KR19980041841A - Environmental monitoring device and environmental monitoring method - Google Patents

Abstract

(Problem) In the environmental monitoring device, a large number of sensors can be connected with a very small number of wires, and at the same time, it is possible to accurately grasp the physical and biological state of the monitoring area.

(Remedy means) A plurality of detection means (A) disposed in the monitoring data editing means (1) and the monitoring area and connected in series from the upper (U) to the lower (D) to the monitoring data editing means (1) in sequence. Equipped. The detection means (A) can transmit the monitoring data in the detection means (A) to the editing means (1) and at the same time prevent the passage of the monitoring data from the detection means (A) of the lower part (D) to the editing means (1). And a switch circuit 15 which can be switched to an on state to be turned on and to an off state through which the editing means 1 and the monitoring data can be passed from the detection means 1 in the lower part D. The switch circuit 15 of the detecting means A is configured to be switched on for a predetermined time in the order from the upper part U to the lower part D in order.

Description

Environmental monitoring device and environmental monitoring method

(Technical field to which the invention belongs)

The present invention relates to an environmental monitoring apparatus and an environmental monitoring method.

(Conventional technology)

In the environmental monitoring device for detecting the physical state such as temperature and humidity in the factory, or the biological state such as the number of living organisms such as microorganisms, insects, mice, etc., in general, a plurality of sensors are disposed in the factory and And transfer the obtained data to a data editor in the factory. Conventionally, as a method of connecting a plurality of sensors to the data editor as described above, there are two methods, a serial method for transmitting signals by a serial interface and a parallel method for determining digital two values of on / off of a contact signal. The method was known.

(Problem that invention tries to solve)

However, in the serial system, there are shortcomings of the following ①②③.

① It is necessary to set channel of each sensor and change of connection becomes complicated.

② The program on the receiving computer is complicated.

③ The cost of each terminal increases.

Moreover, in the parallel system, since several ports are required for one sensor, there is a drawback that the number of wirings for connection increases and the cost of wiring increases.

The present invention provides an environmental monitoring device and an environmental monitoring method that can solve the drawbacks of hex and allow a large number of sensors to be connected with a very small number of wires, and at the same time, accurately grasp the physical and biological conditions of the monitoring area. It aims to do it.

In addition, an object of the present invention is to provide a monitoring device and an environmental monitoring method that can accurately grasp the physical and biological state of the monitoring zone from a remote location.

1 is a block diagram showing one embodiment of the environmental monitoring apparatus of the present invention.

2 is a block diagram.

3 is a block diagram of a main part.

4 is an explanatory view of the operation of the main part.

5 is a time chart diagram of switch circuit on / off and monitoring data transmission.

6 is a block diagram of an essential part showing another embodiment of the environmental monitoring apparatus of the present invention.

7 is a block diagram of an essential part showing another embodiment of the environmental monitoring apparatus of the present invention.

(Explanation of symbols for the main parts of the drawing)

1: Monitoring data editing means 3: External communication line

4: external monitoring means 15: switch circuit

A: Detection means U: Higher

D: lower t: predetermined time

(Means to solve the task)

In order to achieve the above object, the environmental monitoring device according to the present invention includes a plurality of detection means arranged in the monitoring data editing means and the monitoring area and serially connected to the monitoring data editing means in order from upper to lower. And each detecting means is capable of transmitting the monitoring data in the detecting means to the editing means and at the same time inhibits the passage of the monitoring data from the lower detecting means, and the monitoring data from the lower detecting means to the editing means. It has a switch circuit which can be switched to the off state which can pass through, and it is comprised so that the switch circuit of the said detection means may be switched to on state for predetermined time in order from upper to lower.

In addition, the monitoring data editing means, a plurality of detection means arranged in the monitoring zone and serially connected to the monitoring data editing means in order from upper to lower, and externally connected to the monitoring data editing means via an external communication line. Monitoring means, each detecting means having a switch circuit capable of transmitting monitoring data in the detecting means to the editing means and at the same time being in an off state capable of passing monitoring data from a lower detecting means to the editing means. And switch circuits of the detecting means are switched on by the predetermined time in order from upper to lower, and further, the external monitoring means receives the edited data transmitted from the monitoring data editing means through the external communication line. It is comprised so that recording and display are possible.

In addition, the environmental monitoring method according to the present invention arranges a plurality of detection means in the monitoring area by wiring of serial connection, and turns the plurality of detection means on from the upper to the lower in order for a predetermined time. Monitoring data is transmitted to the monitoring data editing means.

Further, a plurality of detection means are arranged in the monitoring area by wiring of serial connection, and the plurality of detection means are turned on by predetermined time in order from upper to lower, and the monitoring data editing means is monitored within the predetermined time. Transmit the data, and further edit the monitoring data of the detecting means by the monitoring data editing means to create the edited data, and transmit the edited data to the external monitoring means via the external communication line, and to the external monitoring means for the editing. To record and display data.

Embodiment of the Invention

Hereinafter, this invention is permanently based on embodiment of illustration.

1 and 2 show a simplified view of one embodiment of an environmental monitoring apparatus according to the present invention, and the environmental monitoring device is used to monitor microorganisms, insects, mice, and the like in monitoring areas such as factories and warehouses. It is for monitoring the biological conditions such as the number of occurrences and catches and the physical conditions such as the temperature and humidity of the monitoring area, and it is lower in the upper (U) to the monitoring data editing means (1) and its monitoring data editing means (1). (D) a plurality of detection means (A ...) connected in series to the sequence and an external monitoring means (4) connected to the monitoring data editing means (1) via an external communication line (3). The means (1) is installed on the monitoring zone side, and the detection means (A…) are arranged in the appropriate places of the monitoring zone, and the external monitoring means (4) is installed in the office of an environmental monitoring specialist or the like away from the monitoring zone. .

As shown in Fig. 2, the monitoring data editing means 1 is externally connected via a data processing circuit 6 and an external communication line 3 which perform calculation and editing of the monitoring data transferred from the detecting means A…. An external communication circuit 7 for transmitting and receiving signals with the monitoring means 4 is provided.

The external monitoring means 4 includes an external communication circuit 8 that transmits and receives a signal to and from the monitoring data editing means 1 through an external communication line 3, and a data processing circuit which performs calculation or editing of the monitoring data ( 9), a display 10 for displaying the edited monitoring data, and a printer 11 and a storage medium 12 for storing the monitoring data, wherein the external data communication line 3 is connected to the monitoring data editing means 1. It is configured to record and display the edited data transmitted through the data.

As the external communication line 3, for example, a public telephone line (analog line) is used. In this case, as the external communication circuit 7 of the monitoring data editing means 1 and the external communication circuit 8 of the external monitoring means 4, a modem for converting digital signals and analog signals is used. Further, a digital line may be used as the external communication line 3, in which case, as the external communication circuit 7 of the monitoring data editing means 1 and the external communication circuit 8 of the external monitoring means 4. Use a circuit for digital rotary connection. Further, the external communication line 3 may be an analog or digital line by wireless.

Next, as shown in FIG. 1 and FIG. 3, the detection means A includes the sensor 13, and the analog-digital converter 14 which converts the analog signal conveyed from the sensor 13 into a digital signal. A switch circuit 15 for outputting digital data is provided. The switch circuit 15 is for monitoring data transmission for transferring monitoring data to the control unit 17 (shift register) connected to the analog-digital converter 14, and to the control unit 17 and the monitoring data editing means 1. The switch portion 16 is connected to the wiring B.

Further, as the sensor 13, for example, a rat sensor for detecting a mouse, a fly sensor for detecting a fly, a roach sensor for detecting a wheel, a tammite sensor for detecting a termite, and a temperature / humidity sensor for detecting temperature and humidity , Mold sensors for detecting the occurrence of mold, odor sensors for detecting off-flavor, and the like. In addition, in the case of a rat sensor, a fly sensor, a roach sensor, etc., it is preferable to attach to a catcher which captures a target organism.

The monitoring data editing means 1, the uppermost detection means A ₁ and each of the detection means A ₁ , A ₂ , A ₃ ,..., And A _n each have one wire B (B ₁ , B ₂ , B). ₃ ,… B _n ) in series. As a result, a plurality of detection means (A ...) can be connected in series by two wires in total, including the earth wire (not shown). In addition, a unique address is set to each of the detection means A ₁ , A ₂ , A ₃ , ... A _n .

Further, the detecting means A can transmit the monitoring data in the detecting means A to the monitoring data editing means as shown in FIG. 4A, and at the same time, the monitoring data editing means of the upper U from the detecting means of the lower D. The on state which prevents the passage of the monitoring data to the control unit and as shown in Fig. 4B are configured to be capable of converting the monitoring data into the off state through which the monitoring data can be passed from the lower detecting unit D to the monitoring data editing unit.

That is, the detection means (A) is capable of transmitting the monitoring data of the detection means (A) to the editing means (1) and at the same time the on-state which prevents the passage of the monitoring data from the detection means (A) of the lower part (D). And a switch circuit 15 capable of switching the detection data A from the lower part D to the editing means 1 in an off state through which monitoring data can be passed. Thus, the switch circuit 15 of the detecting means (A ...) is configured to be switched on for a predetermined time in the order from the upper (U) to the lower (D).

Next, the environmental monitoring method by this environmental monitoring device will be described. A plurality of detection means (A ...) are transferred from the monitoring data editing means (1) to the detection means (A) in the monitoring area, and the detection means is provided. (A) (switch circuit 15) is turned on by predetermined time from upper (U) to lower (D) in order, and transmits the monitoring data to the monitoring data editing means (1) within the predetermined time. (See FIG. 1).

In detail, first, the control data (trigger) is transferred from the monitoring data editing means 1 to the detection means A ₁ of the uppermost U. By the control signal, the switch portion 16 of the detection means A ₁ is turned on. In its on state, the monitoring data (monitoring data signal I ₁ as digital data) is transmitted to the editing means 1 (see Fig. 4A). Then, when a predetermined time elapses after the on state, the control signal is transferred to the detecting means A ₁ again, and the switch unit 16 is turned off (see FIG. 4B). Further transferring the control signal to the second (lower (D) a) detecting means (A _2), immediately thereafter, and the switch 16 of its sensor means (A ₂₎ in the on state. Thereafter, the monitoring data (monitoring data signal I ₂ as digital data) of the detecting means A ₂ is transmitted to the editing means 1. Then, the same control as described above is repeated, and the monitoring data up to the lowest detection means (A _n ) is transmitted to the editing means (1). After that, transmission of monitoring data from the highest detection means A ₁ to the lowest detection means A _n is repeated, and all the monitoring data is input to the editing means 1.

FIG. 5 is a time chart showing control of a series of monitoring data transmissions from the highest detection means A ₁ to the lowest detection means A _n . As is apparent from the figure, the switch circuit of each detection means A is in the ON state for a predetermined time t in order from upper to lower. Then, the monitoring data of the corresponding detecting means A is transmitted between the predetermined time t of each detecting means A. FIG.

Next, the monitoring data of all detection means A (refer to FIG. 1 and FIG. 2) is edited by the monitoring data editing means 1 to create the edited data. Specifically, monitoring data as digital data is calculated by the editing means 1 and recognized as analog data. Further, the edited data thereof is transmitted to the external monitoring means 4 via the external communication line 3. Then, the edited data is recorded and displayed on the external monitoring means (4). Further, recording (aggregation) of the edited data thereof is performed every predetermined time, for example every hour.

In addition, according to this environmental monitoring apparatus and environmental monitoring method, it is possible to monitor the physical state and biological state of the monitoring area from a remote place (such as a factory or a warehouse) at a remote location. For example, it is possible to accurately grasp the temperature and humidity of a factory or warehouse, and moreover, the number of occurrences and capture numbers of living organisms such as rats and wheels generated in the factory from a remote location. In addition, when applied to a pension, the management office can monitor the temperature and humidity of the room.

In addition, the data obtained by the detection means (A ...) can be saved in a text format, and various administrator fees can be easily created by printing this data. In addition, the shape of environmental indicators, biomarkers, etc. can be known and easily verified. In addition, because the environment of each season is known, it is possible to take measures to prevent the detoxification of living things.

In addition, a large number of wirings (for example, two wirings) can connect a plurality of detection means A to the monitoring data editing means 1, which has the advantage of reducing the cost of wiring. At the same time, data indicating the physical state and the biological state can be recorded and stored together with the date and time of detection. This can be effectively used for environmental check and control of food engineering. It is also ideal for hygiene management of large-scale failures.

6 shows another embodiment of the environmental monitoring apparatus according to the present invention, which transfers a command signal from the command means 23 on the monitoring data editing means 1 side to the detection means A ... and detects the detection means ( A control wiring (C) is provided to actively control the operation of A). The command means 23 and the detection means A ... on the monitoring data editing means 1 side have a port (address port) for connecting the control wiring C. The detecting means A has a relay or a photo coupler, not shown in the figure, and relays and photos thereof by a command signal transferred from the monitoring data editing means 1 to the command signal detecting means A ... via the control wiring C. On and off control of the coupler and the like.

20 is a power supply, and two power supply lines V ₁ , V ₂ between the power supply 20 and the detection means A ... for operating a current-consuming electric component such as a relay of the detection means A. ) Is installed. G is the earth ship. Further, a device for environmental preservation is provided in the detecting means A, and the command is transferred from the command means 23 on the monitoring data editing means 1 side to the command signal detecting means A through the control wiring C. By means of a signal, it is desirable to configure its device to operate. As the apparatus, the atomizer which sprays insect repellent, deodorant, etc. is mentioned, for example. The other structure is the same as that described in FIGS.

Since it is comprised as mentioned above, not only the detection data of the various sensors of the detection means A ..., but also the operation | movement of the detection means A ... from the command means 23 of the monitoring data editing means 1 side is active. You can control it. Further, by the command from the external monitoring means 4, the operation of the detecting means A ... can be controlled via the command means 23 on the monitoring data editing means 1 side.

Further, the wirings for arranging the detecting means A ... are five in total, the monitoring data transmission wiring B, the control wiring C, the earth wire G, and the power supply lines V ₁ , V ₂ . In addition, when the current consumption type is not used as the electrical component controlled by the control wiring C (detection means A…), the power supply lines V ₁ and V ₂ can be omitted. The total is three.

Next, Fig. 7 shows another embodiment of the environmental monitoring apparatus according to the present invention, and includes detecting means A ₁ and A ₃ having electric parts of current consumption type and detecting means having electric parts that do not require a power source. shows a case where the connection detection means (a ...) 2 kinds of a _2). In this case, the number of wirings is a total of five.

The present invention achieves the following remarkably large effect by the above-described configuration.

According to the environmental monitoring device according to claim 1, a plurality of detection means (A) can be connected to the monitoring data editing means (1) with a small number of wires. It doesn't work. Therefore, it is optimal for hygiene management of large factories.

According to the environmental monitoring device according to claim 2, a plurality of detection means (A) can be connected to the monitoring data editing means (1) with a small number of wires, thereby reducing the cost of the wires and making the wires bulky and obstructive. It doesn't work. Therefore, it is most suitable for hygiene management of large factories. Furthermore, the physical and biological conditions of the monitoring area (such as factories, warehouses, vegetable gardens, pensions, etc.) can be monitored remotely, such as in the manager's office. In addition, since the monitoring data can be recorded, various administrator fees can be easily created. In addition, the shape of the environmental indicators, biomarkers, and the like can be known and can be easily verified. In addition, we can know the environment of each season and can take measures to prevent the detoxification of living things.

According to the environmental monitoring method according to claim 3, a plurality of detection means (A) can be connected to the monitoring data editing means (1) with a small number of wirings, and the cost of wiring is reduced, and the wiring is not bulky, It doesn't work. Therefore, it is optimal for hygiene management of large factories.

According to the environmental monitoring method according to claim 4, a plurality of detection means (A) can be connected to the monitoring data editing means (1) with a small number of wires, so that the cost of the wiring is reduced and the wiring is not bulky and obstructed. Do not. Therefore, it is optimal for hygiene management of large factories. In addition, the physical and biological conditions of the surveillance area (such as factories, warehouses, vegetable gardens, pensions, etc.) can be monitored remotely, such as in the manager's office. In addition, since the monitoring data can be recorded, various manager fees can be easily created. In addition, the shape of the environmental indicators, biomarkers and the like can be known and easily verified. In addition, we can know environment every season and can take measures against prevention of living thing and prevent.

Claims (4)

The monitoring data editing means (1) and a plurality of detecting means (A ...) which are arranged in the monitoring area and are connected in series from the upper (U) to the lower (D) in order from the monitoring data editing means (1). Each detection means (A) is capable of transmitting the monitoring data in the detection means (A) to the editing means (1), and at the same time, an ON for preventing the passage of the monitoring data from the detection means (A) of the lower part (D). State and the switch circuit 15 of the detection means A having a switch circuit 15 in an off state capable of passing monitoring data from the detection means A in the lower part D to the editing means 1. 15) is configured to be switched on by the predetermined time (t) in order from the upper (U) to the lower (D). And a plurality of detection means (A ...) which are arranged in the monitoring data editing means (1) and are arranged in the monitoring area and are connected in series from the upper (U) to the lower (D) to the monitoring data editing means (1). And external monitoring means (4) connected to the monitoring data editing means (1) via an external communication line (3), and each detecting means (A) is the editing means (1). The detection means (A) has a switch circuit (15) which is capable of transmitting the monitoring data therein and at the same time is in an off state capable of passing the monitoring data from the detection means (A) of the lower part (D) to the editing means (1). Switch circuit 15 is configured to be switched on by the predetermined time (t) in order from the upper (U) to the lower (D), and the external monitoring means (4) further comprises the monitoring data editing means ( 1) is capable of recording and displaying the edited data transmitted through the external communication line (3). Environmental monitoring device characterized in that. A plurality of detection means (A ...) are arranged in a wiring connected in series in the monitoring area, and the plurality of detection means (A ...) are turned on for each predetermined time (t) in order from the upper (U) to the lower (D). And monitoring data is sent to said monitoring data editing means (1) within a predetermined time (t). A plurality of detection means (A ...) are arranged in a wiring connected in series in the monitoring area, and the plurality of detection means (A ...) are turned on for each predetermined time (t) in order from the upper (U) to the lower (D). In this state, the monitoring data is transmitted to the monitoring data editing means 1 within the predetermined time t, and the monitoring data of the detecting means A… is edited and edited by the monitoring data editing means 1. An environmental monitoring method characterized in that data is created and the edited data is transmitted to an external monitoring means (4) via an external communication line (3), and the edited data is recorded and displayed on the external monitoring means (4).