KR102584405B1 - Plastic collection apparatus using bubble wall - Google Patents

Abstract

The present invention relates to a plastic collection device using a bubble barrier, and more specifically, by discharging air upward from the bottom of the river to form a bubble barrier in an inclined direction, plastic flowing along the river can be easily and separately collected. This relates to a plastic collection device using a bubble barrier that can suppress the generation of microplastics in the ocean by discharging them to the outside.
This invention includes an air pump installed on one side of a river and generating compressed air; It is installed on the bottom of the river along a diagonal direction with respect to the width direction of the river and is connected to the air pump to spray compressed air generated from the air pump upward to form a bubble barrier in a diagonal direction with respect to the width direction of the river. Bubble barrier forming means to collect plastic flowing along the river to one side of the river; And a recovery bin installed on one side of the river and collecting the plastic collected on one side of the river by the bubble barrier by flowing it into the inside through the flow of the river. A plastic collection device using a bubble barrier, characterized in that it consists of a. Make it a technical point.

Description

Plastic collection apparatus using bubble wall}

The present invention relates to a plastic collection device using a bubble barrier that naturally collects plastic flowing along rivers and suppresses the generation of microplastics in the ocean.

Currently, millions of tons of plastic are flowing into the ocean each year, causing great damage to marine life through entanglement and swallowing.

As described above, plastic that enters the ocean is worn and split by strong ultraviolet rays and waves, forming microplastics with a size of 5 mm or less.

These microplastics can be harmful not only to marine life such as fry, crustaceans, and fish and shellfish when they mistake them for food and eat them, but also to humans who eat marine life as food.

Meanwhile, it is reported that more than 40% of marine waste is plastic waste, and more than 80% of it comes from rivers.

Therefore, it is expected that if we properly collect even the plastics that enter the ocean through rivers, we can significantly reduce marine microplastics that are harmful to marine life and humanity.

However, conventional plastic collection devices are limited to structures that are installed in the ocean and collect plastic floating on the sea surface using collection means such as nets using eco-friendly energy such as wind or tidal power.

In other words, not only can eco-friendly energy such as wind or tidal power not be properly utilized in rivers, but there are also many plastics floating in the water as well as plastics floating on the surface. Therefore, it is necessary to use a conventional plastic collection device with a structure that can only be used in the ocean. It is difficult to collect.

Therefore, in order to effectively collect plastic flowing into the ocean along rivers and suppress the occurrence of marine microplastics, it is necessary to develop a plastic collection device with a structure suitable for use in rivers.

Republic of Korea Patent Publication No. 10-2021-0073842, published on June 21, 2021.

The present invention was invented to solve the above problems. It sprays compressed air in a diagonal direction upward from the bottom of the river to effectively collect plastic flowing into the ocean along the river and suppress the generation of marine microplastics. The purpose is to provide a plastic collection device using a bubble barrier that can conveniently collect plastic floating along the river through the formed bubble barrier.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned can be clearly understood from the description below and can be fully included in the object of the present invention.

A plastic collection device using a bubble barrier according to the present invention to achieve the above object includes an air pump installed on one side of a river to generate compressed air; It is installed on the bottom of the river along a diagonal direction with respect to the width direction of the river and is connected to the air pump to spray compressed air generated from the air pump upward to form a bubble barrier in a diagonal direction with respect to the width direction of the river. Bubble barrier forming means to collect plastic flowing along the river to one side of the river; and a recovery box installed on one side of the river to recover plastic collected on one side of the river by the bubble barrier by flowing the plastic inside through the flow of the river.

The bubble barrier forming means includes a connection hose whose end is connected to the air pump; and an air injection module connected to the other end of the connecting hose, at least one of which corresponds to the width of the river, connected in multiple stages to communicate with each other along the longitudinal direction, and spraying compressed air upward.

The air injection module includes an air injection pipe, one end of which is connected to the connecting hose, and a plurality of air injection holes formed on the upper side at regular intervals along the longitudinal direction; And a support block in which a pipe insertion groove into which the lower side of the air injection pipe is inserted is recessed on the upper surface and the lower surface is seated on the bottom of the river. When the air injection modules are connected in multiple stages, the air injection module is The other end of the pipe may be connected to one end of the air injection pipe of another neighboring air injection module, and the other end of the support block may be connected to one end of the support block of another neighboring air injection module.

A discharge guide plate installed at a downward angle on one side of the recovery box; A discharge box installed at the end of the discharge guide plate; Discharging means for discharging the plastic recovered in the collection box to the discharge guide plate, causing it to fall through the discharge guide plate, and being put into the discharge box; may be further included.

The discharge means includes a drive motor installed in the recovery box; a rotating shaft having one end penetrating one side of the recovery box and the other end being directly connected to the rotation axis of the drive motor; and a plurality of discharge plates installed on one end of the outer circumferential surface of the rotation shaft at regular angle intervals, having drain holes drilled therein, and rotating together with the rotation shaft according to the operation of the drive motor to discharge the plastic recovered inside the recovery box to the outside. It can be composed of:

A blower installed on the discharge guide plate that blows air toward the plastic being fed into the discharge box along the discharge guide plate to remove moisture from the surface may be further included.

The plastic collection device using a bubble barrier according to the present invention according to the above configuration discharges compressed air upward from the bottom of the river to form a bubble barrier along a diagonal direction with respect to the width direction of the river, and plastic is discharged through the bubble barrier. After blocking it from floating along the river, it is naturally induced to be recovered in a collection box provided on one side of the river. The plastic recovered from the collection box is periodically discharged into a separate discharge box on one side of the river through a discharge means, so that it flows from the river into the ocean. It has the effect of greatly suppressing the occurrence of marine microplastics by significantly reducing the amount of plastic produced.

Figure 1 is a plan view showing the installation state of a plastic collection device using a bubble barrier according to a preferred embodiment of the present invention.
Figure 2 is an enlarged perspective view of the main portion of a plastic collection device using a bubble barrier according to a preferred embodiment of the present invention.
Figure 3 is a plan view showing the use state of a plastic collection device using a bubble barrier according to a preferred embodiment of the present invention.

The present invention relates to a plastic collection device using a bubble barrier that naturally collects plastic flowing along rivers and suppresses the generation of microplastics in the ocean.

In particular, a major feature of the plastic collection device using a bubble barrier according to the present invention is that it can effectively suppress the generation of marine microplastics by conveniently collecting plastic flowing down the river through a structure that can be used in the river.

This characteristic is that a bubble barrier forming means that sprays compressed air upward from the bottom of the river is installed diagonally on the bottom of the river, forming a bubble barrier in a diagonal direction in the river through compressed air sprayed from the bubble barrier forming means. This can be achieved through a structure that collects plastic floating along the river to one side of the river, recovers it, and discharges it.

Hereinafter, a plastic collection device using a bubble barrier according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

As shown in Figures 1 and 2, the plastic collection device using a bubble barrier according to a preferred embodiment of the present invention includes an air pump 10, a bubble barrier forming means 20, a recovery box 30, and a discharge means 40. , It may be composed of a discharge box 50, a discharge guide plate 60, and a blower 70.

First, the air pump 10 can be installed on one side of the river and driven by external power to generate compressed air.

Here, the external power supplied to the air pump 10 may be power supplied from a solar cell separately installed on one side of the river, or may be power supplied directly from KEPCO from the outside.

Next, the bubble barrier forming means 20 is installed on the bottom of the river and connected to the air pump 10, so that the compressed air generated by the air pump 10 can be sprayed upward.

In other words, the bubble barrier forming means 20 forms a bubble barrier (BW) in the vertical direction upward in the river according to the injection of compressed air, so that the plastic (P) floating along the river can be blocked so that it no longer floats along the river. there is.

At this time, the bubble barrier forming means 20 guides the plastic (P) blocked through the bubble barrier (BW) from the other end to one end according to the flow direction of the river, forming a diagonal line in the width direction of the river so that it naturally gathers on one side of the river. Can be installed in any direction.

That is, the bubble barrier forming means 20 may be installed so that one end is located on one side of the river close to the downstream of the river and the other end is located on the other side of the river close to the upstream of the river.

Then, as shown in Figure 3, the bubble barrier (BW) is also formed in a diagonal direction in the river corresponding to the bubble barrier forming means 20, and the plastic (P) blocked by the bubble barrier (BW) is formed in the bubble barrier (BW). According to the direction of formation, it can be induced to naturally gather on one side of the river near the downstream of the river.

Here, the bubble barrier forming means 20 is connected to a connecting hose 21, one end of which is connected to the air pump 10, and the other end of the connecting hose 21, so that the length can be adjusted to correspond to the various widths of the river, and at least one It may be composed of an air injection module 22 that is connected in multiple stages to communicate with each other along the longitudinal direction and sprays compressed air upward.

Meanwhile, the air injection module 22 includes an air injection pipe 221, one end of which is connected to the connection hose 21 to enable multi-stage connection, and a plurality of air injection holes 221a formed on the upper side at regular intervals along the longitudinal direction. , a pipe fixing groove 222a that accommodates and supports the lower side of the air injection pipe 221 is recessed on the upper surface, and the lower surface may be composed of a support block 222 that is seated on the bottom of the river.

At this time, when connecting a plurality of air injection modules (22) in multiple stages so that the length of the bubble barrier forming means (20) corresponds to the width of the river, the other end of the air injection pipe (221) is used to collect air from other neighboring air injection modules (22). It is connected to one end of the tube 221, and the other end of the support block 222 may also be connected to one end of the support block 222 of another neighboring air injection module 22.

Next, the recovery box 30 is installed on one side of the river and collects plastic (P) naturally on one side of the river by the bubble barrier (BW) formed by the bubble barrier forming means 20 to prevent the flow of the river. It can be recovered by flowing inside.

Here, the recovery box 30 includes a right side plate 32 parallel to the flow direction of the river so that an inlet 31 through which the plastic (P) flows into the front is provided in an open form on the front facing the flow direction of the river, It may be composed of a rear plate 33 connected to the end of the right plate 32 in a vertical direction toward one side of the river.

However, the right plate 32 and the rear plate 33 are in the form of a mesh with a plurality of water passage holes 321 and 331 formed to filter the plastic (P) and discharge the water as it is so as not to interfere with the smooth flow of the river. It can be done.

Next, the discharge means 40 may operate periodically to discharge the plastic P flowing into the recovery box 30 to the outside of one side of the river.

For this purpose, the discharge means 40 includes a drive motor 41 installed on the rear of the rear plate 33 of the recovery box 30, and a rear plate 33 of the recovery box 30, which is installed on the left end of the rear plate 33 and has one end of the rear plate ( 33) and a rotating shaft 42 directly connected to the rotating shaft of the drive motor 41, and a mesh shape in which a plurality of pieces are installed at regular angle intervals on the outer peripheral surface of the other end of the rotating shaft 42 and a plurality of water-through holes 431 are formed. It may be composed of a rotating discharge plate 43 having a shape corresponding to the horizontal cross-sectional shape of the recovery box 30.

That is, the discharge means 40 rotates the rotating discharge plate 43 along with the rotating shaft 42 in a waterwheel-like shape as the driving motor 41 drives the plastic that flows into the recovery box 30. (P) can be discharged outside one side of the river.

At this time, the discharge means 40 controls the drive motor 41 to be driven periodically at regular time intervals and automatically discharges the plastic (P) that has flowed into the inside of the recovery box 30, thereby discharging the inside of the recovery box 30. The recovery box (30) can be emptied periodically before it is filled with plastic (P).

Next, the discharge box 50 is installed on one side of the recovery box 30 on one side of the river to contain a large amount of plastic (P) discharged to the outside from the recovery box 30 by the discharge means 40. You can.

Next, the discharge guide plate 60 is installed between the recovery box 30 and the discharge box 50 to discharge the plastic P discharged from the recovery box 30 to the outside by the discharge means 40. The plastic (P) can be guided to fall into the interior of the discharge box (50) so that it can be contained in (50).

That is, the discharge guide plate 60 is installed between the recovery box 30 and the discharge box 50 so that the height decreases as it goes from the recovery box 30 to the discharge box 50, so that the plastic (P) is discharged. It can be guided to be discharged while falling to (50).

At this time, the discharge guide plate 60 is not separately shown, but when the plastic (P) is discharged to the outside according to the rotation of the rotating discharge plate 43, it does not fall into the empty space between the recovery box 30 and the discharge box 50. The lower plate and the upper plate are connected back and forth so that they can be discharged into the discharge box 50, and the upper plate protrudes forward onto the lower plate according to the operation of the cylinder, thereby extending the entire length.

Finally, the blower 70 is installed on one side of the discharge guide plate 60 and blows wind on the plastic (P) that falls and is discharged from the recovery box 30 to the discharge box 50 along the discharge guide plate 60. You can remove moisture from the surface of the plastic (P) by blowing.

Then, since the plastic (P) discharged into the discharge box (50) is in a state in which moisture has been removed, dust, etc. does not easily adhere to the surface of the plastic (P), so let's look at the post-processing process of the plastic (P) for recycling, etc. It can be performed easily.

The above-described embodiments are merely illustrative, and various modifications thereof are possible for those skilled in the art.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also other variously modified embodiments according to the technical spirit of the invention described in the claims below.

10: Air pump
20: Bubble barrier forming means
21: Connection hose
22: Air injection module
221: Air injection pipe
221a: Air injection hole
222: Support block
222a: Pipe fixing groove
30: Recovered
31: inlet
32: Right side plate
321: Tongsugong
33: back plate
331: Tongsugong
40: Discharge means
41: Drive motor
42: rotation axis
43: Rotating discharge plate
431: Tongsugong
50: Discharge box
60: Discharge information plate
70: blower
BW: bubble barrier
P: plastic

Claims (5)

An air pump installed on one side of the river and generating compressed air;
It is installed along the diagonal direction of the width direction of the river on the bottom of the river so that one end is located on one side of the river close to the downstream of the river and the other end is located on the other side of the river close to the upstream of the river, and is connected to the air pump. By spraying the compressed air generated from the air pump in a vertical direction upward, a bubble barrier is formed in a diagonal direction with respect to the width direction of the river, blocking the plastic floating along the river from floating further along the river, and forming a bubble barrier on one side of the river. Means for forming a bubble barrier to allow the bubbles to gather together; and
It consists of a recovery box installed on one side of the river to collect plastic collected on one side of the river by the bubble barrier by flowing it inside through the flow of the river and recovering it,
The bubble barrier forming means is
A connecting hose, one end of which is connected to the air pump, and an air injection module connected to the other end of the connecting hose, at least one of which is connected in multiple stages to communicate with each other along the longitudinal direction corresponding to the width of the river, and sprays compressed air upward. It consists of
The air injection module is
An air injection pipe, one end of which is connected to the connecting hose, and a plurality of air injection holes formed at regular intervals along the longitudinal direction on the upper side, and a pipe fixing groove for receiving and supporting the lower side of the air injection pipe is recessed on the upper surface. It is formed and the lower surface is composed of a support block that is seated on the bottom of the river,
The air injection module is
When a plurality of pieces are connected to each other in multiple stages, the other end of the air injection pipe is connected to one end of the air injection pipe of another neighboring air injection module, and the other end of the support block is connected to one end of the support block of another neighboring air injection module. A plastic collection device using a bubble barrier. delete delete According to paragraph 1,
A discharge guide plate installed at a downward angle on one side of the recovery box;
A discharge box installed at the end of the discharge guide plate;
Discharging means for discharging the plastic recovered in the collection box to the discharge guide plate, causing it to fall through the discharge guide plate, and being put into the discharge box; is further included,
The means of discharge is
A driving motor installed in the recovery box;
a rotating shaft having one end penetrating one side of the collection box and the other end being directly connected to the rotation axis of the drive motor; and
A plurality of rotating discharge plates are installed on one end of the outer circumferential surface of the rotating shaft at regular angle intervals, have drain holes drilled in them, and rotate together with the rotating shaft according to the operation of the driving motor to discharge the plastic recovered inside the recovery box to the outside. A plastic collection device using a bubble barrier, characterized in that it consists of. According to clause 4,
A blower installed on the discharge guide plate and blowing wind toward the plastic being fed into the discharge box along the discharge guide plate to remove moisture from the surface. Plastic collection device using a bubble barrier, further comprising a blower.

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