KR101387608B1 - Automated cleaning system for a water tank - Google Patents

Abstract

The present invention relates to an unmanned system for washing a water tank. The unmanned system for washing a water tank in a building comprises a water tank that stores tap water, has a first camera disposed to be coupled to the top thereof and able to ascend and descend, and includes a discharge hole for supplying the tap water to each place needing the tap water in the building and a release hole for releasing the stored tap water; an automatic washing device that injects the tap water through an injection hole prepared in the water tank and is equipped with a second camera; and a control unit including a control part for controlling the first camera and the automatic washing device and a display part for displaying images that are captured by means of the first and second cameras. [Reference numerals] (20) First camera; (30) Automatic washing device; (31) Second camera; (40) Control unit; (41) Control part; (42) Display part; (50) Winding device; (60) Spraying nozzle

Description

Automated Cleaning System For A Water Tank

The present invention relates to a water tank unattended washing system, and in particular, to easily grasp the cleaning time of the water tank provided in the water receiving water, such as apartments and large buildings, and to clean the inside of the water tank unattended to add the inside of the water tank The present invention relates to a reservoir unattended washing system that prevents contamination and checks the condition in the reservoir in real time so that the inside of the reservoir can be managed cleanly.

Most places where water is used to receive tap water, such as apartments and large buildings, have a reservoir and receive water from the reservoir and pump water back into the building. The reservoir has a size that can be used in the building for 6 to 24 hours.

Since water is stored in the bottom of the reservoir for a long time, sediment may be deposited on the bottom and contaminate the water, and the retention time is long, and the residual chlorine that must exist in the constant water is exhausted and microorganisms can be restored to contaminate water quality It is important to clean the reservoirs regularly as they can be created and adversely affect the health of the residents.

At present, in order to clean the reservoir, all the water stored in the reservoir is discharged, and then a person enters the reservoir, cleans the floor, and fills the water again. In this way, the inside of the reservoir is contaminated or cleaned by personnel, and the cleanness of the inside of the reservoir can not be confirmed in real time, causing anxiety for the residents and causing inconvenience to the residents in a short time during the cleaning time.

The present invention has been made in order to solve the problems described above, to easily grasp the cleaning time of the reservoir provided in the water receiving water, such as apartments and large buildings, and to clean the inside of the reservoir unattended It is an object of the present invention to provide a reservoir unattended washing system that prevents additional contamination inside the reservoir and checks the state in the reservoir in real time so that the inside of the reservoir can be managed cleanly.

Reservoir unattended washing system according to the present invention, in the reservoir unattended washing system for washing the reservoir of the building, the first camera is disposed to store the constant, and is coupled to the upper and lowered to the upper side, the constant of each building of the building A reservoir having an outlet for connecting to a supply and a discharge for discharging the stored constant; An automatic washing apparatus carried in through an inlet provided in the water storage tank and equipped with a second camera; And a controller configured to control the first camera and the automatic cleaning device, and a display unit to display an image captured by the first and second cameras.

In addition, a winding device for lifting up and down the first camera, the winding device, one end of the wire is connected to the first camera, the other end of the wire is fixed and the pulley is wound or unwound when rotated, and And a motor for forward and reverse rotation of the pulley, wherein the motor is controlled by the control unit.

In addition, the injection nozzle is provided on the upper side of the reservoir to spray the washing water; A supply pipe for supplying the washing water to the injection nozzle; A disinfectant storage unit connected to the supply pipe and storing a disinfectant; And a valve for selectively supplying the disinfectant of the disinfectant storage unit to the supply pipe.

In addition, the injection pressure of the washing water injected through the injection nozzle is preferably controlled by the controller.

In addition, it is preferable that the closing portion is provided in the upper portion of the water tank so that the first camera is opened.

In addition, the first camera is preferably provided in plurality.

The reservoir unattended washing system according to the present invention provides an effect of easily grasping the cleaning time of the reservoir provided in a place where water is used, such as an apartment or a large building.

In addition, since the cleaning of the inside of the reservoir is cleaned in an unattended manner, it provides an effect of preventing further contamination of the inside of the reservoir after cleaning by the personnel when cleaning by the personnel.

In addition, by checking the status in the reservoir in real time to be able to cleanly manage the inside of the reservoir, it effectively manages the interior of the reservoir and provides the effect of reducing complaints.

1 is a block diagram of a reservoir unattended washing system according to an embodiment of the present invention,
2 is a cross-sectional view of the reservoir unattended cleaning system according to an embodiment of the present invention,
3 is a plan view of FIG.
4 is an operational state diagram of the reservoir unattended cleaning system according to the embodiment of the present invention.

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

1 is a block diagram of a reservoir unattended cleaning system according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the reservoir unattended cleaning system according to an embodiment of the present invention. Figure 3 is a plan view of Figure 1, Figure 4 is an operating state diagram of the reservoir unattended cleaning system according to an embodiment of the present invention.

First, referring to Figures 1 and 2, the reservoir unattended cleaning system according to an embodiment of the present invention, the reservoir 10, automatic washing device 30, and the control unit 40.

The reservoir 10 stores water supplied to the tap water in an apartment or a large building, and the water stored in the reservoir 10 is pumped to each supply of the building. The present invention relates to a system for cleaning such a reservoir (10).

The reservoir 10 is a reservoir for storing the constant as described above, and includes a first camera 20, an outlet 11, and a discharge port 12.

The first camera 20 is provided to check the internal state of the reservoir 10 in which the constant is stored. In general, the reservoir 10 has a capacity to store a constant that can be used for about 6 to 24 hours in the building.

Therefore, since water is stored for a long time at the bottom of the reservoir 10, sediment is deposited, and such a deposit must be periodically removed. In addition, if the constant remaining in the water tank 10 for a long time, the residual chlorine must be present in the constant may be exhausted and the microorganisms can grow, the water quality may be deteriorated by the microbial propagation.

The first camera 20 is provided to check the water quality of the interior of the reservoir 10 in real time. According to the present embodiment, the first camera 20 is located at an upper side of the reservoir 10. It is provided to be able to descend.

In the present embodiment, the first camera 20 is an underwater camera capable of capturing an image in water, and the image captured by the first camera 20 is transmitted to a control unit 40 to be described later. That is, the first camera 20 is lowered from the upper side of the reservoir 10 so as to be locked in the constant to obtain a water quality image of the constant, and again rises to the image of the reservoir 10 in a state not obtained by the constant The state can be kept on the side.

In this embodiment, the first camera 20 is moved up and down by the winding device (50). In detail, the winding device 50 includes a wire 51, a pulley 52, and a motor 53.

The first camera 20 is connected to one end of the wire 51. The other end of the wire 51 is fixed to the pulley 52, and the wire 51 is wound or unwound by the rotation of the pulley 52.

The motor 53 rotates forward and backward the pulley 52. Accordingly, the wire 51 is wound or unwound by the pulley 52 by the operation of the motor 53, and the first camera 20 is lifted and lowered in the reservoir 10. The motor 53 is controlled by the controller 41 described later.

In the present embodiment, the first camera 20 is provided in plurality. Referring to FIG. 3, five first cameras 20 are provided. Of course, the number of the first cameras 20 is not limited thereto.

In addition, in the present embodiment, the winding device 50 is provided for each of the first cameras 20. Therefore, in this embodiment, five winding devices 50 are provided corresponding to the number of first cameras 20, and the operation of each winding device 50 is controlled by the controller 41.

In addition, according to the present embodiment, an opening 14 that is openable and openable is provided at an upper portion of the reservoir 10 so that the first camera 20 is introduced. The input unit 14 is provided for convenience of installation and maintenance of the first camera 20.

Since the first camera 20 is installed above the reservoir 10 through the inlet 14, the installation is simplified. In addition, when a failure occurs in the first camera 20 and needs to be replaced or repaired, the first camera 20 may be easily separated from the reservoir 10 through the input unit 14.

That is, when the first camera 20 needs to be collected while the water tank 10 is filled with water, the first camera 20 does not discharge all of the water in the water tank 10, and the first camera 20 does not discharge. Can be collected.

The outlet 11 connects a constant to each supply source of the building, and the outlet 12 is provided for discharging the stored constant. That is, the outlet 11 is provided so that the constant stored in the reservoir 10 is usually provided to the supply source in the building, and the outlet 12 is provided in the reservoir 10 to clean the inside of the reservoir 10. It is provided to discharge the stored constant arbitrarily.

The automatic washing device 30 is provided to clean the bottom of the reservoir (10). The automatic washing device 30 is carried in through the inlet 13 provided in the reservoir (10).

In the present embodiment, the automatic cleaning device 30 is equipped with a second camera 31. While cleaning the bottom of the reservoir 10, an image of the inside of the reservoir 10 is photographed by the second camera 31, and an image captured by the second camera 31 is transmitted to the controller 40. .

The control unit 40 is provided to control the first camera 20 and the automatic washing device 30 from the outside of the reservoir 10 without directly cleaning the inside of the reservoir 10 by manpower. The control unit 40 includes a control unit 41 and a display unit 42.

The control unit 41 controls the first camera 20 and the automatic cleaning device 30. According to the present embodiment, the controller 41 controls the motor 53 of the winding device 50. Accordingly, the user may inject the first camera 20 below the surface of the constant water through the control unit 41 or may stand by above the water tank 10.

In addition, the user controls the automatic cleaning device 30 through the control unit 41. For example, the driving time or driving direction of the automatic washing device 30 may be controlled. The configuration of the automatic washing device 30 is a known configuration, and since the configuration itself of the automatic washing device 30 is not a technical core of the present invention, a detailed description thereof will be omitted.

Of course, the automatic washing apparatus 30 may automatically wash the bottom of the reservoir 10 by a preprogrammed control program. For example, the automatic cleaning device 30 may be pre-programmed and operated to operate along a predetermined path for a predetermined time. In this case, the controller 41 may further control to start and end the operation of the automatic washing apparatus 30, change a predetermined operating time, and advance the automatic washing apparatus 30 operating in a predetermined path in a different direction. Can be.

The display unit 42 displays an image photographed by the first camera 20 and an image photographed by the second camera 31 included in the automatic cleaning device 30. Therefore, the user may perform the washing while checking the image inside the reservoir 10 displayed on the display unit 42.

According to the present invention, the spray nozzle 60 includes a supply pipe 70, a disinfectant storage unit 80, and a valve 90.

The spray nozzle 60 is provided to the upper portion of the reservoir 10 to spray the washing water. By the injection nozzle 60, the bottom of the reservoir 10 as well as the side wall can be washed.

The injection pressure of the washing water sprayed from the spray nozzle 60 is set to spray the washing water at high pressure during the washing of the bottom and sidewalls. It is set in the range of 0.05 to 1 atmosphere in consideration of the size and the contamination state of the reservoir (10).

According to the present embodiment, the user adjusts the spray pressure of the washing water sprayed from the spray nozzle 60 through the control unit 41 by referring to the images of the first and second cameras 20 and 31 displayed on the display unit 42. do.

The supply pipe 70 is a pipe for supplying the washing water to the injection nozzle 60, the disinfectant storage unit 80 is connected to the supply pipe 70 and is provided for storing disinfectants such as chlorine dioxide.

The valve 90 is provided to selectively supply the disinfectant stored in the disinfectant storage unit 80 to the supply pipe 70. When the valve 90 is opened, the disinfectant passes through the supply pipe 70. To the injection nozzle 60.

Hereinafter, the washing process using the reservoir unattended washing system of the embodiment of the present invention according to the configuration as described above.

The first camera 20 obtains a constant at regular intervals and checks the water quality of the constant. For example, the water quality of the constant filled in the reservoir 10 is checked every 1 to 10 days.

At this time, the level of the foreign matter floating in the bottom state and constant of the water storage tank 10 is confirmed. The first camera 20 is descended from the upper portion of the reservoir 10 through the control unit 41 and obtained as a constant, and the image taken by the first camera 20 is confirmed by the display unit 42, It is possible to check the state of the water quality and the bottom state of the reservoir 10 without a person entering the reservoir 10 directly.

When deposits need to be accumulated in the reservoir 10 to a predetermined level or more, the water stored in the reservoir 10 is discharged through the outlet 12. The first camera 20 is moved to the upper side of the reservoir 10 again by the winding device 50, and then the automatic washing device 30 is introduced through the inlet 13 of the reservoir 10 Clean the floor.

The start and end of the operation of the automatic washing apparatus 30, the operating time, the operation direction, and the like are controlled by the controller 41. When the automatic washing apparatus 30 automatically operates with a predetermined program, the controller 41 ) Can additionally control operations such as changing the operating time, changing the direction of operation, starting and stopping the operation.

Subsequently, the bottom and sidewalls of the reservoir 10 are washed through the injection nozzle 60. The injection pressure of the washing water sprayed through the injection nozzle 60 is adjusted through the control unit 41 in consideration of the size and contamination state of the reservoir 10, and the washing water at high pressure when the bottom and sidewalls of the reservoir 10 are washed. To be sprayed.

The cleaning process through the automatic washing apparatus 30 and the spray nozzle 60 is observed by the second camera 31 and the first camera 20 of the automatic washing apparatus 30, and the water tank in the process of washing is performed. (10) The state inside is confirmed through the display unit 42.

Subsequently, the valve 90 is opened to disinfect the disinfectant stored in the disinfectant storage unit 80 through the spray nozzle 60. The disinfectant is to maintain the proper concentration so that the concentration of the discharged water discharged through the outlet 12 after the disinfection is completed to be 0.2mg / L or more.

That is, the disinfectant moving toward the injection nozzle 60 by the opening of the valve 90 is mixed with the washing water, so that the concentration of the discharged water discharged after the washing and disinfection is completed can be maintained above the concentration. Diluted.

The disinfectant is preferably sprayed at a relatively low pressure than when only the washing water is sprayed. This is to prevent the disinfectant from being washed under the high pressure spray without sufficiently disinfecting the bottom and sidewalls of the reservoir 10.

As such, when the bottom and the water quality of the water tank 10 is checked, the washing using the automatic washing device 30 and the spray nozzle 60 and the disinfection using the disinfectant are completed, the automatic washing device 30 is recovered and the water tank ( 10) The cleaning of the reservoir 10 is completed by discharging the washing water and the residue accumulated at the bottom through the discharge port 12.

As described above, in the unmanned water tank cleaning system according to the present invention, the cleaning time of the water tank 10 provided at the place where water is used for receiving water, such as an apartment or a large building, can be easily identified using the first camera 20. A person directly enters the reservoir 10 to eliminate the trouble of checking the bottom state of the reservoir 10 and the water quality of the constant.

In addition, since the cleaning of the inside of the water tank 10 is cleaned in an unattended manner, the inside of the water tank 10 can be prevented from being further contaminated after the cleaning by the manpower when cleaning by the manpower, thereby providing the effect of reducing labor costs.

In addition, by checking the state in the reservoir (10) in real time to cleanly manage the inside of the reservoir (10), it provides an effect of effectively managing the clean state of the reservoir (10) and reducing the occurrence of complaints.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, and many modifications may be made without departing from the scope of the present invention.

10 ... reservoir 11 ... outlet
12 ... outlet 13 ... inlet
14 ... Input 20 ... First Camera
30 ... Automatic washing machine 31 ... Second camera
40 ... control section 41 ... control section
42. Display 50 ... Winding device
51 ... wire 52 ... pulley
53. Motor 60 ... Injection nozzle
70 ... Supply line 80 ... Disinfectant storage
90 ... valve

Claims (6)

In a reservoir unattended cleaning system for washing the reservoir of the building,
A reservoir (10) for storing the constant, having a discharge port (11) for connecting the constant to each supply source of the building, and a discharge port (12) for discharging the stored constant;
A plurality of first cameras 20 introduced through an input unit 14 provided to be opened and closed at an upper portion of the reservoir 10, and coupled to the upper portion of the reservoir 10 so as to be lifted and lowered;
After the constant is discharged through the outlet 12, the water is brought in through the inlet 13 provided in the reservoir 10 to wash the bottom of the reservoir 10, the second camera 31 is equipped with automatic Washing device 30;
An injection nozzle 60 provided on an upper portion of the reservoir 10 to spray washing water to wash the bottom and sidewalls of the reservoir 10;
Supply pipe 70 for supplying the washing water to the injection nozzle (60);
A disinfectant storage unit 80 connected to the supply pipe 70 and storing a disinfectant;
A valve 90 to selectively supply the disinfectant of the disinfectant storage unit 80 to the supply pipe 70; And
The control unit 41 controls the lifting and lowering of the first camera 20 and the automatic cleaning device 30, and the display unit 42 displaying images captured by the first and second cameras 20 and 31. It includes a control unit 40;
The injection pressure of the washing water sprayed through the spray nozzle 60 is controlled by the controller 41, and the spraying pressure when the disinfectant is supplied together with the washing water is the spraying pressure when only the washing water is sprayed. Is controlled to be smaller than
After the disinfection by the disinfectant is completed, the concentration of the disinfectant contained in the discharged water discharged through the outlet 12 by mixing the washing water and the disinfectant is maintained at 0.2mg / L or more,
It comprises a winding device 50 for lifting up and down the first camera 20,
The winding device 50, one end of the wire 51 is connected to the first camera 20, the other end of the wire 51 is fixed and the pulley 52 is wound or unwinded when the wire 51 is rotated , And a motor 53 for forward and reverse rotation of the pulley 52,
The motor (53) is controlled by the control unit (41), characterized in that the water tank unattended washing system.
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