KR101962338B1 - A Rotary Dust Separator - Google Patents

Abstract

The present invention relates to a rotary vibration damper and, more specifically, to a rotary vibration damper lifted by rotation of a wire drum. The rotary vibration damper comprises: lifting frames (13a, 13b) guiding movement of a main screen (11); moving wires (14a, 14b) moved along the lifting frames (13a, 13b); a driving means (15) moving the movement wires (14a, 14b); and a pair of guide modules (20a, 20b) guiding the moving wires (14a, 14b) to be moved along the lifting frames (13a, 13b). The main screen (11) is lifted and rotated after performing lifting movement by the guide modules (20a, 20b).

Description

A Rotary Dust Separator < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary damper, and more particularly, to a rotary damper having a structure that is raised by rotation of a wire drum.

A rotary damper may be installed and operated in the inflow channel of a stormwater treatment facility, such as a rainwater pumping station or a drainage pumping station, in order to remove various contaminants that can be introduced together with water by rake. Prior art Patent No. 10-1031814 related to a vibration damper having such a use discloses a vibration damper for recognizing a rotor for a pumping and discharging plant and a drainage field. Patent Registration No. 10-1254542 discloses a rotary silencer that can minimize the vibration and swing of the screen and the cover frame by rotating the screen collecting the impurities of the water channel upward and rotating upward on the pivot axis of the upper part . Also, Patent Registration No. 10-1698872 discloses a damper using a detachable water channel screen. In the case of such a rotary damper, since a large inflow is applied to the screen, it is necessary to be made into a structure capable of opening and closing effectively. However, the prior art does not disclose such a structure.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Registration No. 10-1031814 (Daeyu Corporation, April 29, 2011 announcement) Chain rotating dike for drainage & Prior Art 2: Patent Registration No. 10-1254542 (World Innotech Co., Ltd., Announcement on Apr. 19, 2013) Watertight retractable rotary damper Prior Art 3: Patent Registration No. 10-1698872 (Thunder Co., Ltd., Jan. 24, 2013 announcement) A demagnetizer using a detachable water channel screen

An object of the present invention is to provide a rotary damper in which a screen is opened and closed while being raised or rotated by operation of a wire drum.

According to a preferred embodiment of the present invention, the rotary damper comprises a rising frame for inducing movement of the main screen; A moving wire moved along the rising frame; Driving means for moving the moving wire; And an induction module for guiding the moving wire to move along the lifting frame, wherein the main screen is rotated upward with the lifting motion by the pair of guiding modules.

According to another preferred embodiment of the present invention, the guide module further comprises an guide bracket for guiding movement of the guide roller and the guide roller, and a guide path is formed in the guide bracket.

According to another preferred embodiment of the present invention, the guide module further comprises a guide roller moving along the moving wire and a balance guide roller preventing vibration due to the movement of the guide roller.

According to another preferred embodiment of the present invention, the moving wire is moved in accordance with the rotation of the wire drum.

The rotary damper according to the present invention stably guides the guide roller by the bracket so that the opening and closing of the screen can be stably performed. In addition, the operation is stabilized by appropriately adjusting the rising and the rotating motion. In addition, the guide rollers prevent shaking in the rotation process of the damper.

1 shows an embodiment of a vibration damper according to the present invention.
2 shows an embodiment of the arrangement structure of guide rollers for operation of the vibration damper according to the present invention.
3A and 3B illustrate an operation of the vibration damper according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 shows an embodiment of a vibration damper according to the present invention.

1, the rotary damper includes elevating frames 13a and 13b for guiding movement of the main screen 11; Moving wires 14a and 14b moved along the lift frames 13a and 13b; Driving means (15) for moving the moving wires (14a, 14b); And guiding modules 20a and 20b for guiding the moving wires 14a and 14b to move along the lifting frames 13a and 13b while the pair of guiding modules 20a and 20b guide the main screen 11 ) Is turned up with a rise after it has been lifted.

The rotary damper can be installed at various entrances to the waterway, such as a pumping station, a pumping station, or an agricultural channel, and can include various means for operation. For example, a means such as a main screen 11, a potential screen 12, a rake 16 or similar configuration or apron. Although the description below does not describe a configuration that does not directly relate to features of the present invention, including the main screen 11, it is for brevity of description of the features of the present invention and for a clear understanding of the present invention. Such a structure can be combined with the features of the present invention in various forms to form a rotary damper, and the present invention is not limited thereto.

The main screen 11 is connected to the main frame MF and disposed in the water channel W so that various types of contaminants flowing along the water channel W can be prevented from flowing and collected in front of the main screen 11. [ According to the structure of the vibration damper, the electric potential screen 12 can be installed below the main screen 11 and the accumulation of relatively small contaminants on the lower side of the main screen 11 by the electric potential screen 12 can be prevented . The dislocation screen 12 may be installed as needed and may be coupled to the main screen 11 such that the upper portion of the dislocation screen 12 is rotatable with respect to the main screen 11 by a predetermined angle. The main screen 11 can be moved upward to open the water channel W and the main frame MF for fixing the main screen 11 can be moved up and down along the rising frames 13a and 13b . The lift frames 13a and 13b may be a pair of vertical frame structures arranged to face each other and means for inducing movement of the main frame MF such as the guide rails may be arranged. The lift frames 13a and 13b can be made in various structures that can lead to movement of the main frame MF fixing the main screen 11 and are not limited to the illustrated embodiments.

Referring to the side view shown on the right side of FIG. 1, the main frame MF may extend upwardly in an inclined shape and may extend in a horizontal direction at a large inclination angle. A main screen 11 and a dislocation screen 12 to which an upper portion is coupled at a lower portion of the main screen 11 can be disposed below the main frame MF. The main screen 11 may be arranged to be located in the water channel and the rake 16 may be moved along the main frame MF, for example. The rake 16 can be removed by a chain formed on the main frame MF or similar elevating means to remove the contaminants accumulated in front of the main screen 11 or the electric potential screen 12. The elevating frames 13a and 13 may be formed in a vertical frame structure while being installed in a structure disposed above the water channel W. [ A portion of the main frame MF which is inclined so that the inclination angle is changed can be joined to the rising frames 13a and 13b. Thus, the deformation portion CP in which the inclination angle is changed can be coupled to the rising frames 13a and 13b so as to be movable up and down. The main frame 11 can be moved up and down while the deformation portion CP is moved up and down along the rising frames 13a and 13b. The deformed portion CP can be moved up and down by the moving wires 14a and 14b. One end of the moving wires 14a and 14b may be coupled to the main frame MF or the deformation portion CP and may extend upwardly along the lifting frames 13a and 13b. The moving wires 14a and 14b can have a structure in which the extension length can be adjusted by the wire drums 153a and 153b installed in the upper portions of the rising frames 13a and 13b. The wire drums 153a and 153b can be installed on the upper portions of each of the pair of rising frames 13a and 13b and the rotation of the wire drums 153a and 153b can be controlled by a driving means 15 such as a motor . The driving means 15 may be installed at a central portion of the horizontal member 152 connecting the upper portions of the rising frames 13a and 13b in the horizontal direction and the driving means 15 may be, But not limited to, a motor. The wire drums 153a and 153b may be disposed on both sides of one driving means 15 and each of the wire drums 153a and 153b may be connected to the driving means 15 by an axis or a power transmitting means. Couplers 151a and 151b may be disposed on both sides of the driving means 15 and rotational shafts or similar power transmission means may be connected to the couplers 151a and 151b. The tension detecting means can be selectively arranged on the couplers 151a and 151b or on the respective wire drums 153a and 153b and the tension of the moving wires 14a and 14b different from each other can be detected by the tension detecting means. The detected state of the horizontal state or the rising frames 13a, 13b of the main screen 11 can be detected by the detected information. Also, if an excessive tension is detected on any one of the moving wires 14a and 14b, the operation of the driving means 15 can be stopped. The driving means 15 can be connected to the respective wire drums 153a and 153b in various structures and is not limited to the illustrated embodiment.

The main frames MF provided with the main screen 11 can be raised for opening the water doors and the change parts CP coupled to the rising frames 13a and 13b are moved up and down along the rising frames 13a and 13b The main screen 11 can be moved up and down. The induction modules 20a and 20b for guiding the movement of the main frame MF in the respective rising frames 13a and 13b may be installed in the changed portion CP. The main frame MF may be guided by the induction module 20a so as to be raised or lowered along the rising frames 13a and 13b. Then, the changed portion CP can be rotated while raising the main frame MF after the predetermined distance is raised. In order to induce or assist such up-and-down motions or rotational motions, adjustment means 17, such as a rotary shaft, may be provided at the end of the main frame MF, Adjusting means 18 may be provided. The adjusting means 17 and the driving adjusting means 18 may be provided at an end portion of the main frame MF and have a function of compensating for deformation due to the vertical movement or rotation of the main frame MF. For example, the adjusting means 17 may comprise actuating means such as a rotating shaft, gear or bearing. And a power transmission means according to the operation of the motor or the motor. The main frame MF can be rotated about the changed portion CP so that the water gate WD can be opened or closed. The adjustment means 17 or the drive adjustment means 18 may be provided in a suitable fixed frame F and the adjustment means 17 or the drive adjustment means 18 may be provided for example by means . ≪ / RTI > The adjusting means 17 or the driving adjusting means 18 may comprise various operating parts or means and are not limited to the embodiments shown.

2 shows an embodiment of the arrangement structure of guide rollers for operation of the vibration damper according to the present invention.

2, the induction modules 20a and 20b further include induction brackets 22a and 22b for guiding the movement of the guide rollers 21a and 21b and the guide rollers 21a and 21b, , And 22b may be formed with inclined guide paths 221. The pair of lifting frames 13a and 13b can be arranged to face each other and both edges of the main frame MF can be coupled to the lifting frames 13a and 13b by the guiding module 20a. Guide rollers 21a and 21b can be disposed on both sides of the main frame MF and a roller shaft for fixing the guide rollers 21a and 21b to be rotatable can be moved up and down by, , 23b. The up and down moving means 23a and 23b can be moved up and down the elevating frames 13a and 13b along the guide rails 25 by the moving wires 14a and 14b. The guide rollers 21a and 21b can be moved upward together with the movement of the up and down moving means 23a and 23b and the main frame MF can be moved upward together therewith. The guide brackets 22a and 22b can be installed on the rising frames 13a and 13b and the guide rollers 21a and 21b can be moved upward while being in contact with the guide brackets 22a and 22b have. The guide rails 221a and 221b are formed on the guide brackets 22a and 22b and the guide rails 21a and 21b are moved upward along the inclined guide path 221, As shown in FIG. The slope guide path 221 may be formed in such a shape that the guide rollers 21a and 21b extend in the vertical direction by a predetermined length and then are moved upward and forward of the rising frames 13a and 13b, MF) can be rotated about the change portion described above. The main frame MF can be raised again after the upper ends of the guide brackets 22a and 22b stop moving upward in the main frame MF or after passing through the guide brackets 22a and 22b. Referring to the upper and right portions of FIG. 2, rotating guides 211a and 211b may be formed on the guide rollers 21a and 12b, and the rotating derivatives 211a and 211b may be formed in parallel with the rising frames 13a and 13b And the center thereof can be coupled to the guide rollers 21a and 21b. And pulleys or similar rotators 212 and 213 may be disposed on both ends of the rotating derivatives 211a and 211b so as to be symmetrical with respect to the guide rollers 21a and 21b. The rotating bodies 212 and 213 may be connected to the adjusting means described above by a belt or a wire and may be connected to the rotating main frames 21a and 21b during the movement of the guide rollers 21a and 21b along the guide brackets 22a and 22b MF) backward or forward so that the rotational motion is stable. The stretch coating layer 212 may be formed on the circumferential surface of the guide rollers 21a and 21b and the balance guide rollers 24a and 24b may be provided on the guide brackets 22a and 22b. The balance guide rollers 24a and 24b may have a function of stably inducing the guide rollers 21a and 21b in the process of moving along the raising frames 13a and 13b or the induction brackets 22a and 22b, So that the guide rollers 21a and 21b are moved along the predetermined path of the rising frames 13a and 13b or the guide brackets 22a and 22b while preventing the noise from being generated by the guide rollers 21a and 21b. A guide path for guiding the balance guide rollers 24a and 24b can be formed at the position of the guide rollers 21a and 21b of the guide roller 21. The movement of the guide rollers 21a and 21b along the rising frames 13a and 13b can be performed in various ways, .

3A and 3B illustrate an operation of the vibration damper according to the present invention.

Referring to FIGS. 3A and 3B, the main screen 11 and the dislocation screen 12 can form a water gate WD installed at an inlet of a water channel, and can prevent the inflow of the contaminants into the water channel. The driving means 15 can be operated for opening the water gate WD so that the vertical movement means 23a is guided by the guide rail 25 while the wire drum is rotated, Lt; / RTI > The main frame MF can be moved upward with the movement of the up-and-down moving means 23a, and the guide roller 21a can be moved upward together therewith. The balance guide roller 24a disposed adjacent to the induction bracket 22a during the movement process stably guides the up-and-down moving means 23a or the guide roller 21a along the predetermined path, And the like. When the main frame (MF) is moved upward, the water gate (WD) is opened. The guide roller 21a can be brought into contact with the guide bracket 22a while rising upward and then the guide roller 21a can be moved along the guide path formed in the guide bracket 22a. Accordingly, the guide roller 21a can be rotated and rotated together with the guide roller 21a, and the main frame MF can be rotated about the changed portion coupled with the lift frame 13a. Thus, the water gate WD is effectively opened while reducing the vertical movement distance. In this ascending and rotating process, the force or tension acting on the main frame MF by the adjusting means 17 and the driving adjusting means 18 can be balanced. The water gate WD may then be moved in the opposite direction to close the channel.

The rotary damper can be operated in various ways and is not limited to the embodiments shown.

The rotary damper according to the present invention stably guides the guide roller by the bracket so that the opening and closing of the screen can be stably performed. In addition, the operation is stabilized by appropriately adjusting the rising and the rotating motion. In addition, the guide rollers prevent shaking in the rotation process of the damper.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

11: Main screen 12: Dislocation screen
13a, 13b: rising frame 14a, 14b: moving wire
15: driving means 16:
17: adjusting means 18: driving adjusting means
20a, 20b: guide modules 21a, 21b: guide rollers
22a, 22b: guide brackets 23a, 23b: upper and lower moving means
24a, 24b: balance guide roller 25: guide rail
151a, 151b: coupler 152: horizontal member
153a and 153b: wire drums 211a and 211b:
212, 213: rotating body 221: inclined induction furnace
CP: Deformation site F: Fixed frame
MF: Main frame W: Channel
WD:

Claims (4)

Elevating frames (13a, 13b) for guiding movement of the main screen (11);
Moving wires 14a and 14b moved along the lift frames 13a and 13b;
Driving means (15) for moving the moving wires (14a, 14b); And
And guide modules (20a, 20b) for guiding the moving wires (14a, 14b) to move along the rising frames (13a, 13b)
After the main screen 11 is moved upward by the pair of induction modules 20a and 20b, the main screen 11 is rotated together with the upward movement,
The induction modules 20a and 20b engage both edges of the main frame MF with a pair of rising frames 13a and 13b arranged to face each other,
The guide modules 20a and 20b are vertically moving means 23a and 23b which are moved up and down the elevating frames 13a and 13b along the guide rails 25 by the moving wires 14a and 14b; The guide brackets 22a and 22b provided on the elevating frames 13a and 13b to guide the movement of the guide rollers 21a and 21b and the guide rollers 21a and 21b moved together with the movement of the vertically moving means 23a and 23b, ; And balance guide rollers 24a and 24b for preventing vibration due to the movement of the guide rollers 21a and 21b so that the main frame MF is rotated during the movement of the guide rollers 21a and 21b And the inclined guide path (221) is formed in the guide brackets (22a, 22b). delete delete The rotary damper of claim 1, wherein the moving wires (14a, 14b) are moved in accordance with rotation of the wire drums (153a, 153b).

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