KR101888951B1 - Appratus for measuring weight of electrodeposited metal and methodfor using the same - Google Patents

Abstract

The present invention relates to an apparatus to measure the weight of electrodeposited metal and a method using the same. According to the present invention, the apparatus to measure the weight of electrodeposited metal comprises: a transfer device to withdraw and transfer a negative electrode plate having metal electrodeposited thereon from an electrolysis tub storing an electrolyte; a weight measurement means to measure the weight of the metal electrodeposited on the negative electrode plate held on the transfer device; a magnetic field measurement means to measure a surrounding magnetic field; a transmission means to transmit weight data measured by the weight measurement means; a reception device to receive the weight data transmitted from the transmission means; and a control unit to control the weight measurement means, the magnetic field measurement means, the transmission means. The transmission means transmit the weight data to the reception device wirelessly when the magnetic field measured by the magnetic field measurement means is equal to or less than a preset reference value. As such configuration, the weight of electrodeposited metal is measured during a process withdrawing the negative electrode plate from the electrolysis tub and transferring to a peeling device, and the measured weight data is wirelessly transmitted to a separate device (reception device) placed in a remote plate, thereby providing an effect of previously checking a state that the metal is electrodeposited on the negative electrode plate.

Description

TECHNICAL FIELD [0001] The present invention relates to an electrodeposited metal weighing apparatus and a method of measuring electrodeposited metal using the same,

The present invention relates to an apparatus for measuring the weight of a metal electrodeposited on a cathode plate and transmitting the measured weight data. More particularly, the present invention relates to an apparatus for measuring the weight of electrodeposited metal when an anode plate is taken out from an electrolytic cell, The present invention relates to an electrodeposited metal gravimetric measuring apparatus and a method of measuring electrodeposited metal using the same.

Generally, electrolysis refers to electrolysis refers to a phenomenon in which an ion present in a liquid through an electric current through an electrolytic solution causes a chemical reaction such as generation of a gas while moving to a negative electrode or electrodeposition of a metal Using this phenomenon, electrolytic smelting is performed to extract and refine a metal having a particularly high purity.

This electrolytic smelting is accomplished by immersing a large number of large electrode plates in an electrolytic cell containing electrolytic solution and then electrolyzing. In other words, a plurality of electrode plates disposed in the electrolytic cell are interlinked with the cathode and the anode, so that they are energized to move to an anode plate in which Zn2 + or Cu2 + ions are ionized in the electrolyte, Zinc, copper, or the like is electrodeposited. In the positive electrode plate adjacent to the negative electrode plate, positive ions are generated and oxygen is generated.

Through this process, when a certain amount of metal ions existing in the electrolytic solution is electrodeposited to the negative electrode plate, the negative electrode plate is transferred through a conveying means such as a crane to peel off the electrodeposited metal.

Document 1: Registered Patent Publication No. 10-1718783 (published on Mar. 23, 2013) Document 2: Published Japanese Patent Application No. 2001-0073546 (published on August 1, 2001) Document 3: Registration Patent Publication No. 10-1455326 (published Oct. 27, 2014) Document 4: Registration Patent Publication No. 10-0391962 (published Nov. 20, 2003) Document 5: Patent Publication No. 1995-0009447 (published on Aug. 22, 1995)

However, when the negative electrode plate is taken out from the electrolytic cell, it is necessary to determine whether the negative electrode plate is well electrodeposited with the metal. In order to understand the electrodeposition state, the amount of metal electrodeposited on the negative electrode plate should be measured.

The measured amount of electrodeposited metal is stored in a separate apparatus (receiving apparatus) to process the data. However, a wire (wire) is used to transmit data to the receiving device, but there is a problem that a wire for transmitting data at a long distance becomes complicated.

In order to solve such a problem, the following problems arise when wireless transmission is performed. That is, a magnetic field is generated around the electrolytic cell due to electricity applied thereto. However, there is a problem that data can not be transmitted wirelessly due to the generated magnetic field.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for removing metal from an electrolytic cell, And the measured weight data is transmitted wirelessly to a separate device (receiving device) located at a remote location, and the state of the metal deposited on the negative electrode plate can be grasped in advance, and a method for measuring the electrodeposited metal using the same .

According to an aspect of the present invention, there is provided an electrodeposited metal weighing apparatus comprising: a transfer device for drawing and transferring a negative electrode plate on which a metal is deposited in an electrolytic bath containing an electrolytic solution; A weight measuring means for measuring a weight of the metal electrodeposited on the negative plate which is placed on the conveying device; A magnetic field measuring means for measuring a magnetic field in the vicinity; Transmitting means for transmitting the weight data measured by the weight measuring means; A receiving device for receiving weight data transmitted by the transmitting means; And a control unit for controlling the weight measuring means, the magnetic field measuring means and the transmitting means, and the transmitting means transmits the radio signal to the receiving apparatus only when the magnetic field measured by the magnetic field measuring means is equal to or less than a preset reference value .

In addition, a temporary storage medium for storing the weight measured by the weight measuring means is further provided, and the temporary storage medium is controlled by the control unit.

The weight measuring means, the temporary storage medium, the magnetic field measuring means, and the transmitting means are mounted on the conveying device.

According to another aspect of the present invention, there is provided an electrolytic cell comprising: an electrolytic cell containing an electrolytic solution and immersed in a negative electrode plate; a transfer device for withdrawing and transporting the negative electrode plate to which the electrodeposited metal is electrodeposited from the electrolytic bath; A transmission means for transmitting the weight data stored by the temporary storage medium; a transmission means for transmitting the weight data stored by the transmission means; A receiving device for receiving weight data, a magnetic field measuring means for measuring a magnetic field in the periphery, a receiving device for receiving weight data transmitted by said transmitting means, and a receiving device for receiving said weight data, said temporary storage medium and said magnetic field measuring means And a control unit for controlling the transfer means, The method comprising: a withdrawal confirmation step of confirming withdrawal of the negative electrode plate from the electrolytic bath by the transfer device; A weight measuring step of measuring the weight of the electrodeposited metal deposited on the negative electrode plate by the weight measuring unit when the drawing of the negative electrode plate is confirmed in the drawing out step; A magnetic field checking step of measuring a surrounding magnetic field by the magnetic field measuring unit and checking whether the intensity of the measured magnetic field is equal to or less than a preset reference value; And a transmitting step of wirelessly transmitting the weight data measured by the receiving device by the transmitting device when the strength of the magnetic field measured in the magnetic field checking step is less than a reference value.

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According to the constitution and the method of the present invention, the weight of the electrodeposited metal is measured in the process of withdrawing the negative electrode plate from the electrolytic cell and transferred to the peeling apparatus, and the measured weight data is transmitted to a separate device Receiving device), and the state that the metal is electrodeposited to the negative electrode plate can be grasped in advance.

1 is a schematic view of an electrodeposited metal weighing apparatus according to an embodiment of the present invention.
Fig. 2 is a configuration diagram of the electrodeposited metal weighing apparatus shown in Fig. 1. Fig.
3 is a flow chart of a method for measuring a weight using the electrodeposited metal weighing apparatus shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used for like parts throughout the drawings.

FIG. 1 is a schematic view of an electrodeposited metal weighing apparatus according to an embodiment of the present invention, and FIG. 2 is a configuration diagram of an electrodeposited metal weighing apparatus.

As shown in the drawing, an electrodeposited metal weighing apparatus includes a conveying device 10, a weight measuring device 20, a magnetic field measuring device 30, a transferring device 40, a temporary storage medium 50, a receiving device 200 And a control unit 100, and the like.

The conveying device 10 is a device for taking out the negative electrode plate 3 from the electrolytic bath 3 and transferring the electrodeposited metal plate to a peeling device (not shown) for peeling off. Usually, a crane or the like is used.

The weight measuring means 20 is a measuring device for measuring the weight of the electrodeposited metal deposited on the negative electrode plate 5 by using a load cell or the like.

(+) Electricity is supplied to the plurality of electrolytic cells, and metal is electrodeposited to the negative electrode plate 5, and a magnetic field is generated around the electrolytic cell 3 by electricity supplied in this manner. If electrolysis is not performed in the electrolytic bath 3, the supply of electricity is stopped. If the supply of electricity is interrupted, the generation of the magnetic field is also stopped.

Therefore, the transfer device 10 is equipped with the magnetic field measuring device 30 for measuring the surrounding magnetic field.

The transmitting means 40 is mounted on the conveying device 10 and transmits the weight data measured by the weight measuring means 40 to the receiving device 200 wirelessly. The transmitting means 40 is wirelessly transmitted to the receiving apparatus 200 only when the magnetic field measured by the magnetic field measuring means 30 is equal to or less than a preset reference value.

2, the control unit 100 controls the weight measuring unit 20, the magnetic field measuring unit 30, and the transmitting unit 40. As shown in FIG.

The temporary storage medium 50 is a medium for temporarily storing the weight data measured by the weight measuring means 20 and is controlled by the control unit 100.

A method of measuring the electrodeposited metal weight using the electrodeposited metal weighing apparatus constructed as above will be described with reference to FIG.

As shown in the figure, when the electrolytic decomposition is performed in the electrolytic bath 3, a draw-out confirmation step (S10) is performed to confirm whether the cathode plate 5 is taken out from the electrolytic bath 3 by the transfer device 10 .

The control unit 100 determines the weight of the electrodeposited metal deposited on the negative electrode plate 5 by the weight measuring means 20 when the negative electrode plate 5 is pulled out in the lead-out confirmation step S10 The measurement step S20 proceeds, and if the withdrawal is not made, the process returns to the withdrawal confirmation step S10.

Then, the magnetic field measuring means 30 measures the surrounding magnetic field, and a magnetic field checking step S30 is performed to check whether the measured magnetic field strength is equal to or less than a preset reference value. The reference value of the magnetic field can be input by the user.

Thereafter, if the intensity of the magnetic field measured in the magnetic field checking step S30 is less than the reference value, the transmitting step S40 of wirelessly transmitting the weight data measured by the receiving device 200 by the transmitting device 40 If it is determined that the intensity of the magnetic field exceeds the preset reference value, a temporary storage step (S50) for temporarily storing the measured weight data in the temporary storage medium (50) is performed. After the temporary storage step S50, the magnetic field is checked in step S30, and if the magnetic field is less than the preset reference value, the process proceeds to the transmitting step S40.

The present invention is not limited to the above-described embodiment, but may be applied to the electro-deposited metal weighing apparatus according to the present invention, It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

3: electrolytic cell, 5: negative electrode plate,
10: transfer device, 20; Weight measuring means,
30: magnetic field measurement device, 40: transfer means,
50: temporary storage medium, 100: control unit,
200: receiving apparatus, S10: withdrawal confirmation step,
S20: Weighing step, S30: Magnetic field checking step,
S40: Transfer step, S50: Temporary storage step

Claims (5)

A transfer device for withdrawing and transferring a negative electrode plate on which a metal is deposited in an electrolytic bath containing an electrolytic solution; Weight measuring means for measuring the weight of the metal electrodeposited on the negative electrode plate which is placed on the conveying device; Magnetic field measurement means for measuring a magnetic field around the magnetic field; Transmitting means for transmitting the weight data measured by the weight measuring means; A receiving device for receiving weight data transmitted by the transmitting means; And a control unit for controlling the weight measuring means, the magnetic field measuring means and the transmitting means, and the transmitting means transmits the radio signal to the receiving apparatus only when the magnetic field measured by the magnetic field measuring means is equal to or less than a preset reference value And the weight of the electrodeposited metal is measured. The apparatus of claim 1, further comprising a temporary storage medium for storing the weight measured by the weight measuring means, wherein the temporary storage medium is controlled by the controller. The electrodeposited metal weighing apparatus according to claim 2, wherein the weight measuring means, the temporary storage medium, the magnetic field measuring means, and the transmitting means are mounted on the conveying device. A transfer device for withdrawing the negative electrode plate from which the electrodeposited metal is deposited and transferring the negative electrode plate from the electrolytic cell, and a weight measuring means for measuring the weight of the metal electrodeposited on the negative electrode plate A temporary storage medium for storing the weight measured by the weight measuring means; a transmitting unit for transmitting the weight data stored by the temporary storage medium; a receiving unit for receiving the weight data transmitted by the transmitting unit; , A magnetic field measuring means for measuring a magnetic field around it, a receiving device for receiving the weight data transmitted by the transmitting means, and a control means for controlling the weight measuring means, the temporary storage medium, the magnetic field measuring means and the transmitting means A method for measuring the weight of electrodeposited metal using an electrodeposited metal weighing apparatus comprising ,
A withdrawal confirmation step of confirming withdrawal of the negative electrode plate from the electrolytic cell by the transfer device;
A weight measuring step of measuring the weight of the electrodeposited metal deposited on the negative electrode plate by the weight measuring unit when the drawing of the negative electrode plate is confirmed in the drawing out step;
A magnetic field checking step of measuring a surrounding magnetic field by the magnetic field measuring unit and checking whether the intensity of the measured magnetic field is equal to or less than a preset reference value; And
And a transmitting step of wirelessly transmitting the weight data measured by the receiving device by the transmitting device when the intensity of the magnetic field measured in the magnetic field checking step is lower than a reference value.

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