KR102217643B1 - Nematodes injection pipette apparatus into insect body - Google Patents

Abstract

Disclosed is a pipette device for injecting nematodes that can be used when artificially inserting a pine reindeer nematode into a substrate of a vector insect. In the pipette device for nematode injection used in ecological and physiological studies by artificially inserting a pine reindeer nematode into the substrate of a vector insect, the pipette device for nematode injection according to the present invention includes a storage unit and an injection unit having a diameter smaller than that of the storage unit. A micro pipette to which the pine tree nematode that has entered the storage unit is injected through the injection unit; A tip body in which the micropipette penetrates the center so that the micropipette can be easily handled by the experimenter, and the injection portion is fixed therein so that the injection portion protrudes from the tip portion, and the diameter decreases toward the tip portion; And a sealing member installed to pass through the micropipette and made of a material that can be deformable in shape, and fixed to the inside of the tip body by force fitting.

Description

Pipette apparatus and manufacturing method for nematodes injection TECHNICAL FIELD [Nematodes injection pipette apparatus into insect body]

The present invention relates to a pipette device for injecting nematodes that can be used when artificially inserting the pine reel nematode into the substrate of the vector.

In general, pine nematodes infect pine trees, pine trees, and sea pines, causing the trees to wither red and dry. Pine tree nematodes cause deadly pine tree nematodes by moving to healthy trees through insects of the genus Monochamus, such as brush-headed sky cattle and northern whiskers. Pine nematode disease occurred in Japan, China, Taiwan, Korea, Portugal and Spain, including Korea.

In Korea, pine trees infected with pine tree nematode disease are harvested to control fumigation, crushed, or incinerated to prevent the spread of pine tree nematode disease.However, since the first occurrence in Busan in 1988, the damage area has increased every year and has spread to many places. . The government is making various efforts to reduce the damage caused by the pine tree nematode.

After the enactment of the Special Act on the Control of Pine Tree Nematodes, in order to prevent the artificial spread of pine tree nematodes, the export of dead trees, which can be the spawning sites of the vector insects of the pine tree nematode disease, is prohibited. For this reason, basic studies on the ecological and physiological characteristics of vector insects carrying pine reel nematodes are very poor.

To solve this problem, the process of ecological and physiological research of vector insects is as follows.

1. Cultivate the pine tree nematode, and prepare the brush-bearded sky cattle (pupa state) (1) just before becoming an adult.

2. Using the pipette tip (10), inject the desired amount of pine tree nematode into the first door (1a) on both sides.

3. After the injection, feed the sky cattle (1) to observe the effect of artificial injection (mortality rate), and dissect the sky cattle (1) to determine whether the detected nematodes are molecularly biocompatible with the artificially injected pine tree nematodes.

At this time, it is necessary to use a pipette that fits the size of the gate (1a). Referring to FIG. 1, it is difficult to standardize because it is necessary to manufacture a special pipette 10 by applying heat to a glass pipette and processing the end. There was this.

Registered Patent 10-1033270

An object of the present invention is to solve these problems, and a pipette device for nematode injection that can be conveniently used in physiological experiments by fixing it to a tip so that a micropipette produced in mass production for various purposes can be picked up and used by hand and manufacturing To provide a way.

As a specific means for achieving the above object, the present invention provides a pipette device for nematode injection used in ecological and physiological studies by artificially inserting a pine reindeer nematode into the substrate of a vector insect, wherein the diameter is greater than that of the storage unit and the storage unit. A micro pipette made of a small injection unit to inject the pine tree nematode into the storage unit through the injection unit; A tip body in which the micropipette penetrates the center so that the micropipette can be easily handled by the experimenter, and the injection portion is fixed therein so that the injection portion protrudes from the tip portion, and the diameter decreases toward the tip portion; And a sealing member that is installed to pass through the micropipette and is made of a material that can be deformed in shape, and is fixed to the inside of the tip body in a force-fitting manner.

Preferably, the sealing member may be made of silicone rubber.

Preferably, the micropipette may be formed such that the tip of the injection part is bent toward one side.

Preferably, the tip body may be tapered so that the inner diameter linearly decreases toward the tip.

Preferably, the tip body may be formed by connecting cylindrical bodies having different diameters so that the inner diameter decreases toward the tip.

As another specific means for achieving the above object, the present invention provides a method for manufacturing a pipette device for nematode injection used in ecological and physiological studies by artificially inserting a pine reindeer nematode into the substrate of a vector insect, the storage unit and the Providing a micropipette comprising an injection unit having a diameter smaller than that of the storage unit and into which the pine tree nematode that has entered the storage unit is injected through the injection unit; Providing a tip body having a shape in which the micropipette penetrates the center so that the micropipette can be easily handled by the experimenter so that the injection portion protrudes from the front end, and the diameter decreases toward the front end; And installing a sealing member made of a material that can be deformable in shape so as to pass through the micropipette and then fixing the tip body to the inside of the tip body by force fitting.

As another specific means for achieving the above object, the present invention provides a method for manufacturing a pipette device for nematode injection used in ecological and physiological studies by artificially inserting a pine nematode nematode into the substrate of a vector insect, a storage unit and Providing a micropipette comprising an injection unit having a diameter smaller than that of the storage unit and injecting the pine tree nematode into the storage unit through the injection unit; Providing a tip body having a shape in which the micropipette penetrates the center so that the micropipette can be easily handled by the experimenter so that the injection portion protrudes from the front end, and the diameter decreases toward the front end; And fixing a sealing member made of a material that can be deformable in shape by force-fitting to the inside of the tip body, and then installing the micropipette through the center of the sealing member.

According to the present invention as described above has the following effects.

(1) In the present invention, since a micropipette having a very small diameter is fixed to a tip body having a large diameter, the experiment is carried out by holding the tip body by hand, so that the experiment can be performed very easily and quickly.

(2) Since the present invention is a configuration in which a large amount of produced micropipettes are fixed by using a sealing member and a tip body, there is no need to manufacture a separate pipette, so it is possible to reduce the experimental cost.

1 is a perspective view showing a state of injecting a nematode nematode to the insect vector using a pipette device for nematode injection according to the prior art.
Figure 2 is a perspective view showing a state of injecting the nematode nematode to the insect vector by using the pipette device for nematode injection according to the present invention.
3 is an exploded perspective view of the pipette device for nematode injection according to the present invention.
Figure 4 is a cross-sectional view of the pipette device for nematode injection according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. The present invention may be implemented in various different forms, and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and the same reference numerals are assigned to the same or similar components throughout the specification.

In the present specification, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance. In addition, when a part such as a layer, film, region, plate, etc. is said to be "on" another part, this includes not only the case where the other part is "directly above", but also the case where there is another part in the middle. Conversely, when a part such as a layer, film, region, plate, etc. is said to be "below" another part, this includes not only the case where the other part is "directly below", but also the case where there is another part in the middle.

Hereinafter, the pipette device 100 for nematode injection according to an embodiment of the present invention will be described in more detail with reference to the drawings.

First, the pipette device 100 for nematode injection according to the present invention is a pipette device 100 for nematode injection that is used in ecological and physiological studies by artificially inserting the pine reel nematode into the crypt of the vector.

The pipette device 100 for nematode injection according to the first embodiment of the present invention includes a micro pipette 130, a tip body 110, and a sealing member 120 with reference to FIGS. 2 to 4.

2 to 4, the micro pipette 130 is composed of a storage unit 132 and an injection unit 131 having a diameter smaller than that of the storage unit 132, and enters the storage unit 132. Pine nematode is injected through the injection part 131.

In this case, the micropipette 130 has two inner diameters, and includes an injection portion 131 having a relatively small tip diameter and a storage portion 132 having a relatively large diameter. The pine nematode is sequentially supplied to the storage unit 132 and then injected to the outside through the injection unit 131.

At this time, if the user holds the micropipette 130 by hand and supplies the pine tree nematode to the storage unit 132, it is very difficult for the user to experiment because the inner diameter is very small. On the contrary, in the case of using the pipette device 100 for nematode injection, since it is possible to easily supply the pine tree nematode into the tip body 110, the experiment can be performed very easily and quickly.

At this time, the micro-pipette 130 is generally made of a glass material that can be easily seen inside, and the micro-pipette 130 is mass-produced so that it can be used for other purposes other than the use of the present invention.

In this case, the micro pipette 130 may be formed such that the tip of the injection part 131 is bent toward one side.

Referring to FIG. 4 in FIG. 2, the tip body 110 passes through the center of the micro pipette 130 so that the experimenter can easily handle the micro pipette 130 so that the injection part 131 Is fixed inside so as to protrude from the tip, and the diameter decreases toward the tip.

In this case, the tip body 110 may be manufactured in a tapered shape such that the inner diameter linearly decreases toward the tip.

At this time, the tip body 110 may be formed by connecting cylindrical members 111-114 having different diameters so that the inner diameter decreases toward the tip. Here, four cylindrical members 111-114 each having different diameters are connected so that the diameter of the tip body 110 is reduced in four steps. Therefore, the tip body 110 is made to form a jaw whenever the diameter changes.

At this time, since the tip body 110 as a whole has a relatively large inner diameter compared to the micropipette 130, it is much easier for the experimenter to hold the tip body 110 and proceed with the experiment. It is also very convenient to supply very small pine tree nematodes.

At this time, the tip body 110 may be made of a transparent or translucent synthetic resin, and in the case of translucent, a colored material may be applied.

The sealing member 120, referring to FIGS. 2 to 4, is installed to pass through the micropipette 130 and is made of a material that can be transformed into a force-fitting type inside the tip of the tip body 120. Can be fixed.

At this time, the sealing member 120 may be made of silicone rubber. Therefore, the sealing member 120 has a cylindrical shape originally, but the shape is easily deformed according to the direction of the applied force. Of course, in addition to deformation, some shrinkage or shrinkage may proceed.

In addition, the sealing member 120 must be made of a material through which the micropipette 130 can pass. In the case of silicone rubber, the pointed injection part 131 of the micropipette 130 made of a glass material can be sufficiently penetrated and penetrated.

Referring to Figure 2, the experimenter is showing a state in which the experiment is in progress, the experimenter uses the pipette device 100 for nematode injection according to the present invention to transfer the pine tree nematode to the base gate (1a) of the vector insect (1). It is supplying. At this time, the experimenter supplies the pine tree nematode to the tip body 110 and inserts the tip of the injection unit 131 of the micropipette 130 into the base door 1a to inject the pine tree nematode.

Therefore, since the experimenter holds the tip body 110 by hand and proceeds with the operation, the operation such as supplying the pine tree nematode and inserting the injection part 131 into the gate 1a can be performed very easily and quickly.

Referring to FIG. 3, a configuration in which components of the pipette device 100 for nematode injection according to the present invention are separated is shown. The micropipette 130 and the sealing member 120 are respectively inserted from the rear end of the tip body 110 to be inserted into the tip body 110.

At this time, the micropipette 130 and the sealing member 120 are first assembled, and the assembled assembly is inserted into the tip body 110 to assemble, or the sealing member 120 is first assembled with the tip body 110 It may be assembled inside, and finally, the micropipette 130 may be assembled. This manufacturing method is as described later.

That is, the first manufacturing method described above, in the method of manufacturing a pipette device for nematode injection used in ecological and physiological research by artificially inserting a pine reindeer nematode into the substrate of a vector insect, the diameter of the storage unit and the storage unit Preparing a micropipette which consists of a small injection unit and into which the pine tree nematode that has entered the storage unit is injected through the injection unit, and the micropipette passes through the center so that the experimenter can easily handle the micropipette. The step of providing a tip body having a shape that is fixed to the inside so as to protrude from the additional tip and decreases in diameter toward the tip, and a sealing member made of a material that can be changed in shape is installed so as to penetrate the micropipette. It will be possible to be made in the step of fixing by force-fitting inside the tip.

The second manufacturing method described above is a method of manufacturing a pipette device for nematode injection used in ecological and physiological studies by artificially inserting a pine reindeer nematode into the substrate of a vector insect, wherein the storage unit and the injection unit have a diameter smaller than that of the storage unit. The step of preparing a micropipette into which the pine tree nematode that has entered the storage unit made of a part is injected through the injection unit, and the micropipette passes through the center so that the experimenter can easily handle the micropipette so that the injection unit ends The step of providing a tip body having a shape that is fixed to the inside so as to protrude more and whose diameter decreases toward the tip portion, and a sealing member made of a shape-deformable material is fixed to the inside of the tip body by force fitting, and the micro The pipette may be installed to pass through the center of the sealing member.

There is a difference between the two manufacturing methods in which the order of assembling the micropipette 130 and the sealing member 120 is changed, but the result will be the same as shown in FIG. 4.

Referring to FIG. 4, the sealing member 120 has an external shape deformed inside the tip body 110 and is inserted into the tip body 120 in a force-fitting manner to be firmly fixed, and the micropipette at the center thereof (130) is fixed through.

Therefore, the experimenter can very easily proceed to supply and inject the pine reel nematode while holding the tip body 110 by hand.

Although an embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiment presented in the present specification, and those skilled in the art who understand the spirit of the present invention can add components within the scope of the same idea. It will be possible to easily propose other embodiments by changing, deleting, adding, etc., but it will be said that this is also within the scope of the present invention.

1: vector insect
1a: kimun 100: pipette device for nematode injection
110: tip body 111-114: cylindrical member
120: sealing member 130: micro pipette
131: injection unit 132: storage unit

Claims (7)

In the pipette device for injecting nematodes used in ecological and physiological studies by artificially inserting a pine reindeer nematode into the substrate of a vector insect,
A micropipette comprising a storage unit and an injection unit having a diameter smaller than that of the storage unit to inject the pine tree nematode that has entered the storage unit through the injection unit;
A tip body in which the micropipette penetrates the center so that the micropipette can be easily handled by an experimenter, and is fixed inside so that the injection portion protrudes from the front end, and the diameter decreases toward the front end; And
A sealing member installed to pass through the micropipette and made of a material that can be deformable in shape and fixed to the inside of the tip body by a force fitting type;
Pipette device for nematode injection comprising a. The method of claim 1,
The sealing member is a pipette device for nematode injection made of silicone rubber. The method of claim 1,
The micropipette is a pipette device for nematode injection in which the tip of the injection unit is curved toward one side. The method of claim 1,
The tip body tapered nematode injection pipette device so that the inner diameter linearly decreases toward the tip. The method of claim 1,
The tip body is a pipette device for nematode injection made by connecting cylinders having different diameters so that the inner diameter decreases toward the tip. In the method of manufacturing a pipette device for nematode injection used in ecological and physiological studies by artificially inserting the pine reel nematode into the substrate of the vector,
Providing a micropipette comprising a storage unit and an injection unit having a diameter smaller than that of the storage unit and into which the pine tree nematodes entering the storage unit are injected through the injection unit;
Providing a tip body having a shape in which the micropipette penetrates the center so that the micropipette can be easily handled by the experimenter so that the injection portion protrudes from the front end, and the diameter decreases toward the front end; And
Installing a sealing member made of a shape-deformable material to pass through the micropipette, and then forcibly fixing the tip body to the inside of the tip body;
Pipette device manufacturing method for nematode injection comprising a. In the method of manufacturing a pipette device for nematode injection used in ecological and physiological studies by artificially inserting the pine reel nematode into the substrate of the vector,
Providing a micropipette comprising a storage unit and an injection unit having a diameter smaller than that of the storage unit and into which the pine tree nematodes entering the storage unit are injected through the injection unit;
Providing a tip body having a shape in which the micropipette penetrates the center so that the micropipette can be easily handled by the experimenter so that the injection portion protrudes from the front end, and the diameter decreases toward the front end; And
Fixing a sealing member made of a material that can be shape-deformable to the inside of the tip body by force fitting, and then installing the micropipette through the center of the sealing member;
Pipette device manufacturing method for nematode injection comprising a.

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