JP2008000113A - Water supply quantity controlling system of self power feeding type - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water supply quantity controlling system of a self power feeding type, controlling and effectively using city water (agricultural water or the like) even in a place where it is difficult to secure commercial power source. <P>SOLUTION: This water supply quantity controlling system has noncommercial power sources 20 and 30 such as a solar light power generator and a hydroelectric power generator, an electric valve 60 which is driven with the noncommercial power sources 20 and 30 and controls water supply, a noncontact card 48 of union members, a reader 46, a controller 42 which controls the electric valve 60, and a stop switch 44 which stops water supply. It is possible to control a water demand condition and plan equipment arrangement through setting in the system an antenna 50 which records water supply data of union members and sends the water supply data of union members to a central observation post set with data collection equipment to collect data, and as a result to effectively use agricultural water. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to, for example, a water supply amount management system for agricultural water, and more particularly, to a self-powered water supply amount management system installed at a place where it is difficult to secure commercial power.

  For example, as disclosed in Patent Document 1, there has been proposed an agricultural water management system capable of appropriately distributing agricultural water by appropriate valve management corresponding to the demand of each terminal area.

  This conventional agricultural water management system stores fixed information, variable information, and correction information for water distribution control, calculates the required water intake based on each information, controls the water distribution to each area, and greatly saves labor Is possible.

JP 2000-135034

  By the way, the conventional agricultural water management system described in Patent Document 1 is based on the premise that commercial power is supplied. However, it is difficult to secure commercial power in the agricultural water facility, and the water faucet is fixed by a manual valve. There are so many places where the members of the association are opening and closing to supply agricultural water.

At such water supply points for agricultural water, there is no meter such as tap water, the actual amount of water supply cannot be measured, and the amount of agricultural water used is managed personally, and It is very difficult to centrally manage at a central monitoring station.
Moreover, since the faucet is manual, water can be taken by anyone other than union members, and agricultural water may be used without permission.

Therefore, the following problems are provided at places where it is difficult to secure commercial power.
(1) It is necessary to secure a power supply capable of self-sufficiency and to make the water faucet electric.
(2) A mechanism that can only be used by designated members is required.
(3) A mechanism that can manage the amount of water used is necessary.
(4) It is necessary to centrally manage the amount of water used, manage the water demand, and plan the layout of the facilities.

  An object of the present invention is to solve the above problems (problems) and to provide a self-powered water supply amount management system capable of managing and effectively using agricultural water even in places where it is difficult to secure commercial power.

  The self-powered water supply amount management system according to the present invention includes a non-commercial power source, an electric valve that is driven by the non-commercial power source and controls water supply, a member identification function, A controller for controlling the electric valve and a stop switch for stopping water supply are provided, and a predetermined member is supplied with a desired amount of water.

  The self-powered water supply amount management system according to claim 2 is configured such that the member identification function includes a contactless card and a reader of the contactless card.

  The self-powered water supply amount management system according to claim 3 is a wireless system that records the water supply data of the member and transmits the water supply data of the member to a central monitoring station where a data collection device for collecting the member is installed. It was configured to include equipment.

  The self-powered water supply amount management system according to claim 4 is configured such that the non-commercial power source is a solar power generation device, a hydroelectric power generation device, a wind power generation device, or a combination thereof.

Since the self-powered water supply amount management system of the present invention is configured as described above, it has the following excellent effects.
(1) If comprised as described in Claim 1, electric power is supplied from a non-commercial power source even in a place where it is difficult to secure a commercial power source, and the amount of water supply can be controlled accurately.
(2) In addition, unauthorized water supply by non-members can be prevented.

(3) When configured as described in claim 2, the members can be identified accurately and easily.

(4) With the configuration as described in claim 3, since the water usage can be centrally managed at the central monitoring station, the demand situation of water can be managed and the arrangement of facilities can be planned. Effective use.

(5) If it comprises as described in Claim 4, while it can be set as a suitable noncommercial power supply, it will become a system which utilizes water flow energy effectively.

Hereinafter, an embodiment of a self-powered water supply amount management system of the present invention will be described with reference to FIG.
First, the basic configuration of the self-powered water supply amount management system of the present embodiment will be described with reference to FIG.
FIG. 1 is a block diagram showing a configuration of a self-powered water supply amount management system according to an embodiment of the present invention.

  The self-powered water supply amount management system 10 of the present embodiment is electrically driven by a solar power generation device 20, a hydroelectric power generation device 30, a solar power generation device 20, and a hydroelectric power generation device 30 as a non-commercial power source. The configuration includes a valve 60, member identification functions 46 and 48, and a controller 42 that controls the electric valve 60.

Further, in the self-powered water supply amount management system 10 of the present embodiment, the water supply data of the members is recorded, and the water supply data is transmitted to a central monitoring station (not shown) where the data collection device for collecting is recorded. The transmission antenna 50 is provided.
In FIG. 1, 62 is an emergency manual valve, 70 is a flow meter, and 80 is a water supply channel.

Furthermore, in the self-powered water supply amount management system 10 of the present embodiment, the member identification function includes a non-contact card 48 such as a non-contact IC card or an ID card, and a reader 46 for the non-contact card 48. With the above configuration, as shown in FIG. 1, the controller 42 and the reader 46 of the non-contact card 48 are accommodated in the operation box 40.
In the operation box 40, 44 is a stop switch for stopping water supply.

In the self-powered water supply amount management system 10 of the present embodiment, the solar power generation device 20 supplies the electric power generated from the solar battery 22 to the operation box 40 via the power generation controller 36, and the hydroelectric power generation device 30 is The system is composed of a water turbine 32 and a generator 34 that are installed in any part of the water supply channel 80 and rotate when water is supplied, and can be self-powered via the power generation controller 36 and can effectively utilize water energy. ing.
Surplus power is stored in the storage battery 38 via the power generation controller 36.
Since electric power is supplied from the storage battery 38 via the power generation controller 36 during non-sunshine or non-water supply, self-power feeding is always possible.

In the present embodiment, the water supply of the members is controlled by the electric valve 60, and the electric motor 60 is controlled by the controller 42.
Electric power from the solar power generation device 20 and the hydroelectric power generation device 30 is supplied to the electric valve 60 via the operation box 40.

Next, the basic operation of the self-feeding water supply amount management system 10 of the present embodiment will be described with reference to FIG.
First, a registered member who wants to supply water in the self-powered water supply amount management system 10 according to the present embodiment assigns his / her non-contact card 48 to the reader 46 of the non-contact card 48 to determine whether he / she is a member. To identify
At this time, when a member is a member, the water supply is enabled. When the member is not a member, a protection function is provided to disable the water supply.
Thereby, unauthorized water supply other than a member can be prevented.

Next, after being recognized as a member, the water supply for agricultural use is started by opening the electric valve 60.
At this time, the controller 42 detects the amount of water supply from the flow meter 70 at any time, the member confirms that the necessary water supply amount has been supplied, and stops the water supply with the stop switch 44.

  Next, since there are a plurality of water faucet facilities, the water supply data of the members is sent to the central monitoring station wirelessly (such as PHS) by using the operation box 40 incorporating the antenna 50 which is a wireless facility. The data is collected and collected by the data collection device and output to a form.

Therefore, in the self-powered water supply amount management system 10 of the present embodiment, electric power is supplied to the electric valve 60 from the solar power generation device 20 and the hydroelectric power generation device 30, and it is difficult to secure a commercial power source. The amount of water supply can be accurately controlled.
In addition, since the water usage can be centrally managed at the central monitoring station, it is possible to manage the demand situation of water and to plan the layout of facilities, so that agricultural water can be used effectively.

The self-powered water supply amount management system of the present invention is not limited to the above embodiment, and various modifications are possible.
In the above embodiment, a combination of a solar power generation device and a hydroelectric power generation device is used as a non-commercial power source. However, a wind power generation device may be used in addition to this.
In addition, in the above embodiment, the member identification function has been described using an example of using a non-contact card and its reader, but it is needless to say that the member identification function is not limited to this example.

It is a block diagram which shows the structure of the self-feeding type water supply amount management system of one embodiment of this invention.

Explanation of symbols

10: Self-powered water supply amount management system 20: Solar power generation device 30: Hydroelectric power generation device 42: Controller 44: Stop switch 46: Reader 48: Non-contact card 50: Antenna 60: Electric valve

Claims (4)

With non-commercial power,
An electric valve that is driven by this non-commercial power source and controls water supply;
Union member identification,
A controller for controlling the electric valve;
A stop switch for stopping water supply,
A self-powered water supply amount management system characterized in that a predetermined member is supplied with a desired amount of water supply. The self-powered water supply amount management system according to claim 1, wherein the member identification function includes a contactless card and a reader of the contactless card. The self-powered water supply management system is
The wireless facility for recording the water supply data of the member and transmitting the water supply data of the member to a central monitoring station where a data collecting device for collecting the member is installed is provided. The self-powered water supply amount management system according to 2. The self-powered water supply amount according to any one of claims 1 to 3, wherein the non-commercial power source is a solar power generation device, a hydroelectric power generation device, a wind power generation device, or a combination thereof. Management system.

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