KR20140017965A - Apparatus for eliminating floating garbage - Google Patents

Abstract

The present invention relates to an apparatus for collecting floating matters from a river, wherein the apparatus comprises: a guide extended from a riverbed and tilted at a predetermined angle; a conveyor-type collecting part having a length corresponding to the width of the river, installed in the width direction of the river, and rising along the guide in order to move the floating matters in the river to one side of either bank of the river; a discharging part having a front end positioned inside the river, having a rear end positioned at the either bank, and discharging the floating matters collected by the collecting part to the outside of the river; and multiple buoyant parts installed at the lower side of the collecting part and the lower side of the front end of the discharging part adjacent to the collecting part, and maintaining the collecting part and the front end of the discharging part to be separated from the water surface of the river at a predetermined distance. According to the present invention, in a process for transferring the floating matters in the river to the outside of the river after collecting the floating matters in order to prevent the periphery of the river from being contaminated by the floating matters, the collecting part is arranged to be tilted at the predetermined angle against the river so that a river flow resistance applied to the collecting part can be reduced; the moving speeds of filtering members in the collecting part are allowed to be higher than the flow speed of the river so that the floating matters cannot be caught between the filtering members; and a distance between the filtering matters can be controlled so that the sizes of the floating members to be collected can be controlled.

Description

River Float Collector {APPARATUS FOR ELIMINATING FLOATING GARBAGE}

The present invention relates to a float collection apparatus in a river, and more particularly, to a float collection apparatus in a river for collecting float garbage floating in the stream.

Streams are a source of drinking water and living water for citizens, and the importance of maintaining the cleanliness of the rivers will not need to be emphasized in order to protect public hygiene.

However, if the area around the river is flooded due to heavy rains during the rainy season, artificial or natural wastes from the flooded area may flow into the rivers, and the amount of garbage in the suspended streams may be observed as the downstream flows.

In particular, floating garbage pollutes rivers and harms the public's hygiene as well as polluting the environment around the rivers.

Apparatuses for collecting and disposing of suspended solids in rivers have been applied and disclosed in order to prevent the waste of suspended solids, and techniques related to removing suspended solids have been proposed in Korean Utility Model Nos. 20-0255925 and 10-1068742. have.

Hereinafter, the structure of the floating material collection apparatus disclosed in the Utility Model No. 20-0255925 and Patent No. 10-1068742 as a prior art will be briefly described.

1 is a partial cross-sectional view of a river floating material collection device of registered utility model No. 20-0255925 (hereinafter referred to as "prior art 1"). As shown in FIG. 1, in the prior art 1, the river float collecting device is equipped with a rotating plate 12 supported by a bearing B on the outside of a support 11 standing vertically close to a riverside to power the motor 10a. Drive shaft 10 is rotated by receiving; A driven shaft 20 equipped with a rotary tube 22 supported by a bearing B on the outside of the support 21 which is vertically erected in the center of the steel; Guide grooves 32a are formed in the shaft hole 32 of the rotating body 31 coupled to the outside of the rotary tubes 12 and 22 to protrude outside the rotary tubes 12 and 22 to guide rails 12a. (22a) are inserted into and pulled up and down by buoyancy (30); Mounted between the sprockets 33 formed on the upper and lower portions of the rotary bodies 31, respectively, installed between the upper and lower chains 41 rotated in an infinite orbit between the drive shaft 10 and the driven shaft 20. Strainer 40; A buoyancy material 50 inserted into the upper and lower portions of the rotating body 31 and the sieve net 40 lifted by buoyancy of buoys 42 continuously mounted to the upper chain 41 are along the flowing direction of the river. It is installed inclined and rotated in a caterpillar, characterized in that the floating garbage is collected and processed by transporting it to one side of the river.

However, in the river float collection apparatus according to the prior art 1, the gap between the strainer 40 is impossible to adjust the size of the floatable collectables, and the strainer 40 is disposed in a direction perpendicular to the surface of the river and the strainer There was a problem that the river flow resistance received by 40 becomes too large.

2 is a basic layout of the suspended solids collection device of the stream of the Patent No. 10-1068742 (hereinafter referred to as "prior art 2").

Floating water collecting device of the stream of the prior art 2, the floating water collecting device for installing in both sides of the river equipped with a vehicle 10, a crane 20, a separate collection box 30, a vehicle conveyor 40, etc. as a floating water collection equipment. In one embodiment, either side of the river has a prime mover gear 102a of the motor 102; The drive chain 102b is fastened to the input chain gear 101a of the reducer 101, and the output chain gear 101b of the reducer 101 has an output shaft reinforcement pipe 101c having a bearing 101d up and down. Assemble to the output shaft (101e) protruding to a certain height to install the base of the motor motor base 103 is fastened to the anchor bolt, and the two idle chains downstream of the point and the base motor base base 103 is installed on the opposite side of the river An idle chain gear shaft having a gear foundation seat 104b installed at regular intervals, each of which has an idle chain gear bearing tube 105a having an idle bolt gear shaft bearing 105a vertically mounted thereon with anchor bolts. Assembling the idle chain gear 104 in the 105, three high pitch chains 120 with attachments are installed in the output chain gear 101b and the two idle chain gears 104 assembled. It is schedule for attachment of HIPICHAIN The hook bracket (130) assembled with fastening bolts (131) at intervals, but the hook hook (141) orthogonally installed hook 140 is integrally installed with the hinge shaft (143), but hook hook formed integrally with the bushing top ( 142) and the ball fasteners 111 formed integrally under the buoyancy ball 110 of a predetermined volume, the first stage collection device 100 is formed by fastening the link chain 150 of a predetermined length with the carabiner 151; On both grounds in the downstream downstream direction of the first-stage collection device 100, the reduction gear-mounted clutch motor 210 and the two-way bobbin bracket 226, which assembled the two-way bobbin drive chain gear 224 on the output shaft, have both wires. The two-way bobbin driven chain gear 225 assembled to the two-way bobbin shaft 221 of the two-way bobbin 220 axially assembled with the empty shaft bearing 227 and the two-way chain 222 to the two-way bobbin motive chain gear, anchor The roll conveyor 230, which is assembled to the basic bobbin bobbin stone 223 with bolts, and has a fixed height roll 231 between the roll guides 232 installed on the ground, is provided on the front side of each of the opposing double bobbins 220 installed on the ground. The two-stage collection device 200 is formed by winding a collection net 240 having a bridle 242 installed at a predetermined interval on a net main line 241 having a width of both wire bobbins 220 on both wire bobbins 220 of both sides. It is characterized by including.

However, in the floating material collection device of the river according to the prior art 2, in the process of collecting the floating material through the hook 140, the first-stage collection device 100 is difficult to collect the surface-floating floating material, and it is not collected in the first step. The net circulating the float in both sides of the stream in the right and left repetitive crossing method is disposed in a direction parallel to the water, there was a problem that the river flow resistance becomes too large.

KR 20-0255925 Y1 KR 10-1068742 B1

An object of the present invention is to solve the problems of the prior art as described above, the collection of the float relative to the river in the process of preventing the environmental pollution around the river due to the floating by collecting the stream floating outside the stream To reduce the flow velocity of the stream received by the collecting part, to make the moving member's moving speed faster than the flow rate of the collecting part, so that the suspended matter is not caught between the filtering members and the gap between the filtering members is controlled. It is therefore possible to provide a float collection device of a river that can adjust the size of the float to be collected.

According to a feature of the present invention for achieving the object as described above, the present invention, the guide extending inclined at a set angle at the bottom of the river; A conveyor-type collector having a length corresponding to the width of the river and installed in the width direction of the river and moving along the guide to move the floating matter of the river to one side of the river; A discharge part configured to allow a tip to be positioned in the river and a rear end to be positioned on both sides of the stream so as to discharge the floating matter collected from the collection part to the outside of the river; And a plurality of buoyancy parts installed at a lower portion of the collecting portion and a lower portion of the discharging portion adjacent to the collecting portion so that the distal end of the collecting portion and the discharge portion maintain the water surface and the set height of the river. Is achieved through a collection device.

In addition, the collecting unit, the drive motor is installed on one end of the moving member is connected to both ends of the plurality of guides; A pair of spaced apart drive sprockets installed on a line extending from the drive shaft of the drive motor; A pair of spaced driven sprockets parallel to the drive sprocket and installed at the other end of the moving member; A pair of chains interconnected to transmit the driving force of the drive sprocket to the driven sprocket; And a filtering member for connecting the pair of chains at predetermined intervals so that the suspended matter in the river is caught.

In addition, the movement speed of the filter member of the collecting unit may be faster than the flow rate of the river.

In addition, the filtering member may be adjustable in spacing.

According to the present invention, after collecting the river floating material is transported to the outside of the river to prevent the environmental pollution around the river caused by the float in the process of arranging the angle of the collector to the river at a set angle to the river flow resistance received by the collector It is possible to reduce the flow rate of the filtering member of the collecting member faster than the flow rate of the stream so that the suspended matter is not caught between the filtering member, and the separation of the filtering member is possible to adjust the size of the floating material to be collected.

1 is a partial cross-sectional view of a stream floating device according to the prior art 1.
Figure 2 is a basic layout of the float collecting device of the river according to the prior art 2.
Figure 3 is a front view of the suspended solids collection device of the river according to an embodiment of the present invention.
Figure 4 is a side view of the suspended solids collection device of the river according to an embodiment of the present invention.

The terms or words used in the present specification and claims are intended to mean that the inventive concept of the present invention is in accordance with the technical idea of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to explain its invention in the best way Should be interpreted as a concept.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, the term " part "in the specification means a unit for processing at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

Hereinafter, with reference to the drawings will be described in detail the configuration of the embodiment of the suspended solids collection device of the river according to the present invention.

FIG. 3 is a front view showing a river floatation collecting device according to an embodiment of the present invention, and FIG. 4 is a side view showing the river floating collection device according to an embodiment of the present invention.

According to these drawings, the river floating device 100 according to an embodiment of the present invention is a guide 110, the collecting unit 120, the discharge unit 130, buoyancy unit 140 and the control unit (not shown in the figure) City).

Guide 110 is provided with a pair of left and right "∠" shape spaced apart, the horizontal frame 112 is located at the bottom of the river and inclined by a set angle at the end of the horizontal frame 112 extends to the upper side of the river surface It comprises an inclined frame 114 and a connecting frame 116 connecting the horizontal frame 112 and the inclined frame 114, respectively.

Here, the inclined frame 114 of the guide 110 may be maintained in a vertical position, but in a more optimized state for collecting the float, maintain the angle of about 45 degrees and 35 degrees to 70 degrees with the water surface. Do it.

In this case, the angle of the inclination frame 114 of the guide 110 may guide the float to one side of the river more effectively when the collecting unit 120 moving along the inclination frame 114 forms an appropriate angle with the water surface. have. That is, when the collecting unit 120 makes too small an angle with the surface of the water, the floating material may not pass through the collecting unit 120 as it is, and when the collecting unit 120 makes an excessively large angle with the surface of the water, The river flow resistance received by the rejection 120 becomes too large.

The collecting unit 120 is installed in the width direction of the river while having a length corresponding to the width of the river, and lifted to a position corresponding to the surface of the water along the inclined frame of the guide 110 while being driven in an endless track manner. To move the suspended matter to both sides of the river.

Here, since the collecting unit 120 is intended to collect the float near the water surface, if the length is too short, the collection function cannot be effectively performed, and if the length is too long, the flow rate resistance of the river is unnecessarily, so about 1 to It can have a length of 2 meters and can be increased or decreased in length.

In addition, the collecting unit 120 is preferably partially submerged below the surface of the water, and two-thirds is appropriate for the submerged part. This is because the float floats near the surface of the water, and part of it is submerged below the surface, depending on the specific gravity of the float. And it is preferable that the collecting unit 120 is located above the surface of the river.

Here, the collecting unit 120 is configured in the form of a conveyor, and includes a moving member 121, a drive motor 122, a drive sprocket 123, a driven sprocket 124, a chain 125 and a filter member 126. do. At this time, the collection unit 120 may be manipulated so that the collection unit 120 is located near the surface of the river by using the buoyancy of the buoyancy unit 140.

On the other hand, in the present embodiment, but the collection unit 120 is illustrated as rotating the filter member 126 through the sprocket and the chain, it is not limited to this can be changed to a pulley and a belt or the like.

The moving member 121 is a rectangular frame which moves up and down along the inclined frame 114 of the guide 110 so that a pair of rollers R are rotatably supported at both front and rear ends of the bottom surface. Here, the roller (R) is provided in a state in which a pair of rolling contact with the outer peripheral surface of the inclined frame 114 to facilitate the movement of the moving member 121.

On the other hand, the roller (R) may be controlled to be driven by a separate drive motor, it may be possible to automatically adjust the distance between the surface and the collecting unit 120 through the detection signal according to the water level. In this case, when the roller R is driven by the drive motor, a drive motor for individually driving the upper and lower rollers R is provided, and the driving direction acts in the symmetrical direction.

In addition, the roller (R) may be changed to a structure injecting air or buoyancy to act as a buoyancy portion.

The drive motor 122 is installed in the longitudinal direction at the horizontal end of the moving member 121 to provide power by an applied power source, the surface of the installation position may be applied to a waterproof or underwater motor or the like.

The drive sprocket 123 is installed on the axis line extending from the drive shaft of the drive motor 122 to be spaced apart in the longitudinal direction.

The driven sprocket 124 is parallel to the drive sprocket 123 and is installed on the opposite side of the moving member 121 spaced apart in the longitudinal direction. Here, the pair of drive sprocket 123 and the driven sprocket 124 are each connected to both ends of the shaft and the shaft is supported on the moving member 121 through a separate support member.

The chain 125 is provided so that the pair is interconnected to transmit the driving force of the vertical drive sprocket 123 to the vertical drive sprocket 124. Here, the opposite surface of the upper and lower chain 125 is provided with a plurality of fixing members (not shown in the figure) at equal intervals to fix both ends of the filtering member 126 to be described later. This is to adjust the interval (preferably 15 ~ 20cm) of the filtering member 126 may be arranged closely or at intervals the interval of the filtering member 126 according to the number of installation.

The filtering member 126 is connected to each other at predetermined intervals along the opposing surfaces of the upper and lower pairs of the chains 125 so that suspended matters in the river are caught, and the interval is adjustable. In this way, it is possible to adjust the size of the suspended material is caught because the separation of the filtering member 126 is possible.

That is, the filtering member 126 has the narrowest gap when both ends are fixed to each of the fixing members installed on the opposing surfaces of the upper and lower chains 125, and is set without fixing the filtering member 126 to the fixing member. Fixing at intervals will widen the separation of the filtering member 126.

Further, the filtering member 126 is formed of a stainless steel material or the like to prevent deformation due to the flow rate and the collision with the float, the projection may be formed on the outer peripheral surface to improve the degree of catching the river float.

Discharge unit 130 is a front end in the driving direction of the collecting unit 120 is a function to discharge the suspended matter collected in the collecting unit 120 to the outside of the river, for example, a conveyor or the like applied thereto do.

On the other hand, the discharge unit 130 is provided so that the front end is located in the river and the rear end is inclined in both eyes, the structure of the collecting unit 120 so that water can be removed in the process of moving the collected river floating to the outside of the river It may be provided in the same manner.

At this time, when the discharge unit 130 is installed inclined, the rear end is rotatably provided by connecting the shaft in both sides of the river, it is possible to adjust the height of the front end from the shaft. In other words, the discharge unit 130 is to be moved up and down in accordance with the river surface, so that the shaft is the starting point of rotation by connecting the support pillar and the rear end to the shaft.

And the discharge unit 130 may be installed at the same angle as the angle of the collecting unit 120, may be installed in a horizontal direction without an angle.

The buoyancy unit 140 is installed in the lower portion of the movable member 121 of the collecting unit 120 and the lower end of the discharge unit 130 adjacent to the collecting unit 120, respectively, the collecting unit 120 and the Air is filled inside so that the tip of the discharge unit 130 maintains the surface of the river and the set height (near the surface of the river).

In addition, the buoyancy portion 140 may cause buoyancy to occur through the air filled therein, otherwise, without using the buoyancy portion 140, the roller according to the signal detected through the water level sensor (not shown in the figure) The driving motor for driving the R may be controlled by the controller to automatically adjust the heights of the ends of the collecting unit 120 and the discharge unit 130 through the driving force.

The control unit controls the driving of a water level sensor (not shown in the drawing), a flow rate sensor (not shown in the drawing), a driving motor 122, and a driving motor for driving the roller, which may be installed on the inclination frame 114 or the like.

Here, the control unit may control the height adjustment between the collecting unit 120 and the water surface by controlling whether the driving motor for driving the roller through the detection signal of the water level sensor, and the driving motor through the detection signal of the flow rate sensor ( 122, the drive speed can be controlled.

In particular, the controller may control the driving speed of the driving motor 122 through the stream flow rate detected by the flow rate sensor to make the moving member 126 of the collecting unit 120 faster than the flow rate of the stream. In this way, the controller controls the rotational speed of the filtering member 126 faster than the flow rate of the stream so that the suspended matter of the stream is not caught between the filtering member 126.

The operation of the suspended solids collection device 100 of the river according to the present invention is as follows.

First, when a floating object is detected in a river or when a large amount of floating material is expected to float due to a heavy rain or the like during the rainy season, the collecting unit 120 rotates through a driving motor driving the roller R to descend. Alternatively, when the power of the drive motor is removed, a portion of the lower end of the collecting unit 120 is submerged below the water surface.

Next, the collection unit 120 submerged on the water surface of the river is driven by the drive motor 122 under the control of the controller, the drive shaft of the drive motor 122 drives the drive sprocket 123, the drive The sprocket 123 interlocks the driven sprocket 124 through the chain 125, and the filter member 126 moves while the filter member 126 connected at equal intervals while being perpendicular to the operating direction of the chain 125 moves. River floats are caught in between.

Next, since the filtering member 126 is connected to the chain 125 operated by the driving motor 122, the stream floating is caught between the filtering member 126, so that the stream floating is bounded between the stream and both eyes. It is moved to the discharge unit 130 is installed on the side, and receives the river floating material from the discharge unit 130 is discharged to the outside of the river.

On the other hand, when the removal of the floating matter of the river is completed, the collection unit 120 is rotated by the control of the control unit to drive the drive motor (R) to be moved to the upper side of the inclined frame (114).

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the equivalents of the appended claims, as well as the appended claims.

100: river float collection device 110: guide
120: collecting portion 121: moving member
122: drive motor 123: drive sprocket
124: driven sprocket 125: chain
126: filter member 130: discharge portion
140: buoyancy

Claims (4)

A guide extending inclined at a set angle from the river bottom;
A conveyor-type collector having a length corresponding to the width of the river and installed in the width direction of the river and moving along the guide to move the floating matter of the river to one side of the river;
A discharge part configured to allow a tip to be positioned in the river and a rear end to be positioned on both sides of the stream so as to discharge the floating matter collected from the collection part to the outside of the river; And
The floating portion of the river including a lower portion of the collecting portion, the lower portion of the discharging portion adjacent to the collecting portion and the buoyancy portion to the front end of the collecting portion and the discharge portion to maintain the water surface and the set height of the river Device.
The method of claim 1, wherein the collecting unit,
A driving motor installed at one end of a moving member having both ends connected to the plurality of guides;
A pair of spaced drive sprockets disposed on an extended axis line with the drive shaft of the drive motor;
A pair of spaced driven sprockets parallel to the drive sprocket and installed at the other end of the moving member;
A pair of chains interconnected to transmit the driving force of the drive sprocket to the driven sprocket; And
And a filtering member for connecting the pair of chains at predetermined intervals so as to catch the floating material of the stream.
3. The method of claim 2,
The flow rate of the filtering member of the collecting unit is faster than the flow rate of the river floating material collection device.
3. The method of claim 2,
The filtering member is a float collecting device of the river is adjustable intervals.

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