KR20060035954A - Water removing equipment with dual tanks structure - Google Patents

Abstract

The present invention relates to a residual water treatment apparatus of a double tank structure, the object of which is to perform a continuous suction and discharge in order to quickly process the residual water in the block before performing the welding, painting and assembly process of a large block of the ship, etc. In addition, the present invention provides a residual water treatment apparatus having a double tank structure that is easy to move in a large place.

The present invention relates to a residual water treatment apparatus including a dust collecting tank, a cyclone for separating mist, dust, and the like toward the dust collecting tank, a blower providing suction force, and a driving engine for driving the blower;

Double vacuum tank consisting of an upper vacuum tank mounted on the trolley and the lower vacuum tank in which the residual water flows first, and the lower vacuum tank connected to the upper vacuum tank and the tank connecting pipe to store the residual water in the second place and discharging the residual water through the discharge pipe on one side. Wow; Upper and lower tank level sensors for measuring the level of the upper and lower vacuum tanks; A control valve controller for receiving the measured values of the upper and lower tank level sensors; An upper tank discharge valve and a lower tank discharge valve installed on the tank connection pipe and the discharge pipe and opened and closed by an output signal of the control valve controller; The technical gist of the double-tank structure, which constitutes a three-way valve operating by the output signal of the control valve controller to control the pressure difference between the inside of the upper and lower vacuum tanks and the atmosphere, is a technical gist thereof. .

Residual water treatment device, double vacuum tank, control valve controller, water level sensor, 3-way valve

Description

Water removing equipment with dual tanks structure             

1 is a schematic diagram of treating residual water in a general ship block

2 is a block diagram of a conventional residual water treatment apparatus

3 is a block diagram of a residual water treatment apparatus according to the present invention

<Description of Symbols for Main Parts of Drawings>

(10): block (20): balance

(50): suction hose (110): blower

120: driving engine 130: cyclone

150: Silencer 210: Balance

(220): dust collecting tank (221): mist eliminator

230: upper vacuum tank (231): tank connector

(235): upper tank discharge valve (240): lower vacuum tank

(241): discharge pipe (245): lower tank discharge valve                 

250: double vacuum tank 260: 3-way valve

(270): Upper tank level sensor (275): Lower tank level sensor

(300): Control valve controller

The present invention relates to a residual water treatment apparatus of a double tank structure, and more particularly, to a double tank structure for removing residual water and foreign matter in a block to perform welding or painting work of a block divided into several parts during the construction of a large vessel. Residual water treatment apparatus of the present invention.

Normally, when building a large ship in a factory of heavy industry or especially a shipyard, it is necessary to make a block indoors and then leave it in an outdoor workshop for carrying out preliminary design work or other work. In this case, water, dust, dust, etc. may accumulate in the block due to rain, and thus, a separate residue treatment apparatus is required to remove the residue and foreign substances as described above.

As described above, a process of properly removing and processing residual water due to dust, dust, and rain accumulated on a floor such as a block by providing a separate treatment device is called recovery.                         

As shown in FIG. 1, in general, when performing a recovery using a diaphragm pump 30 or the like driven through compressed air, a small suction capacity of the diaphragm pump 30 and a complete residual water 20 in the block are shown. ), The worker who used the residual moisture (20 ') sponge or mop, which was left inadequate, had to separately wipe the bottom surface of the block.

In addition, Figure 2 shows an example of a conventional wet vacuum recovery apparatus, a residual water separation tank 140, a blower 110 for sucking the residual water into the residual water separation tank 140, and the blower 110 A driving engine 120 having a motor for driving the engine, a cyclone 130 for separating foreign matters such as residual water and air sucked by the vacuum pressure generated by the blower 110, the cyclone 130 and the residual water Connection pipes and valves such as a suction lake 50 and a residual water discharge valve 140 connected to the separation tank 140 are provided.

In addition, a separate silencer 150 is provided to reduce the noise generated when the residual water is sucked into the residual water separation tank 140.

In order to discharge the recovered residual water from the residual water separation tank 140, the wet vacuum recovery device having the above configuration temporarily stops the blower 110, which is a power source for generating a vacuum suction input, and then discharges the dust in the residual water separation tank 140. Since the residual water discharge valve 141 must be discharged after removing the pneumatic pressure, there is a problem in that continuous recovery in which discharge occurs at the same time as suction is not possible.

In addition, even if a separate pump for forced discharge is installed on the residual water discharge pipe, the vacuum pressure (-450 mmHg) in the residual water separation tank 140 is very high, thereby preventing a smooth discharge of the residual water.

In addition, as the capacity of the residual water separation tank 140 needs to be increased in order to increase the suction amount of the residual water, a problem arises in that the weight of the recovery device is increased as a whole. Accordingly, in the case of a motor driven by the mobility of the equipment and electricity, The problem of location constraints has arisen.

In addition, the rear end of the residual water separation tank 140 of the recovery device of the configuration as described above should be provided with a separate device for removing the water droplet (mist) of a small size, the mist (mist) during a long time operation blower (110) Inflow to the side was a problem that causes the failure of the blower (110).

The present invention is devised to solve the conventional problems as described above, the object of which is the continuous suction and in order to quickly process the residual water in the block prior to performing the welding, painting and assembly process of the large block of the ship, etc. The present invention provides a residual water treatment apparatus having a double tank structure which is easy to carry out discharge and is mobile in a large place at the same time.

The present invention to achieve the object as described above and to perform the problem for removing the conventional defects, a cyclone for separating the mist, dust, and the like to the dust collection tank, a blower for providing a suction force, and the blower A residual water treatment apparatus having a driving engine for driving;

Double vacuum tank consisting of an upper vacuum tank mounted on the trolley, the upper vacuum tank into which the residual water flows first, and the lower vacuum tank connected to the upper vacuum tank and the tank connecting pipe to store the residual water in the second place and discharging the residual water through the discharge pipe on one side. Wow; Upper and lower tank level sensors for measuring the level of the upper and lower vacuum tanks; A control valve controller for receiving the measured values of the upper and lower tank level sensors; An upper tank discharge valve and a lower tank discharge valve installed on the tank connection pipe and the discharge pipe and opened and closed by an output signal of the control valve controller; It operates by the output signal of the said control valve controller, it communicates with the inside and outside of an upper and lower vacuum tank, and comprises the three-way valve which controls the pressure difference in an upper and lower vacuum tank.

The dust collecting tank may include a mist eliminator having a trapping network structure on a path of air and fine mist to collect mist flowing into the blower side.

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

3 is a block diagram showing the flow according to the operation and the residual water treatment apparatus having a double tank structure according to the present invention,

The present invention is constructed by mounting a residual water treatment device on the base of the truck 210 to continuously perform the suction and simultaneous discharge of the residual water through a double vacuum tank structure.

The residual water treatment apparatus includes a double vacuum tank (250) configured on the base of the trolley (210), a blower (110) for generating suction vacuum pressure, a drive engine (120) for driving the blower (110); And a cyclone 130 for separating foreign matters such as residual water and dust sucked through centrifugal force, a dust collecting tank 220 installed between the cyclone 130 and the blower 110, and an exhaust side of the blower 110. Consists of a silencer 150 configured to be connected to.

That is, by introducing the residual water and mist (mist), air, dust, etc. introduced into the suction hose 50 provided on the inlet side of the cyclone 130, the residual water falls to the double vacuum tank 250 side connected downwards , The air and a small amount of mist is discharged to the atmosphere passing through the dust collecting tank 220 by the vacuum pressure by the blower 110, passing through the silencer 150 installed at the outlet of the blower 110.

In addition, the dust collecting tank 220 is installed on the connection pipe leading to the cyclone 130 and the blower 110, to prevent the fine mist (mist) separated by the cyclone 130 to flow into the blower 110 side. For this purpose, a mist eliminator 221 is provided in which a chevron-shaped trapping network having a zigzag shape is installed on a path through which air and fine mist are moved.

In addition, the double vacuum tank 250 into which the residual water falls by the cyclone 130 is composed of an upper vacuum tank 230 and a lower vacuum tank 240, the upper and lower vacuum tanks (230, 240) are tanks It is connected by the connecting pipe 231.                     

In addition, a discharge pipe 241 is installed at one lower side of the lower vacuum tank 240.

In addition, the upper and lower vacuum tanks 230 and 240 are provided with upper and lower tank level sensors 270 and 275 for detecting the level of the remaining water, respectively.

At this time, the water level sensor 275 installed in the lower vacuum tank 240 is able to detect the water level corresponding to the maximum and minimum of the stored water level.

In addition, the upper and lower sides of the upper and lower vacuum tanks 230 and 240 open and communicate with the inside by the three-way valve 260 to remove the vacuum pressure in the tank when the remaining water is discharged.

In addition, an upper tank discharge valve 235 is installed on the tank connection pipe 231 of the upper and lower vacuum tanks 230 and 240, and a lower tank discharge valve on the discharge pipe 241 of the lower vacuum tank 240. 245 is installed.

In addition, the control valve controller 300 for controlling the opening and closing time of the three-way valve 260 and the upper and lower tank discharge valves (235,245) from the measured values of the water level sensors (270, 275) installed in the upper and lower vacuum tanks (230, 240) ) Is configured for installation.

On the other hand, instead of the truck 210 on which the residual water treatment apparatus according to the present invention is mounted, the residual water treatment apparatus of the present invention can be mounted in a small truck or forklift to improve mobility to a place desired by an operator.

In the present invention by the above configuration, the residual water introduced into the suction hose 50 is separated by the centrifugal force in the cyclone 130 is collected in the lower vacuum tank 240 through the upper vacuum tank 230 located below.

As the level sensor 275 detects that the water level of the lower vacuum tank 240 reaches a predetermined position, the upper tank discharge valve 235 is closed by the output signal of the control valve controller 300, The separated residual water flowing in is collected in the upper vacuum tank 230.

The upper tank discharge valve 235 is closed and the lower tank discharge valve 245 is opened by the output signal of the control valve controller 300 to discharge the residual water collected in the lower vacuum tank 240 to the outside.

At this time, by changing the direction of the three-way valve 260 communicated with the upper portion of the lower vacuum tank 240 by the output signal of the control valve controller 300 to be opened to the outside atmosphere and the inside of the lower vacuum tank 240 After removing the pressure difference with the wye, it promotes the discharge of residual water.

Then, when the water level sensor 275 detects that the residual water in the lower vacuum tank 240 is completely discharged, the lower tank discharge valve 245 is closed by the output signal of the control valve controller 300, the The upper tank discharge valve 235 is opened again, and the residual water collected in the upper vacuum tank 230 is moved back into the lower vacuum tank 240.

At this time, by changing the direction of the three-way valve 260 communicated with the upper portion of the upper vacuum tank 230 by the output signal of the control valve controller 300, both the upper vacuum tank 230 and the lower vacuum tank 240 Opening with the atmosphere promotes a smooth fall of the residue.

Through the steps as described above to achieve continuous suction and discharge of the residual water treatment introduced by the blower 110 is always in operation.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention is installed on the easy-to-move trolley, so that it is easy to process the residual water in the block of the shipyard, etc. It has the effect of improving overall productivity by providing speed.

Claims (2)

A residual water treatment apparatus comprising a dust collecting tank, a cyclone for separating mist, dust, and the like toward the dust collecting tank, a blower for providing suction force, and a driving engine for driving the blower, The upper vacuum tank 230, which is mounted on the trolley and the separated residual water flows into the primary, and is connected to the upper vacuum tank 230 and the tank connecting pipe 231 to store the residual water in the secondary and discharge pipe 241 on one side. Dual vacuum tank 250 consisting of a lower vacuum tank 240 for discharging the residual water through, Upper and lower tank level sensors 270 and 275 for measuring the level of the upper and lower vacuum tanks 230 and 240; A control valve controller 300 for receiving measured values of the upper and lower tank water level sensors 270 and 275; Is installed on the tank connection pipe 231 and the discharge pipe 241, the upper tank discharge valve 235 and the lower tank discharge valve 245 which is opened and closed by the output signal of the control valve controller 300, The three-way valve operates by the output signal of the control valve controller 300 to communicate with the inside and outside of the upper and lower vacuum tanks 230 and 240 so as to control the pressure difference in the upper and lower vacuum tanks 230 and 240. 260), Residual water treatment apparatus of a double tank structure, characterized in that the smooth discharge occurs at the same time as the continuous intake of residual water. The method of claim 1, Inside the dust collecting tank 220 is configured to include a mist remover 221 of the chevron structure on the path of air and fine mist to collect the mist (mist) flowing into the blower 110 side. Residual water treatment device of double tank structure.

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