KR101492558B1 - Water sampler - Google Patents

Abstract

A water sampler is disclosed. The water sampler is used in sampling to inspect the quality of the water in a reservoir, a river, or sea; and comprises: a base installed in a position corresponding to the water surface; an extended arm including a fixating unit coupled to the base, and a movable unit which can move or be extended downward in the lower part of the fixating unit; and a water sampling container coupled to the movable unit storing water therein. The bottom of the water sampling container is higher than the bottom of the movable unit, and gets higher or the equivalent to the bottom of the movable unit as the movable unit moves or is extended downward. Therefore, the water sampler can collect accurate samples by the positions and depth of the reservoir, the river, or the sea by elastically extending an extended arm to connect the water sampling container with the base using a first link connecting structure, which is rotatably coupled, in order to prevent turning even when a current flow is received under the water.

Description

{WATER SAMPLER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water intake system, and more particularly, to a water intake system installed in a reservoir, a river, or the sea for sampling a water quality test.

A water sampler is a device for collecting water samples. In general, water is directly taken from a reservoir, river or sea using a sample vessel. However, when using a water sampler, the depth of the reservoir, river, or sea, depending on the purpose of the test, the nature of the sample, Collect a lot.

In this connection, Korean Patent Laid-Open Publication No. 2002-0017332 discloses a river and sea water collector, and No. 2002-0017332 discloses an air conditioner having four catchers on the upper and lower sides of the outer wall, A separator and a filler pipe connected to a wire for guiding a fall weight at a lower portion and four tension wires in a lateral direction so as to be coupled or detached; A locking plate provided with a rubber stopper so as to be openable and closable and connected to a tension line at the upper and lower ends thereof, and a weight connected to the wire below the center of the lowering cylinder.

However, in the conventional water taking apparatus including Korean Patent Laid-Open Publication No. 2002-0017332, a wire is connected to the upper end of the water taking device, and the water taking device is lowered or pulled up to the water surface However, since the wire is a means that can transmit only the force in the tension direction, there is a problem that the water taking apparatus is caused to flow back and forth by the flow of the water in the water.

As described above, the water taking apparatus is a device for collecting accurate samples by position and depth in a reservoir, a river or the sea in consideration of the purpose of the test, the properties of the sample, and the surrounding circumstances, When the wire is moved by the flow of water below the dropping point, the sample is taken away from the position of the dropping point. Also, as the wire is inclined in the water due to the flow energy of the water, There is a problem in that a sample of the sample is taken.

In order to prevent the inaccuracies of sampling as described above, the conventional water taking apparatus including Korean Patent Laid-Open Publication No. 2002-0017332 has a structure in which the weight of the entire water taking apparatus is increased and a weight or the like is installed at the lower end of the water taking- However, it takes more power to wind or wind the wire by the weight of the weight as a separate structure from the essential constitution for the weighing water, and the whole sampling process is troublesome due to the delay of the sampling time .

(0001) Korean Patent Publication No. 2002-0017332 (published on March 03, 2002)

SUMMARY OF THE INVENTION An object of the present invention is to provide a water taking device which can prevent the flow of water even in the case of water, thereby obtaining an accurate sample for each location of the reservoir, river or sea.

It is another object of the present invention to provide a watering apparatus that can prevent the inflow of foreign matter in the water during the sampling process and can easily transport the collected sample when the sampling process is completed.

According to the present invention, the above object is achieved by a method of sampling a sample for the purpose of water quality inspection of a reservoir, a stream or a sea, comprising: a base installed at a position corresponding to a water surface; An extension arm having a fixed portion coupled to the base and a movable portion movable downward or extending downward from the fixed portion; And a water collection container coupled to the moving part and configured to store water therein, wherein a lower end of the water collection container is higher than a lower end of the movement part, and as the movement part moves or extends downward, And is made higher or equal at the lower end of the moving part.

Wherein the water collection container comprises: an outer housing having a circular shape around a rotating shaft and having an opening hole for allowing water to flow in one circumferential direction; And at least one water collecting space coupled to the inside of the outer housing so as to be rotatable about the rotation axis, wherein at least one water collecting space for collecting water is provided, and each inflow hole communicating with each of the water collecting spaces along a circumferential direction is formed And the inlet hole may be communicated with one of the inlet holes or both of the inlet holes may be shielded as the inner housing rotates inside the outer housing.

Wherein the extending arm further includes an extension portion that connects the fixed portion and the moving portion to each other so as to be able to expand and contract in the up and down direction and the extension portion includes a pair of first links formed in a rod- Wherein the upper end of the first link located at the top is rotatably coupled to the fixed portion and the lower end of the first link located at the bottom is rotatably coupled to the movable portion, Lt; / RTI >

The fixing portion may include a first fixing portion coupled to the base and coupled to one of a pair of the first links located at the top; And a second fixing unit slidably coupled to the base and coupled to the other one of the pair of the first links located at the top.

Wherein the extended portion includes a pair of second links formed in a bar shape and rotatably coupled to each other and symmetrical with respect to the first link, at least one of the second links is provided, The upper end of the second link is rotatably coupled to the fixed portion, the lower end of the second link located at the bottom is rotatably coupled to the moving portion, and the connection connecting the first link and the second link to each other Link. ≪ / RTI >

The moving part may be coupled with a filtering net surrounding the water collection container.

According to the present invention, since the extension arm connecting the collection container to the base is extendable and retractable by the connection structure of the first link rotatably coupled to each other, the flow can be prevented even if the flow of water flows in the water, It is possible to provide a water sampling apparatus that can collect an accurate sample by position and depth of the water sampling apparatus.

In addition, since the moving part is connected to the filtering network surrounding the water container, it is possible to prevent the inflow of foreign substances in the water during the sampling process, and the water container can be easily detached from the moving part so that the collected sample can be easily transported Thereby providing a watering apparatus.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a watering apparatus according to an embodiment of the present invention; Fig.
Fig. 2 and Fig. 3 are perspective views showing an operating state of the extension arm of the water collection apparatus of Fig. 1; Fig.
Fig. 4 is a perspective view showing a water collection container of the water collection device of Fig. 1; Fig.
Fig. 5 and Fig. 6 are sectional views showing an operating state of a water container of the water taking apparatus of Fig. 4; Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

The water taking device of the present invention can prevent the flow even if it receives the flow of water in the water, and can collect the accurate sample by the location of the reservoir, the river or the sea, the depth of the water, Once the sampling is completed, the collected sample can be easily transported.

FIG. 1 is a perspective view showing a water taking apparatus according to an embodiment of the present invention, FIG. 2 and FIG. 3 are perspective views showing an operating state of an extension arm of the water taking apparatus of FIG. 1, Fig. 5 is a perspective view of the water collection container of Fig. 4; Fig. 5 is a perspective view of the water collection container of Fig. 4;

1, the water taking apparatus 1 according to the embodiment of the present invention is installed in a reservoir, a river or the sea to collect a sample for water quality inspection, and includes a base 10, an extension arm 30, A water collection container 50, and a control unit 70. [

The base 10 is installed at a position corresponding to the water surface of a reservoir, a river or the sea, and a part or the whole thereof is exposed above the water surface. The base 10 may be composed of a fixed base 10 formed in a fixed position corresponding to the water surface, or may be formed of a floating base 10 formed in a floating shape on the water surface as shown in the figure.

The floating base 10 is constructed to float on the water surface by its own buoyancy and comprises a frame 13 connecting the pair of floating materials 11 and the floating material 11 to each other.

The floating material 11 is made of a material floating on the water surface such as a wood, a rubber tube, a foamed plastic, and is provided in a pair of left and right spaced apart from each other and connected to each other by a frame 13.

The frame 13 connects the floating members 11 to each other to form a frame in which the connection arm and the control unit 70 are coupled. In addition, the frame 13 forms the basis on which the operator can operate, manage and check the water supply system 1 while moving in the base 10. [

2 and 3, the extension arm 30 is configured to send the water collection container 50 downward by water depth. The extension arm 30 includes a fixed portion 31 coupled to the base 10, A moving part 33 that is movable or extendable from the lower side to the lower side and an extended part 35 that connects the fixed part 31 and the moving part 33 to each other so as to be able to expand and contract in the vertical direction do.

The extension portion 35 is configured to include a first link 35a, a second link 35b, and a connection link 35c.

The first link 35a has a pair of rod-shaped structures that are rotatably coupled to each other. The first link 35a is formed of a basic combination, and at least one of the rod-shaped structures is rotatably coupled to each other.

Like the first link 35a, the second link 35b has a pair of rod-shaped structures rotatably coupled to each other, and at least one of the rod-shaped structures is rotatably coupled to each other.

The connection link 35c is configured to connect the first link 35a and the second link 35b to each other so that the first link 35a and the second link 35b are not inclined or twisted in the water due to the force of the water flow And preferably the ends symmetrical to each other of the first link 35a and the second link 35b are connected to each other.

When the respective ends of the first link 35a and the second link 35b are connected by the connecting link 35c, the assembly of the first link 35a and the second link 35b and the connecting link 35c And in general, two or more square frames are formed so as to intersect with each other firmly, so that the extension portion 35 is prevented from being deformed such as warping or twisting due to the force of the water flow.

The upper ends of the first link 35a and the second link 35b positioned at the top of the extension portion 35 are rotatably coupled to the fixed portion 31 and the first link 35a and the second link 35b, (35b) is rotatably coupled to the moving part (33).

The fixing portion 31 includes a first fixing portion 31a coupled to the frame 13 and connecting either the first link 35a or the second link 35b located at the top of the frame 13 to each other, And a second fixing portion 31b which is slidably coupled and connects the other of the first link 35a and the second link 35b located at the top.

The rotary wheel W is coupled to both sides of the second fixing portion 31b so that the second fixing portion 31b can move toward or away from the first fixing portion 31a, And a rail 11a on which the wheels W roll.

A moving force transmission device C is coupled to the second fixing portion 31b. The moving force transmission device C may be a hydraulic cylinder connected to a hydraulic pump (not shown). In addition, the force transmitting device C may transmit a force to the second fixing portion 31b in a direction approaching or away from the first fixing portion 31a It should be understood that the present invention may be practiced with various types of apparatuses. The force transmission device C is manually operated by an operator or is operated by automatic control of the control unit 70. [

The control unit 70 is provided to automatically collect samples according to the desired time and depth, and is connected to the movement force transmission device C and the water collection container 50 to control their operation.

The vertical length of the extended portion 35 is shortened when the movable force transmission device C pulls the second fixed portion 31b and when the movable force transmission device C pushes the second fixed portion 31b, ) Becomes longer. Such an expansion and contraction structure is due to the rotational coupling structure of the first link 35a and the second link 35b, and corresponds to a known technology, and therefore, a detailed description thereof will be omitted.

As shown in Figs. 3 and 4, the moving part 33 has a structure in which the water container 50 is lowered or raised in water in a state where the water container 50 is engaged by the expansion and contraction structure of the extension part 35, And the first link 35a and the second link 35b located at the bottom of the unit 35 are connected to each other. Preferably, the moving part 33 is provided as a connecting link 35c for rotatably connecting a pair of hinge parts of the first link 35a and a pair of hinge parts of the second link 35b.

The bottom end of the water collection container 50 coupled to the moving part 33 is disposed higher than the lower end of the moving part 33 and the extending part 35 by the expansion and contraction structure of the extending arm 30 as described above, The lower end of the water container 50 is made to be higher at the lower end of the extension arm 30 as the portion 33 is moved downward.

That is, as the lowermost first link 35a and the second link 35b of the extension part 35 are rotated in the vertical direction in the process of lowering the water collection container 50 into the water, the water collection container 50 has the first The distance from the lower end of the link 35a and the second link 35b is such that the watercolor container 50 is more safely protected even if the extension arm 30 hits the reef, seaweed, or mud in the water .

A filtering net N surrounding the water collecting container 50 is coupled to the moving part 33 to block the float that is bulky from approaching the water collecting container 50 side.

4 to 6, the water collection container 50 is constructed to include an outer housing 51 and an inner housing 53, which are coupled to the moving part 33 to collect a sample.

The outer housing 51 has a circular shape with the rotation axis S as a center, and an opening hole H1 is formed to allow water to flow in one circumferential direction.

The inner housing 53 is coupled to the outer housing 51 so as to be rotatable about the rotation axis S and has a plurality of water collection spaces A in which water is collected. In the water collection space A, And an inlet hole H2 communicating with each of the water collection spaces A are formed. The inner housing 53 is rotated by the motor about the rotation axis S in the outer housing 51.

5, the inlet hole H2 of the inner housing 53 is normally held in a state of being out of alignment with the opening hole H1 of the outer housing 51, The space A is shielded from the outside.

6, the inner housing 53 rotates so that the inlet hole H2 of the inner housing 53 communicates with the opening hole H1 of the outer housing 51 at the time of sample collection, 53 are communicated with the outside so that the sample can be introduced.

The rotation of the inner housing 53 is performed by remote control of the operator or automatic control of the control unit 70.

The control unit 70 sends a rotation signal to the motor at the set depth and rotates in one direction of the motor so that the opening hole H1 of the outer housing 51 can be sequentially aligned with or displaced from the inlet hole H2 of the inner housing 53 . Although not shown, a pressure sensor may be installed in the water collection container 50 or the moving part 33 so that a sample can be automatically collected at a set pressure.

According to the present invention, the extension arm (30) connecting the water collection container (50) to the base (10) is extendable and retractable by the connection structure of the first link (35a) It is possible to provide a water taking apparatus 1 that can prevent the flow even if it receives the flow and can collect an accurate sample according to the position of the reservoir, the river or the sea and the depth.

It is also possible to prevent the inflow of foreign matter in the water during the collection of the sample by combining the filtering net N surrounding the collection container 50 with the moving part 33 and to prevent the water collection container 50 from being easily detached So that it is possible to provide a watercourse apparatus (1) capable of easily transporting the collected sample when the sampling is completed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

1: Water taking device 10: Base
30: extension arm 50: water container
70: control part 11: floating material
31: Fixing portion 11a: Rail
31a: first fixing portion 13: frame
31b: second fixing portion 51: outer housing
W: rotating wheel H1: opening hole
C: Moving force transmission device 53: Inner housing
33: moving part A: watering space
N: Screening H2: Inflow hole
35: extension part
35a: first link
35b: second link
35c: Connection link

Claims (6)

It is used for sampling for reservoir, river or sea water quality inspection,
A base installed at a position corresponding to the water surface;
An extension arm having a fixed portion coupled to the base and a movable portion movable downward or extending downward from the fixed portion; And
And a water collection container coupled to the moving part and configured to store water therein,
Wherein the lower end of the water collection container is higher than the lower end of the movement part and the lower end of the water collection container is higher at the lower end of the extension arm as the movement part is moved downward. The method according to claim 1,
The water collection container includes:
An outer housing having an opening formed in a circle around the rotation axis and having an opening hole for allowing water to flow in one side in the circumferential direction; And
At least one water collecting space for collecting water is provided inside the outer housing so as to be rotatable about the rotating shaft and each inlet hole communicating with the water collecting space along the circumferential direction is formed, / RTI >
Wherein the inlet hole is communicated with any one of the inlet holes or both of the inlet holes are shielded as the inner housing rotates inside the outer housing. The method according to claim 1,
The extending arm further includes an extension portion connecting the fixed portion and the moving portion to each other and extending and contracting in the vertical direction,
The extension portion includes a pair of first links formed in a bar shape and rotatably coupled to each other,
At least one of the first links is provided,
An upper end of the first link located at the top is rotatably coupled to the fixing portion,
And a lower end of the first link located at the bottom is rotatably coupled to the moving unit. The method of claim 3,
The fixing unit includes:
A first fixing part coupled to the base and coupled to any one of a pair of the first links located at the top; And
And a second fixing unit slidably coupled to the base and coupled to the other of the pair of first links located at the top. The method of claim 3,
Wherein the extension portion includes a pair of second links formed in a bar shape and rotatably coupled to each other and symmetrical with the first link,
At least one second link is provided,
The upper end of the second link located at the top is rotatably coupled to the fixed portion,
A lower end of the second link located at the bottom is rotatably coupled to the moving unit,
Further comprising a connection link connecting the first link and the second link to each other. 6. The method according to any one of claims 1 to 5,
Wherein the moving unit is coupled with a filtering net surrounding the water collecting container.

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