KR100864521B1 - Apparatus for sensing moisture - Google Patents

Abstract

The present invention relates to a moisture sensing device, and more particularly, to a moisture sensing device that is installed in contact with an object containing moisture and senses a moisture change amount of the object. A display unit for displaying the amount of moisture change; And a control unit for continuously receiving the moisture information sensed by the moisture sensing unit and calculating the result as a numerical value and providing a signal to display the calculated result on the display unit. The present invention relates to a food garbage disposal apparatus capable of constantly and accurately detecting moisture contained in an object such as food waste or soil in an agricultural automation system at all times and allowing the user to conveniently identify the amount of change in moisture It is effective.

Moisture, sensing, device.

Description

[0001] Apparatus for sensing moisture [0002]

FIG. 1 is a configuration diagram showing a moisture sensing device according to the present invention,

FIG. 2 is a configuration diagram showing a moisture sensor in the moisture sensor according to the present invention,

FIG. 3 is a state of use in which the moisture sensing apparatus according to the present invention is applied to a food waste disposal apparatus,

4 is a graph showing a correlation between the temperature and the resistance value when the water content is constant.

Description of the Related Art [0002]

10: container 11: hole

30: stirrer 31: stirrer

32: drive mechanism 33: heater

34: oxygen supply fan 40:

41: Filler 42: (A) Electrode

43: (B) electrode 44: case

45: electrode member 46: temperature sensor

50: control unit 60: display unit

100: Food waste disposal device 110: Moisture detection device

The present invention relates to a moisture sensor, and more particularly, to a food waste disposal apparatus capable of constantly and accurately detecting and controlling moisture contained in an object such as soil in a food waste or agricultural automation system, And more particularly, to a moisture sensing device that enables a user to conveniently identify a change amount of moisture.

Generally, a food garbage disposal apparatus includes a container into which food garbage is introduced, a stirring device for mixing and stirring the food garbage charged into the container with the microorganisms, a noxious gas for removing noxious gas generated when the food garbage is stirred, Removing means.

However, recently, users are urgently required to add an identification function to allow the user to check the moisture status of food waste from time to time before the fermentation is completed in the food waste disposal apparatus.

The conventional food garbage disposal apparatus has a disadvantage that it is difficult for the user to perform the above-described functions, and the user is disadvantageously disadvantageous in that the moisture is evaporated in the food garbage disposal apparatus and continues to operate in a dry state to generate dust.

In addition, in conventional agricultural automation systems, there is no separate function for identifying the moisture state of the soil from time to time, so that the water content of the soil can not be controlled properly, and thus it is very difficult to grow plants.

The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide a food garbage disposal apparatus capable of constantly and accurately detecting and controlling moisture contained in objects such as soil in a food waste or agricultural automation system, And it is an object of the present invention to provide a moisture sensing device which can conveniently discriminate a change amount of moisture.

According to another aspect of the present invention, there is provided a moisture sensor comprising: a moisture sensing part installed in contact with an object containing moisture and sensing a moisture change amount of the object; A display unit for displaying the amount of moisture change; And a control unit for continuously receiving the moisture information sensed by the moisture sensing unit and calculating a result of the sensing as numerical values and providing a signal to display the calculated result on the display unit.

The moisture sensing portion includes a case which is provided in contact with the object and communicates with one side and the other side of the object, a filler which is filled in the case and absorbs water from the contacted object, (A) and (B) electrodes to generate a voltage or resistance value that varies according to the amount of moisture absorbed by the filler to provide the changed voltage or resistance value as moisture information to the control unit do.

Wherein the moisture sensing unit further comprises a temperature sensing sensor for sensing the temperature of the filling material, wherein the controller receives temperature information from the temperature sensing sensor while receiving the changed voltage or resistance value from the electrode member, The moisture information according to the changed voltage or resistance value is calculated, and the calculated moisture information is corrected according to the temperature information so that the error is reduced.

And re-calculating a corrected moisture content by increasing a predetermined moisture value corresponding to a temperature value exceeding a predetermined temperature value to the calculated moisture information when the temperature information is equal to or higher than a predetermined temperature value, And if the temperature information is less than or equal to the predetermined temperature value, the predetermined moisture value corresponding to the temperature value at which the temperature information is less than the predetermined temperature value is subtracted from the calculated moisture information to recalculate the corrected moisture information.

It is preferable that the display portion is a segment type or an LCD type.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a configuration diagram showing a moisture sensing device according to the present invention, and FIG. 2 is a configuration diagram showing a moisture sensing part in the moisture sensing device according to the present invention.

1 and 2, the moisture sensing apparatus 110 according to the present invention includes a moisture sensing unit 40, a display unit 60, and a control unit 50. As shown in FIG.

First, the moisture sensing unit 40 is installed in contact with food waste or soil (hereinafter, referred to as an object) containing moisture, and senses a moisture change amount of the object.

In the embodiment, the moisture sensing portion 40 is composed of a case 44, a filler 41, and an electrode member 45.

The case 44 is provided so as to be in contact with the object so that one side and the other side communicate with each other.

The filler (41) is filled in the case (44) and absorbs moisture from the contacted object.

Here, the filling material 41 may be any material capable of absorbing water, and is most preferably cement or gypsum.

The electrode member 45 is inserted into the filler 41 and receives an alternating pulse from the control unit 50 to generate a voltage or a resistance value that varies according to the amount of moisture absorbed into the filler 41, (A) and (B) electrodes 42 and 43 so as to provide a value to the controller 50 as moisture information.

Here, (A) and (B) electrodes 42 and 43 are alternately (+) or (-) electrodes because they are provided with alternating pulses and are preferably formed in a rod or plate shape.

The moisture sensing part (40) further includes a temperature sensing sensor (46) for sensing the temperature of the filling material (41).

The function and role of the temperature sensing sensor 46 will be described in detail in the control unit 50.

The display unit 60 displays a moisture change amount.

In the embodiment, the display portion 60 is provided at the upper end of the container 10.

The display unit 60 is preferably made of a segment type or an LCD type, and most preferably an LCD type.

On the other hand, the control unit 50 continuously receives the moisture information sensed by the moisture sensing unit 40, calculates the result thereof as a numerical value, and causes the display unit 60 to display the calculated result.

The controller 50 receives the changed voltage or resistance value from the electrode member 45 and receives temperature information from the temperature sensor 46. The controller 50 calculates moisture information according to the changed voltage or resistance value, The calculated moisture information is controlled to be corrected in accordance with temperature information so that the error is reduced.

The control method of the controller 50 will be described in more detail. When the temperature information of the temperature sensor 46 is equal to or higher than a preset temperature value, Wherein the controller is configured to re-calculate the corrected moisture information by increasing the set moisture value to the calculated moisture information, and when the temperature information is less than the preset temperature value, The moisture value is subtracted from the calculated moisture information, and the corrected moisture information is re-calculated.

For example, when the calculated moisture information is 50%, the predetermined temperature value is 5 占 폚, and the temperature information of the temperature sensor 46 is 10 占 폚, the excess temperature value is 5 占 폚, If the predetermined moisture value corresponding to the exceeded temperature value [5 ° C] is [10%], then this [10%] is increased to the calculated moisture information 50% and the corrected moisture information is restored to 60%.

On the other hand, when the calculated moisture information is 50%, the preset temperature value is 5 ° C, and the temperature information of the temperature sensor 46 is 0 ° C, the under temperature value is -5 ° C, If the predetermined moisture value corresponding to the temperature value [-5 ° C] is [-10%], the moisture content information corrected by subtracting this [-10%] from the calculated moisture information 50% will be.

As a result, the control method of the control unit 50 is to reduce the error of the calculated moisture information.

number Temperature (℃) Resistance value (k?) Water content (34.5%) One 8 42 2 10 40 3 12 38 4 14 36 5 16 34 6 18 32 7 20 30.5 8 22 29 9 24 27.5 10 26 26 11 28 25 12 32 23 13 35 21 14 38 19.5 15 43 17 16 47 15 17 54 12 18 58 10 19 60 9.6 20 62 9 21 67 8 22 70 7.5

Table 1 shows the correlation between the temperature and the resistance value when the water content is constant, and FIG. 4 is a graph showing the correlation between the temperature and the resistance value when the water content is constant.

That is, as shown in FIG. 4 and Table 1, when Moisture is constant at 34.5%, the resistance value decreases in inverse proportion as the temperature Temp 'increases.

This shows that the resistance value changes substantially according to the temperature change, so that the control unit 50 is operated in the above-described manner in order to reduce the error accordingly.

FIG. 3 is a state in which the moisture sensor 110 according to the present invention is applied to the food waste disposal apparatus 100.

As shown in FIG. 3, the moisture sensing part 40 is provided so as to be in contact with the food waste put into the container 10 of the food waste disposal apparatus 100.

Here, the container 10 accommodates and accommodates food waste, and has an inlet (not shown) for introducing food waste and an outlet (not shown) for discharging fermented food waste.

In the moisture sensing device 110, the case 44 of the moisture sensor 40 is communicated with the hole 11 formed at the lower end of the container 10 and fixed to the outer peripheral surface of the container 10.

The filling material (41) is filled in the case (44) to absorb moisture from the food waste.

The display unit 60 is provided on the outer peripheral surface of the container 10.

The food waste disposal apparatus (100) further includes a stirring device (30).

In the embodiment, the stirring mechanism 30 includes a stirring member 31 which is rotatably supported on the left and right sides to stir the introduced food, and a stirring member 31 which is coupled to one side of the vessel 10, And a drive mechanism (32) connected and connected to the motor.

Here, the stirring mechanism 30 has a heater 33 installed below the vessel 10 to set the temperature at which the food waste to be stirred is decomposed by the microorganisms, and the decomposition efficiency of the food waste by the microorganisms, And an oxygen supply fan 34 installed at one side of the vessel to increase the efficiency of the harmful gas generated inside the vessel to the harmful gas removing means (not shown). Reference numeral 35 ', which is not described, is a gas advancing mechanism for providing gas to the harmful gas removing means.

The operation and function of the food waste disposal apparatus 100 using the moisture sensing apparatus 110 according to the present invention will be described with reference to FIGS. 1 to 3. When food waste is filled in the container 10 by a predetermined amount, (40) provides moisture information to the control unit (50).

The control unit 50 calculates the numerical result of the moisture information, and provides the result to the display unit 60.

Thereafter, when the stirring mechanism 30 and the heater 33 are operated, the food waste filled in the container 10 is fermented, thereby causing moisture to gradually evaporate from the food waste. The moisture sensing portion 40, The control unit 50 continuously calculates the result of the changed moisture information as a numerical value and continuously provides the result to the display unit 60, Outputs the output.

As a result, when the moisture sensor 110 according to the present invention is applied to the food waste disposal apparatus 100, the result of the moisture information changed in the fermentation state of the food waste is displayed on the display unit 60 as a numerical value The user can directly identify the dry state of the food waste in the display unit 60 and can automatically control the machine.

If the moisture sensing device 110 according to the present invention is applied to a farming automation system, it is possible to detect and control moisture in an automatic irrigation system.

In particular, since the control unit corrects the moisture information again according to the temperature information so that the error of the calculated moisture information is reduced, the food waste or the agricultural automation system It is possible to constantly and accurately detect and control the moisture contained in the object such as the soil at any time, and has an excellent effect that the user can conveniently identify the amount of change in moisture.

Claims (5)

delete As a moisture sensing device, A moisture sensing part installed to be in contact with an object containing moisture and sensing an amount of moisture change of the object; A display unit for displaying the amount of moisture change; And And a control unit for continuously receiving the moisture information sensed by the moisture sensing unit and calculating a result thereof as a numerical value and providing a signal to display the calculated result on the display unit, The moisture sensing portion includes a case which is provided in contact with the object and communicates with one side and the other side of the object, a filler which is filled in the case and absorbs water from the contacted object, (A) and (B) electrodes to generate a voltage or resistance value that varies according to the amount of moisture absorbed by the filler to provide the changed voltage or resistance value as moisture information to the control unit Wherein the moisture sensor comprises: 3. The method of claim 2, The moisture- And a temperature sensing sensor for sensing the temperature of the filling material, Wherein the controller receives the changed voltage or resistance value from the electrode member and receives temperature information from the temperature sensor and calculates moisture information according to the changed voltage or resistance value, And is corrected according to the temperature information so that an error is reduced. The method of claim 3, And re-calculating a corrected moisture content by increasing a predetermined moisture value corresponding to a temperature value exceeding a predetermined temperature value to the calculated moisture information when the temperature information is equal to or higher than a predetermined temperature value, And when the temperature information is less than a predetermined temperature value, a predetermined moisture value corresponding to a temperature value at which the temperature information is less than a predetermined temperature value is subtracted from the calculated moisture information, / RTI > 5. The method of claim 4, Wherein the display unit is a segment type or an LCD type.

Images