KR101099060B1 - Caterpillar type electrolysis apparatus - Google Patents

Abstract

PURPOSE: A caterpillar type electrolysis apparatus is provided to suppress the contamination of electrodes by washing unit electrodes in a driving state based on a chain electrode body. CONSTITUTION: A main frame(110) is installed in a treating bath. Main driving sprockets(131, 132) are installed at the main frame. A main driving part(140) rotates the main driving sprockets. Chain electrode bodies(151, 152) include a closed loop to be rotated by the main driving sprockets. A plurality of unit electrodes is arrayed at the chain electrode bodies. A part of the chain electrode bodies is dipped in a treating bath. A power supplying part(180) applies power through the chain electrode bodies. A washing part is installed to the main frame and washes the surface of the unit electrodes.

Description

Caterpillar type electrolysis apparatus

The present invention relates to an electrolysis device, and more particularly, to a caterpillar-type electrolysis device in which unit electrodes arranged in a closed orbit can perform electrolysis while circulating in and out of the water surface.

Currently, electrolysis apparatuses are used for various purposes, and recent attempts have been made to use them for water treatment such as wastewater, and these technologies have been variously disclosed, such as Korean Patent Publication No. 2005-0028127.

Although wastewater treatment using electrolysis has many advantages, such as reduced use of chemicals, simplification of operating technology of wastewater treatment facilities, and narrow installation area, there are many problems in practical use.

That is, the resistance increases due to contamination of the electrode plate during continuous operation, thereby preventing a smooth flow of current, thereby reducing wastewater treatment efficiency, and it is difficult to guarantee reliability during continuous operation. In particular, when the electrode plate needs to be frequently replaced due to contamination of the electrode plate, it may cause a management burden due to the replacement of the electrode plate and a decrease in treatment efficiency due to temporary suspension of the wastewater treatment facility.

In addition, when the current is not smoothly supplied to the electrode plate may cause a failure to other devices, including the electrical supply device.

It is an object of the present invention to provide a caterpillar type electrolysis device capable of continuously operating by suppressing contamination of an electrode according to elapsed use.

Still another object of the present invention is to provide a caterpillar electrolysis device capable of cleaning an electrode in a driving state.

In order to achieve the above object, the caterpillar electrolysis device according to the present invention comprises: a main frame installed to be mounted on a treatment tank containing treated water; A main drive sprocket installed on the main frame; A main driver for rotationally driving the main drive screw; The chain electrode is formed to have a closed loop to be rotated by the main drive sprocket, and extends downward to be rotated while being partially immersed in the treatment water in the treatment tank. Sieve; And a power applying unit for applying a potential through the chain electrode body.

Preferably, the cleaning unit having a brush installed on the main frame to wash the surface of the unit electrode of the chain electrode body;

The apparatus may further include an auxiliary frame extending downward from the main frame, and a driven sprocket installed on the auxiliary frame and rotating in conjunction with the rotation of the chain electrode body.

More preferably, the auxiliary frame is further provided with a tension adjusting unit provided between the main frame and the auxiliary frame to adjust the tension in a direction away from the main frame.

The main sprocket is formed of a conductive material, and the power applying unit is connected to supply power through the drive shaft of the main sprocket.

Preferably the main frame is an under plate which is installed to be seated in the treatment tank; A base plate installed on the under plate so as to be elevated relative to the under plate; A main plate installed to be movable in a horizontal direction with respect to the base plate and provided with the main drive sprocket and the main drive unit, the under plate and the base to raise and lower the base plate with respect to the under plate; A lifting unit provided between the plates; And a horizontal moving part provided between the base plate and the main plate to advance and retract the main plate with respect to the base plate.

According to the caterpillar type electrolysis device according to the present invention, the unit electrode can be washed in a driving state while electrolysis is performed by the chain electrode body circulating in and out of the treated water, thereby suppressing contamination of the electrode according to the use process. It can prevent the degradation of electrolysis efficiency and provide the advantage of continuous operation.

1 is a view showing a caterpillar electrolysis device according to the present invention,
2 is a side view showing in detail the chain electrode body of FIG.
3 is a cross-sectional view showing the chain electrode body of FIG. 2 from another angle;
Figure 4 is a view showing a caterpillar electrolysis device according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in more detail caterpillar electrolysis device according to an embodiment of the present invention.

1 is a view showing a caterpillar electrolysis device according to the present invention, Figure 2 is a side view showing in detail the chain electrode body of Figure 1, Figure 3 shows the chain electrode body of Figure 2 from another angle It is a cross section.

1 to 3, the caterpillar electrolysis device 100 according to the present invention includes a main frame 110, an auxiliary frame 120, first and second main drive sprockets 131 and 132, and a main body. The driving unit 140, the first and second chain electrode bodies 151 and 152, the power applying unit 180, and the cleaning unit 190 are provided.

The main frame 110 is installed to be mounted on the upper surface of the treatment tank 101 to be spaced apart from the treatment water in the treatment tank 101 containing the treatment water and the upper portion is open.

Here, the main frame 110 may be coupled to the upper surface of the treatment tank 101, of course.

The main frame 110 is formed in a structure in which a central portion is opened to provide a circulation space through which the first and second chain electrode bodies 151 and 152 to be described later can be circulated in the vertical direction.

The first main drive sprocket 131 is integrally coupled to the drive shaft 135 rotatably extended horizontally to the support housing 133 installed on the main frame 110.

The first main drive sprocket 131 and the drive shaft 135 are formed of a conductive material, and the support housing 133 supporting the drive shaft 135 is formed to be insulated from the drive shaft 131.

The second main drive sprocket 132 is spaced apart from the first main drive sprocket 131 but rotatably supported by the main frame 110 in the same structure as the first main drive sprocket 131.

That is, the second main drive sprocket 132 is integrally coupled to the drive shaft 136 which is rotatably extended horizontally to the support housing 134 installed on the main frame 110.

The main driver 140 is capable of rotationally driving the first and second main drive sprockets 131 and 132.

The main driver 140 includes a first main driver 141 for driving the first main drive sprocket 131 and a second main driver 142 for driving the second main drive sprocket 132.

The first main drive unit 141 is a power transmission member 145 which transmits rotational force through the motor 141a and the relay sprocket 137 coupled to the driving shaft 135 so as to be insulated from the rotational force of the motor 141a. . Here, the power transmission member 145 may be a belt or a chain is applied.

The second main driver 142 also has the same structure as the first main driver 141.

That is, the second main driver 142 is a power transmission member 146 that transmits rotational force through the motor 142a and the relay sprocket 138 coupled to the drive shaft 136 to insulate the rotational force of the motor 142a. It is. Here, the power transmission member 146 may be applied to the belt or chain.

Meanwhile, unlike the illustrated example, the main driver 140 may be constructed to transmit power to the first main drive sprocket 131 and the second main drive sprocket 132 through one motor.

The auxiliary frame 120 extends downwardly from the main frame 110 through the tension adjusting unit 170 to rotatably support the driven sprockets 148 and 149 which will be described later.

The auxiliary frame 120 has a structure having a vertical portion 121 spaced apart from each other from the main frame 110 extending downward, and a horizontal portion 123 interconnecting the vertical portions at the bottom of the vertical portion 121. have. Reference numeral 124 is a reinforcing rod interconnecting the vertical portion 121 for reinforcing support strength.

The driven sprockets 148 and 149 are interlocked by rotation of the first and second chain electrode bodies 151 and 152 coupled to the first main drive sprocket 131 and the second main drive sprocket 132, respectively. It is rotatably mounted to the auxiliary frame 120 to be rotated.

The tension adjusting unit 170 is installed between the main frame 110 and the auxiliary frame 120 to adjust the tension in the direction away from the auxiliary frame 120 to the main frame 110.

The tension adjusting unit 170 is mounted to extend downwardly around the through hole 114 formed so that the vertical end portion of the vertical portion penetrates the main frame 110 so that the vertical portion 121 has an internal guide hole ( 173 and the restraint pipe member 172 restrained to be slidable in the vertical direction, and the interference part 127 extending from the vertical part 121 end to be narrower than the vertical part 121 and upward from the main frame. The spring 176 is provided between the restraining plate 174 mounted to be spaced apart from each other so as to elastically bias the vertical portion 121 downward.

Reference numeral 178 is a support bolt for supporting the restraining plate 174 spaced upwardly with respect to the main frame 110, and reference numeral 179 allows adjustment of the separation distance with respect to the main frame 110 of the restraining plate 174. The nut is coupled to the top and bottom of the support bolt 178.

The first and second chain electrode bodies 151 and 152 have the same structure in the form of a caterpillar, and the closed loop is rotatably driven by the corresponding first and second main drive sprockets 131 and 132. It is formed to have, but extends downward to be rotated while part of the treatment water in the treatment tank (101).

The first and second chain electrode bodies 151 and 152 are respectively coupled to the chain pieces 156 connected to the closed loops so that the unit electrodes 154 made of a conductive material are connected by mutual hinges 156a to bend. It is.

The unit electrode 154 is preferably coupled to the chain piece 154 through a coupling member such as a conductive bolt to attach and detach easily.

Here, the chain piece 156 may be formed of a conductive material so as to be electrically conductive with the unit electrode 154.

Unlike this, the chain piece 156 is formed of a non-conductive material, and the gear teeth of the first and second main drive sprockets 131 and 132 are formed to be in contact with the unit electrode 154 or the unit electrode ( 154 is connected to each other by a flexible conductive jumper wire, and is described later to the unit electrode 154 exposed to the outside without applying a potential through the drive shafts of the first and second driving rackets 131 and 132. Of course, it can be constructed to apply the potential by contact in the same manner as the cleaning unit 190.

The power applying unit 180 applies a potential through the chain electrode bodies 151 and 152.

In the illustrated example, the positive electrode terminal 181 of the power supply unit 180 supplying the DC power is connected to the ring terminal 188 connected in a ring shape to the drive shaft 135 of the first main drive sprocket 131 to rotate. Power supply is possible even in the state. The negative electrode terminal 182 is connected to a ring terminal 189 connected in a ring shape to the drive shaft 136 so that power can be supplied to the drive shaft 136 of the second main drive sprocket 132 even in a rotating state.

Alternatively, the power supply unit 180 may be connected to the AC power is applied according to the purpose of course.

The cleaning unit 190 may clean the surfaces of the unit electrodes 154 of the first and second chain electrode bodies 151 and 9152 that are installed and rotated on the main frame 110 by a brush 1910. .

The cleaning unit 190 includes a brush body 191 having a cleaning brush mounted on a surface thereof, and a sub motor 195 for rotating the brush body 191 through a power transmission member.

Here, the brush mounted on the brush body 191 is formed of an insulating material and can be applied in various forms such as a brush type in which a plurality of pins are arrayed.

In the electrolysis apparatus 100, when the first and second chain electrode bodies 151 and 152 are rotated in a vertical direction, a predetermined number of unit electrodes 154 are always submerged in the treatment tank 101. Electrolysis is performed because the state is maintained, and the unit electrodes 154 that are lifted from the surface of the treated water are removed by the cleaning unit 190, so that contamination of the unit electrodes 154 is prevented in real time during operation. The decomposition efficiency can be kept stable.

Meanwhile, the depth of entry of the first and second chain electrode bodies 151 and 152 and the first and second chain electrode bodies to the surface of the treated water of the treatment tank so as to adjust the electrical resolution of the electrolysis apparatus 100 ( It can be constructed to adjust the separation distance between 151 and 152, an example of which is shown in FIG.

Referring to FIG. 4, the main frame includes an under plate 210, a base plate 220, and two main plates 110a and 110b.

The under plate 210 is installed to be seated in the treatment tank 101 and its shape may be appropriately formed according to the treatment tank 101 to be applied.

The base plate 220 is provided on the under plate 210 to be able to be lifted upward and downward relative to the under plate 210 by the lifting cylinder 230 to be described later.

The two main plates 110a and 110b separated from each other are installed to be movable in the horizontal direction with respect to the base plate 220, respectively. One main drive unit 141 is provided, and a second main drive sprocket 132 and a second main drive unit 142 are provided in the main plate 110b on the right side.

The elevating cylinder 230 as the elevating unit is provided between the under plate 210 and the base plate 220 so as to elevate the base plate 220 with respect to the under plate 210, and an operation unit (not shown). It can be applied that the rod can be raised and lowered by the operation of.

The moving cylinder 240 applied as a horizontal moving part is provided between the base plate 220 and each main plate 110a and 110b so as to advance and retract the main plates 110a and 110b in the horizontal direction with respect to the base plate 220. Installed in

Moving cylinder 240 may also be applied that the rod can be raised and lowered by the operation of the operation unit (not shown).

Unlike the illustrated example, only one moving cylinder 240 is applied and one of the two main plates 110a and 110b is fixed to the base plate 220 so that only one movable main plate is moved to move the first and second ones. Of course, it can be constructed to adjust the gap between the chain electrode body (151, 152).

110: main frame 120: auxiliary frame
131: first main drive sprocket 132: second main drive sprocket
140: main driver 151: first chain electrode body
152: second chain electrode body 180: power supply unit

Claims (6)

delete In the electrolysis device,
A main frame installed to be mounted on the treatment tank containing the treated water;
A main drive sprocket installed on the main frame;
A main driver for rotationally driving the main drive screw;
The chain electrode is formed to have a closed loop to be rotated by the main drive sprocket, and extends downward to be rotated while being partially immersed in the treated water in the treatment tank. The chain electrode has a plurality of unit electrodes made of conductive material. Sieve;
A power supply unit for applying a potential through the chain electrode body;
And a washing unit installed on the main frame and having a brush for washing the surface of the unit electrode of the chain electrode body. According to claim 2, An auxiliary frame extending downward from the main frame,
And a driven sprocket installed on the auxiliary frame and rotating in conjunction with the rotation of the chain electrode body. The electrolytic apparatus according to claim 3, further comprising a tension adjusting unit disposed between the main frame and the auxiliary frame so that the auxiliary frame can adjust the tension in a direction away from the main frame. The method of claim 4, wherein the main sprocket is formed of a conductive material,
And the power applying unit is connected to supply power through a drive shaft of the main sprocket. The method of claim 5,
The main frame
An under plate installed to be seated in the treatment tank;
A base plate installed on the under plate so as to be elevated relative to the under plate;
A main plate installed to be movable in a horizontal direction with respect to the base plate and provided with the main drive sprocket and the main drive unit;
A lifting part provided between the under plate and the base plate to raise and lower the base plate with respect to the under plate;
And a horizontal moving part provided between the base plate and the main plate to advance and retract the main plate with respect to the base plate.

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