KR100343525B1 - Water supply system - Google Patents

Abstract

The water supply system according to the present invention, the motor pump for pumping the water of the intake, and the water pumped by the motor pump receives and stores through the pipe at a predetermined height so that the water is supplied to each home by the hydraulic pressure difference It includes a water tank located and an automatic water level control device for sensing the water level in the water tank and controlling the motor pump to selectively operate according to the water level. The automatic water level control device includes a water level sensor that detects a water level in the water tank, a transmitter that collects a detection signal by the water level sensor and transmits the signal wirelessly, and receives a signal transmitted from the transmitter to a predetermined electrical signal. And a controller for controlling the driving of the motor pump in response to the signal output from the receiver. According to this, since the water level signal of the water tank is wirelessly transmitted and received, there is no need for a component such as a conventional wiring or a pressure sensor. In addition, the construction is simpler than the conventional wired water level transmission / reception method and the pressure control method, and the construction can be performed at a constant low cost regardless of the distance.

Description

Water supply system {WATER SUPPLY SYSTEM}

The present invention is a water supply system, more specifically, a water supply system for pumping water from a water intake (ground water, wells, etc.) and storing it in a tank located at a predetermined height, and supplying water from the tank to each home by a hydraulic pressure difference caused by a height difference. It is about.

Such a water supply system has been developed and used to solve drinking water shortages of people living in the county, town, and village areas living in small and medium-sized rivers, or in areas with low rainfall.

As shown in FIG. 1, the water supply system pipes a water pump 1, for example, a motor pump 2 for pumping water such as groundwater or a well, and water pumped by the motor pump 2. It is provided with a water tank (4) located at a predetermined height to receive and store through (3). The water tank 4 and each of the households to be supplied are connected by a second pipe 5, and the water in the water tank 4 is a hydraulic pressure difference due to the height difference between the height of the tank 4 and each household. It is to be supplied to each household by.

In addition, the water tank (4) is provided with a water level sensor (6) for detecting the water level stored in the tank, the water level sensor (6) is a controller located in the intake (1) through the wire (7) It is connected with (8). The water level sensor 6 detects the water level in the water tank 4 and transmits it to the controller 8. The controller 8 receives a signal transmitted from the water level sensor 6 and the motor pump driving signal when the water level is low. If the motor is at a high level, the motor pump stop signal is output. As a result, the water tank 4 may always store an appropriate amount of water.

In the drawings, reference numeral 9 denotes an overflow tube.

However, the conventional general water supply system as described above has a wired transmission / reception structure in which the water level sensor 6 located at the controller 8 and the water tank 4 is connected through a wire 7. Since the electric wire 7 must be installed together with the pipe 3, the construction is inconvenient, and the installation cost is different depending on the distance. In particular, in case of a breakdown, for example, when a buried electric wire is disconnected, the periphery of the pipe is shunted to find the disconnection position. There is a problem that the maintenance work is very difficult, such as to pay.

On the other hand, as a way to solve the problem of the water supply system having a wired transmission and reception structure as described above, by using a pressure sensor to detect the amount of water in the water tank, according to the result of the pressure control method of controlling the driving of the motor pump Although a water supply system is known, in this case, since a pressure sensor or a cage must be installed in the pipe, the problem of inconvenient construction and a problem in which the installation cost varies depending on the capacity or distance of the motor pump are still inevitable. In addition, the water supply system of the pressure control system has another problem that there is a risk of pipe rupture and leakage when the pressure sensor breaks down, and when the pipe is leaked, it becomes impossible to control the pressure.

The present invention was devised in view of the above problems of the conventional water supply system, and by wirelessly transmitting and receiving the water level detection signal of the water tank, there is no need for wires as in the related art, and thus construction can be simplified and installation cost can be reduced. The purpose is to provide a water supply system.

Another object of the present invention is a water supply system capable of increasing reliability by increasing the reliability by being able to transmit and receive a motor pump control signal according to the level of the water tank without being affected by the motor pump or the pipe pressure, so that there is almost no failure and accurate control is possible. To provide.

1 is a view schematically showing an example of a general water supply system,

2 is a view schematically showing a water supply system according to an embodiment of the present invention;

3 is a view schematically showing a water supply system according to another embodiment of the present invention, and

4 is a flow chart for explaining the operation of the water supply system according to the present invention.

Explanation of symbols on the main parts of the drawings

1; water intake 2; motor pump

3,5; 1,2 pipes 4; water tank

10; automatic level control device 11; first level sensor

12; transmitter 13; receiver

14; controller 20; second level sensor

The water supply system according to the present invention for achieving the above object, the motor pump for pumping the water of the intake and the water pumped by the motor pump receives through the piping and stores the water by the hydraulic pressure difference A water tank positioned at a predetermined height to be supplied to the home, and an automatic water level control device for sensing the water level in the water tank and controlling the motor pump to be selectively driven according to the water level so as to properly maintain the water level in the water tank.

The automatic water level control device includes a water level sensor that detects a water level in the water tank, a transmitter that collects a detection signal by the water level sensor and transmits the signal wirelessly, and receives a signal transmitted from the transmitter to a predetermined electrical signal. And a controller for controlling the driving of the motor pump in response to the signal output from the receiver.

In addition, according to a preferred embodiment of the present invention, the water supply system further comprises a second water level sensor for detecting the water level of the intake. Here, the second water level sensor is connected to the receiver, and thus, the drive control of the motor pump according to the water level of the water intake can be performed together with the drive control of the motor pump according to the water tank level. According to this, the overload phenomenon etc. of the motor pump which generate | occur | produces by running out of water of a water intake can be prevented beforehand.

Meanwhile, the water supply system according to the present invention may further include a battery or a solar cell that can be used as a driving source of the motor pump in an area where commercial power is not available, such as a mountainous area.

The above objects and other features of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings.

2 is a view schematically illustrating a water supply system according to an embodiment of the present invention. For reference, in describing the embodiments of the present invention, the same reference numerals refer to the same parts as those in the related art.

As shown in FIG. 2, the water supply system according to the present invention includes a motor pump 2 for pumping water from the water intake 1 and a motor 3 connected to the motor pump 2 by a pipe 3. A water tank 4 for storing the water pumped by 2), a plurality of second pipes 5 connecting the water tank 4 and each household as a recipient of water, and in the water tank 4 It is provided with an automatic water level control device 10 for maintaining a constant water level so as not to run out of water.

The intake pond 1 may include groundwater or wells, but is not necessarily limited thereto. For example, in the case of using it for general living water instead of drinking water, a reservoir or the like may be used as a drinking water. The water in the intake pond 1 is pumped to the ground, for example the water tank 4, by a motor pump 2 installed adjacent thereto.

The water tank 4 is disposed at a position of a predetermined height so that the water in the water tank 4 is supplied to each home by the hydraulic pressure difference due to the height difference. Preferably, it is advantageous to be located in the center of the village among the high zone of the village to be watered in terms of installing the pipe. And, the second pipe 5 is connected to each home from the water tank 4, the pipe considering the hydraulic pressure difference is required.

On the other hand, the automatic water level control device 10 detects the water level in the water tank 4 and controls the motor pump 2 to be selectively driven according to this water level, thereby appropriately adjusting the water level in the water tank 4. It serves to maintain.

The automatic level control device 10, the water level sensor 11 for detecting the water level in the water tank 4, and collects the detection signal by the water level sensor 11 and transmits this signal wirelessly The transmitter 12, a receiver 13 for receiving a signal transmitted from the transmitter 12 and outputting a predetermined electrical signal, and driving the motor pump 2 for receiving a signal output from the receiver 13 It has a controller 14 for controlling.

The transmitter 12 and the receiver 13 have omni-directional or directional antennas 12a and 13a, respectively, and may use an RFmodem having an output of 10 mW or less. In this case, data can be freely transmitted and received within a radius of 1 km. In particular, in the case where the wireless terminal termination output of the transceivers 12 and 13 is 10W, since data can be transmitted and received up to about 20 km, there is a lot of cost reduction effect compared to the method using a wired.

In addition, the water supply system according to the present invention operates as a normal commercial power source, but may further include a battery or a solar cell as a reserve power source for the commercial power source can not be used, according to the present invention in the mountain region It can be useful to install water supply system. 2 shows an example in which a heat collecting plate 15 as a solar cell is installed in the transmitter 12.

On the other hand, the water supply system according to the present invention, as shown in Figure 3, may be further provided with a second water level sensor 20 for detecting the water level of the intake (1). The second water level sensor 20 is connected to the receiver 13, so that the water level detection signal of the water intake 1 by the second water level sensor 20 is transmitted to the receiver 13. It is transmitted, and the drive control of the motor pump 2 according to the water level of the intake 1 becomes possible. That is, in the water supply system according to another embodiment of the present invention, the driving of the motor pump 2 according to the water level of the water tank 4 together with the driving of the motor pump 2 according to the water level of the water intake 1 Drive control is made. According to this, when the water intake 1 is depleted, such information is transmitted to the receiver 13 by the water level sensor 20 so that the motor pump 2 does not drive, so in this case the motor pump ( It is possible to prevent the overload of the motor pump 2 generated by 2) continuously driving. Since other configurations are the same as in the exemplary embodiment of the present invention described above, the same reference numerals will be used and detailed description thereof will be omitted.

Hereinafter, the operation of the water supply system according to the present invention configured as described above will be described with reference to the flowchart of FIG. 4.

The normal water supply action is the same as in the conventional case. That is, the water of the intake reservoir 1 is pumped by the driving of the motor pump 2, and the water is stored in the water tank 4 located at a predetermined height on the ground through the pipe 3. When a water valve (not shown) is operated in each home in a state where an appropriate amount of water is stored in the water tank 4, the water tank 4 and each household water supply are connected by the second pipe 5, Since the water supply of each household is lower than the position of the water tank 4, the water of the water tank 4 is supplied to each household by the hydraulic pressure difference.

At this time, the water level sensor 11 detects the water level of the water tank 4, the second water level sensor 20 detects the water level of the water intake (1) (S100). The water level data detected in step S100 is transmitted to the controller 14 through the receiver 13 (S110), and the water level data of the water tank 4 detected by the water level sensor 11 is transmitted to the transmitter 12. Collected by the receiver 13 and wirelessly transmitted to the receiver 13, and the water level data of the intake water 1 detected by the second water level sensor 20 is collected by the receiver 13 and transmitted to the controller 14. .

The controller 14 receives each water level data transmitted in the above-described process, and determines whether the water level of the water tank 4 is present and how high the water level of the intake port 1 is based on the data (S120). , S130, S140).

If it is determined that the water level of the water tank 4 is a low water level (S120), the motor pump 2 is outputted to start the motor pump 2 (S150), and the water level of the water tank 4 is increased. If it is determined that the high water level (S130), the motor pump 2 outputs a stop signal so that the motor pump 2 does not start (S160). As a result, since the proper amount of water is always present in the water tank 4, the motor pump 2 despite the situation that the water in the water tank 4 is insufficient to supply water or the water in the water tank 4 is sufficient. ), It is possible to prevent unnecessary power consumption and waste of water caused by starting.

On the other hand, the controller 14, in the case of the step S120, that is, when the water level of the water tank 4 is determined to be a low water level, if the water level of the intake station 1 is a low water level (S140), water must be supplied to the water tank. Nevertheless, the motor pump is not started by outputting the motor pump stop signal in consideration of the water level of the intake station (S160). Of course, in the above case, if the water level of the intake station is a high water level, the normal motor pump start signal is output so that water is supplied to the water tank 4. This is to prevent the depletion of water in the intake station and to prevent the motor pump 2 from being started unnecessarily even though there is no water in the intake station, that is, to prevent the overload of the motor pump.

According to the present invention as described above, since the water level signal of the water tank is wirelessly transmitted and received, there is no need for a component such as a wire or a pressure sensor as in the prior art. Therefore, the construction is simpler than the conventional wired or pressure control method, and the construction can be performed at a constant low cost regardless of the distance.

In addition, the water supply system according to the present invention transmits and receives the water level signal of the water tank wirelessly using radio waves, so that the water supply system is not influenced by the pipe pressure, so that the failure rate is low and accurate control is possible.

In addition, since the water supply system according to the present invention includes not only a commercial power source but also a battery and a solar cell, it is advantageous in that the water supply system can be installed in an area where commercial power cannot be used.

On the other hand, while the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the above-described embodiment, the field to which the invention belongs without departing from the spirit of the invention claimed in the claims below. Of course, anyone skilled in the art can make various modifications, as well as such modifications are within the scope of the claims.

Claims (3)

As a water supply system that pumps the water from the intake reservoir into a water tank located at a predetermined height on the ground, and supplies the water from the water tank to each home by a hydraulic pressure difference. And an automatic level control device for sensing the water level in the water tank and controlling the motor pump to selectively operate according to the water level, thereby maintaining the water level in the water tank properly. The automatic water level control device, A water level sensor for sensing the water level in the water tank; A transmitter for collecting a detection signal by the water level sensor and transmitting the signal wirelessly; A receiver which receives a signal transmitted from the transmitter and outputs the signal as a predetermined electrical signal; And And a controller configured to control the driving of the motor pump in response to the signal output from the receiver. The method of claim 1, A second water level sensor is further provided for detecting the water level of the water inlet, and the second water level sensor is connected to the receiver to control the driving of the motor pump according to the water tank level. Water supply system characterized in that the drive control of the motor pump according to the water level is also possible. The method according to claim 1 or 2, A water supply system, further comprising a battery or a solar cell for use as a power source of the motor pump in a region where commercial power is not available.