KR200186594Y1 - Telemetry micro capsule for an analysis of water quality - Google Patents

Abstract

The present invention relates to water quality monitoring or automatic measurement by a wireless water quality testing device, and provides a wireless water quality testing device capable of simultaneously administering various types of water quality testing and continuous measurement according to depth, and administering appropriate water purification chemicals. There is a purpose.

To this end, the present invention provides a ballast (16) for adjusting the buoyancy of the device, a bure tank (9b) for floating or submerging in water; A motor 5 for sucking or discharging water in the tank; A lead screw 10b connecting the motor and the piston 7b, a chemical tank 8a having the same structure and its peripheral devices, and various sensors 17, 18, 19, 20 for comprehensive water quality measurement. ), The apparatus 13, 14 for controlling, driving, and converting, and the communication means 15 for wirelessly transmitting the sensed data.

The above configuration makes it easy to measure the quality of water according to the depth and the distribution of the quality of water, and to respond appropriately to major changes in water quality. have.

Description

Wireless water quality testing device {Telemetry micro capsule for an analysis of water quality}

The present invention relates to a wireless water quality automatic measurement device, and more particularly to a wireless vertical reciprocating device for measuring the water quality.

Conventional electric and electronic measuring instruments for measuring the concentration of various water quality, each of the independent measuring instruments according to the type of water was a mainstream measuring instrument that indicates and displays only the instantaneous measurement, and to find out the change according to the depth It was difficult to obtain data efficiently because humans had to work by moving the measuring instrument according to depth. In order to observe the recent changes in water quality, various sensors or instruments are configured to automatically measure the water temperature, dissolved oxygen, etc., store them in storage means, lift them, and retrieve the stored data. However, the current automatic water quality measuring device does not have the ability to move, even if there is a mobile device, the size of the device is too large to operate a lot of inconvenience, and has the disadvantage of high initial investment.

The present invention is to solve the problems as described above, it is possible to measure continuously according to the depth of the water quality using the pressure sensor, and to significantly reduce the size of the device to the size of a person using a wireless modem and at the same time reduce the mobility It is an object of the present invention to provide a wireless water quality automatic measuring device, which is composed of a device capable of storing and withdrawing the measured data in the storage means and withdrawing the water quality based on the measured data.

1 is a configuration diagram schematically showing the configuration of a wireless water quality testing device.

2 is a top plan view of the water quality reciprocating device of FIG.

3 is a block diagram showing an example of a control system configuration of a wireless water quality testing device.

<Explanation of symbols for main parts of drawing>

1: upper case 2: lower case

3: O-ring 4: Tri-head screw

5a, 5b: DC motor 6a, 6b: gearbox

7a, 7b: piston 8a: tank

8b: chemical tanks 9a, 9b: inlet-outlet

10a, 10b: lead screw 11: cylinder

13: Wireless Communication Department

14: circuit part

15: wireless communication antenna 16: buoyancy adjustment ballast

17: pressure sensor 18: temperature sensor

19: PH sensor 20: dissolved oxygen (DO) sensor

In order to achieve the object as described above, the present invention has to adjust the overall buoyancy to the buoyancy control ballast in the position of the piston at the bottom in order to float the device on the water surface. In addition, water or air is sucked and discharged into the cylinder by forward and reverse rotation of the motor equipped with the reducer, and the device is configured to float or dive accordingly.

When the device is submerged, it is basically programmed to measure depth by a pressure sensor and thus to measure comprehensive water quality using various sensors. When these tasks are completed, they float to the surface and transmit the measured data to the wireless modem.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

In FIG. 1, the wireless water quality measuring device has a tank 8a using the same concept as a fish tank as a floating means, and a DC motor 5a having a speed reducer 6a for sucking and discharging water or air in the tank. The piston (7a) is connected to the lead screw (10a) to the cylinder 11 is moved up and down due to the forward and reverse rotation of the DC motor (5a). At this time, it is preferable to mount the O-ring in double to prevent the leakage of water to the inside by the movement of the piston.

The chemical tank 8b having the same structure as the tank 8a should not affect buoyancy when chemicals are contained or not contained.

The assembly of the upper case 1 and the lower case 2 uses an upper-lowering triangular screw 4 for the overall waterproofing of the device, with an O-ring 3 inserted therebetween.

The pressure sensor 17, the temperature sensor 18, the PH sensor 19, and the dissolved oxygen sensor 20 shown in FIG. 1 are connected to the circuit unit 14 to amplify the analog signals measured as shown in the block diagram of FIG. 3. The digital signal is converted into a digital signal 26 and the data is transmitted to the central processing unit 23. In addition, the wireless communication 33 associated with this has a role of transmitting data transmitted from the central processing unit 23 to the outside.

Sensors mounted on the device can be added or replaced with other sensors, or can be omitted. If omitted, use an end cap to maintain waterproofness. And the overall size may change due to the sensor.

The power supply unit uses 12V rechargeable batteries 21a and 21b, which are supplied to the circuit unit 14 and the wireless communication unit 13.

According to the present invention, functions can be programmed according to a user's needs and environment, and the program can be immediately transmitted 32 in the field.

On the other hand, by monitoring the current of the motor as an overload protection means of the DC motor and if there is a problem, the chemical tank (8b) can be injured by acting as the role tank (8a).

Therefore, the measurement data obtained as described above can be easily taken and analyzed by the data according to the depth by the normal pressure sensor, it is also possible to obtain the distribution according to the area of water quality by using multiple devices.

As described above, the automatic water quality automatic measuring device has a simple and small structure, and is easy to measure, and can take distribution data according to depth and region, and can immediately purify water according to data. It is expected to contribute greatly to the advancement and automation of the system.

Claims (2)

It consists of upper and lower cases (1, 2) having an O-ring (3) in the coupling portion to achieve a predetermined size and shape and waterproof, and the lower case (2) is suction of water to perform a buoyancy control function The ballast 16 is provided with discharge ports 9a and 9b, and the piston 7a is moved up and down by forward and reverse rotation of the DC motor 5a above the ballast 16 to obtain diving and buoyancy. Being tank (8a) is provided, the lower side of the lower case (2) pressure sensor 17, temperature sensor 18, PH sensor 19, dissolved oxygen sensor 20 for detecting the depth of the water and the concentration of contamination ) Is exposed to the outside, the circuit unit 14 is provided with a wireless communication unit 13 for temporarily storing the data measured by the sensor (17, 18, 19, 20) to transmit the data wirelessly during sleep injury Wireless water quality testing device, characterized in that consisting of The apparatus of claim 1, wherein the chemical tank (8b) is provided in the same structure as the tank (8a) to perform the function of the tank (8a) when overloaded.