KR101025985B1 - Combustion apparatus of filter for gilding solution - Google Patents

Abstract

The present invention relates to a filter combustion device for a gold plating solution, the main body; A port formed on the main body, the filter accommodating part accommodating the filter; A heating furnace which forms a chamber to receive the port and indirectly heats the port to burn the filter contained in the chamber; And a lift driver configured to lift and lower the heating furnace with respect to the port so that the port is accommodated and released in the chamber of the heating furnace. Thereby, the gold plating liquid filter can be stably burned, and gold can be recovered from the burnt filter.

Description

Filter combustion device for gold plating solution {COMBUSTION APPARATUS OF FILTER FOR GILDING SOLUTION}

The present invention relates to a filter combustion device for a gold plating solution, and more particularly, to a filter combustion device for a gold plating solution for recovery of gold remaining in a filter in which the gold plating solution is filtered.

Generally, a filter is used to recover the plating solution during gold plating, and there is a residual amount of gold in the filter.

Therefore, when the life of the gold plating liquid filter reaches the end of life, the filter can be collected and burned, and then made into ash to collect gold.

Therefore, in order to collect such gold, conventionally, the filter was directly heated and burned by using a gas torch to burn the filter, but the ash was blown away due to the ejection pressure of the gas torch and gold was also lost.

Accordingly, the present applicant provides a gold plating liquid filter combustion apparatus which can indirectly heat the gold plating liquid filter in a closed space, stably burn the gold plating liquid filter so that gold is not lost, and recover gold from the burnt filter. To develop.

The problem to be solved by the problems of the background art, according to the present invention, to stably burn the filter for gold plating solution, to provide a gold plating liquid filter combustion apparatus capable of recovering gold from the burnt filter.

According to the present invention, there is provided a means for solving the above problems; A port formed on the main body, the filter accommodating part accommodating the filter; A heating furnace which forms a chamber to receive the port and indirectly heats the port to burn the filter contained in the chamber; It provides a filter combustion device for a gold plating solution, characterized in that it comprises a lifting and lowering drive unit for elevating the heating furnace relative to the port so that the port is accommodated and released in the chamber of the heating furnace.

Here, the elevating drive unit, at least one screw shaft standing up on the main body, one end screwed to the screw shaft and the other end is supported by the heating furnace is a screw movement for converting the rotational movement of the screw shaft into a linear motion It may include a conversion unit, a drive motor for rotating the screw shaft, and a support rotatably supporting the screw shaft and standing on the main body.

By further including a base made of carbon steel for supporting the port, the bottom of the port can be heated by receiving heat generated from the heating furnace during the pot heating.

The heating furnace, and the chamber for receiving the port, one side of the heating furnace body and the opening; A heat resistant tube disposed along an inner circumferential surface of the chamber; And a plurality of silicon heaters accommodated in the furnace body to heat the rear surface of the heat resistant tube.

The plurality of silicon heaters are preferably brazed to the heat resistant tube.

Therefore, according to the solution of the said subject, the gold plating liquid filter is indirectly heated in a sealed space, the gold plating liquid filter can be stably burned, and gold can be recovered from the burnt filter.

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

1 to 3 show a filter combustion device for a gold plating solution according to the present invention.

The filter combustion device for a gold plating solution according to the present invention includes a main body 10, a port 20, a heating furnace 30, and a lift driver 40.

The main body 10 has a box shape in which the machine room 11 for receiving the drive motor 45 of the lifting drive unit 40 to be described later is formed. In addition, the lower portion of the main body 10 is provided with a moving wheel 13 that can move the main body 10.

A port 20 is installed on the upper surface of the main body 10, and a control box 15 for controlling the operation of the filter combustion device for a gold plating liquid according to the present invention is installed on the other side of the main body 10.

The port 20 is disposed on the upper surface of the main body 10 and has a hollow cylindrical shape with an upper side opened.

A filter accommodating part 21 for accommodating the filter 5 is formed inside the port 20, and an upper opening of the port 20 is an outlet opening through which the filter 5 draws in and out of the filter accommodating part 21. (23) To play a role. Here, the port 20 is preferably made of a stainless material excellent in corrosion resistance and heat resistance.

A base 25 made of carbon steel is provided between the port 20 and the upper surface of the main body 10, and the base 25 serves as a support for supporting the port 20 as well as a heating furnace for heating the port 20. The heat generated from 30 also serves to heat the bottom of the port 20.

The heating furnace 30 is disposed above the port 20, and heats the filter 5 housed in the port 20. The furnace 30 includes a furnace body 31, a heat resistant tube 35, and a plurality of silicon heaters 37.

The furnace body 31 has a tubular shape with a lower end opened to surround the port 20. The chamber 33 which accommodates the port 20 is formed in the inside of the furnace main body 31 so that the draw-out opening 23 of the port 20 may be concealed.

The heat resistant tube 35 is disposed along the inner circumferential surface of the chamber 33 and heated by the silicon heater 37 to heat the port 20 accommodated in the chamber 33. Here, the heat resistant tube 35 is preferably made of a stainless material excellent in corrosion resistance and heat resistance.

The plurality of silicon heaters 37 are accommodated in the furnace body 31 to heat the back surface of the heat resistant tube 35. Each silicon heater 37 is brazed to the heat resistant tube 35.

The elevating driving unit 40 lifts and lowers the heating furnace 30 with respect to the port 20 so that the port 20 is received and released in the chamber 33. Lifting drive unit 40, a screw motion conversion unit for connecting a pair of screw shaft 41, the screw shaft 41 and the heating furnace 30, and converts the rotational movement of the screw shaft 41 into linear motion (43), a drive motor (45) for rotating the screw shaft (41), and a support (47) rotatably supporting the screw shaft (41) and standing on the main body (10).

The pair of screw shafts 41 has a rod shape of a predetermined length, and is erected on the upper surface of the main body 10 at intervals from each other. Male screws of a predetermined standard are formed on the outer circumference of each screw shaft 41.

One end of the screw motion conversion unit 43 is screwed to the screw shaft 41, the other end is supported by the heating furnace 30 to convert the rotational motion of the screw shaft 41 into linear motion. A female screw corresponding to the male screw of the screw shaft 41 is formed on the inner circumference of the screw motion converting portion 43 screwed to the screw shaft 41.

The drive motor 45 is accommodated in the machine room 11 of the main body 10 and is connected to one end of the screw shaft 41 to transmit the rotational force of the drive motor 45 to the screw shaft 41.

The support 47 is erected on the upper surface of the main body 10, and rotatably supports the screw shaft 41.

Accordingly, when the drive shaft 45 is rotated in one direction and the screw shaft 41 is rotated in one direction, the rotational motion of the screw shaft 41 is converted into a linear motion by the screw motion converting portion 43, thereby causing the screw motion. The conversion unit 43 descends toward the main body 10 along the screw shaft 41, and thus the heating furnace 30 approaches the port 20.

On the contrary, when the drive shaft 45 is rotated in the other direction and the screw shaft 41 is rotated in the other direction, the rotational movement of the screw shaft 41 is converted into linear motion by the screw motion converting portion 43, and the screw The motion conversion unit 43 rises upward of the main body 10 along the screw shaft 41, and thus the heating furnace 30 is spaced apart from the port 20.

Here, reference numeral 39, which is not described, is a heat insulating portion that reduces the heat generated from the silicon heater 37 is transferred to the outside of the heating body 31, the heat insulating portion 39 is made of a heat insulating material.

By such a configuration, a process of recovering the gold remaining in the filter 5 in which the gold plating liquid is filtered using the filter combustion device for the gold plating liquid according to the present invention is as follows.

First, as shown in FIG. 4, in the state in which the port 20 is opened, the filter 5 which filters the gold plating solution through the outlet opening 23 of the port 20 is connected to the filter accommodating part (eg, the port 20). 21).

Next, the drive motor 45 is rotated in one direction so that the port 20 is accommodated in the chamber 33 of the heating furnace 30.

As the drive motor 45 rotates in one direction, the screw shaft 41 rotates in one direction, and by the screw motion converting portion 43, the rotational motion of the screw shaft 41 is converted into a linear motion, and the screw motion converting portion 43 descends toward the main body 10 along the screw shaft 41, and the heating furnace 30 approaches the port 20.

As the heating furnace 30 descends and the outlet opening 23 of the port 20 is concealed, as shown in FIG. 3, when the reception of the port 20 is completed in the chamber 33 of the heating furnace 30. Power is supplied to the plurality of silicon heaters 37 to heat the back surface of the heat resistant tube 35 for a predetermined time.

At this time, the heat generated from the heat-resistant tube 35 is transferred to the filter 5 accommodated in the port 20 to indirectly heat and burn the filter 5. In addition, heat generated from the heat-resistant tube 35 is transferred to the base 25 supporting the port 20, and the bottom surface of the port 20 is heated. The outlet opening 23 of the port 20 is concealed by the heating furnace 30 so that the ash generated during the combustion of the filter 5 does not scatter, and the gold plating solution filter 5 is stably combusted.

On the other hand, when the heating of the heating furnace 30 is completed, the drive motor 45 is rotated in the other direction so that the port 20 is released from the chamber 33 of the heating furnace 30.

As the drive motor 45 rotates in the other direction, the screw shaft 41 rotates in the other direction, and the rotational movement of the screw shaft 41 is converted into linear motion by the screw motion converting portion 43, thereby causing the screw motion. The conversion part 43 rises upward of the main body 10 along the screw shaft 41, and the heating furnace 30 is spaced apart from the port 20 as shown in FIG.

When the furnace 30 is separated from the port 20 and the outlet opening 23 of the port 20 is opened, the filter 5 burned in the filter accommodating portion 21 of the port 20, that is, the gold from the ashes Can be recovered.

On the other hand, in the above embodiment, it is described that the screw shaft of the elevating drive unit is provided in a pair, of course, the screw shaft may be composed of one or three or more.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the present invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

1 is a front view of a state in which a port of a filter combustion device for a gold plating solution according to the present invention is concealed;

2 is a side view of FIG. 1;

3 is an enlarged cross-sectional view of the main portion of the pot and the heating furnace,

4 is a front view of FIG. 1 showing a state in which the port is opened.

＊ Description of symbols for main parts of the drawings ＊

5: filter 10: body

20: port 21: filter housing

23: withdrawal entrance 25: base

30: heating furnace 31: heating furnace body

33: chamber 35: heat resistant tube

37: silicon heater 40: lifting drive unit

41: screw shaft 43: screw motion conversion unit

45: drive motor 47: support

Claims (5)

A main body; A port formed on the main body, the filter accommodating part accommodating the filter; A heating furnace which forms a chamber to receive the port and indirectly heats the port to burn the filter contained in the chamber; And a lifting and lowering driving part for elevating the heating furnace with respect to the port so that the port is accommodated and released in the chamber of the heating furnace. The method of claim 1, The lifting drive unit, At least one screw shaft standing up on the body, A screw motion conversion unit having one end screwed to the screw shaft and the other end supported by the heating furnace to convert the rotational movement of the screw shaft into a linear motion; A drive motor for rotating the screw shaft; And a support rotatably supporting the screw shaft and standing upright in the main body. The method of claim 1, The filter combustion device for a gold plating solution, characterized in that it further comprises a base made of carbon steel for supporting the port. The method of claim 1, The heating furnace, A heating furnace body configured to form a chamber for accommodating the port, and having one side opened; A heat resistant tube disposed along an inner circumferential surface of the chamber; And a plurality of silicon heaters accommodated in the heating body and heating the rear surface of the heat resistant tube. The method of claim 4, wherein And the plurality of silicon heaters are brazed to the heat resistant tube.

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