KR20110006775A - Apparatus for removing floating materials and sediment - Google Patents

Abstract

PURPOSE: A suspended material and sediment are provided to improve the water quality by continuously removing the suspended and sediment of various fluids. CONSTITUTION: A guide unit(110) is installed according to the moving direction of the floating substance or deposit. A transfer unit(120) is moved back and forth about the guide unit. A blade(130) is moved with a transferring unit. The blade moves the suspended material or sediment. An elevating unit(140) is installed in the transferring unit. The elevating unit supports the blade. A driving unit(150) performs a forward and backward reciprocating motion of an elevating unit.

Description

Float and Sediment Removal Device {APPARATUS FOR REMOVING FLOATING MATERIALS AND SEDIMENT}

The present invention can continuously remove the suspended solids or sediment that is suspended in sewage, sewage, waste water, and various other fluids to improve the water quality of treated water and the like, and stability and reliability in the operation of removing suspended solids and sediments. It relates to a float and sediment removal device for providing a.

In general, due to industrial development and abundant consumption, waste generated from industrial sites and homes causes serious environmental pollution, disturbing the natural ecology, and making it impossible to recover. Is also putting a lot of effort into preserving the environment.

Among these environmental pollutions, water pollution causes enormous damage to the survival and ecosystem of animals and plants and threatens human survival. In particular, industrial wastewater generated from industrial facilities, domestic wastewater discharged from homes, and agricultural and livestock wastewater caused by farming and livestock raising contaminate rivers and groundwater, and seriously threaten human health. Therefore, in order to solve this problem, much efforts have been made to treat and purify wastewater discharged from industrial facilities or homes.

Such waste water purification methods include chemical treatment by adding chemicals and physical treatment of waste water through gravel, sand, and charcoal, and the like. Much research is also being done on effective removal.

Referring to the accompanying drawings, a device for removing suspended solids in a conventional wastewater purification process is as follows.

1 is a perspective view showing a suspended solids removing apparatus according to the prior art, and as a "waste water purification apparatus using electrocoagulation" of the Patent Application No. 10-2006-0042419 filed with the Republic of Korea Patent Office, the upper side of the electrocoagulation reactor (1) The suspended matter removal means 40 is provided to discharge the suspended matter and the like suspended on the surface of the waste water to the outside through the float discharge unit (not shown), the drive shaft 41a and the first rotary shaft of the drive motor 41 42 is connected by the drive belt 41b, the first rotating shaft 42 is installed on both sides of the electrocoagulation reactor 1 and connected by the shaft 42a, and the first by the conveyor belt 44 And second rotation shafts 42 and 43 are connected, and when the conveyor belt 44 is rotated by receiving the driving force of the driving motor 41 by forming the blade 45 on the conveyor belt 44, the conveyor belt 44 is rotated. Float suspended on the surface of the waste water by the blade pieces 45 formed on the Move to discharge (not shown).

As described above, the float removal apparatus according to the related art is formed by directly forming the blade pieces for moving the floats on the conveyor belt not only causes sagging and vibration of the conveyor belt, but also increases noise, and supports both sides of the blade pieces by a driving motor. Simultaneously driving the conveyor belt to require a high-power drive motor to increase the cost required for the maintenance and operation of the facility, the tension of the conveyor belt had a problem that the distortion occurs.

This problem occurs not only in the case of removing the suspended matter in the purification process of sewage, sewage, wastewater, but also in the process of removing the suspended matter suspended in various fluids.

The present invention has been made to solve the above problems, it is possible to continuously remove the suspended solids on the surface of sewage, sewage, wastewater and other fluids to improve the quality of the treated water, and the stability of operation And reliability.

Float and sediment removing device according to the present invention, in the apparatus for removing the suspended solids or sediment deposited in the fluid, the guide is provided along the direction to move the float or sediment, the guide to be moved back and forth A transfer unit, a blade for moving a float or sediment by moving together with the transfer unit, and a blade installed in the transfer unit to support the blade, and a position for moving the float or sediment and moving away from the float or sediment when the blade moves forward and backward And a drive unit for reciprocating the lifting unit back and forth, and a lifting unit for switching the height to the position.

The present invention can continuously remove the suspended matter suspended in sewage, sewage, wastewater, and various other fluids or sediment precipitated in these fluids to improve the water quality of the treated water, etc. It has the effect of providing stability and reliability.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Figure 2 is a perspective view showing a suspended solids and sediment removing apparatus according to an embodiment of the present invention, Figure 3 is a plan view showing a suspended solids and sediment removing apparatus according to an embodiment of the present invention. As shown, the float and deposit removal apparatus 100 according to an embodiment of the present invention is a guide unit 110, the transfer unit 120 guided to the guide unit 110, the transfer unit 120 and Blade 130 for moving the float or sediment to move together, the elevating unit 140 for connecting the blade 130 to the transfer unit 120 and switching the height of the blade 130, and elevating unit 140 It may include a driving unit 150 for reciprocating back and forth).

Floating and sediment removing device 100 according to the present invention is installed near the surface of the water in the process of purification, such as sewage, sewage, wastewater, floating on the surface of the water, or the surface of the treated water after the purification process, or various other fluids The suspended solids, including substances and bubbles floating on the surface of the water can be moved to a desired location to be collected or removed, as well as to be deposited in various fluids such as sewage, sewage, wastewater, etc. May be moved to a location to be collected or removed.

The guide unit 110 is located on both sides of the path for moving the float or sediment, for example, on both sides of the path through which fluid such as sewage, sewage, wastewater, and treated water requiring removal of the float or sediment is moved. In the example, each is installed perpendicular to both sides of the path for moving the float or sediment, both ends may be configured to maintain the installation posture is connected to each other through the connecting portion 111, but not limited to, to move the float or sediment It may be formed in various forms to guide the transfer of the transfer unit 120 along the path.

The transfer unit 120 is guided so as to be movable back and forth to the guide unit 110. For example, a pair of frames 121 guided on both sides of the guide unit 110 and in the direction of movement between the frames 121 are provided. In addition to being coupled in a cross direction, the lifting unit 140 may include a feed shaft 122 is installed.

Frame 121 may be made of a number corresponding to the number of the guide portion 110 to be guided to the guide portion 110, respectively, by being supported by the guide portion 110 to move smoothly along the guide portion 110 When moving back and forth, it may have a roller 121a that rotates along the guide part 110.

The feed shaft 122 is coupled to intersect, for example, orthogonal to, the movement direction between the frames 121 to maintain the distance between the frames 121 and to support the blade 130 by the lifting unit 140. Can be.

The blade 130 moves with the transfer unit 120 to move the suspended matter or sediment, for example, may be made of a rectangular plate, as well as may have a variety of forms to smoothly move the float or sediment.

The elevating unit 140 is installed in the conveying unit 120 to support the blade 130 and linearly moves by the driving unit 150 to move the conveying unit 120 guided by the guide unit 110 to the blade 130. In addition to linear movement together with the blade 130 when moving forward and backward so as to move the height and position to move the suspended matter or sediment from the float or sediment. That is, the lifting unit 140 is connected to the blade 130 to the transfer unit 120, the blade 130 is lowered to the position for moving the float or sediment when moving forward, when the blade 130 is suspended in the reverse Or ascend from a position for moving the precipitate to a position spaced apart.

The lifting unit 140 is, for example, rotatably installed back and forth on the feed shaft 122, the blade 130 is coupled to the lower rotating member 141, the hinge is coupled to the upper portion of the rotating member 141 drive unit It may include a transfer arm 142 for elevating the blade 130 by rotating the rotating member 141 back and forth from the feed shaft 122 when the back and forth by the 150.

The rotating member 141 is coupled to the blade 130 and the transfer arm 142 to the lower and upper spaced apart from the center of rotation, respectively, by rotating back and forth from the transfer shaft 122 by the forward and backward of the transfer arm 142 blade The height of the blade 130 can be switched up and down so that the 130 can move the suspended matter or sediment only when moving forward. For this purpose, the transfer arm 142 rotates back and forth by preventing the height change from occurring. By limiting the range of the rotation angle during time, the lifting height of the blade 130 can be accurately converted.

The rotating member 141 is an example of an arm connecting portion 141b formed upwardly from a rotating coupling portion 141a for rotatably coupled to the feed shaft 122 in the present embodiment, and a blade connecting portion 141c formed downward. The arm connecting portion 141b and the blade connecting portion 141c may form an angle of 60 to 120 degrees, and the blade 130 is hinged to the blade connecting portion 141c to smoothly lift and lower the blade 130. It may be hinged to the shaft 131.

Float and sediment removal device 100 according to an embodiment of the present invention may be provided with a plurality of blades 130 side by side in order to enlarge the amount of float or sediment movement once, for example, transfer unit 120 In addition, a plurality of feed shafts 122 may be installed side by side between the frames 121, and the blades 130 may be connected to each of the feed shafts 122 by the rotating member 141. At this time, the elevating unit 140 has a plurality of blades 130 so that the rotating member 141 installed for each of the plurality of feed shaft 122 is connected to each other by the transfer arm 142 transfer arm ( By the front and rear of the 142 to allow the rotating member 141 to rotate back and forth at the same time.

The lifting unit 140 may be coupled to the rotating member 141 is directly hinged to the transfer arm 142, each of the blades 130 is supported by a plurality of rotating members 141 to stably support the blade 130 The connecting shaft 143 connecting the upper portion of the rotating member 141 coupled to the feed shaft 122 may be hinged to the feed arm 142. Therefore, when rotating the forward and backward of the transfer arm 142, it is possible to simultaneously rotate the plurality of rotating members 141 provided for each of the feed shaft 122.

The elevating unit 140 has a resilient force so that the blade 130 has a restoring force to the front in order to prevent the blade 130 from being flipped backward by resistance due to a float or sediment or fluid by being hinged to the rotating member 141. It may further include an elastic member 144 to provide.

The elastic member 144 may be made of a coil spring as well as a plate spring, as in this embodiment, one end is supported by the transfer unit 120, for example, the feed shaft 122, the other end is supported by the blade 130 By doing so, the blade 130 may maintain a posture close to the vertical by elastic force, and the blade 130 may be installed in various ways to have a restoring force forward.

The elevating unit 140 is connected to the guide unit 110 to restrict and adjust the lowering position of the transfer arm 142, and a connection member 145 positioned below the transfer arm 142 and the connection member 145. Screw vertically coupled to) may further include a height adjustment screw 146 for supporting the lower portion of the transfer arm (142). Therefore, by adjusting the support height of the transfer arm 142 by the height adjustment screw 146, it is possible to adjust the falling height of the blade 130 connected to the transfer arm 142 through the rotating member 141.

In order to reciprocate the elevating unit 140 back and forth, the driving unit 150 is, for example, a belt member 152 which is installed back and forth to receive the rotational force of the driving motor 151 and the driving motor 151 to perform endless orbital movement. And a support unit 153 fixed to one side of the belt member 152 and supporting the transfer arm 142.

The driving unit 150 is, for example, made of a single unit as in the present embodiment, so that the rotational force of the driving motor 151 can be transmitted to the lifting unit 140 through the single belt member 152, thereby dispersing the driving force or between the two sides. To prevent the distortion of the blade 130 due to the difference in driving force, and unlike the present embodiment may be made of a plurality, the blade 130 may be installed on the water surface when removing the float, the blade located in the water ( If the sediment is to be collected or removed by moving the sediment by 130), a component that is not in contact with the fluid, such as the driving motor 151, is to be installed on the surface of the water or to be waterproof by using a waterproof chamber or a sealing member. It can also be installed in.

The drive motor 151 may be installed to be fixed to the front side, the rear side, or the lateral direction of the transfer unit 120, and fixed to the mounting portion 112 extending from the connecting portion 111 at the rear side of the transfer unit 120 as in this embodiment. It may be, and may transmit the rotational force through the reducer (151a).

The belt member 152 is installed on the upper side of the transfer unit 120, for example, a pair of first sprockets installed to be rotatable back and forth on the fixing plate 155 that is fixed to the guide unit 110 using the fixing rod 154. It may be made of a chain coupled to both sides (152a, 152b), the first sprocket (152a, 152b) of any one of the first sprocket 152a and the rotation shaft (not shown) of the reducer 151a, respectively It receives the rotational force of the drive motor 151 through the chain (151d) connected to the two sprockets (151b, 151c) to make an endless track motion. On the other hand, the belt member 152 may be a general belt or a timing belt that rotates by the rotation of the pulley or the like as well as the chain form may be used.

The support unit 153 is fixed to the belt member 152 installed back and forth to reciprocate by the endless orbital movement of the belt member 152, thereby causing the transfer arm 142 to reciprocate back and forth. As shown in the present embodiment, as in the present embodiment, the belt member 152 installed vertically, that is, fixed to the belt member 152 installed so that the trajectory is vertical, and has a protrusion 153b protruding inward of the trajectory is provided. It may include a fixing piece 153a, a hinge piece 153c hinged to the protrusion 153b, and a link member 153d hinged at both ends to the hinge piece 153c and the transfer arm 142, respectively. .

The hinge piece 153c is hinged to one side of the fixing piece 153a and the other side is hinged to the link member 153d so that the hinge piece 153c moves together with the fixing piece 153a according to the infinitely orbital motion of the belt member 152. The side to which the link member 153d is connected is always located at the lower side to enable stable reciprocating motion of the transfer arm 142. As shown in FIG. 5, the hinge coupling position h with the fixing piece 153a is shown. Can be positioned at the center of the vertical gap (H) of the belt member 152, thereby allowing the height of the link member 153d to repeat the forward and backward to be constant so that the same path as the transfer arm 142 possible So move back and forth.

The link member 153d may be formed in plural, for example, two so as to stably support the transfer arm 142 to the hinge piece 153c, and the position of the fixing piece 153a is infinitely orbital movement of the belt member 152. When it is switched up and down by the transfer arm 142 and the hinge piece (153c) may be made in a multi-stage in the longitudinal direction for a smooth connection, each stage may be hinged to each other.

Referring to the case of removing the floating suspended solids on the surface of the operation of the floating and sediment removing device according to the present invention having such a configuration as follows.

When the driving motor 151 is operated to remove the floating matters B floating on the surface of the water, the rotational force of the driving motor 151 is transmitted to the belt member 152 through the reducer 151a and the chain 151d, and thus the belt member. 152 is in orbital motion.

When the belt member 152 is in an endless orbital motion, the support unit 153 fixed to the belt member 152 repeats forward and backward so that the transfer arm 142 also repeats forward and backward. 5, 6, the transfer arm 142 moves forward while the rotary member 141 is rotated forward as shown in FIGS. 5 and 6. Advance with this, the blade 130 is located on the surface of the water while moving forward with the transfer unit 120 guided by the guide unit 110 in the state positioned at the height for moving the float (B) located on the water surface The float (B) is moved to the collection space 200 to be removed.

In addition, as shown in Figures 7 and 8, when the support unit 153 is reversed by the belt member 152, the transfer arm 142 is also reversed together while rotating the rotating member 141 to the rear blade Raises 130 so as to be spaced apart from the surface of the water, which causes the float B to move in one direction, for example, by the forward and backward movement of the transfer arm 142 repeated without moving away from the collection space 200. Only move to the collection space 200.

On the other hand, even if the fixing piece 153a of the support unit 153 is located above and below the belt member 152, the hinge engagement position h with the fixing piece 153a is spaced vertically between the belt members 152. Since the height of the link member 153d is constant by being positioned at the center of the H, the height change of the transfer arm 142 is limited, thereby limiting the rotation angle of the rotating member 141 when the transfer arm 142 is moved forward and backward. To this end, the height of the braid 130 is to be made in a certain range possible. On the other hand, the insignificant height change generated by the transfer arm 142 by rotating the rotating member 141 is allowed to be allowed by the inclination change of the link member 153a.

As described above, the suspended matter and sediment removal device according to the present invention may not only remove the suspended matter suspended in the water surface, but may also be installed in the water to remove the precipitate precipitated under the water surface.

According to the embodiments of the present invention as described above, the present invention can continuously remove the suspended matter suspended in sewage, sewage, wastewater, and various other fluids or sediment precipitated in these fluids to improve the water quality of the treated water and the like. To provide stability and reliability for the removal of suspended matter and sediment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. And will be included in the described technical idea.

1 is a perspective view showing a float removal apparatus according to the prior art,

2 is a perspective view showing a suspended solids and a sediment removing device according to an embodiment of the present invention,

3 is a plan view showing a suspended solids and a sediment removing device according to an embodiment of the present invention,

Figure 4 is a perspective view showing a support unit of the float and sediment removal device according to an embodiment of the present invention,

5 to 8 is a side view for explaining the operation of the suspended solids and sediment removal device according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: guide portion 111: connection portion

112: mounting portion 120: transfer unit

121: frame 121a: roller

122: feed shaft 130: blade

131: hinge axis 140: lifting unit

141: rotary member 141a: rotary coupling portion

141b: arm connection 141c: blade connection

142: feed arm 143: connecting shaft

144: elastic member 145: connecting member

146: height adjustment screw 150: drive unit

151: drive motor 151a: reducer

151b, 151c: Second Sprocket 151d: Chain

152: belt member 152a, 152b: first sprocket

153: support unit 153a: fixed piece

153b: protrusion 153c: hinge piece

153d: link member 154: holder

155: fixed plate 200: collecting space

Claims (11)

A device for removing suspended solids or precipitates suspended in a fluid, A guide part installed along a direction for moving the float or precipitate, A transfer unit guided to move back and forth in the guide part; A blade for moving the float or precipitate by moving with the transfer unit; An elevating unit installed in the transfer unit to support the blade, and moving the blade to a position for moving the float or sediment and a position separated from the float or sediment when moving forward and backward; Driving unit for reciprocating the lifting unit back and forth Float and precipitate removal device comprising a. The method of claim 1, The transfer unit, A pair of frames on which both sides are guided to the guide part, A feed shaft coupled between the frames in a direction crossing the moving direction and in which the lifting unit is installed; Float and sediment removal device comprising a. The method of claim 2, The lifting unit, Rotating member is rotatably installed back and forth on the feed shaft, the blade is coupled to the lower portion, A transfer arm hinged to an upper portion of the rotating member, and lifting and lowering the blade by rotating the rotating member back and forth during the forward and backward movement by the driving unit. Float and sediment removal device comprising a. The method of claim 3, wherein The blade, Floating and deposit removal device is hinged to the rotating member. The method of claim 4, wherein The lifting unit, Elastic member to provide an elastic force so that the blade has a restoring force to the front Float and sediment removal device further comprising. The method of claim 3, wherein The lifting unit, A connection member connected to the guide part and positioned below the transfer arm; Height adjusting screw screwed vertically to the connecting member to support the lower portion of the transfer arm Float and sediment removal device further comprising. The method of claim 3, wherein The transfer unit, The feed shaft is installed in a plurality in parallel between the frame, the blade is connected by the rotating member for each of the feed shaft, The lifting unit, Floating matter and sediment removal device that each of the rotating member is connected to each other by the transfer arm. The method according to claim 3 or 7, The lifting unit, A connecting shaft connecting the upper portion of the rotating member coupled to the transfer shaft a plurality, hinged to the transfer arm Float and sediment removal device further comprising. The method according to claim 3 or 7, The driving unit includes: Drive motor, A belt member installed back and forth to receive the rotational force of the drive motor and to perform endless track motion; A support unit fixed to one side of the belt member to support the transfer arm Float and sediment removal device comprising a. The method of claim 9, The support unit, A fixing piece fixed to the belt member installed to have a trajectory perpendicular thereto, the fixing piece having a protrusion protruding inwardly of the trajectory; A hinge piece hinged to the protrusion, A link member hinged to both ends of the hinge piece and the transfer arm. Float and precipitate removal device comprising a. The method of claim 10, The hinge piece, Floating matter and sediment removal device wherein the hinge engaging position with the fixing piece is located in the center of the vertical gap of the belt member.

Images