JPS622529Y2 - - Google Patents

Description

[Detailed description of the invention] This invention relates to a digital grain moisture meter that digitally displays the moisture content of grain.

A grain moisture meter measures grain moisture by holding grain between electrodes and measuring the resistance between the electrodes. In particular, rice is Japan's largest agricultural product, and its moisture content is strictly controlled. By the way, for rice among grains, the resistance value change due to moisture is different when the rice is wet and when it is dry because the electrical properties are different between the high moisture area (wet area) corresponding to paddy and the low moisture area (dry area) corresponding to brown rice. I am trying to switch the circuit. For example, in the rice electric moisture meter (model PB-IK, manufactured by Kett Co., Ltd.) that has been widely used in the past, the wet area is usually 18% to 30% moisture content, the dry area is 11% to 20%, and the wet area is Rice in the paddy state corresponds to this, and rice in the brown state corresponds to the dry region. By the way, rice has a moisture content of around 25% in the paddy state after harvesting, and after artificially drying this, the moisture content is reduced to around 16% and the rice is hulled to make brown rice.
Artificially dried paddy has a moisture content of around 16%, which usually falls into the dry region, so it is necessary to avoid mistakenly measuring the moisture content of artificially dried paddy in the wet region. When measuring moisture using an analog method using a meter as in the past, the meter is equipped with a double scale for the dry area (brown rice scale) and a scale for the wet area (paddy scale). For example, in the wet region (18% to 30%),
When measuring paddy that has been artificially dried to a moisture content of around 15%, the meter does not move at all. However, considering that the moisture measurement method of the above-mentioned meter-based moisture meter is directly used digitally, what is displayed on the display is a continuous moisture content value from the dry region to the wet region. Therefore, as mentioned above, the moisture content increases in the wet area.
When measuring paddy with a content of about 15%, the display will display an incorrect moisture content value. However, this moisture content value is the value when the moisture content of paddy is 15%, which is the moisture content that originally has to be measured by switching the circuit to the dry area, so the above moisture content value is large. This will result in errors. That is, when measuring the moisture content digitally, there is a problem in that even if the moisture content of rice deviates from a set range and becomes unreliable, the measurement may still be performed.

This idea was devised to solve these problems, and it is possible to digitally measure the moisture content of grains, and when the measured moisture content falls outside the set moisture range, display is prohibited and overflow or underflow is displayed. The purpose of the present invention is to provide a digital grain moisture meter that can improve measurement reliability.

Embodiments of the present invention will be described below with reference to the drawings.

In Fig. 1, 1 is a moisture (dry) detection circuit for measuring the dry measurement area of grain, and 2 is a moisture (wet) detection circuit for measuring the wet measurement area of grain. The outputs are shown as e _D and e _W . 3 is a changeover switch for selecting one of the detection circuits when measuring the moisture content of grains, 4 is a temperature detection circuit for performing temperature compensation when measuring the moisture content, and e _T indicates its output. 5 is an adder, and the output of the moisture detection circuit 1 or 2 and the output of the temperature detection circuit are input to the adder 5. 6 is an analog-to-digital conversion circuit whose output s _D is connected to the digital display 10 . The output s _O of the A/D conversion circuit 6 is connected to an overflow detection circuit 7 , and the output s _U is connected to an underflow detection circuit 8 . The outputs m _O and m _U of these detection circuits 7 and 8 are connected to a NOR gate circuit 9 and an overflow indicator 11
and the underflow indicator 12, respectively. The output m _N of the NOR gate circuit 9 is connected to a digital display 10 .

The operation of the embodiment of the present invention shown in FIG. 1 will be described below. In order to obtain an output signal having a linear relationship with the moisture content of grain, in this embodiment, a moisture (dry) detection circuit 1 and a moisture (wet) detection circuit 1 are used.
A moisture measuring device including a detection circuit 2, a temperature detection circuit 4 and an adder 5 is provided. Adder 5
The output e _M is therefore a secondary moisture detection signal having an output linear with moisture content. Therefore, A/D
As shown in FIG. 2, the output s _D of the conversion circuit has a relationship between its level and the moisture content, which changes linearly from the dry region to the wet region. The secondary moisture detection signal e _M output from the adder is converted into a digital quantity corresponding to the moisture content of the measured object by an A/D conversion circuit, and the digital output s _D is displayed on the digital display 10.
is displayed. Furthermore, the digital outputs s _O and s _U of the A/D conversion circuit 6 determine whether the digital output s _D is within a predetermined dry area setting range or wet area setting range when measuring the dry area or wet area. is supplied to an overflow detection circuit and an underflow detection circuit in order to If the digital quantity displayed by _sD during dry area measurement or wet area measurement is outside the predetermined setting range, it is output via the NOR gate circuit 9 by the output of the overflow detection circuit or underflow detection circuit. The moisture display on the digital display 10 is prohibited, and instead of this, the overflow display 11 or the underflow display 12 is operated to display overflow or underflow.

For example, the dry measurement area is moisture content 11.0% to 19.9
%, that is, when the setting display range is s _D value 11.0%≦s _D ≦19.9%, when the output s _D is less than the value corresponding to the moisture content of 10.9%, the overflow detection circuit 7 controls to indicate an overflow. The signal m _O is at a low level, and the overflow indicator 11 is not displayed. However, the underflow detection circuit determines from the signal s _U that s _D ≦10.9%, and the control signal m _U indicating underflow becomes high level, operating the underflow indicator 12 to indicate underflow. At the same time, the output m _N of the NOR gate circuit 9 is set to low level, and the moisture display on the digital display 10 is prohibited. Also A/D
When the output s _D of the conversion circuit is equal to or higher than the value corresponding to a moisture content of 20.0%, the overflow detection circuit 7 determines from the output s _O that s _D ≧20.0%, and outputs a control signal m _O indicating overflow. High level. The overflow indicator displays an overflow due to the high level output _mO , and at the same time, the output _mN of the NOR gate circuit 9 is set to a low level to prohibit moisture display on the digital display. At this time, the output m _U of the underflow detection circuit
is low level and the underflow indicator does not work. Also, the output s _D of the A/D conversion circuit is 11.0
When the value corresponds to the moisture content of %≦s _D ≦19.9%, the outputs m _O and m _U of the overflow detection circuit 7 and the underflow detection circuit 8 are at low level, and therefore the output m _N of the NOR gate circuit is Since the level is not changed to low, the moisture display on the digital display 10 is not prohibited, and the overflow indicator 11 and underflow indicator 12 do not operate.

Next, the circuit for determining the output s _D by the overflow detection circuit 7 and the underflow detection circuit 8 will be described in more detail.

In FIG. 3, details of the output s _D of the A/D conversion circuit are shown. As shown in the figure, the output s _D is composed of 21 signals (7 segments x 3 digits).
Digital display 10 has 7 segments with 3 digit display
21 which has an LED and shows the output s _D of the A/D conversion circuit
Each terminal is connected to each of three digits of 7-segment LEDs. In this figure, the connections between the 21 _sD output signals and the digital display 10 are omitted. In Figure 3, A ₂ , B ₂ , E ₂ , F ₂ , G ₂
5 of the 7 signals representing the 1st digit, and 7 representing the 10th digit, D ₃ , F ₃ , G ₃
Three of the signals are connected to an overflow detection circuit. Further, in conjunction with the changeover switch 3 for selecting either dry area measurement or wet area measurement, a high level dry signal is sent to the overflow detection circuit 7 during dry area measurement.
Furthermore, a switching device 33 is provided which supplies a low level wet signal to the underflow detection circuit, and supplies a high level wet signal to the underflow detection circuit 8 and a low level dry signal to the overflow detection circuit when measuring a wet area. It is provided. Furthermore, three signals out of seven signals representing the 10th digit indicated by C ₃ , D ₃ , and E ₃ are connected to the overflow detection circuit 7 .

The detailed logic circuits of overflow detection circuit 7 and underflow detection circuit 8 are shown in FIG. In the example shown in FIG. 4, the overflow indicator, underflow indicator, and digital indicator light up when the input is at a low level. Therefore, a NAND gate circuit 9' is used in place of the NOR gate circuit 9 in FIG. The overflow detection circuit 7 receives the dry signal from the switching device 33 and the output s
The overflow logic of the digital quantity s _D is determined by a part of the signal representing the 10th digit of _D. Similarly, underflow detection circuit 8
is the wet signal from the switching device 33 and the output s
The underflow logic of the digital quantity s _D is determined by a part of the signal representing the 10th digit of _D and a part of the signal representing the 1st digit. Note that the segment signals of each digit inputted to these detection circuits 7 and 8 are appropriately selected depending on the digital amount to be overflowed and underflowed. In addition, in the embodiment shown in Fig. 4, since the 7-segment LED is statically driven, the segment output of the A/D conversion circuit is used as an input to the overflow detection circuit and the underflow detection circuit. In the case of driving or at the input of the overflow detection circuit and underflow detection circuit, the A/D conversion circuit
Even when BCD output is used, the present invention can be easily implemented by making changes to the overflow detection circuit and underflow detection circuit.

As detailed above, according to this invention, the moisture content of grains can be measured in digital quantities, and when the moisture content is outside the set measurement range, the digital display output of the A/D conversion circuit can be determined. Accordingly, the display of moisture content using a digital display is prohibited.
Moreover, since an overflow or underflow display is displayed, the moisture content of the grain can always be measured in the set area, and the reliability of the measurement can be improved with a simple configuration.

[Brief explanation of the drawing]

Fig. 1 is a block diagram showing an embodiment of the digital electric moisture meter of the present invention, Fig. 2 is a graph showing the relationship between the measured moisture content of grain and the digital quantity output of the A/D conversion circuit, and Fig. 3 1 is a detailed diagram of a part of the block diagram of FIG. 1, and FIG. 4 is a circuit diagram showing an example of a logic circuit of an overflow detection circuit and an underflow detection circuit. 1, 2: Moisture detection circuit, 5: Adder, 6: A/
D conversion circuit, 7: Overflow detection circuit, 8:
Underflow detection circuit, 10: Digital indicator, 11: Overflow indicator, 12: Underflow indicator, 33: Switching device.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) A digital grain moisture meter designed to measure moisture in a wide range from low moisture areas to high moisture areas, with a wet measurement circuit for measuring high moisture areas and a wet measurement circuit for measuring low moisture areas. a moisture detection device for detecting moisture in grains, the moisture detection device being selectively switchable between a moisture detection circuit and a dry measurement circuit; an analog-to-digital conversion circuit for digitally converting a moisture detection signal output from the moisture detection device; a digital display that digitally displays the moisture content of the grain in response to the output of the circuit; a switching device that generates a dry signal or a wet signal according to the selection when one of the wet measuring circuit and the dry measuring circuit is selected; , an overflow detection circuit that generates a control signal indicative of overflow in response to the dry signal and the output that exceeds a value corresponding to a predetermined moisture content range among the outputs of the analog-to-digital conversion circuit; - an underflow detection circuit that generates a control signal indicative of underflow in response to the output of the digital conversion circuit that is less than a value corresponding to the predetermined moisture content range and the wet signal; Grain moisture meter. (2) The digital grain moisture meter according to claim 1, which has a means for prohibiting display on the digital display by the control signal representing the overflow or the control signal representing the underflow. . (3) The digital grain moisture meter according to claim 1 or 2, which has an overflow indicator that indicates overflow by a control signal indicating the overflow. (4) The digital grain moisture meter according to claim 1 or 2, which has an underflow indicator that indicates underflow based on a control signal indicating the underflow.