KR200380026Y1 - Urine automatic washer power supply control device using solar-module - Google Patents

Abstract

The present invention is a solar cell for converting solar light into electrical energy, a rectifier for converting the energy converted from the solar cell into a current of a predetermined magnitude and a charging means for charging the power by the current supplied from the rectifier And a distance sensor for detecting whether the user is located within a predetermined distance and outputting a detection signal, a driver for outputting an operation signal according to the detection signal output from the distance sensor, and an operation signal output from the driver. When the charging means is configured to be operated by receiving the charged power to the charging means, the charging means, the first relay for selectively supplying the power supplied from the rectifier, and selectively supplied from the first relay The first battery and the second battery, and the first battery and the second battery that is charged by the power source A power supply control device for an automatic urine cleaner using a solar module, comprising a second relay for selectively supplying electric power to the washing apparatus, and a control device for controlling the operation of the first relay and the second relay. It is about.

Therefore, by selectively charging a plurality of batteries with power supplied from the solar cells, and selectively supplying them with an automatic urine cleaner, the charging efficiency of the batteries can be increased, and thus the life of the product can be extended. This would be possible.

In addition, even if a fault occurs in any one of the different batteries, the automatic urine washing machine is to continue to operate, thereby improving the reliability of the product.

Therefore, it is a very useful design such that the convenience of use is improved to improve the marketability.

Description

Urine automatic washer power supply control device using solar-module}

The present invention relates to a power supply control device for an automatic urine cleaner using a solar module, and more particularly, by selectively charging a plurality of batteries with power supplied from the solar cell, and selectively supplying the automatic urine cleaner, The charging efficiency of the battery can be increased, and thus the life of the product can be extended, thereby enabling semi-permanent use, and even if a fault occurs in any one of the batteries, the urine automatic washing machine can be used. By making it work continuously, it is possible to improve the reliability of the product.

In general, an automatic washing machine is installed in a urinal installed in a common toilet, such as a building or a restaurant, and the automatic urine washing machine detects that a user approaches within a certain distance and then moves out of a predetermined distance by using a distance sensor. It is for washing the urinal automatically after the toilet.

The automatic urine washing machine as described above has a built-in primary battery and was operated by the power supplied from the primary battery, but there was a need to frequently replace the primary battery.

In order to solve this problem, a built-in secondary battery capable of charging and discharging in the urine automatic washing machine, and supplying power to the urine automatic washing machine using the secondary battery, the charging of the secondary battery in various ways Can be provided by

On the other hand, the development of alternative energy is accelerating as various problems caused by fossil fuel and nuclear energy have recently emerged, and among these alternative energy, the development of solar cells that convert sunlight into electrical energy is being developed. .

3 is a block diagram of a conventional automatic washing machine using a solar cell, the solar cell is converted into electrical energy by the solar cell 10, the converted energy is a current of a certain size in the rectifier 20 It is converted and supplied to the storage battery 30 'and charged.

In this case, the constant current refers to an input current for charging the storage battery 30 'and may vary depending on the specifications of the storage battery 30'.

The distance sensor 40, the driving unit 50, and the cleaning device 60 are continuously supplied by the power supplied by the storage battery 30 ', and the user is placed close to the urinal to see the toilet. If so, the distance sensor 40 detects whether the user is located within a predetermined distance and outputs a detection signal accordingly, and the detection signal output from the distance sensor 40 is transmitted to the driver 50.

The driving unit 50 outputs an operation signal for operating the cleaning device 60 by the input detection signal, and the cleaning device 60 is to wash the urinal by the input operation signal.

However, the automatic urine washing machine using the conventional solar cell as described above is supplied from the solar cell 10 because the distance sensor 40, the driving unit 50 and the washing device 60 are continuously supplied with power. Most of the power is not to be charged in the battery (30 '), in the case of winter when the amount of sunshine is the battery (30') is not a charge, but rather a problem that is discharged.

Therefore, the charging efficiency of the battery 30 'is lowered, and the life of the product is shortened. There is an inconvenience of having to replace the battery 30'.

In addition, when the storage battery 30 'is not normally operated due to the above reason or a defect of the storage battery 30' itself, there is a problem that the automatic washing machine itself is not operated.

Therefore, an object of the present invention is to solve the conventional problems as described above, and to configure a battery for charging the power supplied from the solar cell, and a battery for operating the automatic urine cleaner separately, alternately the different storage battery By charging and discharging, it is possible to increase the charging efficiency of the battery, thereby extending the life of the product to provide a power supply control device for an automatic urine washing machine using a solar module that can be used semi-permanently.

In addition, even if a fault occurs in any one of the different batteries, the automatic urine cleaner can be operated continuously, power supply control for automatic urine cleaner using a solar module that can improve the reliability of the product In providing a device.

Another object of the present invention is to provide a power supply control device for an automatic urine washing machine using a solar module to improve the convenience of use and to improve the marketability.

Power supply control device for an automatic urine washing machine using a solar module according to the present invention for achieving the above object, and a solar cell for converting solar light into electrical energy, the energy converted from the solar cell to a constant current Rectifier for converting and supplying, Charging means for charging the power by the current supplied from the rectifier, Distance sensing sensor for detecting whether the user is located within a predetermined distance and outputs a detection signal according to, and output to the distance sensing sensor Wherein the driving unit for outputting the operation signal in accordance with the detection signal and the operation signal output from the driving unit is configured, the washing device is operated by receiving the charged power to the charging means, the charging means, from the rectifier A first relay for selectively supplying supplied power, and selectively from the first relay A first battery and a second battery charged by a sudden power supply, a second relay for selectively supplying power charged in the first battery and the second battery to the washing apparatus, the first relay and the second battery It is characterized by consisting of a control device for controlling the operation of the relay.

In addition, the power supply control device for an automatic urine washing machine using the solar module according to the present invention for achieving the above object, selectively supplying the charged power to the first battery and the second battery to the charging means and the control And a third storage battery which is controlled by an apparatus, and a third storage battery and a fourth storage battery charged by a power source selectively supplied from the third relay and supplied to the second relay.

Therefore, to increase the charging efficiency of the battery, thereby extending the life of the product can be used semi-permanently, as well as to improve the reliability of the product.

In addition, the ease of use is improved, and the merchandise is more improved.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention to be described in detail.

1 is a block diagram of a power supply control device for an automatic urine cleaner using a solar module according to the present invention, a solar cell 10, a rectifier 20, a charging means 30, a distance sensor 40, a driving unit ( 50), the washing device 60.

The solar cell 10 is used to convert sunlight into electrical energy, and mainly uses a modularized number of cells, and various ones may be used according to the needs of those skilled in the art.

The rectifier 20 is for supplying by converting the energy converted from the solar cell 10 into a current of a predetermined size, so as to supply a current corresponding to the specifications of the plurality of storage batteries configured in the charging means (30). It is composed.

The charging means 30 is for charging the power by the current supplied from the rectifier 20, the first relay 31, the first storage battery 32, the second storage battery 33, the second relay ( 34), the control device 35, the detailed operation will be described below.

The distance sensor 40 is for detecting whether the user is located within a certain distance and outputs a detection signal according to the configuration, the configuration can be applied to a variety of light sensor, ultrasonic sensor, heat sensor, and the like. .

The drive unit 50 is to output an operation signal for operating the cleaning device 60 according to the detection signal output from the distance sensor 40, the operation and operation of the cleaning device 60 Time and so on.

The washing device 60 is operated to wash the urinal by the operation signal output from the driving unit 50, and includes a valve for selectively supplying the urine to the urine with water supplied from a water supply pipe (not shown). And opening and closing of the valve is controlled by the operation signal.

Looking at the operation of the power supply control device for automatic urine cleaner using the solar module according to the present invention configured as described above, the energy supplied by the solar cell 10 is converted into a current having a certain size through the rectifier 20 The converted current is supplied to the first relay 31 of the charging means 30.

The first relay 31 selects one of the first capacitor 32 and the second capacitor 33 to supply the power supplied from the rectifier 30.

For example, when the power supplied from the rectifier 20 is supplied to the first capacitor 32 through the first relay 31, the first capacitor 32 is charged by the supplied power.

In this case, the power charged in the second capacitor 33 supplies power to the distance detecting sensor 40, the driving unit 50, and the cleaning device 60 through the second relay 34.

Here, the operation of the first relay 31 and the second relay 34 is controlled by the control device 35, and the first relay 31 and the second relay 34 to operate each reference time. Preferably, the first relay 31 and the second relay 34 may be measured when the internal voltage of any one battery supplying power through the second relay 34 is lowered below a reference voltage. ), One of the batteries is charged and the other is used to supply power.

That is, as the power charged in the second storage battery 33 is supplied to the distance sensor 40, the driving unit 50, and the cleaning device 60 through the second relay 34, as described above. When the internal voltage of the second storage battery 33 decreases and falls below a reference voltage, the control device 35 operates the first relay 31 and the second relay 34.

Here, the reference voltage refers to a maximum voltage at which the charging efficiency of the second storage battery 33 decreases.

When the control device 35 operates the first relay 31 and the second relay 34, the power supplied from the solar cell 10 passes through the rectifier 20 to the first relay 31. The second storage battery 33 is supplied to the second storage battery 33 through the second storage battery 33, and the power charged in the first storage battery 32 is supplied to the second storage battery 34 through the second relay 34. ) And the driving unit 50 and the washing device 60 to supply power.

Therefore, by charging and discharging the first storage battery 32 and the second storage battery 33 alternately so as not to decrease the charging efficiency, the power supply is continuously supplied, and the first storage battery 32 and the second storage battery 33 It can extend the life.

In addition, even if a fault occurs in any one of the first storage battery 32 and the second storage battery 33, the other battery may be used to continuously supply power.

On the other hand, as described above, when one of the first storage battery 32 and the second storage battery 33, the fault occurs, when the continuous supply of power using the other storage, the fault occurs If the old battery is not replaced, the above-described conventional problem may be generated as it is.

To solve this problem, referring to another example of a power supply control device for an automatic urine washing machine using the solar module according to the present invention shown in FIG. 2, the first storage battery 32 is charged to the charging means 30 shown in FIG. 1. ) And a third relay 36 selectively supplying power charged to the second storage battery 33 and controlled by the control device 35, and a power supply selectively supplied from the third relay 36. And a third storage battery 37 and a fourth storage battery 38 which are charged by the second relay 34 and are supplied to the second relay 34.

That is, by alternately using the third capacitor 37 and the fourth storage battery 38, a problem caused by a defect in one of the first storage battery 32 and the second storage battery 33 can be solved. will be.

In addition, even if a defect does not occur in the first storage battery 32 and the second storage battery 33, the third battery 37 by using the third battery 37 and the fourth battery 38 alternately. ) And the fourth storage battery 38 to increase the charging efficiency and to stably supply power.

The present invention may be modified in various ways without departing from the basic concept according to the needs of those skilled in the art.

As described above, according to the present invention, by selectively charging the power supplied from the solar cells to a plurality of storage batteries, and selectively supplying them to a urine automatic washing machine, thereby increasing the charging efficiency of the storage battery, and thus the life of the product It can be extended and used semi-permanently.

In addition, even if a fault occurs in any one of the different batteries, the automatic urine washing machine can be continuously operated, thereby improving the reliability of the product.

Therefore, it is a very useful design such that the convenience of use is improved to improve the marketability.

1 is a block diagram of a power supply control device for automatic urine washing machine using a solar module according to the present invention.

Figure 2 is a block diagram showing another example of the power supply control device for automatic urine washing machine using the solar module according to the present invention.

Figure 3 is a block diagram of the automatic urine washing machine using a conventional solar cell.

Explanation of symbols on the main parts of the drawings

10: solar cell 20: rectifier

30: charging means 31: the first relay

32: first storage battery 33: second storage battery

34: second relay 35: control device

36: third relay 37: third storage battery

38: fourth storage battery 40: distance detection sensor

50: drive unit 60: cleaning device

Claims (2)

Solar cell 10 for converting sunlight into electrical energy, A rectifier 20 for converting and supplying the energy converted by the solar cell 10 into a current having a predetermined size; Charging means (30) for charging power by the current supplied from the rectifier (20); A distance sensor 40 for detecting whether the user is located within a predetermined distance and outputting a detection signal accordingly; Driving unit 50 for outputting an operation signal in accordance with the detection signal output from the distance sensor 40 and When the operation signal output from the drive unit 50 is input, the washing device 60 is operated by receiving the charged power to the charging means 30, The charging means 30, A first relay 31 for selectively supplying power supplied from the rectifier 20; A first storage battery 32 and a second storage battery 33 charged by power selectively supplied from the first relay 31; A second relay 34 for selectively supplying power charged in the first storage battery 32 and the second storage battery 33 to the cleaning device 60; Urine automatic washing machine power supply control device using a solar module, characterized in that consisting of a control device for controlling the operation of the first relay (32) and the second relay (33). The method according to claim 1, The charging means 30, A third relay 36 selectively supplying electric power charged to the first storage battery 32 and the second storage battery 33 and controlled by the control device 35; A solar module comprising a third storage battery 37 and a fourth storage battery 38 that are charged by the power selectively supplied from the third relay 36 and are supplied to the second relay 34. Power supply control device for automatic urine cleaner using.