KR100496671B1 - a water cleaning apparatus - Google Patents

Abstract

The present invention can be performed continuously without interrupting the cleaning operation, and relates to a water cleaner that can improve the workability.

According to the present invention, a water tank 15 having an inlet port 4 and an outlet port 8 formed at a circumference thereof, a discharge valve 25 provided at the outlet port 8, and the water tank 15 are connected to each other. A vacuum suction unit 35 for suctioning foreign substances or water in the field into the water tank 15 through the suction port 4, and is connected between the vacuum suction unit 35 and the water tank 15 to provide a water tank ( A dust collecting tank 45 for collecting dust introduced into the inside of the container 15, sensors 90 and 95 disposed inside the water tank 15 to sense the level of water filled in the water tank 15; The control unit 70 is electrically connected to the discharge valve 25 and the sensors 90 and 95 to control the discharge valve 25 to be opened and closed according to the water level detected by the sensors 90 and 95. In the water cleaner comprising a, it is installed between the inlet port 4 and the discharge port 8 partitions the interior of the water tank 15 into the inlet chamber 78 and the discharge chamber 88 The first partition 80, the lower sensor 90 disposed inside the inflow chamber 78, the upper sensor 95 disposed above the lower sensor 90, both ends of the discharge chamber The connection pipe 100 is connected to the lower periphery of the 88 and the inlet chamber 78, respectively, and the water level of the water provided in the connection pipe 100 is filled in the inlet chamber 78 is a lower sensor ( 90 is installed in the first discharge valve 105 and the outlet 8 of the water tank 15, which is closed when the water level is reached when the water level reaches the upper sensor 95, the inlet chamber 78 Water cleaning device comprising a second discharge valve 110 is opened when the water level to be filled in the lower sensor (90) and closed when the water level reaches the upper sensor (95). Is provided.

Description

Water cleaning apparatus

The present invention relates to a water cleaner, and more particularly, to a water cleaner that can be performed continuously without interrupting the cleaning operation, it is possible to improve the workability.

In general, when ships are manufactured in shipyards, welding work and painting work are performed several times. As the work is performed, a lot of dust, welding sludge, and foreign substances such as welding sludge and paint are generated on site. The same applies to workshops such as civil engineering construction sites and factories. Accordingly, a shipyard or a work site performs cleaning to remove dust and waste water in order to perform a later process after welding or painting.

1 and 2 show a plan view and a side view of the water cleaner used for such a cleaning operation. Referring to this, the water cleaner includes a water tank 15 having a suction port 4 and an outlet 8 formed at a lower circumference thereof, an inlet valve 22 provided at the suction port 4 and the discharge port 8, respectively. By the discharge valve 25, the vacuum inhaler 35 through which the foreign matter or water is sucked into the water tank 15 through the inlet 4 of the water tank 15, and by the vacuum inhaler 35 A dust collecting tank 45 configured to collect dust introduced into the water tank 15, a sensor 60 disposed above the water tank 15, the suction valve 22, and a discharge valve. And a control unit 70 electrically connected to the 25 and the sensor 60.

According to such a water cleaner, dust generated at a work site or a shipyard is introduced through the suction port 4 below the water tank 15, collected in the dust collection tank 45, and introduced through the suction port 4. When the water level is filled in the water tank 15 and the water level reaches the height of the sensor 60, the inlet valve 22 by the control unit 70 in accordance with the signal detected by the sensor 60 ) Is closed, while the discharge valve 25 is opened, the water filled in the water tank 15 is discharged to the outside.

However, when the water cleaner is filled to the height of the sensor 60, the water filled in the water tank 15, dust or water from the work site in the state in which the inlet valve 22 installed in the suction port 4 is closed After stopping the work to suck the water, and then to open the discharge valve 25 to discharge the water filled in the water tank 15 to the outside, the cleaning work must not be continued continuously and must be stopped on the way. There is a problem with this delay. Specifically, since the suction operation for about 4 minutes and the discharge operation for about 2 minutes must be repeatedly performed, there is a problem in that the suction operation is stopped and waited for about 20 minutes per hour, resulting in a significant waste of working time as a whole. .

The present invention is to solve the problems as described above, the object of the present invention can be carried out continuously without interrupting the cleaning operation, the water cleaner of the new configuration is very efficient in terms of workability by preventing the overall waste of time, etc. Is to provide.

According to the present invention, a water tank 15 having an inlet port 4 and an outlet port 8 formed at a circumference thereof, a discharge valve 25 provided at the outlet port 8, and the water tank 15 are connected to each other. A vacuum suction unit 35 for suctioning foreign substances or water in the field into the water tank 15 through the suction port 4, and is connected between the vacuum suction unit 35 and the water tank 15 to provide a water tank ( A dust collecting tank 45 for collecting dust introduced into the inside of the container 15, sensors 90 and 95 disposed inside the water tank 15 to sense the level of water filled in the water tank 15; The control unit 70 is electrically connected to the discharge valve 25 and the sensors 90 and 95 to control the discharge valve 25 to be opened and closed according to the water level detected by the sensors 90 and 95. In the water cleaner comprising a, it is installed between the inlet port 4 and the discharge port 8 partitions the interior of the water tank 15 into the inlet chamber 78 and the discharge chamber 88 The first partition 80, the lower sensor 90 disposed inside the inflow chamber 78, the upper sensor 95 disposed above the lower sensor 90, both ends of the discharge chamber The connection pipe 100 is connected to the lower periphery of the 88 and the inlet chamber 78, respectively, and the water level of the water provided in the connection pipe 100 is filled in the inlet chamber 78 is a lower sensor ( 90 is installed in the first discharge valve 105 and the outlet 8 of the water tank 15, which is closed when the water level is reached when the water level reaches the upper sensor 95, the inlet chamber 78 Water cleaning device comprising a second discharge valve 110 is opened when the water level to be filled in the lower sensor (90) and closed when the water level reaches the upper sensor (95). Is provided.

According to another feature of the present invention, provided between the first partition wall 80 and the suction port 4 partitions the inlet chamber 78 into a first inlet chamber 78a and a second inlet chamber 78b. The upper surface portion is provided with a water cleaner, characterized in that it further comprises a second partition wall 85 through which a plurality of holes 86a are formed.

According to another feature of the invention, the first air circulation pipe 115 and both ends connected to the upper circumference of the suction chamber and the discharge chamber 88, respectively, one end of the first air circulation pipe 115 Is connected to the upper side of the discharge chamber 88 from the outside of the other end is connected to the second air circulation pipe 120 and the control unit 70 is connected to the discharge end of the vacuum inhaler (35) The first air circulation valve 125 provided in the first air circulation pipe 115 and the second air circulation valve electrically connected to the control unit 70 and provided in the second air circulation pipe 120. Further comprising 130, when the second discharge valve 110 provided in the outlet 8 of the water tank 15 is opened, the first air circulation valve 125 is closed and the second air The circulation valve 130 is provided with a water cleaner, characterized in that configured to open.

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

3 is a configuration diagram of the water cleaner according to the present invention, Figure 4 is a flow chart showing the water cleaning operation of the water cleaner according to the present invention. Referring to this, the water cleaner according to the present invention includes a water tank 15 having a suction port 4 and an outlet 8 formed at a lower circumference thereof, and an inlet valve 22 provided at the suction port 4 and the discharge port 8, respectively. ) And a discharge valve 25, a vacuum inhaler 35 through which the foreign matter such as dust or the like is sucked into the water tank 15 through the inlet 4, and into the water tank 15. Dust collection tank 45 for collecting the incoming dust, the sensor (90, 95) for detecting the water level of the water filled in the water tank 15, the discharge valve 25 and the sensor (90, 95) The control unit 70 is connected to the same as the conventional. At this time, the first and second partitions 85 are provided in the water tank 15, and the inlet chamber 78 and the discharge chamber 78 partitioned by the first partition 80 below the water tank 15. The connection pipe 100 is connected to the chamber 88, respectively, and the outlet 8 of the connection pipe 100 and the water tank 15 is provided with first and second discharge valves 105 and 110, respectively. do.

The first partition wall 80 is installed between the inlet port 4 and the outlet port 8 of the water tank 15 in a vertical direction, and the inlet port 4 has an internal space of the water tank 15. It is divided into an inlet chamber 78 and an outlet chamber 88 provided with the outlet (8). A second partition 85 is installed in the vertical direction between the first partition 80 and the suction port 4. The upper surface portion of the second partition wall 85 is formed of a mesh formed through a plurality of holes 86a, and water flowing into the first inlet chamber 78a through the suction port 4 below the water tank 15 is formed. It may be introduced into the second inlet chamber 78b through the plurality of holes 86a. In addition, since the lower side portion of the second partition wall 85 is blocked, fine debris, such as sludge, accumulates in the lower space portion of the first inflow chamber 78a. Water flows into the second inflow chamber 78b through a plurality of holes 86a formed in the upper surface portion of the second partition wall 85, while a relatively large foreign material such as a work glove used in the field is meshed. While being caught by the upper surface of the second partition wall 85, it does not flow into the second inflow chamber 78b.

In this case, the first inflow chamber 78a is provided with a see-through window 2 slightly below the lowermost hole 86a of the second partition wall 85, and a lower circumference of the first inflow chamber 78a. The drain valve 3 is provided in the part, and when fine debris, such as sludge that accumulates in the lower space of the first inflow chamber 78a, is accumulated up to the position of the lowermost hole 86a of the second partition wall 85, The operator can open the drain valve 3 to discharge the fine debris to the outside.

The lower sensor 90 is disposed at an approximately middle portion of the second inflow chamber 78b, and is electrically connected to the control unit 70, and the control unit 70 is first and second to be described later. It is electrically connected to the discharge valves 105 and 110 and the first and second air circulation valves 125 and 130. The lower sensor 90 detects the level of water filled in the water tank 15 and transmits a detection signal to the control unit 70. The upper sensor 95 is disposed above the lower sensor 90 at a predetermined interval, and is electrically connected to the control unit 70 to detect the level of water flowing into the water tank 15. By transmitting the detection signal to the control unit 70.

Both ends of the connecting pipe 100 are installed to be connected to the lower side of the inlet chamber 78 and the lower side of the outlet chamber 88, respectively, and the water flowing into the inlet chamber 78 is connected to the connecting tube 100. It is introduced into the discharge chamber 88 through the). The first discharge valve 105 is provided in the connection pipe 100 and is electrically connected to the lower sensor 90 and the upper sensor 95 through the control unit 70. The first discharge valve 105 is opened when the water level of the water tank 15 reaches the upper sensor 95, so that the water is filled in the discharge chamber 88 through the connecting pipe 100. .

The second discharge valve 110 is provided at the outlet 8 of the water tank 15, and is electrically connected to the upper and lower sensors 90 and 95 through the control unit 70. The second discharge valve 110 is closed when the first discharge valve 105 is opened, whereas the second discharge valve 105 is opened when the first discharge valve 105 is closed so that the water filled therein is discharged to the outside. .

In this case, both ends of the first air circulation pipe 115 are connected to the upper circumferences of the suction chamber 78 and the discharge chamber 88, respectively. In addition, one end of the second air circulation pipe 120 is connected to the outside of the first air circulation pipe 115 on the upper side of the discharge chamber 88, the other end of the second air circulation pipe 120 It is connected to the discharge end of the vacuum inhaler 35 via the cooling water tank 122 shown in FIG.

In addition, the first air circulation pipe 115 is provided with a first air circulation valve 125, and the second air circulation pipe 120 is provided with a second air circulation valve 130. The first air circulation valve 125 is closed when the second discharge valve 110 provided at the discharge port 8 is opened so that the vacuum suction force is not applied to the inside of the discharge chamber 88, thereby discharging the discharge. While the water filled in the chamber 88 is smoothly discharged to the outside, when the second discharge valve 110 is closed, the water is opened to open the interior of the discharge chamber 88 by the vacuum suction force of the vacuum inhaler 35. To ensure a smooth flow of water.

On the other hand, the second air circulation valve 130 is opened together when the second discharge valve 110 is opened to supply air into the discharge chamber 88, the water filled in the discharge chamber 88 When the second discharge valve 110 is closed, the air is smoothly discharged to the outside, and the water is closed to shut off the air so that the water is discharged into the discharge chamber 88 by the vacuum suction force of the vacuum inhaler 35. Ensure a smooth flow.

Hereinafter, a process of carrying out the cleaning operation by the water cleaner according to the present invention will be described with reference to FIG. 4.

First, when the suction port 4 of the water tank 15 is connected to the cleaning source 1 such as the work site, and the water cleaner is operated for the first time, the first discharge valve 105 is opened and the second discharge is performed. In the closed state of the valve 110, water is filled from the bottom surface of the inflow chamber 78 through the inlet 4 provided at the lower side of the water tank 15. A plurality of holes 86a are formed in an upper portion of the second partition wall 85 provided between the suction ports 78, so that the holes 86a of the second partition wall 58 and the open first discharge valve 105 are formed. Since water is introduced into the discharge chamber 88 through, the water is filled from the bottom surface of the inlet chamber 78 and the discharge chamber 88. At this time, the first air circulation valve 125 is opened and the second air circulation valve 130 is closed so that the vacuum suction force of the vacuum inhaler 35 acts on the chambers 78 and 88 and at the same time. Since air does not flow into the chambers 78 and 88, water flows smoothly into the chambers 78 and 88.

As such, when the water level of the water filled in the inflow chamber 78 and the discharge chamber 88 reaches the height of the lower sensor 90, the first discharge valve 105 is closed and the second discharge valve ( 110 is opened while the water filled in the discharge chamber 88 is discharged to the outside. At this time, since the first air circulation valve 125 is closed and the second air circulation valve 130 is open, the vacuum suction force does not act on the inside of the discharge chamber 88 and the second air is Air is supplied into the discharge chamber 88 through the circulation valve 130 so that the water filled in the discharge chamber 88 may be smoothly discharged to the outside.

Subsequently, when water continues to flow into the inflow chamber 78 while the first discharge valve 105 is closed, and the water level reaches the upper sensor 95, the first discharge valve 105 Since the opening and the second discharge valve 110 of the outlet (8) is closed, water is introduced into the discharge chamber 88 while the water level of the inlet chamber 78 is lowered below the lower sensor 90. do. Of course, since the first air circulation valve 125 is opened and the second air circulation valve 130 is in a closed state, water may be smoothly introduced into the inflow chamber 78.

In this state, when the water level flowing into the inflow chamber 78 reaches the lower sensor 90 again, the first discharge valve 105 is closed again and the second discharge valve 110 is closed. The water filled in the discharge chamber 88 is discharged to the outside while opening again. Of course, since the first air circulation valve 125 is closed and the second air circulation valve 130 is open, the water filled in the discharge chamber 88 may be smoothly discharged to the outside.

As a result, the water cleaner of the present invention can continuously perform the cleaning operation while repeating the water suction process and the water discharge process as shown in FIG. Of course, such a water suction process and the water discharge process is automatically made by a program preset in the controller (70).

Meanwhile, reference numeral 150 of FIG. 3 is a vacuum safety valve, which is opened when the vacuum pressure of the vacuum inhaler 35 is 720 mmHg or more to discharge the vacuum pressure, thereby preventing the device from being overloaded.

Therefore, the water cleaner according to the present invention can continuously perform the cleaning operation by automatically repeating the suction and discharge processes of sucking and discharging water from the work site in a circulating manner, unlike the conventional water cleaner, the cleaning operation There is an advantage that it is not necessary to interrupt the work for a predetermined time in order to discharge the water filled in the water tank 15 to the outside. In addition, since there is no need to interrupt the cleaning operation in this way, since the waste of time due to the interruption of work can be significantly reduced, there is a significant efficiency advantage in terms of overall workability.

In addition, the water cleaner of the present invention is the first air circulation valve 125 and the discharge end of the vacuum suction unit 35 to communicate or block the internal space of the inlet chamber 78 and the discharge chamber 88, The second air circulation valve 130 for communicating or blocking is provided, when the water is introduced into the discharge chamber 88, the first air circulation valve 125 is opened and the second air circulation valve 130 has an advantage of allowing water to smoothly flow into the discharge chamber 88 by the vacuum suction force of the vacuum inhaler 35 while being closed. On the other hand, when water is discharged from the discharge chamber 88 of the water tank 15 to the outside, the first air circulation valve 125 is closed and the second air circulation valve 130 is opened while the discharge chamber ( Since the air is supplied to the inside of the 88, there is an advantage that the water filled in the discharge chamber 88 is smoothly discharged to the outside.

As described above, since the water cleaner according to the present invention can be continuously performed without interrupting the cleaning operation, there is a very efficient advantage in terms of workability, such as significantly reducing the overall working time.

1 is a plan view of a conventional water cleaner

2 is a side view of FIG. 1

3 is a block diagram of a water cleaner according to the present invention

4 is a flowchart showing the water cleaning operation of the water cleaner according to the present invention.

<Explanation of symbols for main parts of the drawings>

 15. Water tank 35. Vacuum suction

 45. Dust collection tank 70. Control unit

 80. First bulkhead 85. Second bulkhead

 90. Lower sensor 95. Upper sensor

105. First discharge valve 110. Second discharge valve

125. First air circulation valve 130. Second air circulation valve

Claims (3)

A water tank 15 having a suction port 4 and an outlet 8 formed at a circumference thereof, a discharge valve 25 provided at the discharge port 8, and the water tank 15 are connected to a foreign substance or water in the field. Is sucked into the interior of the water tank 15 through the suction port 4, and is connected between the vacuum suction 35 and the water tank 15 to the inside of the water tank 15 Dust collection tank 45 for collecting the incoming dust, sensors 90, 95 disposed in the water tank 15 to sense the level of water filled in the water tank 15, and the discharge valve ( 25 and a water cleaner including a controller 70 electrically connected to the sensors 90 and 95 to control the discharge valve 25 to be opened and closed according to the water level detected by the sensors 90 and 95. The first partition wall 80 is provided between the inlet 4 and the outlet 8 to partition the interior of the water tank 15 into an inlet chamber 78 and an outlet chamber 88, The lower sensor 90 disposed inside the inflow chamber 78, the upper sensor 95 disposed above the lower sensor 90, and both ends of the discharge chamber 88 and the inflow chamber 78. The connection pipe 100 is connected to each of the lower peripheral portion of the installation and the water level provided in the connection pipe 100 is filled in the inlet chamber 78 is closed when the water level reaches the lower sensor 90 and the When the water level reaches the upper sensor 95, the first discharge valve 105 and the water level installed in the outlet 8 of the water tank 15 and filled in the inlet chamber 78 is the lower sensor And a second discharge valve (110) which opens when it reaches (90) and closes when the water level reaches the upper sensor (95). According to claim 1, Between the first partition 80 and the suction port 4 is provided to partition the inlet chamber 78 into a first inlet chamber (78a) and a second inlet chamber (78b), the upper surface portion The water cleaning device, characterized in that it further comprises a second partition (85) formed through a plurality of holes (86a). According to claim 1, wherein both ends of the first air circulation pipe 115 is connected to the upper circumference of the suction chamber and the discharge chamber 88, and one end thereof from the outside of the first air circulation pipe (115) A second air circulation pipe 120 connected to an upper side of the discharge chamber 88 and the other end connected to a discharge end of the vacuum inhaler 35, and electrically connected to the control unit 70. The first air circulation valve 125 provided in the air circulation pipe 115 and the second air circulation valve 130 electrically connected to the control unit 70 and provided in the second air circulation pipe 120. It further includes, when the second discharge valve 110 provided in the outlet 8 of the water tank 15 is opened, the first air circulation valve 125 is closed and the second air circulation valve ( 130 is a water cleaner, characterized in that configured to open.