KR20210000195U - Equipment for removing residual water from shipbuilding workshop - Google Patents

Abstract

The apparatus for removing residual water in a ship building workshop according to an embodiment of the present invention is a pump to which a pipe for draining a ship's work place is connected, a pipe connected to the pump to be positioned in a pumping area of the ship work site, and to detect a water level. It includes a residual water removal jig including a water level sensor, and a control unit for stopping the operation of the pump by sensing the level of the bottom of the pumping area of the ship's workshop.

Description

EQUIPMENT FOR REMOVING RESIDUAL WATER FROM SHIPBUILDING WORKSHOP}

The present invention relates to a residual water removal device in a ship building workshop, and more particularly, to a residual water removal device in a ship building workshop that removes work disturbances and dangers caused by residual water by removing residual water accumulated in the ship's building area.

In general, there are many cases in which some of the processes of shipbuilding work are performed while being exposed to the outdoors, or blocks are placed outdoors in a standby state between processes. Accordingly, after rain, rainwater must be removed to resume work.

Since rainwater removal is mostly a work of discharging rainwater accumulated in a work area to the outside using a pump, a large number of personnel are required to install the pump and line, and considerable energy is consumed in the pumping operation.

In particular, the pump used to remove residual water must be turned on/off directly by the operator at the end of the pump. If the operator cannot predict and grasp the exact end point of removal of residual water, the pump is operated unnecessarily, and thus a lot of energy is wasted. If the hose does not exactly match the floor surface of the block or work area during the residual water removal operation, there may be cases where the residual water cannot be completely removed.

As described above, in order to remove (rainwater) residual water from the shipbuilding workshop or block, a pump capable of operating with compressed air is installed and a hose for removing residual water is connected to the pump.

If the hoswitch is distracted from the initial installation position during the residual water removal operation, the residual water cannot be completely removed, and if the operator cannot block the compressed air at the time of the completion of the residual water removal, the energy use problem is that compressed air is continuously wasted. There was this.

In order to efficiently remove residual rainwater from shipbuilding workshops and blocks after rain, the present invention securely fixes the residual water removal hose to the workplace, and uses a water level sensor to determine the completion point of residual water removal, thereby reducing unnecessary compression. It is to provide a device for removing residual water in a shipbuilding workshop that can minimize energy consumption due to air.

The apparatus for removing residual water in a ship building workshop according to the present invention includes a pump to which a pipe for drainage of the ship work site is connected, a water level sensor for fixing the pipe connected to the pump in the pumping area of the ship work site, and detecting the water level And a control unit configured to stop the operation of the pump by detecting the bottom water level in the pumping area of the ship's workshop and the residual water removal jig.

Here, the control unit includes a valve installed on the compressed air line to open and close the compressed air line for operating the pump, an amplifier that amplifies the sensing signal of the water level sensor and converts it into an operation signal of the valve, and the amplifier It may include a battery used as a power source.

At this time, the valve is a solenoid valve, comprising a valve body provided with an opening and closing passage through which compressed air passes, a valve member opening and closing the opening and closing passage of the valve body, and a solenoid operating the valve member according to an operation signal of the amplifier. can do.

In addition, the residual water removal jig includes a disk to which the pipe is inserted and fixed in a central portion, and a plurality of annular plates that are coupled at intervals in a circumferential direction around the bottom of the disk, and spaced apart the disk from the floor of the ship's workshop. And a residual water inlet for inflow of residual water into the pipe side may be provided between the plurality of annular plates.

Here, a magnet for fixing the residual water removal jig to the iron plate may be further included.

In this case, a groove portion in which a magnet is inserted and coupled to one side of the bottom portion of the disk may be provided, and the other side may be adjacent to a bottom side of a ship workshop provided with a through portion through which the water level sensor passes.

In addition, the pump uses a diaphragm pump operated by compressed air, and the control unit may be installed in a control box to which the signal line of the water level sensor and the compressed air line are connected.

The present invention described above is to securely fix the residual water removal hose to the workplace in order to efficiently perform the rainwater residual water removal work of the ship building workshop and the block after rain, and use the water level sensor to complete the residual water removal. By grasping this, it is possible to provide a device for removing residual water in a shipbuilding workshop that can minimize energy consumption due to unnecessary compressed air.

1 is a conceptual diagram of an installation of a residual water removal device in a ship building workshop according to an embodiment of the present invention.
Figure 2 is a block diagram of the operation of Figure 1;
3 is a plan view of the residual water removal jig of FIG. 2.
4 is a front view of the residual water removal jig of FIG. 3.

Hereinafter, various embodiments of the present invention will be described by specific embodiments shown in the accompanying drawings. Differences in the embodiments are not mutually exclusive and should be understood in a complex manner, and without departing from the technical spirit and scope of the present invention, specific shapes, structures, and characteristics described in relation to the embodiments are implemented in other embodiments. Can be.

Hereinafter, main components of the apparatus for removing residual water in a shipbuilding workshop according to an embodiment of the present invention will be described based on the drawings.

1 is a conceptual diagram of an installation of a residual water removal device in a shipbuilding workshop according to an embodiment of the present invention, FIG. 2 is an operation block diagram of FIG. 1, FIG. 3 is a plan view of the residual water removal jig of FIG. 2, and FIG. It is a front view of the residual water removal jig of FIG.

1 and 2, the apparatus for removing residual water in a shipbuilding workshop according to an embodiment of the present invention includes a pump 100 to which a pipe 101 for draining a ship's workplace is connected, and a pump 100 connected to the pump 100. The pipe 101 is positioned in the pumping area of the ship's workshop, but a magnet 117 for fixing to a steel plate such as a block and a water level sensor 118 for detecting the water level are installed, a residual water removal jig 110, and a ship workshop It includes a control unit 120 for stopping the operation of the pump 100 by detecting the level of the bottom of the pumping area.

The pump 100 uses a diaphragm pump 100 operated by compressed air. A compressed air line 105 for operation is connected to the pump 100. With the pipe 101 connected to the residual water removal jig 110, the pump 100 opens the compressed air line 105, the pump 100 is operated, and the residual water accumulated in the ship's workplace is drained over time. Is removed.

3 and 4, the residual water removal jig 110 is coupled at intervals in the circumferential direction around the bottom surface of the disk 111 and the disk 111 to which the pipe 101 is inserted and fixed in the central portion. It includes a plurality of annular plates 112 to space the disk 111 from the floor of the ship workshop. A residual water inlet 113 for inflow of residual water into the pipe 101 may be provided between the plurality of annular plates 112.

Residual water removal jig 110 is provided with a groove 115 in which a magnet 117 is inserted and coupled to one side of the bottom of the disk 111, and a through portion 116 through which the water level sensor 118 passes through the other side It is equipped.

The residual water removal jig 110 is for reliably fixing the side of the residual water inlet 113 of the pipe 101 to the residual water area of the ship's workplace, and the pipe 101 is coupled and a magnet for fixing to the steel plate such as the floor or block of the workplace. (117) and a water level sensor 118 for detecting the level of residual water is fixedly installed.

1 and 2, the control unit 120 may be installed in the control box 126 to which the signal line of the water level sensor 118 and the compressed air line 105 are connected to be disposed in a safe area of the ship's workplace. .

The control unit 120 amplifies the detection signal of the valve 121 installed on the compressed air line 105 and the water level sensor 118 to open and close the compressed air line 105 for operating the pump 100 It may include an amplifier 125 for converting the operation signal 121, and a battery 130 used as a power source for the amplifier 125.

The valve 121 may be a solenoid valve, and the valve body 122 provided with an opening and closing passage through which compressed air passes, the valve member 123 opening and closing the opening and closing passage of the valve body 122, and the operation of the amplifier 125 It may include a solenoid 124 for operating the valve member 123 according to the signal.

The valve 121 is an electronic opening/closing valve capable of blocking and allowing the compressed air flow to the compressed air line 105, and by operating the valve member 123 by the coil principle of the electromagnet 117, the valve body 122 It is configured to open or close the opening and closing passage.

According to the present embodiment, the water level sensor 118 senses the water level while the pump 100 is operating, and when the water level is lowered and no water is detected, a detection signal of the floor water level is transmitted to the amplifier 125. The amplifier 125 senses this and converts it into an operation signal of the valve 121, and the valve 121 is operated by the operation signal, thereby blocking the compressed air line 105 and stopping the operation of the pump 100. .

The residual water removal device of the shipbuilding workshop according to an embodiment of the present invention as described above increases the residual water removal efficiency by maintaining the position and direction of the residual water removal hose in the same manner as the initial installation, and increases the water level detection sensor. It has the advantage of removing unnecessary (compressed air) energy waste.

As described above, embodiments of the present invention have been described, but based on this, if a person of ordinary skill in the relevant technical field does not depart from the essential technical idea of the present invention described in the claims, addition or change of components Various modifications and changes may be made to the present invention by deletion or addition, and this is also included within the scope of the present invention.

100: pump 101: piping
105: compressed air line 110: residual water removal jig
111: disc 112: annular plate
113: residual water inlet 115: groove
116: through part 117: magnet
118: water level sensor 120: control unit
121: valve 122: valve body
123: valve member 124: solenoid
125: amplifier 130: battery

Claims (7)

A pump to which pipes for drainage of the ship's workshop are connected;
A residual water removal jig including a water level sensor for fixing the position of the pipe connected to the pump in the pumping area of the ship's workshop and detecting the water level; And
And a control unit for stopping the operation of the pump by sensing the bottom water level of the pumping area of the ship work site. The method of claim 1,
The control unit,
A valve installed on the compressed air line to open and close the compressed air line for operating the pump;
An amplifier for amplifying the sensing signal of the water level sensor and converting it into an operation signal of the valve; And
A device for removing residual water in a shipbuilding workshop, including a battery used as a power source for the amplifier. The method of claim 2,
The valve is a solenoid valve,
A valve body provided with an opening and closing passage through which compressed air passes;
A valve member for opening and closing the opening and closing passage of the valve body; And
A device for removing residual water in a shipbuilding workshop comprising a solenoid for operating the valve member according to an operation signal of the amplifier. The method according to any one of claims 1 to 3,
The residual water removal jig,
A disk into which the pipe is inserted and fixed in the center; And
A plurality of annular plates are coupled to be spaced around the bottom surface of the disk in a circumferential direction, and spaced apart the disk from the bottom of the ship's workshop,
A residual water removal device in a ship building workshop, wherein a residual water inlet is provided for inflow of residual water into the pipe between the plurality of annular plates. The method of claim 4,
Further comprising a magnet for fixing the residual water removal jig to the iron plate, the residual water removal device of the ship building workshop. The method of claim 5,
An apparatus for removing residual water in a shipbuilding workshop adjacent to the bottom side of a ship workshop provided with a groove portion in which a magnet is inserted and coupled to one side of the bottom portion of the disk, and a through portion through which the water level sensor passes through the other side. The method according to any one of claims 1 to 3,
The pump uses a diaphragm pump operated by compressed air, and the control unit is installed in a control box to which the signal line of the water level sensor and the compressed air line are connected.

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