KR101515536B1 - Multiple corer - Google Patents

Abstract

A multiple corer is disclosed. The multiple corer according to the present invention includes: a support frame which has a support part on the upper part and the lower part of which touches the bottom; a lift frame which is integrated to move up and down on the support part; a lift which is integrated with the lift frame at the lower part and has a trigger on the side; a core frame which is integrated with the lift and has an upper lid and a bottom lid; and a core which is integrated with the core frame and opens up on both sides and has an upper opening and a bottom opening and in which the deposit flows. When the lift frame descends, the upper lid and the bottom lid of the invention are stopped by the trigger, respectively and open up the upper opening and the bottom opening, respectively. On the other hand, when the lift frame lifts up, the upper lid and the bottom lid are freed from the trigger, respectively, and close the upper opening and the bottom opening, respectively. According to the invention, when the lift frame and the lift move down toward the support frame, the upper lid and the bottom lid are supported by the trigger, while opening up the upper opening and the bottom opening. When the lift frame is lifted up after collecting the deposit, the upper lid and the bottom lid close the upper opening and the bottom opening, respectively by the trigger. Thus, the invention can form a multiple corer that is easy to use and operate, while significantly reduces the labor force.

Description

MULTIPLE CORER}

The present invention relates to a multiple sampler, and more particularly, to a sampler having a plurality of cores used for collecting sediments of rivers and oceans, and facilitating the input and recovery of the sampler.

Sludge is used to collect sediments from ships, and sediments collected by sludge are used for geological formation under water, underground resources, and historical research on sediments.

These dredgers include a steel dredger that pulls a dredger with a rake from the sea floor and collects a large amount of dredger, two or more buckets with strong spring action A sniper that is used to pick up sediments of a certain area and collects sediments at a certain point as a sediment. And a core sampler classified into a pneumatic formula and a piston type.

In the columnar dust collector, a plurality of means for collecting sediments is called a multi-sampler or a multi-corer.

On the other hand, since conventional collectors drop free by their own weights, there is a disadvantage in disturbing the interface between the sediment and the low-level water when the collection pipe is penetrated into the sediments. Therefore, it is necessary to minimize the disturbance and to collect have.

Korean Patent No. 10-0727590 discloses a " multi-core sample for sampling ", and specifically discloses a multi-core multi-core device for use in a multi- The upper part of the frame is fixed to a fixing member fixed to the front end of the connecting frame. The upper part of the frame is inserted and fixed to the sediment by the operation of the driving unit to collect the sample. At one side of the fixing member, And a plurality of support frames for supporting the drive unit from the bottom. In this way, it is possible to easily collect a good sample in river, lake and coastal sediment researches , Several specimens can be collected at one time for various studies, and the topmost layer of sediments is well preserved It discloses that it can get a fee.

However, in the multi-core machine disclosed in Korean Patent No. 10-0727590, the drive unit must be operated in a state where the sample collecting pipe is in contact with the sea floor for penetration of the sample collection pipe in the water. And the force distribution plate is moved downward by the water pressure in order to seal the sample collecting tube. Since the movement of the force distribution plate is unreliable, the pressure of the sample collecting tube It is difficult to expect sealing and smooth operation.

(0001) Korean Patent No. 10-0727590 (Published on June 14, 2007)

It is an object of the present invention to provide a sampler in which the process of putting in the equipment, collecting and collecting the sample is easily performed, and in particular, the operation for closing the core can be facilitated.

The object of the present invention is achieved by a support frame comprising: a support frame having a lower end which can be brought into contact with a bottom surface of the water, A lifting frame coupled to the support portion so as to be movable up and down; A lifting body coupled to the lifting frame below the supporting portion and having a trigger formed on one side thereof; A core frame coupled to the lifting body and having an upper cover and a lower cover; And a core coupled to the core frame and having an upper opening and a lower opening, the upper and lower openings being moved by the trigger when the lifting frame is lowered, And the upper cover and the lower cover are configured to close the upper opening and the lower opening while releasing the movement of the upper cover and the lower cover when the lifting frame is lifted, And a sample collecting device.

Wherein the lifting body comprises: a base to which the core frame is coupled; And a guide tube formed in a shape having a smaller diameter than the base on the base, wherein the trigger includes a trigger plate spaced apart from the base and fixed to the guide tube; A trigger pin movably coupled to the trigger plate in the up and down direction to release the movement of the upper cover and the lower cover when the cartridge is moved upward; And a trigger assembly coupled to the guide tube so as to be slidable in the up and down direction and pressing the trigger pin upward.

Wherein the lifting frame includes: a central rod passing through the center of the supporting portion and moving up and down; A sliding unit coupled to a lower side of the center rod and inserted in the center of the guide tube to slide up and down; And a guide rod inserted into the base and coupled to the base so as not to be separated in an upward direction of the base. When the sliding unit is moved downward with respect to the guide tube, the trigger bundle is connected to the sliding unit, It can be in a state of being able to rise together.

A first slot is formed in the guide tube below the trigger plate, a second slot is formed in the sliding unit and exposed through the first slot, and the trigger assembly is inserted into the first slot and the second slot And the trigger protrusion can be elastically supported in a direction to be inserted into the first and second elongated holes.

A flange having a diameter enlarged may be formed at the lower end of the guide rod.

The core frame includes a core mounting frame to which the core is fixed; An upper arm hinged to the core mounting frame and having the upper cover fixed to one side thereof; A first elastic unit elastically supporting the upper arm so that the upper cover moves in a direction closing the upper opening; A first lower arm slidingly moved in the vertical direction in the core mounting frame; A second lower arm hinged to the first lower arm and having the lower lid secured to one side thereof; And a second elastic unit elastically supporting the first lower arm in a direction in which the first lower arm is raised.

The first lower arm and the second lower arm are inserted into the fixing pipe, and the second lower arm is drawn to the lower side of the fixing pipe, Folded.

The upper lid or the upper arm may be coupled with the upper latch member engaged with the trigger, and the lower latch or the second lower arm may be coupled with the lower latch member engaged with the trigger.

The core frame and the core may be repeatedly formed along the circumferential direction with respect to the center of the lifting frame.

The lower end of the lifting body may be provided with a seating plate capable of contacting the bottom surface of the water.

According to the present invention, when the lifting frame and the lifting frame are moved downward relative to the supporting frame, the upper lid and the lower lid are supported by the trigger, and the upper opening and the lower opening are opened. When the sediment is collected and the lifting frame is lifted The upper cover and the lower cover may seal the upper opening and the lower opening to operate the trigger, thereby making it possible to form a sample collector which is easy to use and operate. In particular, it is possible to significantly reduce the manpower required for using the sampler.

1 is a perspective view of a sampler according to an embodiment of the present invention,
FIG. 2 is an enlarged view of a state in which an upper opening and a lower opening of a core are opened in the sampler shown in FIG. 1;
FIG. 3 is an enlarged view of a state in which an upper opening and a lower opening of the core are sealed in the sampler shown in FIG. 1;
Fig. 4 is a view for explaining the operation state of the trigger in the sampler shown in Fig. 1. 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.

FIG. 1 is a perspective view of a sampler 1 according to an embodiment of the present invention. FIG. 2 is a sectional view of a sample collecting device 1 shown in FIG. 1, 3 is a sectional view of the sample collector 1 shown in Fig. 1 in which the upper opening 51 and the lower opening 52 of the core 50 are sealed Fig.

The sampler 1 according to the present invention is adapted to collect sediments from the bottom of water such as a river, a lake or the sea. In particular, the sampler 1 can stably collect the surface sediments, A lifting frame 20, an elevating body 30, a trigger 40, a core frame 60, and a core 50.

In particular, when the sample collector 1 according to the present invention is placed on the sea bed, the support frame 10 is configured such that the sample collector 1 can be balanced .

To this end, the support frame 10 is divided into a bottom surface portion 11, a connection portion 12, and a support portion 13.

The bottom face portion 11 is made of a rigid body that forms the same plane, and is made to be able to touch the bottom of the sea as a whole. The bottom face portion 11 may be formed in a circular or polygonal shape. The sediment is collected by the core 50 in the space defined by the bottom surface portion 11. [

The lower end of the connection part 12 is fixed to one side of the bottom part 11 and extends upward, and the upper end is connected to the support part 13. [ A plurality of connecting portions 12 are provided along the circumferential direction of the bottom portion 11 and the shape of the entire connecting portion 12 may be formed to be symmetrical with respect to the center of the bottom portion 11. [

The support portion 13 is coupled to the upper portion of the connection portion 12 and is located at the center of the bottom surface portion 11 in the plan view. The supporting part 13 is a part for allowing the lifting frame 20 to move up and down stably so that the lifting frame 20 passes through the center of the lifting frame 20 so that the lifting frame 20 is slidably moved up and down .

In order to stably support the lifting frame 20, the support portions 13 may be in the form of a plate having a predetermined thickness in the up-and-down direction, or in the form of two or more plates spaced apart from each other have.

The lifting frame 20 is movably coupled on the supporting portion 13 in the vertical direction. The lifting frame 20 includes a center rod 21, a sliding unit 22, and a guide rod 23. A wire connecting portion 24 is fixedly coupled to the upper ends of the center rod 21 and the guide rod 23.

The wire connecting portion 24 is a portion formed so that it can be connected to a chain such as a crane at the upper end thereof when the sampler 1 according to the present invention is put into water.

The center rod 21 is formed in a long rod shape in the vertical direction as a whole and is made to be able to move vertically through the support portion 13. The center rod 21 is located at the center of the sample collector 1 in a plan view.

The sliding unit 22 is coupled to the lower side of the center rod 21 so as to be able to move up and down together with the center rod 21.

The sliding unit 22 can be fixedly coupled to the lower end of the center rod 21. [

Alternatively, the sliding unit 22 may be formed separately from the center rod 21, but constrained to the movement of the center rod 21. That is, the center rod 21 extends through the sliding unit 22 and has a diameter expanded at the lower end to form a flange, and the sliding unit 22 can be formed in such a shape as to hang over the flange. The center rod 21 can move downward relative to the sliding unit 22. When the center rod 21 is lifted in a state where the sliding unit 22 is engaged with the flange of the center rod 21, 22).

The sliding unit 22 is provided inside the guide tube 33 of the ascending / descending body 30 to be described later.

The sliding unit 22 may have a cylindrical shape or a cylindrical shape and may have a second long hole 22a formed at one side thereof. The second elongated hole 22a is generally elongated in the vertical direction.

The guide rod 23 is formed in the shape of a long rod in the vertical direction as a whole, and is also made to be able to move vertically through the support portion 13.

The guide rods 23 may be disposed on both sides of the center rod 21 as shown in Fig.

The lower end of the guide rod 23 is inserted into the base 32 of the ascending / descending member 30 and fastened to the base 32 so as not to be separated upward.

2, a flange 23a whose diameter is extended is formed at the lower end of the guide rod 23, and a flange 23a of the guide rod 23 moves inside the base 32 A flange moving space 32a is formed.

When the guide rod 23 rises with the flange 23a of the guide rod 23 positioned at the uppermost position in the flange moving space 32a, the base 32 also ascends, The guide rod 23 can be lowered further.

A safety pin (not shown) for preventing the downward movement of the lifting frame 20 relative to the support frame 10 may be coupled to the lifting frame 20, And may be made to pass through the rod 23 and be caught at the upper end of the support portion 13.

The lifting body 30 is coupled to the lifting frame 20 below the supporting portion 13 and is capable of moving up and down together with the lifting frame 20. [

The lower end of the ascending / descending member 30 is positioned higher than the bottom portion 11 of the support frame 10 in a state where the descent member 30 is inserted into the initial water, and the descent member 30 is gradually lowered in the process of collecting sediments.

The elevating member 30 includes a seating plate 31, a base 32, and a guide tube 33.

The seating plate 31 is formed at the lowermost part of the ascending / descending member 30, and the bottom surface is formed in the form of a flat plate so as to be able to touch the bottom surface of the water. Also, a weight 34 can be fixedly coupled to the upper surface of the seating plate 31 to help the descent body 30 descend smoothly in water. It is needless to say that the size, shape and number of the weights 34 coupled to the seating plate 31 can be adjusted.

The base 32 is fixedly coupled directly above the seating plate 31 and is located at the center of the sample collector 1 in a plan view. The base 32 is formed in a cylindrical shape and is coupled to the lower end of the guide rod 23 as described above.

The guide tube 33 is formed in a shape having a smaller diameter than the base 32 at the center upper side of the base 32 and is fixedly coupled to the base 32 and formed in the same shape as a generally circular pipe.

A first elongated hole 33a is formed at one side of the guide tube 33. The elongated hole 33a is elongated in the vertical direction.

The trigger 40 is formed on the guide tube 33 and includes a trigger plate 41, a trigger pin 42 and a trigger bundle 43.

The trigger plate 41 is spaced apart from the base 32 and is fixedly coupled to the guide tube 33. In particular, the trigger plate 41 is coupled to the guide tube 33 such that the first long hole 33a is positioned below the first long hole 33a. The trigger plate 41 is generally formed in the same shape as a circular plate, and is configured to support the trigger pin 42.

The trigger plate 41 is formed in the form of a double plate spaced apart from the trigger plate 41. The trigger plate 41 is engaged with the pin portion 42b of the trigger pin 42, The lower latching piece 64a and the lower latching piece 67a are effectively prevented from being separated.

The trigger pin 42 is movably coupled to the trigger plate 41 in the vertical direction.

The trigger pin 42 is divided into a pushing portion 42a and a pin portion 42b.

The pressing portion 42a is protruded to the lower side of the trigger plate 41 and is engaged with the trigger plate 41 to slide in the vertical direction.

The pin portion 42b is fixedly coupled to the pressing portion 42a and is positioned (see Fig. 2) in such a manner that the trigger plates 41 in the form of a double plate are connected to each other (closed state) When the pushing portion 42a moves upward, it is moved together with the pushing portion 42a (see Fig. 3)

The trigger bundle 43 is formed to surround the guide tube 33 and is coupled to the guide tube 33 so as to be slidable in the vertical direction. The trigger bundle 43 is placed on the upper end of the base 32. When the trigger bundle 43 rises, the upper end of the trigger bundle 43 presses the pressing portion 42a upward, (42b) are raised together (open state)

The trigger projection 43a is engaged with the trigger bundle 43 and the trigger projection 43a is configured to move in the direction of the center of the trigger bundle 43. [ Particularly, the trigger projection 43a is configured such that its end can be inserted into the first elongated hole 33a of the guide tube 33 and the second elongated hole 22a of the sliding unit 22, And is elastically supported in the direction of insertion into the second long hole 22a (the center of gravity of the trigger bundle 43).

To this end, the trigger bundle 43 may be provided with elastic means 43b.

The core 50 is a direct means used for collecting sediments and is in the form of a cylindrical container with open top and bottom. The core 50 may be formed in a polygonal shape other than the circular shape. The core frame 60 (including the upper cover 62 and the lower cover 63) described later may be formed in a corresponding polygonal shape.

The upper and lower portions of the core 50 are provided with upper and lower openings 51 and 52, respectively, on the upper and lower sides thereof. It goes without saying that the core 50 is detachably coupled to the core frame 60.

The core frame (60) is coupled to the lifting body (30). Particularly, the core frame 60 is coupled to the base 32 of the ascending / descending member 30 and is provided in a plurality of positions and coupled along the circumferential direction of the base 32. In the sampler 1 according to the present invention, four core frames 60 may be provided.

The core frame 60 includes a core mounting frame 61, an upper lid 62, a lower lid 63, an upper arm 64, a first elastic unit 65, a first lower arm 66, A lower arm 67, a second elastic unit 68, and a fixing pipe 69.

The core mounting frame 61 is formed in the same shape as a circular frame, and the core 50 is fixedly coupled to the inside of the core mounting frame 61.

The upper lid 62 and the lower lid 63 are provided to seal the upper opening 51 and the lower opening 52 of the core 50. The upper lid 62 and the lower lid 63 In order to stably seal the core 50, a separate pad (rubber plate or the like) having elasticity or a sealing member may be formed on the inside.

The upper arm 64 is hinged to the core mounting frame 61 and the upper lid 62 is fixed to one side. That is, the upper lid 62 hermetically seals or opens the upper opening 51 of the core 50 by the hinge rotation of the upper arm 64 at the core mounting frame 61.

The first elastic unit 65 may be formed in the shape of a spring and elastically supports the upper arm 64 such that the upper cover 62 moves in a direction to seal the upper opening 51. The upper lid 62 seals the upper opening 51 with no additional external force applied by the first elastic unit 65. [

The fixed pipe 69 is fixedly coupled to one side of the core mounting frame 61 and is formed as a vertically long pipe. The first lower arm 66 and the second lower arm 67 can be inserted into the fixed pipe 69. [

The first lower arm 66 is formed in the shape of a long rod and is slidable in the vertical direction with the lower portion inserted into the fixed pipe 69.

The upper portion of the first lower arm 66 is exposed above the fixing pipe 69 and the second elastic unit 68 is engaged at the portion where the first lower arm 66 is exposed.

The second elastic unit 68 may be formed in the same shape as the coil spring so that the first lower arm 66 and the second lower arm 66 are inserted into the second elastic unit 68, The upper end of the elastic unit 68 can be fixedly coupled.

Accordingly, when the first lower arm 66 slides in the vertical direction within the fixed pipe 69, the first lower arm 66 is elastically supported in the upward direction.

The second lower arm 67 may be formed in a long rod shape and hinged at the lower end of the first lower arm 66. In particular, the second lower arm 67 and the first lower arm 66 are hinged to each other so as to have a two-part hinge connection structure so as to be folded in two stages. By this hinge coupling structure (two-step bending structure), the direction of the second lower arm 67 is completely switched (180 degrees) so that the end portion can be directed upward.

The second lower arm 67 is pulled upward by the second elastic unit 68 and part of the second lower arm 67 is inserted into the fixing pipe 69 together with the first lower arm 66 in a state in which no external force is applied.

When the second lower arm 67 is pulled downward from the first lower arm 66 by pulling down the fixing pipe 69, the second lower arm 67 is completely exposed from the fixing pipe 69.

The lower lid 63 is fixed to one side of the second lower arm 67 and the second lower arm 67 is hinged by the first lower arm 66 so that the lower lid 63 is engaged with the lower end of the core 50 The lower opening 52 is closed or opened.

The upper lid 62 or the upper arm 64 is engaged with an upper latching piece 64a which is engaged with the trigger 40. [ 1 to 3, the upper latch 64a is coupled to the upper arm 64. As shown in FIG. The upper latching piece 64a may be formed generally in the form of a wire or a thin steel plate.

The upper latching piece 64a is a portion of the trigger 40 which is caught by the trigger pin 42. Thus, the upper lid 62 is maintained in a state in which the upper opening 51 is opened.

The lower lid 63 or the second lower arm 67 is engaged with the lower latch piece 67a engaged with the trigger 40. [ 1 to 3, the lower latching part 67a is coupled to the second lower arm 67. As shown in FIG. The lower latching piece 67a may be formed generally in the form of a wire or a thin steel plate.

The lower engaging piece 67a is a portion of the trigger 40 which is caught by the trigger pin 42 and thus the lower lid 63 is maintained in a state in which the lower opening 52 is opened.

Fig. 4 is a view for explaining the operating state of the trigger 40 in the sample collecting machine 1 shown in Fig.

Hereinafter, the operation of the sample collector 1 according to the present invention will be described.

The safety pin is separated from the lifting frame 20 prior to putting the sampler 1 into the water for sampling the sediment. The upper engaging piece 64a and the lower engaging piece 67a of the core frame 60 are inserted into the water while being caught by the trigger pin 42 of the trigger 40, The cover 62 and the lower cover 63 open the upper opening 51 and the lower opening 52 of the core 50, respectively.

Next, a chain such as a crane is connected to the wire connecting portion 24 of the lifting frame 20, and the sample collecting machine 1 is put into the water.

The bottom portion 11 of the support frame 10 first touches the bottom of the sea while the sample collecting machine 1 is put into water.

Thereafter, the lifting frame 20, the lifting body 30, the core frame 60, and the core 50 move downward.

In this process, the lower portion of the core 50 is introduced into the sediment, and the sediment flows into the core 50 through the lower opening 52 of the core 50.

The lifting frame 20 descends with the lifting body 30 to a certain depth in the course of the sediment flowing into the core 50. [ The trigger projection 43a of the trigger bundle 43 is inserted into the first elongated hole 33a of the guide tube 33 and the end of the trigger projection 43a is slid under the second elongated hole 22a And comes into contact with the outer peripheral surface of the unit 22 (see Fig. 4 (a)).

Thereafter, the lifting body 30 is not further lowered after the seating plate 31 of the lifting body 30 sufficiently contacts the bottom surface (the core 50 is sufficiently penetrated into the sediment). At this time, the lifting frame 20 can be further lowered on the basis of the lifting body 30, and the guide rod 23 is moved further downward with respect to the base 32 (the flange 23a of the guide rod 23 The sliding unit 22 moves downward with respect to the guide tube 33. The sliding unit 22 is moved downward with respect to the guide tube 33 as shown in FIG.

The sliding unit 22 moves downward until the trigger projection 43a of the trigger bundle 43 is inserted into the second long hole 22a (see FIG. 4 (b)). Namely, the sliding unit 22 Is moved downward with reference to the guide tube 33, the trigger bundle 43 is brought into a state of being able to be lifted together with the sliding unit 22.

After the collection of the sediment is completed, the lifting frame 20 is pulled upward, so that the center rod 21, the sliding unit 22 and the guide rod 23 are lifted first.

At this time, the trigger bundle 43 rises together with the trigger projection 43a inserted into the second slot 22a of the sliding unit 22, and the trigger bundle 43 slides upwardly of the guide tube 33 (See Fig. 4 (c)).

The trigger bundle 43 presses the trigger pin 42 upward and the engagement of the upper latching piece 64a and the lower latching piece 67a is released while the trigger pin 42 is moved upward. The upper lid 62 closes the upper opening 51 of the core 50 while the upper arm 64 rotates and the lower lid 63 rises after the second lower arm 67 rotates, 50 of the lower opening 52. As shown in Fig.

That is, after the collection of the sediments is completed, the lifting frame 20 starts to be lifted and the movement of the upper lid 62 and the lower lid 63 is stopped by the trigger 40, and the upper opening 51 and the lower opening 63, (52).

After the core 50 is sealed, the elevator 30, the core frame 60, and the core 50 rise together with the elevation of the elevation frame 20. [

When the sampler 1 is drawn out from the water, the core 50 is removed to separate the internal sediments.

As described above, according to the sample collecting machine 1 of the present invention, when the lifting frame 20 and the lifting body 30 are moved downward relative to the support frame 10, the upper lid 62 and the lower lid 63 are supported by the trigger 40 and open the upper opening 51 and the lower opening 52. When the sediment is collected and the lifting frame 20 is raised, the trigger 40 is operated, It is possible to form the sample collector 1 which is easy to use and operate because the upper cover 62 and the lower cover 63 seal the upper opening 51 and the lower opening 52. In particular, It is possible to significantly reduce the manpower required for use.

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: Sampler 10: Support frame
11: bottom part 12: connection part
13: Support part 20: Lift frame
21: center rod 22: sliding unit
22a: second long hole 23: guide rod
23a: Flange 24: Wire connection
30: lifting body 31: seating plate
32: base 32a: flange moving space
33: Guide tube 33a: First slot
34: weight weight 40: trigger
41: Trigger plate 42: Trigger pin
42a: pressing portion 42b:
43: Trigger bundle 43a: Trigger projection
43b: elastic means 50: core
51: upper opening 52: lower opening
60: core frame 61: core mounting frame
62: upper cover 63: lower cover
64: upper arm 64a:
65: first elastic unit 66: first lower arm
67: second lower arm 67a: lower engaging piece
68: second elastic unit 69: fixed pipe

Claims (10)

A support frame having a lower end contacting the bottom surface of the water and having a support portion formed on an upper side thereof;
A lifting frame coupled to the support portion so as to be movable up and down;
A lifting body coupled to the lifting frame below the supporting portion and having a trigger formed on one side thereof;
A core frame coupled to the lifting body and having an upper cover and a lower cover; And
And a core coupled to the core frame and having a top opening and a bottom opening, the core having a sediment flowing therein,
Wherein when the lifting frame is lowered, the upper cover and the lower cover are prevented from being moved by the trigger to open the upper opening and the lower opening, respectively, and when the lifting frame is lifted, And closing the upper opening and the lower opening with the release of movement inhibition by the trigger being released. The method according to claim 1,
Wherein the lifting /
A base to which the core frame is coupled; And
And a guide tube formed in a shape having a smaller diameter than the base on the base,
The trigger may include:
A trigger plate spaced apart from the base and fixed to the guide tube;
A trigger pin movably coupled to the trigger plate in the up and down direction to release the movement of the upper cover and the lower cover when the cartridge is moved upward; And
And a trigger bundle coupled to the guide tube so as to be slidable in the up and down direction and pressing the trigger pin upward. 3. The method of claim 2,
The elevating frame includes:
A central rod passing through the center of the support and moving up and down;
A sliding unit coupled to a lower side of the center rod and inserted in the center of the guide tube to slide up and down; And
And a guide rod inserted into and fixed to a lower end of the base so as not to be separated in an upward direction of the base,
Wherein when the sliding unit is moved downward with respect to the guide tube, the trigger bundle is in a state of being able to rise together with the sliding unit. The method of claim 3,
A first elongated hole is formed in the guide tube below the trigger plate,
The sliding unit is formed with a second slot, which is exposed through the first slot,
Wherein the trigger bundle is formed with a trigger projection to be inserted into the first slot and the second slot,
And the trigger projection is elastically supported in a direction of being inserted into the first and second elongated holes. The method of claim 3,
And a flange having a diameter enlarged is formed at a lower end of the guide rod. The method according to claim 1,
The core frame
A core mounting frame to which the core is fixed;
An upper arm hinged to the core mounting frame and having the upper cover fixed to one side thereof;
A first elastic unit elastically supporting the upper arm so that the upper cover moves in a direction closing the upper opening;
A first lower arm slidingly moved in the vertical direction in the core mounting frame;
A second lower arm hinged to the first lower arm and having the lower lid secured to one side thereof; And
And a second elastic unit elastically supporting the first lower arm in a direction in which the first lower arm is raised. The method according to claim 6,
And a fixing pipe is formed on one side of the core mounting frame, the first lower arm and the second lower arm being inserted and slid in the vertical direction,
And the second lower arm is drawn to the lower side of the fixed pipe and folded with the first lower arm. The method according to claim 6,
The upper lid or the upper arm has an upper latch engaged with the trigger,
Wherein the lower lid or the second lower arm is coupled to the lower latching member engaged with the trigger. 9. The method according to any one of claims 1 to 8,
Wherein the core frame and the core are repeatedly formed along the circumferential direction with respect to the center of the lifting frame. 9. The method according to any one of claims 1 to 8,
Wherein a lower end of the lifting body is formed with a seating plate which can be brought into contact with a bottom surface of the water.

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