KR101962619B1 - Equipment using light source for surveying organism living in subtidal zone - Google Patents

Abstract

The present invention provides equipment for surveying organisms living in a subtidal zone using a light source, which is installed in the water and collects specimens. The present invention comprises: a main body portion having an accommodation space in which the specimen is accommodated; an inflow portion provided outside the main body portion to communicate with the accommodation space and including a plurality of inflow members into which the specimen distributed in the water flows; a light source portion installed above the main body portion and emitting light to the accommodation space side of the main body portion; and a reflection portion accommodated in the accommodation space of the main body portion and reflecting the light emitted from the light source portion toward the inflow portion side. According to the equipment for surveying organisms living in a subtidal zone using a light source, by providing the plurality of radially extending inflow members, it is possible to efficiently collect organisms in the peripheral region of the surveying equipment. In addition, according to the equipment for surveying organisms living in a subtidal zone using a light source, by providing the reflection portion that reflects the light emitted from the light source to the plurality of inflow members, the light of the desired brightness can be emitted to the peripheral region of the surveying equipment even with one small-sized light source, thereby efficiently collecting organisms in the peripheral region of the surveying equipment.

Description

Technical Field [0001] The present invention relates to an apparatus for measuring a living organism,

More particularly, the present invention relates to a device for collecting specimens of living creatures in the sub-basin to investigate biological diversity.

Generally, the subtidal zone or sublittoral zone is the lower part of the intertidal zone, which means that the water does not fall off even during low tide and is always immersed in water. It refers to the shelf break at the outer edge of the continental shelf from the low shore of the coast, with an average depth of about 150 m.

It is a place where environmental changes such as water temperature, salinity, and waves are severe. Thus, subterranean organisms have different biological characteristics from other organisms and are considered as useful specimens for investigating the characteristics of organisms according to the habitat environment. In addition, since it is very vulnerable to various marine development projects and fishing activities and marine pollution using trawlers, the effective collection method of sub-marine organisms is considered to be very important for ecosystem studies. However, due to the environmental characteristics immersed in water, it is a very difficult task to collect the creatures under the control.

Korean Patent Laid-Open No. 10-2017-0095248 relates to a submersible biological surveying apparatus using such a light source, and discloses an underwater collection system.

In the conventional water collection system, there is a limitation that the laser light emitting device irradiates light only in one direction. Therefore, according to the conventional underwater collection system, there is a problem that only creatures in the unidirectional side region irradiated with light can be collected.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a biological research apparatus using a light source capable of efficiently collecting organisms existing in the vicinity of an irradiation apparatus from various directions using light .

The present invention relates to a method for collecting a sample of living organisms, which is installed in water, comprising: a body portion having an accommodation space for accommodating a sample therein; An inflow portion provided outside the main body portion to communicate with the accommodation space and including a plurality of inflow members into which a sample distributed in the water flows; A light source unit installed above the main body unit and irradiating light to the accommodation space side of the main body unit; And a reflector which is accommodated in the accommodation space of the main body and reflects the light emitted from the light source to the inlet side.

The light source unit may include a light source that emits light toward the reflection unit, and a light source protecting member that is disposed to surround the outside of the light source and fixes the light source on the upper side of the main unit.

The reflector may include a reflection-type frame of a pyramid shape having vertexes directed toward the light source side, and a plurality of reflection plates provided on the respective side surfaces of the reflection mold and reflecting the light emitted from the light source toward the inflow side .

Wherein the main body portion includes a side wall on which the inflow portion is provided, an upper surface coupled to the upper side of the side wall, the upper surface on which the light source portion is installed, a lower surface coupled to the lower surface of the side wall, And a drainage net through which water is discharged.

The main body may further include a pair of coupling members which are provided at a connection portion between the side wall and the upper surface and are coupled to each other to couple the upper surface to the side wall.

The plurality of inflow members may be disposed on each side of the side wall so as to extend radially from the center of the main body, and the plurality of reflection plates may be arranged to correspond to the plurality of inflow members, respectively.

The inflow member is provided on a side wall of the main body and includes an inflow cylinder into which a sample flows, a stop protruding inward from an inner circumferential surface of the inlet side of the inflow cylinder, It may include a filter net.

According to the submerged biological irradiating apparatus using the light source according to the present invention, by providing a plurality of radially extending inflow members, it is possible to collect organisms in the peripheral region of the irradiation equipment efficiently. In addition, according to the invention, the illuminating device for biological irradiation using a light source has a reflecting portion that reflects the light irradiated from the light source to a plurality of inflow members, It is possible to efficiently collect the organisms in the area surrounding the irradiation equipment by radiating to the peripheral area of the equipment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a submerged biological irradiator using a light source according to an embodiment of the present invention; FIG.
2 is a bottom perspective view of a submerged biological irradiator using a light source according to an embodiment of the present invention.
3 is an exploded perspective view of a submerged biological irradiator using a light source according to an embodiment of the present invention.
4 is a cross-sectional view of an inflow member included in a submerged biological irradiation apparatus using a light source according to an embodiment of the present invention.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Therefore, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 to 3, a biological research apparatus 100 (hereinafter, referred to as an "investigation apparatus") using a light source according to an embodiment of the present invention collects a sample of living organisms A body 110, an inlet 120, a light source 130, and a reflector 140.

The main body 110 includes a side wall 111, a top surface 112 and a bottom surface 113 in which a receiving space 110a for receiving a sample is formed. The side wall 111 forms a side portion of the main body 110, and the inflow portion 120 is installed. The upper surface 112 constitutes the upper part of the main body 110, and the light source unit 130 is installed. At this time, a pair of fastening members 114 may be installed at the connection portion between the side wall 111 and the upper surface 112. The pair of coupling members 114 are engaged with the upper surface 112 to be detachably coupled to the side wall 111 and are coupled to each other to connect the upper surface 112 to the side wall 111. The pair of fastening members 114 are separated from each other so that the upper surface 112 is separated from the side wall 111 when collecting the sample and collecting the sample housed in the accommodation space 110a So that the sample remaining in the accommodation space 110a can be easily collected.

The lower surface 113 forms a lower portion of the main body 110 and closes the inside of the side wall 111 together with the upper surface 112. The main body 110 has the accommodating space 110a ). At this time, a drainage net 113a through which the water introduced into the accommodation space 110a is discharged may be formed on the lower surface 113. [ This is for the easy collection of the sample. When the sampling equipment of the submerged organism is completed, when the irradiation equipment 100 is taken out of the water, the water is discharged to the outside through the drainage network 113a, Only a specimen of the crude organism can be left in the space 110a. Accordingly, the operator can easily collect the specimen from the irradiation equipment 100.

The main body 110 may further include a plurality of weights 115 installed on the lower surface 113. The plurality of weights 115 allow the irradiation equipment 100 to descend into water without floating on the surface of the water. The plurality of weights 115 may have the same weight and may be spaced at equal intervals along the edge of the lower surface 113 as shown in FIG. Therefore, the plurality of weights 115 allow the irradiation equipment 100 to descend in water without being tilted to one side.

The inlet 120 is provided outside the main body 110 to communicate with the receiving space 110a and provides a passage through which the sample distributed in the cooking zone flows. Here, the inflow portion 120 may include a plurality of inflow members 121 installed on each side of the side wall 111. The plurality of inflow members 121 are formed so as to extend radially from the respective sides of the side wall 111 so that the roughing creatures distributed in the same water layer can flow into the accommodation space 110a from multiple directions. do.

4, the inflow member 121 may include an inflow cylinder 122, a catching jaw 123, and a sieve net 124. The inflow cylinder 122 is a cylindrical member, which is coupled to the side wall 111 and provides a path through which the sample is introduced. The stopping protrusion 123 projects radially inward from the inlet-side inner circumferential surface of the inlet cylinder 122. The squeezing net 124 is provided on the side of the main body 110 of the catching jaw 123 to prevent the fish from intruding. It should be noted that this is merely an embodiment of the present invention and that the squeezing net 124 may be installed outside the catching protrusion 123 or may be installed radially inward of the catching protrusion 123 will be.

1 to 3, the light source unit 130 is installed on the upper side of the main body 110 and emits light toward the accommodation space 110a of the main body 110. [ Here, the light source 130 may include a light source 131 and a light source protecting member 132. The light source 131 is disposed on the upper surface 112 of the main body 110 and irradiates light toward the reflector 140 accommodated in the accommodation space 110a. The top surface 112 of the main body 110 may be made of a partly transparent material so that light irradiated from the light source 131 can be introduced into the accommodation space 110a, (Not shown) can be formed. The light source protecting member 132 is disposed to surround the outside of the light source 131 and is fixed to the upper surface 112 of the main body 110. Accordingly, the light source protecting member 132 fixes the light source 131 on the upper surface 112 of the main body 110. At this time, when the pair of coupling members 114 are separated from each other, the light source unit 130 is separated from the side wall 111 of the main body unit 110 together with the upper surface 112 of the main body unit 110 .

The reflector 140 is accommodated in the accommodation space 110a of the main body 110 and reflects the light emitted from the light source 130 toward the inlet 120. [ Here, the reflection unit 140 may include a reflection frame 141 and a plurality of reflection plates 142. The reflective frame 141 is formed in the shape of a polygonal pyramid and is arranged such that a vertex is directed toward the light source unit 130 and a bottom surface is seated on the lower surface 113 of the main body 110. The plurality of reflection plates 142 are provided on respective side surfaces of the reflection frame 141 and reflect the light emitted from the light source unit 130 toward the inflow unit 120.

At this time, the reflection frame 141 may be formed of a plurality of bar members 143. That is, the reflective frame 141 may be formed in a shape in which the plurality of bar members 143 are disposed at the corners of the polygon. The plurality of reflector plates 142 may be disposed between the plurality of bar members 143 so as to form a side surface of a pyramid shape whose outer shape is determined by the plurality of bar members 143.

The plurality of reflection plates 142 may be disposed so as to correspond one-to-one with the plurality of inflow members 121, respectively. More specifically, the plurality of reflection plates 142 may be arranged in the same number as the plurality of the inflow members 121 and may be disposed to face the inlet sides of the plurality of inflow members 121, respectively. In this case, all the light irradiated from the light source 131 to the upper side of the reflection unit 140 may be reflected by the plurality of reflection plates 142 to be reflected toward the plurality of inflow members 121. Therefore, according to the collecting apparatus 100 according to an embodiment of the present invention, the light source 131 that emits light of a small intensity by allowing all the light irradiated from the light source 131 to be diverted to the outside of the irradiation apparatus 100, The light of desired brightness can be emitted to the water layer.

100: a biological irradiation apparatus using a light source 110:
120: inlet part 130: light source part
140:

Claims (7)

1. An apparatus for biological investigation using light sources installed in water and collecting specimens of living organisms,
A main body having a housing space in which a sample is housed;
An inflow portion provided outside the main body portion to communicate with the accommodation space and including a plurality of inflow members into which a sample distributed in the water flows;
A light source unit installed above the main body unit and irradiating light to the accommodation space side of the main body unit; And
And a reflection part accommodated in the accommodation space of the main body part and reflecting the light emitted from the light source part toward the inflow part side,
The reflector includes:
A reflection-type frame of a pyramid shape in which a corner point is directed toward the light source part side,
And a plurality of reflection plates provided on the respective side surfaces of the reflection mold and reflecting the light irradiated from the light source unit toward the inflow unit. The method according to claim 1,
The light source unit includes:
A light source that emits light toward the reflective portion side,
And a light source protecting member arranged to surround the outside of the light source and fixing the light source to the upper side of the main body. delete The method according to claim 1,
Wherein,
A side wall on which the inflow portion is provided,
An upper surface coupled to the upper side of the side wall,
And a lower surface coupled to the lower side of the side wall and having a drainage net on which a bottom surface of the reflection frame is seated and water contained in the accommodation space is formed. The method of claim 4,
Wherein,
Further comprising a pair of fastening members which are provided at a connection portion between the side wall and the upper surface and fastened to each other to couple the upper surface to the side wall. The method of claim 4,
Wherein the plurality of inflow members are installed on each side of the side wall so as to extend radially from the center of the main body,
Wherein the plurality of reflection plates are arranged so as to correspond to the plurality of inflow members, respectively. The method of claim 6,
The inflow member
An inflow cylinder provided on a side wall of the main body and through which the sample flows,
An engaging protrusion protruding inward from an inner peripheral surface of the inlet side of the inflow cylinder,
And a light source which is installed on the catching jaw and includes a sieve to prevent intrusion of fish.

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