KR20200082429A - Apparatus for measuring quality of water - Google Patents

Abstract

The present invention relates to a sample collection apparatus for measuring water quality, capable of measuring a water quality status by depth and, more specifically, to a sample collection apparatus for measuring water quality, which can collect water from a desired water depth or location by opening and closing a cap of a collection container with an electric signal at the desired location or depth when collecting the water by depth to analyze water quality. The sample collection apparatus for measuring water quality includes a depth controlling unit (100), a sample collecting unit (200), a container loading unit (300), and a wire guiding unit (400).

Description

Sample collection device for water quality measurement {Apparatus for measuring quality of water}

The present invention relates to a sample collection device for measuring water quality that can measure the state of water quality for each water depth, and more specifically, when collecting water for each water depth for water quality analysis, plug the water container with an electrical signal at a desired location or water depth. It relates to a sampling device for measuring water quality that can be opened and closed to collect water at a corresponding water depth or location.

Currently, in the field of environment, especially in the water quality field, samples are collected for regular water quality surveys at various points of the water and sewage source in order to provide clean drinking water to the public or to investigate the water environment for the water and sewage source. The sample collected at each point is transported to a place equipped with an experimental device such as a laboratory, and water quality analysis is performed using various types of sensors.

Water quality inspection examines the physical properties of water, chemical components, and microorganisms contained in water. When selecting a water supply source, when monitoring and monitoring the contamination or purification work of water source, it inspects whether the tap water passes the water quality standards. It is used for a variety of purposes, such as when measuring environmental pollution of the sea, lakes, rivers, or rivers, when determining the appropriateness of drinking water in wells at public health centers, or when examining the degree of contamination of industrial water or sewerage.

For water quality inspection, samples that can be used as standards for overall water quality must be collected at the site.If the water quality test target is deep, such as the sea, lake, river, or river, the water quality varies depending on the water depth. In order to increase the accuracy of the sample, samples should be collected for each depth or samples having an average water quality at the reference depth. In this case, a sample collection device for measuring water quality is used, which can take samples from deep water.

That is, in the past, in order to collect data on environmental data, the user had to take samples directly from various points of the water and sewage source or measure the water quality while carrying various types of measuring devices. Accordingly, telemetry devices that can install water quality sensors at various points in the water supply and sewerage system and measure water quality at a distance using wires have appeared, but the cost of system construction has been excessive.

In addition, the existing water quality measuring device is a device that is not used in the field because the device is complicated and complicated to handle, but it is a necessary device for unmanned collection. It is a situation that requires a collection device.

1. Korea Registered Patent Publication No. 10-1656432'Water pollution level measuring device' (application date 2015.05.13) 2. Korean Registered Patent Publication No. 10-1518415'Automatic water quality measuring system including winch mechanism' (application date 2014.07.29) 3. Korean Registered Utility Model No. 118410 (Name: Chae-Soo Ki, Registration Date: 1998.02.28.)

The present invention has been devised to solve the above problems, and in order to measure the water quality distributed differently for each depth, the sample collection container may be moved for each depth during sample collection, and the sample collection container may be moved for changing the interval of sampling. An object of the present invention is to provide a sample collection device for measuring water quality that can control a distance and opens or closes a stopper of a sample collection container with an electrical signal at a water depth.

The sample collection device for measuring the water quality of the present invention is connected to the motor 110 and the motor 110 that provide rotational power by receiving electric power from the outside, and the winding roller 120 and the motor 110 and the winding roller ( 120) a depth control unit 100 including a guide arm 130 on which one side is seated and the other side extends in the horizontal direction and a wire 140 on which one side is connected to the winding roller 120; A water collection container 210 having a hollow body 211 inside and having an inlet 212 through which water can be introduced; And a sample collection unit 200 supporting the water collection container 210 and moving the wire 140 down to the water surface while moving up and down according to the winding direction of the wire 140 by connecting the wire 140 to the upper side. ); A container loading part 300 for storing at least one of the water collecting containers 210; It is formed on the end of the guide arm 130 so as to be connected to the wire 140, a wire guide portion 400 for guiding the up and down movement of the wire 140; includes, the image of the sample collection unit 200 The side portion is characterized in that it further comprises; an automatic switch (220) that can open and close the inlet 212 of the water container 210 by an external signal.

In the present invention, the lower end of the sample collection unit 200 is coupled to or disengaged from the lower portion of the collection container 210 to store the collection container 210 in the container loading unit 300 or collect samples. It further includes a collection container holder 230 for use, and the bottom of the collection container 210, the container bottom plate 213 that is coupled to or disengaged from the collection container holder 230; is further provided It is characterized by.

In addition, the collection container holder 230 of the present invention is a bracket 231 protruding from the bottom of the sample collection unit 200; A coupling controller 232 provided inside the bracket 231 and operated by an external signal; and a bottom plate holder 233 detachably attached to the container bottom plate 213 according to the driving of the coupling controller 232; Characterized in that it further comprises.

And the wire guide portion 400 of the present invention is attached to the end of the guide arm 130 and extends in the vertical direction, the guide hole 411 is formed through the wire 140 in the same direction as the vertical direction Support housing 410 to be; It is connected to the wire 140 and is inserted into the guide hole 411 and extends to a certain length to move in the same direction as the moving direction of the wire 140, so that the sample collection unit 200 shakes when it moves up and down. It characterized in that it comprises a; sliding rod 420 to prevent.

According to the present invention, by adjusting the vertical movement distance of the sample collection container, the sample collection container can be moved up and down to measure the degree of contamination of the water quality distributed by depth, and can be operated unattended to be used in a place or site where handling is difficult. There is an advantage.

In addition, the present invention is capable of grasping the exact position when the sample collection container moves up and down, and provides an effect of minimizing the incidence of malfunction by preventing the sample container from shaking according to shanghai.

1 is a perspective view showing the overall appearance of the present invention.
Figure 2 is a bottom perspective view showing the overall appearance of the present invention.
Figure 3 is a side view for showing the main configuration of the present invention.
Figure 4 is a cross-sectional view for showing the main configuration of the sample collection unit of the present invention.
Figure 5 is a bottom view showing an embodiment of the main configuration and operation method of the water collector holder of the present invention.

Hereinafter, an embodiment of a sample collection device for measuring water quality of the present invention will be described in detail with reference to the drawings. First, it should be noted that in adding reference numerals to the components of each drawing, the same components have the same reference numerals as possible, even if they are displayed on different drawings. In addition, in the following description of the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

1 is a perspective view showing the overall appearance of the present invention, FIG. 2 is a bottom perspective view showing the overall appearance of the present invention, FIG. 3 is a side view showing the main configuration of the present invention, and FIG. 4 is a main configuration of the sample collection unit of the present invention 5 is a bottom view showing an embodiment of a main configuration and an operation method of a water collector holder according to the present invention.

1 and 2, the present invention has a depth control unit 100. The depth control unit 100 includes a motor 110 and a winding roller 120. The motor 110 operates to provide rotational force by receiving electric power from an external rotor. The motor 110 may be rotated in one direction or the other direction, and may be formed of a servo-motor capable of controlling the rotational speed, and may be provided as a stepper motor that can be rotated by a certain angle. have. The winding roller 120 is connected to the motor 110 and rotates by receiving the rotational force of the motor 110.

The winding roller 120 and the motor 110 are mounted on one side of the guide arm 130 extending in the horizontal direction. The winding roller 120 is wound with a wire 1400, and both ends of the winding roller 120 are prevented from being pulled out of the winding roller 120 so that the wound wire 1400 is outside the winding roller 120. A guide rib that protrudes further may be further formed. The wire 1400 may be made of a material having high water resistance, and may be a wire rope in which a plurality of metal wires having a predetermined diameter are twisted. One side of the wire 140 is fixed to the winding roller 120 and may be wound or unwound according to the rotational direction in which the winding roller 120 rotates.

On the other hand, it is preferable that the depth control unit 100 extends in the vertical direction and is located at the upper end of a separate fixing support 150 whose one side is fixed to the ground.

1 and 2, the sample collection unit 200 is connected to the end of the wire 140 including the water collection container 210 and moves up and down according to the winding direction of the wire 140. Therefore, according to the winding direction of the wire 140, the sample collection unit 200 may move down the water surface to collect samples, and the sample collection unit 200 moving down the water depth according to the length of the unwinding of the wire 140 ) Can be adjusted.

The water collection container 210 is formed in a cylindrical shape with a body 211 having a predetermined height and an inlet 212 formed to collect water inside. 1 and the like, it is preferable that the water collection container 210 has a constant diameter and a predetermined height. It can be made of a material such as glass or plastic. The water container 210 is held in the water container holder 230, which will be described later, so that it can go down into the water. Meanwhile, the collected water collection container 210 may be stored in the container loading unit 300 described later.

1 and 2, the container loading unit 300 is provided to store at least one or more of the water collection containers 210. The container loading portion 300 may be formed with at least one container seating hole 310 in which the lower end of the water collection container 210 can be seated and supported.

And, the end of the guide arm 130 is further provided with a wire guide portion 400 for guiding the shandong of the wire 140. The wire guide unit 400 is connected to the wire 140, and the purpose of guiding the east and west of the wire 140, as well as wind or other factors during the up and down of the sample collection unit 200 connected to the wire 140 Due to this, the sample collection unit 200 is formed for the purpose of preventing pendulum movement.

2 and 4, the upper side of the sample collection unit 200 is further provided with an automatic switch 220 that can open and close the inlet 212 of the water collection container 210 by an external signal. 220) the auxiliary holder 221, a rubber stopper 222 provided at the bottom of the auxiliary holder 221, a spring 223 elastically supporting the auxiliary holder 221 and the auxiliary holder 221 is provided at the top of the wire It is further connected to the wire holder 224 for fixing the 140 and the auxiliary holder 221, and further includes an elevating and descending means 225 for moving the auxiliary holder 221 up and down.

That is, the automatic switch 220 was applied to the electrical signal or the like by a signal line and a power line (not shown) provided inside the wire 140 to control the lifting and lowering of the rubber stopper 222.

The rubber stopper 222 is lifted by receiving a signal from the outside through a signal line and a power line, and the inlet 212 of the water container 210 described above can be opened and closed. The spring 223 elastically supports the rubber stopper 222 to induce the opening and closing of the inlet 212 precisely by efficiently raising and lowering the rubber stopper 222.

The elevating and descending means 225 may be connected to the auxiliary holder 221 to selectively open the inlet 211 of the water collection container 210 while moving the auxiliary holder 221 up and down. The elevating means 225 may correspond to a solenoid switch.

1 to 5, the lower end of the sample collection unit 200 further includes a collection container holder 230 that is coupled to or disengaged from the lower portion of the collection container 210. That is, by collecting or uncoupling the lower portion of the collection container 210 supported by the sample collection unit 200, the sample collection unit 200 is stably supported together with the sample collection unit 200 to move down the surface of the water. . The collection container holder 230 can also operate by receiving external power, and when the collection container 210 is fixed to the sample collection unit 200, it is coupled to the bottom of the collection container 210, and the sample collection is completed. When the 210) is moved to the container loading part 300, the water collection container 210 and the sample collection part 200 can be separated from each other while being combined.

At this time, the bottom of the water container 210 may be further provided with a container bottom plate 213 that is coupled to or disengaged from the water container holder 230. The container bottom plate 213 is preferably made of a material having higher strength and durability than the water container 210 to prevent the water container 210 from being damaged due to repeated coupling and disengagement. In addition, while the container bottom plate 213 is fitted into the container seating hole 310 of the container loading part 300, it is possible to provide an additional advantage of more stably storing the water collection container 210.

The container bottom plate 213 may be further provided with a holder seating groove 213-1 into which the water container holder 230 is inserted to stably support the container bottom plate 213.

Referring to Figure 5, the water container holder 230 includes a bracket 231, a coupling controller 232 and the bottom plate holder 233. The bracket 231 is formed at the bottom of the sample collection unit 200, and the coupling controller 232 is fixed to the inside of the bracket 231. The combination controller 232 corresponds to a solenoid device operated by receiving external power. And, as the bottom plate holder 233 is connected to the coupling controller 232, the container bottom plate 213 can be pressed or released by moving forward or backward according to the driving of the coupling controller 232. At this time, the bottom plate holder 233 may be inserted into the holder seating groove 213-1 to combine the container bottom plate 213 and the water collection container holder 230.

Referring to FIG. 2, the container loading part 300 is located on the fixed support 150 and rotates due to the rotating index part 320 provided at the bottom of the container loading part 300 so that the collecting container 210 is rotated. It can be sequentially seated and stored in the container loading unit 300. That is, the container seating hole 310 of the container loading part 300 is arranged in a circular arc along a certain radius of curvature, and the rotating index part 320 is loaded on the basis of the center of the curvature radius of the container seating hole 310. When the part 300 is rotated by a certain angle (the spaced-apart angle of the container seating hole 310), the collecting container 210 may be sequentially seated or detached on the top of the container loading part 300. At this time, an opening 301 for vertical movement of the sample collection unit 200 is further formed on one side of the container loading unit 300, thereby preventing interference of the sample collection unit 200 due to the container loading unit 300. Can be solved.

1 and 2, the wire guide part 400 includes a support housing 410 and a sliding rod 420. The supporting housing 410 is attached to the end of the guide arm 130. The supporting housing 410 extends in the vertical direction, and a guide hole 411 formed in the same direction as the vertical movement direction of the wire 140 passes through the center.

At this time, the sliding rod 420 is inserted into the guide hole 411, and is guided to the guide hole 411 to move up and down. The sliding rod 420 is formed in a cylindrical shape having a predetermined diameter to extend at least longer than the extended length of the support housing 410. The sliding rod 420 is inserted into the guide hole 411 while maintaining a connection or connection with the wire 140. Due to this, the sliding rod 420 is slid while being guided to the supporting housing 410 in the vertical direction according to the unwinding or winding of the wire 140. As a result, as the length of the exposed wire 140 decreases, the sliding rod 420 guides and supports the wire 140 and the sample collection unit 200 is shaken by external force and wind to minimize irregular pendulum movement. Can.

For this reason, the present invention enables accurate grasping of the sample collection container when it moves up and down, and the sliding rod 420 to limit the length and distance of winding and unwinding of the wire 140 of the sample collection unit 200. ) Is provided with a position sensor (600) for sensing the distance of Shanghai Dong, it is possible to prevent the phenomenon such as damage due to malfunction in advance.

100: depth control unit 110: motor
120: winding roller 130: guide arm
140: wire 200: sample collection unit
210: water collection container 300: container loading
310: container seating hole 400: wire guide
410: support housing 420: sliding rod

Claims (4)

The motor 110 that provides rotational power by receiving electric power from the outside, and the winding roller 120 that rotates in connection with the motor 110 and the motor 110 and the winding roller 120 are seated on one side and the other side is horizontal. A depth control unit 100 including a guide arm 130 extending in a direction and a wire 140 having one side connected to the winding roller 120;
A water collection container 210 having a hollow body 211 inside and having an inlet 212 through which water can be introduced; And a sample collection unit 200 supporting the water collection container 210 and moving the wire 140 down to the water surface while moving up and down according to the winding direction of the wire 140 by connecting the wire 140 to the upper side. );
A container loading part 300 for storing at least one of the water collecting containers 210;
In the sample collection device for water quality measurement comprising; a wire guide portion 400 is formed at the end of the guide arm 130 to guide the up and down movement of the wire 140 to be connected to the wire 140,
The upper part of the sample collection unit 200, the automatic switch (220) that can open and close the inlet 212 of the collection container 210 by an external signal; water quality measurement sample collection further comprising Device. According to claim 1,
At the bottom of the sample collection unit 200 is coupled to or disengaged from the lower portion of the water collection container 210 for storing the collection container 210 in the container loading unit 300 or for use in collecting samples. Collecting container holder 230; further includes,
A sample collection device for measuring water quality, further comprising: a container bottom plate 213 coupled to or disengaged from the collection container holder 230 at the bottom of the collection container 210. According to claim 2,
The collection container holder 230 includes a bracket 231 protruding from the bottom of the sample collection unit 200; A coupling controller 232 provided inside the bracket 231 and operated by an external signal; and a bottom plate holder 233 detachably attached to the container bottom plate 213 according to the driving of the coupling controller 232; A sample collection device for measuring water quality, further comprising a. According to claim 1,
The wire guide part 400 is attached to the end of the guide arm 130 and extends in the vertical direction, a support housing through which the guide hole 411 is formed in the same direction as the up-and-down direction of the wire 140 ( 410);
It is connected to the wire 140 and is inserted into the guide hole 411 and extends to a certain length to move in the same direction as the moving direction of the wire 140, so that the sample collection unit 200 shakes when it moves up and down. Preventing sliding rod 420;
Sampling device for measuring water quality comprising a.

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