KR20190140793A - System for disinfecting drinking water in ship - Google Patents

Abstract

The present invention relates to a system for disinfecting drinking water in a ship, which reduces possibility of chlorine concentration reduction and germ propagation by allowing purified water and disinfected clear water to be continuously circulated for drinking water and is possible to automatically additionally input chlorine in case of necessity in accordance with a sensed result by continuously sensing chlorine concentration in the drinking water.

Description

Drinking water disinfection system in ships {SYSTEM FOR DISINFECTING DRINKING WATER IN SHIP}

The present invention relates to a drinking water disinfection system in ships, and more specifically, to continuously circulate purified and disinfected fresh water for drinking water purposes, reducing the possibility of chlorine concentration and bacterial propagation, and continuously sensing the chlorine concentration in drinking water The present invention relates to a system for disinfecting drinking water in ships, which automatically adds chlorine as needed according to the sensing result.

In general, in the case of drinking water supplied from the vessel to the cabin, the fresh water in the vessel is purified and disinfected and then supplied to each required place through a single pipe.

However, when there is no demand for drinking water in the cabin area, the circulation of the drinking water in the pipe is not made, so that the chlorine concentration decreases and various bacteria may grow.

In addition, because the chlorine concentration that is most closely related to bacterial growth is not monitored, the contamination status in the pipe cannot be predicted.

Therefore, even if there is no demand for drinking water at present, the drinking water in the pipe is not concentrated but circulating, and when the chlorine concentration is low, chlorine is automatically added to maintain a constant chlorine concentration at all times.

Korean Patent Publication No. 10-2013-0041305

The present invention was derived to solve the above-described problems, by reducing the chlorine concentration and the possibility of bacterial growth by continuously circulating purified and disinfected fresh water for drinking water purposes, sensing results by continuously sensing the chlorine concentration in drinking water To provide a drinking water disinfection system on board to automatically add additional chlorine when needed.

In-vehicle drinking water disinfection system according to an embodiment of the present invention, the drinking water circulation pipe connected to each drinking water source, the drinking water tank connected to the drinking water circulation pipe, the drinking water circulation pipe so that the drinking water circulates each drinking water source in the vessel A first chlorine measuring sensor for measuring the chlorine concentration in the inside, a second chlorine measuring sensor for measuring the concentration of chlorine in the drinking water tank, the first chlorine is added to the drinking water circulation pipe based on the sensing result of the first chlorine measuring sensor A first chlorine input device, a second chlorine input device for additionally introducing chlorine into the drinking water tank based on the sensing result of the second chlorine measuring sensor, and a drinking water circulation pump for circulating the drinking water stored in the drinking water tank.

In one embodiment, a drinking water discharge pump may be provided between the drinking water circulation pipe and the drinking water tank to discharge the drinking water stored in the drinking water tank in the drinking water circulation pipe direction.

In one embodiment, the first chlorine measuring sensor may be provided in plurality so as to be adjacent to each drinking water source.

In one embodiment, the present invention receives the chlorine measurement sensing results from the first chlorine measurement sensor, and operates the circulation pump for drinking water circulation piping provided in the drinking water circulation pipe based on the received chlorine measurement sensing results, The apparatus may further include a first controller configured to control the first chlorine input device so that chlorine is additionally introduced into the drinking water circulation pipe from the first chlorine input device.

In one embodiment, the first control unit is to add the chlorine into the drinking water circulation pipe through the first chlorine input device and then operate the circulation pump for drinking water circulation pipe, the additional chlorine added for the drinking water circulation pipe By the circulation pump may be allowed to diffuse in the drinking water circulation pipe.

In one embodiment, the present invention receives the chlorine measurement sensing results from the second chlorine measurement sensor, and operates the drinking water circulation pump based on the received chlorine measurement sensing results, or the drinking water tank in the second chlorine input device The apparatus may further include a second controller configured to control the second chlorine input device so that chlorine is additionally introduced into the apparatus.

In one embodiment, the second control unit is to add the chlorine into the drinking water tank through the second chlorine input device and then operate the drinking water circulation pump, the additional chlorine is added to the drinking water tank by the drinking water circulation pump It can be spread within.

According to an aspect of the present invention, by continuously circulating purified and disinfected fresh water for the purpose of drinking water, it is possible to drastically reduce the chlorine concentration and the possibility of bacterial breeding because drinking water is not standing in the absence of demand for drinking water Has the advantage.

In addition, according to an aspect of the present invention, by continuously sensing the chlorine concentration in the drinking water can be automatically added to the chlorine when necessary according to the sensing result, has the advantage of maintaining an appropriate amount of chlorine concentration at all times.

In addition, according to an aspect of the present invention, since the chlorine can be added automatically based on the sensing result of the chlorine measurement sensor, there is an advantage that the manpower input accordingly is unnecessary.

In addition, according to an aspect of the present invention, since the pump is operated only when necessary through the control of the control unit has the advantage of preventing unnecessary energy consumption.

1 is a view schematically showing the configuration of a drinking water disinfection system 100 in a ship according to an embodiment of the present invention.

Hereinafter, preferred examples are provided to aid in understanding the present invention. However, the following examples are merely provided to more easily understand the present invention, and the contents of the present invention are not limited by the examples.

1 is a view schematically showing the configuration of a drinking water disinfection system 100 in a ship according to an embodiment of the present invention.

1, the drinking water disinfection system 100 in ship according to an embodiment of the present invention is largely drinking water circulation pipe 110, drinking water tank 120, the first and second chlorine measuring sensors (130, 140), It may be configured to include the first and second chlorine input device (150, 160) and drinking water circulation pump (170).

In addition, the exemplary embodiment may further include a first control unit 180 connected to the first chlorine measurement sensor 130 and a second control unit 190 connected to the second chlorine measurement sensor 140. have.

First, the drinking water circulation pipe 110 may refer to a connection pipe connecting the respective drinking water sources to each other so that the drinking water circulates a plurality of drinking water sources.

The drinking water circulation pipe 110 is connected to the drinking water tank 120 and the drinking water discharge pump 110a to be described later.

The drinking water discharge pump 110a may be connected to the drinking water tank 120, and the drinking water stored in the drinking water tank 120 may be discharged to the drinking water circulation pipe 110 by the drinking water discharge pump 110a.

Next, the drinking water tank 120 may mean a fresh water tank in the ship, where fresh water (drinking water) stored in the fresh water tank may refer to drinking water that has been rectified and disinfected.

Drinking water stored in the drinking water tank 120 may be discharged to the drinking water circulation pipe 110 by the drinking water discharge pump 110a, the drinking water stored in the drinking water tank 120 is not collected, to the drinking water circulation pump 170 To continually circulate.

More specifically, the drinking water tank 120 is provided with a second chlorine measurement sensor 140 for measuring the chlorine concentration of the drinking water stored in the drinking water tank 120.

The second chlorine measurement sensor 140 refers to a sensing element that continuously monitors whether or not the chlorine concentration of the drinking water stored in the drinking water tank 120 is lower than a predetermined value (the chlorine concentration is lowered).

The chlorine measurement sensing result measured by the second chlorine measurement sensor 140 may be transmitted to the second control unit 190.

The second controller 190 operates the drinking water circulation pump 170 connected to the drinking water tank 120 or the second chlorine input device 160 based on the chlorine measurement sensing result transmitted from the second chlorine measurement sensor 140. ) To allow additional chlorine into the drinking water tank 120.

More specifically, when the chlorine measurement sensing result transmitted from the second chlorine measuring sensor 140 is determined to be lower than the reference value, the second control unit 190 first drinks drinking water through the second chlorine input device 160. Chlorine is added to the tank 120 further. Next, the second controller 190 operates the drinking water circulation pump 170 so that the additionally added chlorine is diffused in the drinking water tank 120.

That is, the second chlorine measurement sensor 140, the second chlorine input device 160, and the drinking water circulation pump 170 may be connected to the second control unit 190.

The first chlorine measurement sensor 130 is provided in a plurality of adjacent to each drinking water source connected through the drinking water circulation pipe 110, the chlorine measurement sensing results measured through each of the first chlorine measurement sensor 130 It may be delivered to the first controller 180.

The first control unit 180 operates the circulation pump 110b for drinking water circulation piping provided in the drinking water circulation pipe 110 based on the chlorine measurement sensing result transmitted from the first chlorine measurement sensor 130 or the first chlorine. The input device 150 is controlled to further add chlorine into the drinking water circulation pipe 110.

More specifically, when the chlorine measurement sensing result transmitted from the first chlorine measuring sensor 130 is determined to be lower than the reference value, the first controller 180 first drinks drinking water through the first chlorine input device 150. Chlorine is added to the circulation pipe (110). Next, the first control unit 180 operates the circulation pump 110b for drinking water circulation pipe so that the additionally added chlorine is diffused in the drinking water circulation pipe 110.

That is, the first chlorine measuring sensor 130, the first chlorine input device 150, and the drinking water circulation pipe circulating pump 110b may all be connected to the first controller 180.

While the foregoing has been described with reference to preferred embodiments of the invention, those skilled in the art will be able to variously modify and change the invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

100: inboard water drinking water disinfection system
110: drinking water circulation pipe
110a: drinking water discharge pump
110b: circulation pump for drinking water circulation pipe
120: drinking water tank
130, 140: First and second chlorine measuring sensor
150, 160: first and second chlorine input device
170: drinking water circulation pump
180, 190: first and second control unit

Claims (7)

A drinking water circulation pipe connected with each drinking water source so that the drinking water circulates each drinking water source in the vessel;
A drinking water tank connected to the drinking water circulation pipe;
A first chlorine measuring sensor measuring a chlorine concentration in the drinking water circulation pipe;
A second chlorine measuring sensor for measuring chlorine concentration in the drinking water tank;
A first chlorine injector for additionally introducing chlorine into the drinking water circulation pipe based on a sensing result of the first chlorine measuring sensor;
A second chlorine addition device configured to additionally add chlorine to the drinking water tank based on a sensing result of the second chlorine measurement sensor; And
And a drinking water circulation pump for circulating the drinking water stored in the drinking water tank.
The method of claim 1,
Between the drinking water circulation pipe and the drinking water tank,
Drinking water discharge pump for discharging the drinking water stored in the drinking water tank in the drinking water circulation pipe direction; is provided, the drinking water disinfection system on the ship.
The method of claim 1,
The first chlorine measuring sensor,
A plurality of drinking water disinfection system on the ship, characterized in that provided in a plurality of adjacent to each drinking water destination.
The method of claim 1,
Receiving a chlorine measurement sensing result from the first chlorine measuring sensor, and operates the circulation pump for drinking water circulation pipe provided in the drinking water circulation pipe based on the received chlorine measurement sensing results, or circulating the drinking water in the first chlorine input device And a first control unit for controlling the first chlorine input device so that chlorine is additionally introduced into the pipe.
The method of claim 4, wherein
The first control unit,
By further introducing chlorine into the drinking water circulation pipe through the first chlorine input device, by operating the circulation pump for drinking water circulation pipe, the additionally added chlorine in the drinking water circulation pipe by the drinking water circulation pipe circulation pump. Drinking water disinfection system onboard, characterized in that the diffusion.
The method of claim 1,
Receiving the chlorine measurement sensing result from the second chlorine measuring sensor and operating the drinking water circulation pump based on the received chlorine measurement sensing result, or adding the chlorine into the drinking water tank in the second chlorine input device. And a second control unit for controlling the chlorine input device. 2.
The method of claim 6,
The second control unit,
The chlorine is added to the drinking water tank through the second chlorine input device and then the drinking water circulation pump is operated, so that the added chlorine is diffused in the drinking water tank by the drinking water circulation pump. Drinking water disinfection system on board.

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