KR20090025316A - Sludge removing apparatus including double arms - Google Patents

Abstract

A double arm hydraulic dust remover is provided that the pump and the valve installed at drainage can be protected since the developing that the foreign material is flowed in into the pump is prevented. A double arm hydraulic dust remover comprises a screen installed at waterway, a multi-stage beam(18) which operates so that the rake(20) gets on and off and it collect the foreign material water, a rail frame(10) installed at the structure positioned in the screen top side, a running gear which parallelly moves in the rail frame, an exhausting part ejecting the adulteration collected by screen. The multi-stage beam includes a pair of elevation support bar(101) guiding ascent and descent movement, a post rod(102) which into one body runs vertical ascend and descend of the multi-stage beam table, a beam link frame(103).

Description

Sludge removing apparatus including double arms

The present invention relates to a vibration suppressor that can more quickly deal with the contaminants introduced into the rainwater due to rain or rain in the drainage pumping station or rainwater pumping station, and prevents the inflow of the contaminants into the pump pump and valve installed for drainage It can not only protect the equipment such as, but also handle the incoming logs and other bulky and heavy impurities due to natural disasters such as typhoon or natural disasters. It was to make it smooth.

In general, when rainwater is introduced into the drainage pumping station or rainwater pumping station, rainwater, such as a log, is released. It is equipped with a vibration damper equipped with a rake so that it is possible to quickly remove the debris, and in order to quickly remove the debris when the inflow of the debris, it is possible to move to the designated channel by the instruction of the control device installed on the rail of the rail frame and It is composed of the guide wheel of the hydraulic unit, and special urethane coating is applied to the wheels to prevent noise, tremor and damage of the lower metal when driving, and a hydraulic cylinder that moves the expansion beam by a certain distance is connected to the expansion beam. The vibration damper is operated under the direction of the control unit, Eliminates debris.

However, the main purpose of the conventional hydraulic damper is to protect equipment such as pumps and valves by preventing the inflow of pumps by treating the contaminants flowing into rainwater from rainwater pumping stations or rainwater pumping stations more quickly. Due to the natural phenomena of natural disasters such as rain, typhoons, and natural disasters, it is not easy to deal with incoming logs and other bulky and heavy impurities, as well as a large amount of water at once. There is a limit to the rapid removal of the impurities contained in this inflow process.

In other words, a pump station with a large number of channels or screens has a long working time, and a single damper may cause a problem in that a separate damper needs to be installed to increase the efficiency.

In addition, since the rake does not work when the rake descends on the scum accumulated on the screen, it is said that the crushing of floating floats or the rake descends to its own weight when descending. When the rake of the multi-stage beams rises, the structure of the rake often flows down to the outside when it is raised.In most cases, it is pulled up depending on the screen, so the consumables (Teflon, M / C nylon) leads to frequent replacement.

In particular, the wheels are made of steel or stainless steel, so the wheels are abrasion-resistant and corrosion-resistant, while the noise, vibration and surface treatment of the lower steel are peeled off during driving. As a problem occurs, there is an urgent need for a way to prevent such problems.

The screen 22 is installed in the water channel, and the multi-stage beam stage 18 operates to collect the debris by raising and lowering the rake 20, and moving in parallel in the rail frame 10 installed in the structure located above the screen 22. In the hydraulic vibration damper (1) having a traveling device (11) and lifting the contaminants collected from the screen (22) and discharging it to the discharge part (21),

The multi-stage beam stage 18 of the vibration damper 1 is composed of left and right double arms and interconnects with the beam stage connecting frame 103, and each pair of beam stage housings 17 enclosing the multi stage beam stage 18 is connected to the housing 100. And a pair of lifting supports for vertically raising and lowering the inside of the guide bar 104 as the beam lifting device 16 is vertically fixed to the rear of the beam-to-housing 17 horizontally and vertically. A bar 101;

A pair of left and right multi-stage beam stages 18 connected to the beam lifting device 16 at the upper end of the lifting support bar 101 and vertically connected to the chain or wire wound around the beam lifting device pulley 15 which are coupled to the left and right. )Wow;

A post rod (102) assembled to the rod shaft of the beam lifting chair (16) and coupled to both ends of a pair of lifting support bars (101) to drive the vertical lifting of the multi-stage beam stage (18) integrally;

A beam-base lifting cylinder 16 is assembled at the center of the rear of the beam-to-housing 17 so that the lifting support bar 101 is provided parallel to both sides of the beam-lifting cylinder 16, and the rod shaft upper end and the lifting support bar are provided. When the post rod 102 is horizontally maintained at the upper end of the 101, the lifting support bar 101 is guided to both sides when the beam raising / lowering cylinder 16 is vertically lowered. It is characterized in that the rake 20 provided in 18 to operate to lift the contaminants caught on the screen 22 to discharge through the discharge portion (21).

The present invention has an object to provide a vibration damper (1) that can more quickly deal with the contaminants introduced to rainwater due to rain or rain in the drainage pump station or rainwater pumping station, to prevent the phenomenon of entering the pump It can protect equipment such as pumps and valves installed for drainage, as well as logs and other large volumes and weights that are introduced due to natural disasters such as typhoons or natural disasters. It is also possible to process the contaminants to facilitate the flow of water.

In addition, since the rake 20 having a size that meets the standard of the multi-stage beam stage 18 in pairs of left and right is designed to fit the width of the screen 22, work time can be reduced by scraping up one channel at a time. It is not only able to process a large number of channels quickly and effectively in a short time, but also to increase the efficiency of removal of contaminants, thereby increasing economic efficiency, resulting in inexpensive maintenance costs and consequently reducing the mechanical load due to shorter operating time. You can expect the effect.

In the present invention, as described above, the existing single multi-stage beam stage 18 is installed, and a relatively small size of the rake 20 is installed at the lower end of the multi-stage beam stage 18, so that a large amount of the hook 22 of the channel can be caught. In order to solve the problem that the impurities cannot be removed at once, the multi-stage beam stage 18 is composed of a double, so that the rake 20 is also installed at the tip of the pair of multi-stage beam stage 18 in a large size to remove a large amount of contaminants at one operation. At the same time, it is possible to remove at the same time, in particular, the beam lifting device 14 for elevating the double arm is also connected to each using the post rod 102 as a single beam lifting device 16, lifting support for safe lifting When the beam lifter cylinder 16 is operated by the bar 101 and the guide bar 104, it is possible to remove a large number of contaminants at once with the correct operation.

Hereinafter will be described in detail the operation and function according to the above configuration of the present invention.

First, in operating the present invention, a tilting cylinder 13 capable of angular movement at an angle by a tilting hinge 12 is installed in the upper front of the traveling device 11 sliding left and right in the rail frame 10 installed in the structure. When the tilting cylinder 13 is connected to the beam stand housing 17 and the tilting cylinder 13 connected to the tilting hinge 12 to operate the beam stand including the multi-stage beam stand 18 coupled to the inside of the beam stand housing 17. The housing 17 angularly moves around the tilting hinge 12.

Between the multi-stage beam stage 18 and the traveling device 11, a beam stage elevating pulley 15 for operating the multi-stage beam stage 18 is mounted to connect with the beam stage elevating cylinder 16 by a chain or wire, and to the opposite side. The rake coupled to the front end of the multi-stage beam stage 18 by releasing the multi-stage beam stage 18 by stepping the beam stage elevating device 14 step by step as known in the art by connecting the lower end of the innermost beam stage of the multi-stage beam stage 18 By operating the 20, the function of the vibration suppressor 1 which is lifted in a state of being grounded to the screen 22 to pull up the contaminants caught on the screen 22 to the upper part and discharges it through the discharge part 21 is common.

The present invention excludes the removal of contaminants by installing the existing single multi-stage beam stage 18 as described above, but comprises the multi-stage beam stage 18 in double, as well as the means for connecting the multi-stage beam stage 18 and the like. In addition, the multi-stage beam stage 18 is not operated individually, but a large amount of debris can be removed at a time by using a single beam stage lifting cylinder 16. It is a feature that makes it possible.

The present invention is to install a multi-stage beam stage 18, which is installed in the front side of the traveling device 11 in double, the multi-stage beam stage 18 is configured on both sides of the dual stage beam stage 18, respectively, the outside of the beam stage housing Each of the 17 is wrapped as before, and the left and right pairs of beam-to-housing 17 are integrally connected to each other by the housing connecting rod 100 so that the multi-stage beams 18 within the beam-to-housing 17 can be individually operated. Configure.

Of course, the multi-stage beam stage 18 is operated individually because it is interconnected by the beam-to-frame connecting frame 103 in the following section is actually possible to operate at the same time.

That is, the multi-stage beam stage 18 is connected to the upper end of each of the multi-stage beam stage 18 by the beam frame connecting frame 103, so that the multi-stage beam table 18 is connected by the beam frame connecting frame 103, so that the multi-stage inside the beam frame housing 17 Beam stage 18 can be operated at the same time respectively.

In such a configuration, a beam large lifting cylinder 16 of the beam large lifting device 14 is installed at the center between the traveling device 11 and the beam-to-housing 17 so that the rod of the beam large lifting cylinder 16 is upper part. When the beam rod lifting cylinder 16 is operated in connection with the post rod 102 of the upper post rod 102 is raised and raised at the same time.

Beam post lifting pulleys 15 are respectively connected to both ends of the post rods 102, and a pair of lifting support bars 101 for operating the beam lifting device 14 accurately without moving therein are guide bars. The inside of the 104 is constantly raised and lowered.

On the other hand, the rake operation cylinder 19 is installed inside each beam stand housing 17 is connected to the rake 20 through the interior of the multi-stage beam stage 18, the rake operation cylinder 19 is operated by the rake 20 Is activated to attract the debris caught on the screen 22.

In the present invention, as described above, by configuring the multi-stage beam stage 18 in a double as compared to the conventional rake 20 is naturally larger to match the multi-stage beam stage 18 is a double, compared to the conventional one in one operation Can get more than double the effect.

The process of removing the contaminants caught on the screen 22 using the vibration damper 1 according to the present invention will be described again.

Once operating the controller of the traveling device 11 installed on the upper portion of the rail frame 10, the tilting cylinder 13 is first operated, as shown in FIG. 2, the beam stand housing 17 including the multi-stage beam stand 18. The rake 20 is moved forward while the upper portion is moved backwards from the tilting hinge 12 while operating.

At this time, the function of controlling the movement angle is possible by a control means such as a limit switch, and the multi-stage beam stage 18 and the beam-to-housing 17 installed on both sides of the beam stage connecting frame 103 and the housing connecting rod 100 By angular movement at the same time.

Next, as shown in FIG. 4, when the beam-lifting cylinder 16 of the beam-lifting device 14 is continuously operated to pull the rod downward, the beam-lifting pulleys 15 on both sides are lowered. Its operation is that the multi-stage beam stage 18 is lowered step by step by chain or wire.

The multi-stage beam stage 18 is operated at the same time is integrally connected by the beam frame connecting frame 103 connecting the multi-stage beam stage 18, so that the multi-stage beam stage 18 can be operated simultaneously in a single operation. It is possible.

As described above, the beam bar elevating cylinder 16 operates to operate the multi-stage beam table 18, and at the same time the post bar 102 connected to the rod top of the beam elevating cylinder 16 simultaneously descends to the bottom of the guide bar. Since the lifting support bar 101 coupled to the 104 is simultaneously lowered, the multi-stage beam stage 18 is smoothly moved downward without shaking.

As described above, when the multi-stage beam stage 18 moves downward, as shown in FIG. 5, the rake operation cylinder 19 installed in the beam base housing 17 is operated to connect the wire to the brake operation cylinder 19. Is connected to the rake 20 through the interior of the multi-stage beam stage 18, the rake 20 is rotated 90 ° to be able to lift the debris on the rake (20).

As such, when the operation of the rake 20 is completed, as shown in FIG. 6, the beam lifter cylinder 16 operates to operate in the opposite direction of the lowering and push the rod to lift the beam lifter of the beam lifter 14. Lee 15 is moved to the top, the operation of the post rod 102 is moved by the connecting means such as a chain or wire, so that the lifting support bar 101 connected to the post rod 102 to move at the same time As the multi-stage beam stage 18 rises, the rake 20 scrapes up the debris caught on the screen 22.

Since the multi-stage beam stage 18 is connected to each other by the beam frame connecting frame 103, when the multi-stage beam stage 18 is raised and the rake 20 moves upward, the tilting cylinder 13 operates to pull the rod. The multi-stage beam stage 18 and the beam stage housing 17 operate vertically as a whole, and again the rake operation cylinder 19 is operated to connect the rake 20 by a connecting means such as a wire connected through the interior of the multi-stage beam stage 18. Instantly tilted to drop the contaminants caught in the rake 20 is the final discharge through the discharge portion 21 to be treated separately.

The present invention can remove the large amount of contaminants at the same time with a single power source by interconnecting them using a double arm as described above, in particular, this operation is performed for each multi-stage beam stage 18, the rake operation cylinder 19 The operating sequence can be controlled by hydraulic or electrical connection, and the limit of the operating range can be precisely controlled by using a limit switch or a sensor. The detailed description of such means is omitted and the multi-stage beam stand Since the mutual operation of (18) or the organic operation by the beam-up and down pulley 15 is already known, specific description thereof will be omitted.

1 is a front view showing a preferred embodiment of the present invention

Figure 2 is a side configuration showing the operation of the present invention

3 is a plan view of the present invention

Figure 4 is a side view showing a state in which the multi-stage beam stage descending of the present invention

Figure 5 is a side view of a state in which the rake works by descending the multi-stage beam stage of the present invention

Figure 6 is a side view showing a state in which the multi-stage beam stage of the present invention is elevated

Figure 7 is a side view showing the connection portion of the beam-beam lifting cylinder of the present invention

Figure 8 is a side view showing the connection portion of the support bar of the present invention

* Explanation of symbols used in the main part of the drawing *

1: vibration damper

10: rail frame 11: driving device

12: tilting hinge 13: tilting cylinder

14 beam beam lifting device 15 beam beam lifting pulley

16 beam beam lifting cylinder 17 beam beam housing

18: multi-stage beam stage 19: rake operation cylinder

20: lake 21: discharge portion

22: screen

100: housing connecting rod 101: lifting support bar

102: post rod 103: beam frame connecting frame

104: guide bar

Claims (1)

The screen 22 is installed in the water channel, and the multi-stage beam stage 18 operates to collect the debris by raising and lowering the rake 20, and moving in parallel in the rail frame 10 installed in the structure located above the screen 22. In the hydraulic vibration damper (1) having a traveling device (11) and lifting the contaminants collected from the screen (22) and discharging it to the discharge part (21), The multi-stage beam stage 18 of the vibration damper 1 is composed of left and right double arms and interconnects with the beam stage connecting frame 103, and each pair of beam stage housings 17 enclosing the multi stage beam stage 18 is connected to the housing 100. And a pair of lifting supports for vertically raising and lowering the inside of the guide bar 104 as the beam lifting device 16 is vertically fixed to the rear of the beam-to-housing 17 horizontally and vertically. A bar 101; A pair of left and right multi-stage beam stages 18 connected to the beam lifting device 16 at the upper end of the lifting support bar 101 and vertically connected to the chain or wire wound around the beam lifting device pulley 15 which are coupled to the left and right. )Wow; A post rod (102) assembled to the rod shaft of the beam lifting cylinder (16) and coupled to the left and right pair of lifting support bars (101) at both ends to integrally drive the vertical lifting of the multi-stage beam stage (18); The beam-base lifting cylinder 16 is assembled to the center of the rear of the beam-to-housing 17, and the lifting support bar 101 is provided parallel to both sides of the beam-base lifting cylinder 16, and the rod shaft upper end and the support bar ( When the post rod 102 is horizontally maintained at the upper end of the upper pole), the lifting support bar 101 is guided to both sides when the beam lifting device 16 is vertically lowered. A hydraulic double arm vibration suppressor comprising a rake (20) provided in the operation to lift the contaminants caught on the screen (22) to discharge through the discharge portion (21).

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