The downward pressure is applied to the surface of the noble metal melted in the molten noble metal is discharged to the upper portion of the flask while the discharge rate is increased while flowing into the empty space on the plaster frame in the flask, the negative pressure generating device 150 As a negative pressure is applied to the inside of the flask installation chamber 114 by the operation of), the fused metal is completely introduced into the empty space in which the wax model of the plaster mold is removed.

Then, when the inflow of the precious metal into the empty space of the plaster frame is completed, the precious metal is cured for a predetermined time, and the flask is removed to dissolve the portion formed by the plaster therein, leaving only the precious metal portion introduced into the flask. In this state, if you cut the part corresponding to the ornaments and execute the finishing work such as polishing, the production of the ornaments is completed.

According to the noble metal jewelry casting apparatus according to the present invention as described above, it is possible to manufacture the noble metal jewelry sequentially by automatic control without the need for heating and melting the noble metal by a separate heating mechanism or manual operation of punching the crucible As a result, the manufacturing process is simplified, manufacturing time and manufacturing time are reduced, productivity is improved, and the risk of a safety accident is prevented.

Since the process of inputting the precious metal solution from the crucible into the flask is pressurized, the discharge speed is improved and the working time is shortened, and the poor quality due to the hardening of the precious metal is prevented, thereby improving the workability and quality.

Claims (5)

In the apparatus for melting and casting precious metals, The crucible mounting section is formed to seat the crucible where the noble metal is fused, and the compressed air is supplied and discharged from the outside, and the crucible installation chamber is selectively sealed to prevent leakage of the supplied compressed air. A main body having a flask installation unit formed with a flask seating portion corresponding to the crucible seating portion so that a body portion of the flask is inserted and received therein and a duct connection portion is formed at one side thereof; A heating device configured to heat the crucible installed in the crucible installation chamber; Crucible opening and closing means for opening the hole when the precious metal contained in the crucible is melted by the heating device in a state in which the hole formed at the bottom of the crucible is blocked; A negative pressure generating device connected to the duct connecting portion to apply a suction force so that the precious metal solution introduced into the flask from the crucible is introduced into the flask by the negative pressure in the flask installation chamber; And a control unit for controlling the heating device, the crucible opening and closing unit, and the negative pressure generating device, and controlling a flow of compressed air flowing into the crucible installation chamber. The method of claim 1, The crucible opening and closing means includes a rod-shaped opening and closing member selectively inserted into and lowered into the lower hole of the crucible; An operation piece having one end connected to the opening and closing member; A pneumatic cylinder installed in the crucible installation chamber so that the other end of the operation piece is connected to the rod side to elevate the opening / closing member; Precious metal jewelry casting device characterized in that it comprises a compressed air control drive for controlling the flow of compressed air flowing into the crucible installation chamber at the same time controlling the pneumatic cylinder according to the control signal of the control unit. The method of claim 1, The upper part of the main body is formed so that the upper door is opened and closed and the connector is connected to the crucible installation chamber on the upper surface of the door so that the compressed air is introduced and discharged by the compressed air control drive unit connected to the connector. Precious metal jewelry casting device, characterized in that the upper portion of the flask installation chamber is configured with a lower door for installation and separation of the flask. The method of claim 1, The heating device comprises a coil wound on the outer surface of the crucible to heat the crucible; Precious metal jewelry casting device characterized in that it comprises a heating driving unit for heating the coil by supplying power in accordance with the control signal of the controller. The method according to any one of claims 1 to 4, The temperature sensing unit is installed inside the crucible to sense a temperature in the crucible and applies a sensed signal to the controller to control the driving of the crucible opening means, the negative pressure generating device and the heating device by a control signal generated by the controller. Precious metal ornament casting device, characterized in that.