KR102188614B1 - Scum skimmer with shark fin blade - Google Patents

Abstract

The present invention relates to a scum skimmer having a shark-fin type blade. An objective of the present invention is to provide an advanced scum skimmer having a shark-fin type blade to prevent floating objects from being tangled, as long floating objects are caught by the shark-fin type blade. To this end, according to the present invention, a scum skimmer having a shark-fin type blade includes: a rotary skimmer installed in a position adjacent to a floating object discharging waterway provided in a settling tank; a driving device rotating the rotary skimmer; a guide plate disposed at a lower portion of the rotary skimmer; and a support structure installed in the settling tank to support the rotary skimmer and the guide plate. The rotary skimmer includes: a rotational shaft having both end portions coupled to the support structure while extending in a width direction of the settling tank; a plurality of spiral blades extending along a spiral track from an outer portion of the rotational shaft; and a plurality of shark-fin type blades mounted on the spiral blade while protruding in a direction perpendicular to the spiral blade, and mounted to be distributed along the spiral blade. The shark-fin blade had an inclined surface to push a floating object included in a floating layer toward the floating object discharging waterway, when the shark-fin blade is floated to a water surface from underwater. A protruding part is further provided on the shark-fin blade to expand the area of the inclined surface, as a distal end of the shark-fin blade, which constitutes the inclined surface, is bent in the shape of a triangular column.

Description

Shark type scum removal device {Scum skimmer with shark fin blade}

The present invention relates to a shark-type scum removal device for removing floating matter from a sedimentation basin, and more particularly, in a scum removal device including a plurality of spiral blades having a shark-type blade, the floating material is tangled while being wound around the shark-type wing. It relates to a shark-type scum removal device with improved shark-type wings to prevent adhesion.

In a sedimentation tank (sedimentation facility) of a sewage treatment plant that purifies sewage or various wastewater, sludge accumulates at the bottom and floats (scum) are generated at the water surface, and it is necessary to remove such sludge and suspended matter for purification of treated water. Typically, a sludge discharge device for discharging the sludge accumulated on the bottom side and a scum removing device for removing suspended matter floating on the water surface are installed in the settling tank.

It is very difficult to uniformly apply the type of scum removal device because there are many differences in the amount and properties of the floating matter floating in the sedimentation tank depending on the nature or season of the raw water. In particular, when the pretreatment process is a microbial treatment method, there is a problem in that the removal efficiency of suspended matter is further lowered because it occurs differently depending on the season. For example, the floating material layer formed on the upper part of the sedimentation tank by the floating material sometimes occurs as thick as 30 mm or more depending on the nature of the raw water or the season, and many floating materials float on the water surface like oil and move according to the flow velocity. In addition, since a small amount of suspended matter floats as a point tissue, the scum removal device applied to remove it has different efficiency for each method.

Typical scum removal devices are pipe type, helical type, and pressurized plate type, and in the case of pressurized flotation tanks, they are sometimes installed on the top of the settling basin in a caterpillar type, and the caterpillar type requires 24 hours operation and the investment cost for the facility It is used in special cases because there are many parts.

The pipe method is effective in removing suspended matters generated like oil, but has a disadvantage in that it is difficult to remove and discharges of supernatant water when the suspended matter layer is thick.

The helical method is effective in removing the thick floating material layer, but the thin floating material has a disadvantage that the removal efficiency is lowered because vortices are generated by the rotational force of the skimmer.

The push plate method was developed to remove eddy currents due to rotational force, but there is a disadvantage in that the floating material and the supernatant are gathered to the center part, and the amount of supernatant returned rather than the removal is large, causing vortices and pushing the floating material away.

In consideration of the above problems, the applicant has developed a shark-type scum removal device that minimizes the return of supernatant water by minimizing the eddy current due to rotational force and improves the efficiency of removing the floating material, regardless of the thickness of the floating material layer or the properties of the floating material. , The shark type scum removing device is disclosed in Patent Document 1.

The shark-type scum removing device disclosed in Patent Document 1 has a main configuration in which a plurality of spiral blades are installed to be distributed on the outside of a rotating shaft, and a shark-shaped tail is installed at one end of the spiral blade.

This shark-type scum removal device pushes the floating material into the discharge channel as the spiral blade moves by the rotation of the rotating shaft, and the shark-type tail installed on each spiral blade prevents the floating material from being driven to one side of the shark-type scum removal device. The floating material is uniformly dispersed in the width direction of the channel and the formation of vortex is minimized, thereby enabling smooth removal of the floating material.

As such, the shark-shaped tail, which enables effective removal of floating matter, protrudes in a direction perpendicular to the spiral blade, and the side that comes first close to the water surface is formed to coincide with the water surface when it rises above the water surface by the rotation of the rotating shaft. Accordingly, when the shark-shaped tail rises above the surface of the water, a long-length floating object such as vinyl contained in the floating layer is caught on the shark-shaped tail, and as the rotating shaft continues to rotate in this state, the floating object is wound around the rotating shaft and becomes tangled. In this case, there is a problem in that the removal efficiency of floating matter is deteriorated, and in severe cases, deformation or damage of related parts is caused by increasing the rotational resistance of the rotating shaft.

In addition, since the shark-type scum removal device of Patent Document 1 is fixedly installed on the side wall of the sedimentation tank, it is impossible to adjust the height of the shark-type scum removal device, and thus, there is a problem in that it cannot flexibly respond to changes in the situation.

Registered Patent Publication No. 10-1540242 (announced on July 31, 2015)

The present invention has been made in consideration of the above problems, and an object of the present invention is to provide an improved shark-type scum removal device so as to prevent entanglement of a floating object caused by a long floating object being caught by a shark-type wing. have.

Another object of the present invention is to provide an improved shark-type scum removal device so that the height of the jade portion can be adjusted in response to a change in the water level of the settling tank.

Another object of the present invention is to provide an improved shark-type scum removal device so as to reduce the growth of floating objects attached to the surface of the shark-type wing.

The present invention for achieving the object as described above and performing the task for removing the conventional drawbacks is a rotary skimmer for inducing the discharge of the floating material while rotating at a position adjacent to the floating material discharge channel provided in the sedimentation tank; A driving device connected to the rotary skimmer to rotate the rotary skimmer; A guide plate disposed under the rotary skimmer to induce a floating material to be discharged into a floating material discharge channel by a rotating operation of the rotary skimmer; And a support installed in the settling tank to support the rotary skimmer and the guide plate, wherein the rotary skimmer includes: a rotary shaft extending in a width direction of the settling tank and having both ends rotatable to the support; A plurality of spiral blades extending along a helical trajectory from the outer side of the rotation shaft and being installed to be distributed in a circumferential direction of the rotation shaft to induce a floating material to be discharged into the floating material discharge channel while rotating together with the rotation axis; And a plurality of shark-type blades installed on the spiral blade so as to protrude in a direction perpendicular to the spiral blade and distributed along the spiral blade to block the floating matter flowing by the rotation of the spiral blade from flowing in the longitudinal direction of the spiral blade. The shark-type wing is composed of a hypotenuse that is inclined to push the floating matter contained in the floating layer in the direction of the discharge water when floating to the surface of the water, and the tip of the shark-type wing forming the hypotenuse is triangulated. It provides a shark-type scum removing device, characterized in that the protrusion formed by being bent in a column shape and extending the area of the hypotenuse is further formed on the shark-type wing.

Meanwhile, in the shark-type scum removal device, a wave generating hole for reducing the attachment of floating objects to the surface of the shark-type wing by causing a wave of water around the shark-type wing during the process of entering and exiting the shark-type wing is provided. Can be formed further.

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Meanwhile, in the shark-type scum removing device, the spiral blade includes an elastic plate installed between the first and second support plates, and the shark-shaped blade includes: a wing portion protruding orthogonal to the spiral blade; And a spiral blade having a structure bent from the wing to have a structure in close contact with the surface of the first support plate, and a rectangular slot into which a bolt fastened through the first and second support plates is inserted so that the position can be adjusted. The fixed side of the wing portion on which the fixed portion is formed is formed of a fixed side of the first support plate and the surface of the elastic plate so that the fixed part is in close contact with the surface of the first support plate and the corresponding fixed side is in close contact with the surface of the elastic plate. It is preferable to be formed stepwise in response to the height difference.

Meanwhile, in the shark-type scum removing apparatus, the support may include a fixed support fixedly installed on a wall surface of the settling tank; A movable support formed in an integral structure with the rotary skimmer and the guide plate to move together while supporting the rotary skimmer and the guide plate; And it is installed to connect the fixed support and the movable support, and is operated by the user's operation to move the movable support, and adjusts the position of the jade part by adjusting the height of the rotary skimmer and the guide plate by movement of the movable support. Non-mounting two-way adjustment device; may be configured.

Meanwhile, in the shark-type scum removing device, the non-mounting two-way adjusting device comprises: a first female screw part formed on the fixed support; A second female screw portion formed on a movable support body so as to be positioned vertically below the first female screw portion; And a first male screw portion fastened to the first female screw portion, a second male screw portion fastened to the second female screw portion, and a tool coupling portion having a polygonal cross section, and rotates by a user's operation while rotating the movable support vertically. It may consist of a fastening member that moves.

Meanwhile, in the shark type scum removing device, the first female screw portion and the second female screw portion have different pitches, and when the first female screw portion and the first male screw portion are tightened due to rotation of the fastening member, the second female screw portion And the second male screw portion are released, and the second female screw portion and the second male screw portion are configured to be tightened when the first female screw portion and the first male screw portion are released. It can be made to be able to precisely adjust the position.

According to the present invention having the above characteristics, the hypotenuse formed on the shark-type wing acts to push the floating object during the process of the shark-type wing floating above the water surface by the rotation of the rotary skimmer, so it is included in the floating material layer. Long floats, such as woven strings and plastics, are picked up by the shark wing and get tangled by the rotating skimmer.

In addition, the wave generation hole formed in the shark-type wing reduces the surface area of the shark-type wing and induces the dropping of floating objects attached to the shark-type wing by causing a wave of surrounding water while the shark-type wing enters or exits the water. , It is possible to effectively suppress the growth of floating objects attached to the surface of the shark type wing.

In addition, when the area of the hypotenuse is enlarged by the protrusion, it is possible to prevent the floating object with a long length from being rapidly bent due to collision with the hypotenuse and attaching to the surface of the shark type wing, thus preventing the entanglement of the floating object more effectively. have.

In addition, by minimizing the formation of a gap between the spiral blade and the shark type blade, it is possible to more effectively discharge the floating material to the floating material discharge channel by reducing the escape of water and the floating material between the spiral blade and the shark type blade.

In addition, since the position of the non-mounting part can be adjusted while adjusting the height of the rotary skimmer and the guide plate in response to the fluctuation of the water level generated during the operation of the sedimentation tank, it is possible to maintain an optimal environment for removing suspended matter regardless of the fluctuation of the water level.

1 is a perspective view showing the main structure of a shark type scum removing device according to a preferred embodiment of the present invention,
2 is a front view showing a state in which a shark-type scum removing device according to a preferred embodiment of the present invention is installed in a settling tank;
3 is a plan view showing a state in which a shark type scum removal device according to a preferred embodiment of the present invention is installed in a settling tank;
4 is an exemplary view showing the mutual positional relationship between the rotary skimmer, the guide plate and the floating matter discharge channel according to the present invention in the lateral direction,
5 is a perspective view of a shark-type wing according to a preferred embodiment of the present invention,
6 is a side view of a shark-type wing according to a preferred embodiment of the present invention,
7 is an exemplary view showing a state in which a shark-type blade is mounted on a spiral blade according to a preferred embodiment of the present invention,
8 is an exemplary view of a non-mounting bidirectional control device according to the present invention,
9 is an exemplary view showing a state in which a floating material is discharged to a floating material discharge channel by rotation of a rotary skimmer according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail in conjunction with the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a perspective view showing a main structure of a shark-type scum removing device according to a preferred embodiment of the present invention, Figure 2 is a front view showing a state in which the shark-type scum removing device according to a preferred embodiment of the present invention is installed in a settling tank, 3 is a plan view showing a state in which a shark-type scum removing device according to a preferred embodiment of the present invention is installed in a settling tank, and FIG. 4 is a lateral direction of the mutual positional relationship between the rotary skimmer and the guide plate and the floating material discharge channel according to the present invention. The exemplary view shown in, Figure 5 is a perspective view of a shark-type wing according to a preferred embodiment of the present invention, Figure 6 is a side view of a shark-type wing according to a preferred embodiment of the present invention, Figure 7 is a preferred embodiment of the present invention An exemplary view showing a state in which a shark-type wing according to an example is mounted on a spiral blade, FIG. 8 is an exemplary view of a non-mounting two-way control device according to the present invention, and FIG. 9 is a floating object by rotation of a rotary skimmer according to the present invention. An exemplary diagram showing a state of being discharged to the floating water discharge channel is shown.

The shark-type scum removal device according to the present invention is improved to solve the problems arising in the operation process of the shark-type scum removal device disclosed in Patent Document 1, and is installed in the sedimentation tank 10 to which a non-metallic chain flight-type sludge collector is applied. It may be installed to discharge the floating material floating upward to the floating material discharge channel 20.

On the other hand, the shark-type scum removal device according to a preferred embodiment of the present invention is composed of a rotary skimmer 100, a driving device 200, a guide plate 300, and a support 400.

The rotary skimmer 100 discharges the floating matter suspended above the water surface of the sedimentation tank 10 to the floating material discharge channel 20, and is configured to induce the discharge of the floating material while rotating at a position adjacent to the floating material discharge channel 20 .

Such a rotary skimmer 100 includes a rotary shaft 110 having a structure extending in the width direction of the sedimentation tank 10, a plurality of spiral blades 120 installed on the rotary shaft 110, and the spiral blade 120 It consists of a shark-type wing 130 installed on.

The rotation shaft 110 is disposed in a horizontal position inside the settling tank 10, and both ends are coupled to the support 400 in a rotatable structure, and are configured to rotate while being supported by the support 400.

The spiral blade 120 is installed outside the rotation shaft 110 so as to have a structure extending along the spiral trajectory centered on the rotation shaft 110 to discharge the floating material to the floating material discharge channel 20 when the rotation shaft 110 rotates. It is configured to let.

These spiral blades 120 are composed of first and second support plates 121 and 122 and an elastic plate 123, and the first and second support plates 121 and 122 are bolts and nuts facing each other with the elastic plate 123 interposed therebetween. It is configured to be fixed together with the elastic plate 123 by the combination of, and a plurality of connecting rods 111 formed to protrude in the radial direction from the outer peripheral surface of the rotation shaft 110 on the second support plate 122 of the first and second support plates 121 and 122 ) Is welded to and fixed.

On the other hand, the elastic plate 123 is made of a material having elasticity such as rubber and is made to be elastically deformed, and is formed to have a larger area than the first and second support plates 121 and 122 so that the first and second support plates 121 and 122 When combined with, the circumference is configured to protrude to the outside of the first and second support plates 121 and 122.

In addition, the outer side of the elastic plate 123, that is, the outer side closest to the guide plate 300 when rotating the rotary skimmer 100 is formed to rotate while in close contact with the guide plate 300 It is desirable.

Such a spiral blade 120 is made of a plurality, but is installed to be distributed in the circumferential direction of the rotation shaft 110, in Figs. 1 to 4, two spiral blades 120 are spaced 180 degrees in the circumferential direction of the rotation shaft 110 There is shown a structure installed to be distributed.

The shark-type blade 130 is to allow the floating matter to be uniformly distributed throughout the width direction of the sedimentation tank 10, and to have a structure that protrudes in a direction orthogonal to the spiral blade 120 from the front of the spiral blade 120 It is installed on the blade 120, such a sharp blade 130 is configured to have a distributed structure by being installed at a predetermined distance from each other along the longitudinal direction of the spiral blade 120.

On the other hand, the shark-type wing 130 according to a preferred embodiment of the present invention, a wing portion 131 made of a plate material of a shape similar to a shark fin, and a high fixing the wing portion 131 to the spiral blade 120 It consists of the government 132.

The wing portion 131 includes a fixed side 1311 that is closely fixed to the spiral blade 120, a contact side 1312 formed to be bent in an arc shape corresponding to the curvature of the guide plate 300, and a shark-type wing Consisting of including a hypotenuse 1313 that is formed to be inclined so as to have a structure inclined forward rather than parallel to the water surface when the 130 floats above the water surface to push the floating material in the direction of the floating material discharge channel 20 located in the front do.

In this case, the fixed side 1311 is formed to be stepped in consideration of a height difference between the surface of the first support plate 121 and the surface of the elastic plate 123. That is, the fixed side 1311 has an inner end 1311a corresponding to the surface of the first support plate 121 and an outer end 1311b corresponding to the surface of the elastic plate 123 in a stepped structure. As the 1311 is in close contact with the surface of the spiral blade 120, it is configured to minimize the formation of a gap between the spiral blade 120 and the shark-shaped blade 130.

The fixing part 132 is formed to be bent so as to protrude in a direction perpendicular to the wing part 131 from the fixed side 1311 of the wing part 131 to fix the wing part 131 to the spiral blade 120 Is configured to be in close contact with the first support plate 121 of the spiral blade 120.

On the other hand, in order to fix the fixing part 132 to the first support plate 121, a slot 1321 through which a part of the bolt passes is formed in the fixing part 132, and the first and second support plates 121 and 122 The bolt protruding through the plate 123 is fastened with the nut while passing through the slot 1321 to fix the fixing part 132 to the first support plate 121.

At this time, the slot 1321 is formed to be elongated in a rectangular structure so that the shark wing 130 can be fixed while moving in a direction close to or away from the guide plate 300, and the shark wing 130 and the guide plate ( 300) It is configured to adjust the size of the gap and adjust the discharge amount of the float according to the characteristics of the float and the season.

Such a fixed part 132 is formed on the fixed side 1311 of the wing part 131, and the inner side of the fixed side 1311 formed stepwise to have a stepped structure of the outer end 1311b and the inner end 1311a It is formed on the end 1311a and is configured to be in close contact with the surface of the first support plate 121.

In the shark-type wing 130 configured as described above, the area of the hypotenuse 1313 is expanded so that a long floating object collides with the hypotenuse 1313 while being rapidly bent and attached to the surface of the shark-type wing 130 A protrusion 133 that prevents it from being formed, and a wave generation hole 134 that prevents the floating material from growing by being attached to the surface of the shark-type wing 130 may be further formed.

The protrusion 133 is formed to protrude laterally from the hypotenuse 1313 of the wing part 131 and is configured to expand the area of the hypotenuse 1313, and this protrusion 133 is the hypotenuse of the wing part 131 It can be formed by bending (1313) into a triangular column shape.

In this way, the protrusion 133 formed to protrude to the side of the wing part 131 expands the area of the hypotenuse 1313 to prevent the floating material from being bent rapidly while colliding with the beveled surface, and even when the floating material is bent, the floating material By being spaced apart from the surface of the 131, the floating material is prevented from being attached to the surface of the wing portion 131.

The wave generating hole 134 is configured to pass through the wing portion 131 to form an empty space inside the wing portion 131.

Meanwhile, in FIG. 5, a wave generating hole 134 formed to penetrate the wing portion 131 in a shape similar to a rugby ball is shown.

The wave generation hole 134 formed as described above generates a wave of surrounding water while the shark-type wing 130 enters or exits the water, and the water is attached to the surface of the shark-type wing 130 through the wave. Since the floating material is induced to fall off, the floating material is attached to the shark wing 130 to prevent growth.

The driving device 200 is to rotate the rotary skimmer 100, is installed on the top of the settling tank 10, may be composed of a motor connected to the rotary shaft 110 through a chain and sprocket.

Meanwhile, in FIG. 2, one driving device 200 is installed between the two sedimentation tanks 10, and the driving device 200 is connected to the rotary skimmer 100 installed in the two sedimentation tanks 10, The configuration of the driving device 200 configured to rotate the skimmer 100 is shown.

The guide plate 300 induces a rise in the water level in front of the floating material discharge channel 20 together with the spiral blade 120 when the rotary skimmer 100 rotates so that the floating material is discharged to the floating material discharge channel 20 more smoothly. It is arranged to be located under the rotary skimmer 100, and is in contact with the outer end of the spiral blade 120 moving along a circular trajectory by the rotation of the rotary shaft 110 to induce a smooth discharge of the float It is configured that the guide surface 310 of the mold is formed on the upper end.

The support 400 is to support the rotary skimmer 100 and the guide plate 300, and is composed of a fixed support 410, a movable support 420, and a non-mounting two-way adjustment device 430 to settle the tank 10 It is configured to adjust the height of the non-mounting portion P while moving the rotary skimmer 100 and the guide plate 300 up and down in response to the fluctuation of the water level.

The above-mentioned non-mounting part (P) is the top vertex of the guide plate (300), and the floating material is discharged to the floating material discharge channel 20 beyond the non-mounting part (P), so in response to the change in the water level of the settling tank (10) By changing the height of the part P, it is possible to induce smooth discharge of the floating matter.

The fixed support 410 is a structure fixedly installed on both side walls of the settling tank 10, and in FIG. 8, an angle having an L-shaped cross section is fixedly installed on the wall of the settling tank 10. The structure of is shown.

This fixed support 410 may be configured in various forms according to the structure of the settling tank 10.

The movable support 420 is to support the rotary skimmer 100 and the guide plate 300, and is made of a plate-shaped structure provided in a vertical posture on both sides of the rotary skimmer 100 and the guide plate 300, The rotating shaft 110 of the rotating skimmer 100 is coupled to the movable support 420 via a rotating support (B) such as a bearing, and the guide plate 300 is a movable support through a method such as welding or rivets or bolting. It is fixedly installed on 420 and configured so that the rotary skimmer 100, the guide plate 300, and the movable support 420 move up and down together while forming one unit.

On the other hand, Figures 1 and 4 shows a structure fixedly installed on the movable support 420 together with the rotary skimmer 100 and the guide plate 300 as well as the floating material discharge channel 20, but the floating material discharge channel 20 is It may be installed to be fixed separately in the settling tank (10).

The non-mounting two-way adjustment device 430 connects the fixed support 410 and the movable support 420 so that the movable support 420 is supported by the fixed support 410, but moves by the user's operation while moving the movable support 420 ) By moving up and down, the first female screw portion 431 formed on the fixed support 410, the second female screw portion 432 formed on the movable support 420, and the first and second female screw portions 431,432 It consists of a fastening member 433 to connect.

The first female screw portion 431 may be formed by fixing a generally widely used nut to the fixed support 410, and has a structure in which a plurality of first female screw portions 431 are distributed on the fixed support 410. Is formed.

The second female screw portion 432 may be formed by fixing a generally widely used nut to the movable support 420, and a plurality of second female screw portions 432 are dispersed in the movable support 420. Is formed.

As described above, each of the second female screw portions 432 formed in a structure dispersed in the movable support 420 is preferably disposed to be positioned vertically below the first female screw portion 431.

The fastening member 433 has a first male screw part 4331 fastened to the first female screw part 431 at an upper end, and a second male screw part 4332 fastened to the second female screw part 432 at the lower end. Consisting of a formed bolt column, the tool coupling portion 433 is formed between the first male screw portion 4331 and the second male screw portion 4332.

At this time, the tool coupling part 433 has a polygonal cross section in order to conveniently couple a tool such as a spanner.

In the non-mounting bidirectional adjustment device 430 configured as described above, the first and second female screw portions 431 and 432 and the first and second male screw portions 4331 and 4332 are square screws capable of transmitting or supporting a large force without abrasion of the thread. It is desirable to be configured.

In addition, the first female screw portion 431 and the second female screw portion 432 have different screw pitches, and the first female screw portion 431 and the first male screw portion 431 are formed due to the rotation of the fastening member 433. When tightened, the second female screw portion 432 and the second male screw portion 4332 are released, and when the first female screw portion 431 and the first male screw portion 431 are loosened, the second female screw portion 432 and the second The male screw portion 4332 is configured to be tightened.

For example, the first and second female screw portions 431 and 432 and the first and second male screw portions 4331 and 4332 are both made of right-hand threads, but the thread pitch P1 of the first female screw portion 431 and the first male screw portion 4331 ) Is 3 mm, and when the screw pitch (P2) of the second female screw portion 432 and the second male screw portion 4332 is 2 mm, when the fastening member 433 is rotated in the right direction, the fastening member ( 433) rises by 3 mm, while the movable support 420 coupled with the fastening member 433 through the second female screw part 432 and the second male screw part 4332 rises 3 mm with the fastening member 433 In the process of being lowered by 2 mm, in the end, the movable support 420 is raised by 1 mm.

As described above, in the non-mounting bidirectional adjusting device 430 according to the present invention, the first female screw portion 431 and the first male screw portion 4331, and the second female screw portion 432 and the second male screw portion 4332 are fastening members ( Since it is operated in a two-way adjustment method of loosening and tightening due to one direction rotation of 433), precise height adjustment of the non-mounting portion P is possible through fine adjustment of the movable support 420.

The shark-type scum removal device according to the present invention configured as described above is similar to the shark-type scum removal device disclosed in Patent Document 1, while the rotary skimmer 100 rotates by the drive device 200, and the floating material is transferred to the floating material discharge channel 20 Will be discharged.

In this process, the shark blade 130 of the spiral blade 120 provided in the rotary skimmer 100 blocks the floating material from flowing in the longitudinal direction of the spiral blade 120, so that the floating material You can prevent concentration on one side of ).

In addition, the hypotenuse 1313 formed on the shark wing 130 is not parallel to the water surface and acts to push the colliding floating object while maintaining an inclined posture in the process of rising above the water surface. The long floating material is prevented from being caught on the shark wing 130, thereby preventing the floating material from being entangled with the rotary skimmer 100.

In addition, a wave is formed around the shark-type wing 130 in the process of the wave generating hole 134 formed in the shark-type wing 130 flowing into the water surface and coming out of the water surface, and this wave is formed in the shark-type wing 130 ) Is transmitted to the surface and induces the dropping of the floating matter attached to the shark-type wing 130, it is possible to effectively prevent the floating matter from being attached to the shark-type wing 130 to grow.

On the other hand, when the water level of the settling tank 10 is changed in the process of operating the shark type scum removing device according to the present invention, the manager changes while moving the movable support 420 up and down through the rotational operation of the fastening member 433 Since the non-mounting part P can be positioned at a height corresponding to the set water level, it is possible to quickly respond to the change in the water level of the settling tank 10.

As described above, the shark-type scum removal device according to the present invention significantly reduces the manpower and time required for the operation of the scum removal device by preventing entanglement or adhesion of floating objects and allowing a more flexible response to water level fluctuations. It is a very useful invention that can be made.

The present invention is not limited to the specific preferred embodiments described above, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the claims can implement various modifications Of course, such changes will fall within the scope of the description of the claims.

<Explanation of symbols for major parts of drawings>
10: sedimentation tank 20: floating matter discharge channel
100: rotary skimmer 110: rotary shaft
120: spiral blade 121: first support plate
122: second support plate
123: elastic plate 130: shark wing
131: wing part 1311: fixed side
1313: hypotenuse 132: fixed part
1321: slot 133: protrusion
134: wave generation hole 200: drive device
300: guide plate 400: support
410: fixed support 420: mobile support
430: non-mounting two-way adjustment device 431: first female thread
432: second female threaded portion 433: fastening member
4331: first male thread 4332: second male thread
4333: tool coupling

Claims (8)

A rotary skimmer 100 for inducing the discharge of the floating material while rotating at a position adjacent to the floating material discharge channel 20 provided in the sedimentation tank 10;
A driving device 200 connected to the rotary skimmer 100 to rotate the rotary skimmer 100;
A guide plate 300 disposed under the rotary skimmer 100 to induce floating matters to be discharged to the floating matter discharge channel 20 by the rotational motion of the rotary skimmer 100; And
In the scum removal device consisting of; a support 400 installed in the settling tank 10 to support the rotary skimmer 100 and the guide plate 300,
The rotary skimmer 100,
A rotating shaft 110 extending in the width direction of the settling tank 10 and having both ends rotatably coupled to the support 400 in a rotatable structure; It extends along a spiral trajectory from the outer side of the rotation shaft 110, and is installed to be distributed in the circumferential direction of the rotation shaft 110, and rotates together with the rotation shaft 110 to induce the floating material to be discharged to the floating material discharge channel 20 Of the spiral blade 120; And it is installed on the spiral blade 120 so as to protrude in a direction orthogonal to the spiral blade 120 and is installed to be distributed along the spiral blade 120 so that the floating material flowing by the rotation of the spiral blade 120 is the spiral blade 120 ) Consisting of a plurality of shark-type wings 130 to block the flow in the longitudinal direction
The shark-type wing 130 comprises a hypotenuse 1313 inclined to push the floating material contained in the floating material layer in the direction of the discharge water when floating to the surface of the water, but the shark-type forming the hypotenuse 1313 A shark-type scum removal device, characterized in that a protrusion 133 formed by bending the end of the wing 130 into a triangular column shape to expand the area of the hypotenuse 1313 is further formed on the shark-type wing 130.
The method according to claim 1,
A wave generation hole 134 that reduces the attachment of floating objects to the surface of the shark wing 130 by causing a wave of water around the shark wing 130 during the process of entering and exiting the shark wing 130 is provided. Shark type scum removal device, characterized in that further formed on the type wing (130).
delete delete The method according to claim 1,
The spiral blade 120 is made of an elastic plate 123 is installed between the first and second support plates 121, 122,
The shark-type wing 130 includes a wing portion 131 protruding orthogonal to the spiral blade 120; And a rectangular slot 1321 having a structure bent from the wing portion 131 to have a structure in close contact with the surface of the first support plate 121, and into which a bolt fastened through the first and second support plates 121 and 122 is inserted. ) Is formed and a fixed portion 132 fixed to the spiral blade 120 in a structure that can be adjusted in position; consisting of,
The fixed side 1311 of the wing part 131 on which the fixing part 132 is formed has the fixing part 132 in close contact with the surface of the first support plate 121 and the corresponding fixed side on the surface of the elastic plate 123 A shark type scum removing device, characterized in that the first support plate 121 and the elastic plate 123 are formed to be in close contact with each other in a stepped manner corresponding to a height difference between the surface of the first support plate 121 and the surface of the elastic plate 123.
The method according to claim 1,
The support 400,
A fixed support 410 fixedly installed on the wall of the settling tank 10;
A movable support 420 formed in an integral structure with the rotary skimmer 100 and the guide plate 300 so as to move together while supporting the rotary skimmer 100 and the guide plate 300; And
It is installed to connect the fixed support 410 and the movable support 420, and is configured to move the movable support 420 while operating by the user's operation, and the rotary skimmer 100 by the movement of the movable support 420 And a non-mounting two-way adjusting device 430 for adjusting the position of the non-mounting part P through height adjustment of the guide plate 300; and a shark-type scum removing device comprising: a.
The method of claim 6,
The non-mounting two-way adjustment device 430,
A first female screw portion 431 formed on the fixed support 410;
A second female screw portion 432 formed on the movable support 420 so as to be positioned vertically below the first female screw portion 431; And
A first male screw part 4331 fastened to the first female screw part 431, a second male screw part 4332 fastened to the second female screw part 432, and a tool coupling part 433 having a polygonal cross section. ) Consisting of a fastening member 433 for moving the movable support 420 up and down while rotating by the user's manipulation; a shark-type scum removing device comprising: a.
The method of claim 7,
The first female screw portion 431 and the second female screw portion 432 have different pitches,
When the first female screw portion 431 and the first male screw portion 431 are tightened due to the rotation of the fastening member 433, the second female screw portion 432 and the second male screw portion 4332 are released, and the first female screw When the part 431 and the first male screw part 431 are loosened, the second female screw part 432 and the second male screw part 4332 are configured to be tightened, so that the fastening member 433 is loosened and tightened due to rotation in one direction. Shark type scum removal device, characterized in that made to precisely control the position of the non-mounting portion (P) by the two-way adjustment method of.

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