KR100365304B1 - Sliding Shoe Sludge Collector - Google Patents

Abstract

The present invention adopts a method of driving by a combination of one drive and driven pulley, tension adjusting pulley, compression pulley without using a conventional wire drum, so that the wire is in contact with the pulley at right angles and horizontally to twist or wear the wire. The present invention relates to a sliding shoe sludge collecting device that can be easily maintained by extending the life of the device and reducing its weight.

The present invention is installed in the width direction in the section between the middle wall and both side walls of the sedimentation basin, the scraper for collecting the sludge deposited on the bottom surface of the sedimentation basin to collect on the hopper formed on one side of the sedimentation basin before and after An attached water cart; A rail installed in a longitudinal direction on a bottom surface between the middle wall and both side walls of the settling basin at a predetermined interval, and connected to both sides of the lower side of the underwater cart on an upper surface thereof to guide the sliding movement thereof; A driving unit mounted on one side of the sedimentation basin and providing a driving force for reciprocating movement of the subsea vehicle; And sludge crushing means connected to the drive unit and crushing the sludge collected by the scraper of the subsea vehicle.

The present invention as described above is easy to adjust the tension (non-drum) without the wire feeding the wire, and does not damage the wire as a wire feeding device to prevent the wear of the wire and the sheave does not turn off due to overload As wire rope is wound over 360 ° on sheave, wire rope can be completely fed. And, it is also an advantage that the scraper is simple and does not derail at all, and can break up to concentrated sludge.

Description

Sliding Shoe Sludge Collector {.}

The present invention relates to a sliding shoe sludge collecting device for removing sludge in the treatment plant in a wire rope traction system in a water and sewage treatment plant, and more particularly, does not require a drum for feeding wire rope and slides. A sliding shoe sludge collection device capable of reliably removing sludge deposited in a sedimentation basin without slipping off of the shoe.

In general, the submersible sludge collecting device is mainly used to remove the sludge of sewage sludge in the tap water, the sludge collecting device according to the prior art is a drum type sludge collecting device, the underwater drum type collecting device and the stop plate to rotate forward by pressing the wire rope There is a way.

The drum-type sludge collecting device installs a running rail on the bottom of the sedimentation basin, and a trolley equipped with a scraper on the front side by a wire transfer method pushes and removes the sludge deposited on the bottom of the sedimentation basin while reciprocating through the traveling rail, When the scraper is mounted on the front of the truck, the sludge is not removed as much as the truck width at the rear of the sedimentation basin. In order to remove the sludge, there is a cumbersome problem of draining and cleaning the sedimentation basin to remove such sludge.In addition, when the wheels of the subcar are driven on rails installed on the bottom of the sedimentation basin, they are irregularly driven and sludge is deposited. Frequent accidents in which the running wheels of a water cart are dislodged by Not only is it occurring, there is a problem that it is difficult to find and cope immediately because the accident occurs underwater. In addition, excessive initial tension is added to limit the sagging of the wire, which increases the wire, wear and fatigue It occurs frequently that the rope breaks easily, and the wear of peripheral devices such as guide pulleys, wire drums, and the like is a cause of shortening of life. In addition, the size of the wire drum is proportional to the length of the settling basin. Because of the large size, it takes up a lot of unnecessary space, the wire twisting frequently occurs in the process of winding and unwinding the wire, and the scraper does not move constantly, and the wire moves in the axial direction, so that the eccentric load is generated. On the other hand, there is a problem that the life is shortened. Since the rubbing collector is immersed in the water rotating part, the corrosion of the drum rotation is easily generated, there is a problem that can not determine the wound state of the rope.

The method of forward rotation by pressing the wire rope by the stop plate without the drum does not pull the wire rope over time because the eccentric wear and friction surface of the wire does not become 180 °, and there is a problem that the sheave alone rotates. .

An object of the present invention for solving the above problems, without using a conventional wire drum, by adopting a method of driving a combination of one drive and driven pulley, tension pulley, compression pulley right angle pulley wire And it is to provide a sliding shoe sludge collection device that can be easily contacted by the horizontal contact so that the wire is not twisted or worn, extending the life of the equipment and light weight.

In addition, another object of the present invention, by adopting a self-lubricated sliding shoe made of a pipe rail and a graphite brush that is strong in abrasion and highly lubricating, it is possible to reliably prevent the subsea vehicle from being released from the rail due to sludge accumulation. The present invention provides a sliding shoe sludge collecting device.

1 is a plan view of a sliding shoe sludge collecting device according to the present invention.

Figure 2 is a schematic side view of Figure 1;

Figure 3 is a front view of a wire feeding device which is the main part of the present invention.

4 is a plan view of the wire feeding device of FIG.

Fig. 5 is a sectional view of each of the scraper rail and the sliding shoe which are main parts of the present invention.

* Description of the symbols for the main parts of the drawings *

1: sedimentation basin 2: water cart

4: rail 5: drive unit

6: sludge crushing device 11: reduction motor

12: spindle 13: drive pulley

14: driven pulley 15: tension pulley

16: tension adjusting bracket 17: spindle safety

18: bearing 21: rear wire sheave

22: return wire sheave 23: wire

24: compression pulley 25: support bracket

26: Compression force adjusting bolt 27: Shock spring

30: Connecting bracket 31: Connecting bolt

32: graphite brush shoe 34: base plate

41: drive gear 42: driven gear

43: middle gear 44: external output worm gear

45: worm 46: external output transmission shaft

47: oil gauge 51, 52: first and second bevel gear

53: rotary shaft 54: rotary grinder

The present invention for achieving the above object, is installed in the width direction in the section between the middle wall and both side walls of the sedimentation basin, scraping sludge deposited on the bottom surface of the sedimentation basin is collected on the hopper portion formed on one side of the sedimentation basin A water cart equipped with a scraper for front and back; A rail installed in a longitudinal direction on a bottom surface between the middle wall and both side walls of the settling basin at a predetermined interval, and connected to both sides of the lower side of the underwater cart on an upper surface thereof to guide the sliding movement thereof; A driving unit mounted on one side of the sedimentation basin and providing a driving force for reciprocating movement of the subsea vehicle; And sludge crushing means connected to the drive unit and crushing the sludge collected by the scraper of the submersible cart. Then, with reference to the accompanying drawings of FIGS. An example of a sliding shoe sludge collecting device according to the present invention is divided by an intermediate wall 1a, as shown in Figs. 1 and 2, and a settling basin having a hopper portion 1c formed on its front side ( 1) and; It is installed in the width direction in the section between the middle wall (1a) and both side walls (1b) of the sedimentation basin 1, for scraping the sludge deposited on the bottom surface of the sedimentation basin (1) to collect in the hopper portion (1c) A water cart 2 with a scraper (not shown) mounted on the front and rear surfaces thereof; It is installed in the longitudinal direction on the bottom surface between the middle wall (1a) and both side walls (1b) of the sedimentation basin 1 at a predetermined interval, the upper both sides of the lower side of the subsea vehicle (2) is fitted to the sliding movement thereof Two rails 4 for guiding; A driving unit (5) mounted on an upper portion of the settling basin (1) to provide a driving force for reciprocating movement of the subsea vehicle (2); It is connected to the drive unit 5, and consists largely of a sludge crushing device 6 for crushing the sludge collected by the scraper of the subsea vehicle 2. The hopper portion 1c of the sedimentation basin 1 is collected therein. A sludge drawing pipe 40 for discharging the sludge to the outside is provided. As shown in FIG. 5, the subcarb 2 is equipped with a stainless steel connecting bracket 30 at the lower part thereof. At the lower portion of the connecting bracket 30, the graphite brush shoe 32 having the rail groove 32a is fixed by the connecting bolt 31. In addition, the rail (4) is produced by drawing a square pipe made of stainless material, the rail fixing base plate 34 for fixing it to the bottom surface of the sedimentation basin (1) is provided at the bottom of the rail (4). Accordingly, the rail grooves 32a of the graphite bush shoe 32 are inserted in a form surrounding the rail 4, so that the graphite bush shoe 32 is free from the rail 4. 3 and 4, the drive unit 5 includes a reduction motor 11 capable of forward and reverse rotation; A drive pulley 13 and a driven pulley 14 connected to the main shaft 12 of the reduction motor 11 to transmit rotational power; A tension pulley 15 installed between the driving pulley 13 and the driven pulley 14 to provide a tension force to the wire; A tension adjusting bracket 16 for adjusting the tension by providing a pressing force to the tension pulley 15; A rear wire sheave 21 provided on both sides of the rear inner surface of the sedimentation basin 1 for supporting the wire passing through the subsea vehicle 2; A return wire sheave 22 installed on both sides of the front inner surface of the settling basin 1 to support the wire passing through the rear wire sheave 21; The wire 23 wound around the driving pulley 13, driven pulley 14, rear wire sheave 21 and return wire sheave 22, and fixed to the water cart 2 in a predetermined position to reciprocate it. )Wow; Compression pulley 24 is installed on both sides of the driving pulley 13 and driven pulley 14 to press the wire 23 to have a tension force. Here, the compression pulley 24 supports the support therefor. A compression force adjusting bolt 26 for pressurizing the compression pulley 24 through the bracket 25, the support bracket 25, and the compression force adjusting bolt 26 is inserted into the compression pulley 24. And a shock absorbing spring 27 provided therein. A drive gear 41 connected to the shaft of the reduction motor 11 is provided; A driven gear 42 connected to the shaft of the driven pulley 14 and receiving rotational power of the drive gear 41; An intermediate gear (43) provided between the drive gear (41) and the driven gear (42); An external output worm gear 44 connected to the shaft of the driven gear 42 to transmit power; A worm 45 which is engaged with the external output worm gear 44 and converts its rotational force by 90 °; An external output transmission shaft 46 is connected to the shaft of the worm 45. Reference numeral 17 denotes a main shaft safety device, 18 a bearing, and 47 an oil gauge. The sludge crushing device is shown in FIGS. A first bevel gear 51 connected to the external output transmission shaft 46 for converting its horizontal rotational power by 90 ° in a vertical direction as shown in the figure; A second bevel gear (52) positioned in the hopper portion (1c) of the settling basin (1) and connected to a lower portion of the vertical shaft fitted to the follower of the first bevel gear (51); A rotating shaft 53 inserted into the driven part of the second bevel gear 52 and rotating; The rotary shaft 53 is provided at predetermined intervals, and is composed of a rotary mill 54 for crushing the solidified sludge collected in the hopper unit 1c. First, when sewage flows into the sedimentation basin 1, the deceleration motor 11 of the drive unit 5 mounted on the upper surface of one side of the sedimentation basin 1 performs the forward rotation. Accordingly, the drive pulley 13 and the drive gear 41 connected to the double shaft 12 of the reduction motor 11 is rotated, wherein the rotational force of the drive pulley 13 is tension pulley 15 and the wire It is transmitted to the driven pulley 14 via the 23, the rotational force of the drive gear 41 is transmitted to the driven gear 42 via the intermediate gear 43. Since the wire 23 is connected in a rectangular shape across the driving pulley 13 and the driven pulley 14, the rear wire sheave 21, and the return wire sheave 22 in the state where the water cart 2 is fixed, the As the wire 23 moves in accordance with the rotation of the reduction motor 11, the water cart 2 is reciprocated back and forth. At this time, the tension pulley 15 is moved back and forth by the tension adjusting bracket 16 to drive the pulley ( 13) and the tension of the wire 23 between the driven pulley 14 is to be adjusted. In addition, compression pulleys 24 are also provided on the side surfaces of the driving pulley 13 and the driven pulley 14 to provide a pressing force to the wire 23 so that the wire 23 is always moved with an appropriate tension. The water truck 2 reciprocated by the wire 23 is scraped on the bottom surface of the sedimentation basin 1 by scrapers provided on both sides thereof, and transported to the hopper 1c of the sedimentation basin 1. The sludge collected in the hopper 1c is crushed by the sludge crushing apparatus and then discharged through the drawing pipe 40. That is, the rotational force is transmitted to the external output transmission shaft 46 by the external output worm gear 44 and the worm 45 provided on the shaft upper portion of the driven pulley 14. In addition, the first bevel gear 51 provided at the end of the external output transmission shaft 46 and the second bevel gear 52 provided at the vertical lower portion of the first bevel gear 51 rotate together to form the second bevel gear. The rotating shaft 53 fitted to the follower of 52 is rotated. Accordingly, a plurality of sludge crushing rotary grinders 54 installed on the rotary shaft 53 are crushed while concentrated concentrated solidified sludge to be discharged through the drawing pipe 40.

As described above, according to the present invention, there is no need for a drum for supplying wire rope by providing a reciprocating force to the wire by a combination of one reduction motor and a single pulley, and a constant tension force on the wire through the tension pulley and the compression pulley. By providing it can smoothly reciprocate the water cart without idling, it is possible to prevent the wire from being worn or damaged.

In addition, by installing a scraper on the front and rear surfaces of the subsea vehicle can be reliably removed to the sludge deposited on the rear of the sedimentation basin, the reciprocating method of the subsea vehicle by the sliding shoe of the type that completely wraps the rails, not wheels In this way, it is possible to prevent the subsea vehicle from being detached from the rail during the movement, thereby extending the life of the device. Further, by using the rotational force of the reduction motor, the sludge crushing, which has not been used in the past, is used. Allowing the device to operate has the other effect of ensuring the collection and drawing of sludge concentrated in water.

Claims (2)

It is installed in the width direction in the section between the middle wall and both side walls of the sedimentation basin, and a scraper for collecting the sludge deposited on the bottom surface of the sedimentation basin and collecting it on the hopper formed on one side of the sedimentation basin before and after Balance; A rail installed longitudinally on a bottom surface between the middle wall and both side walls of the sedimentation basin at a predetermined interval, and connected to both sides of the lower side of the subsea vehicle to guide the sliding movement thereof; A driving unit mounted on one side of the sedimentation basin and providing a driving force for reciprocating movement of the subsea vehicle; And It is connected to the drive unit, including a sludge crushing means for crushing the sludge collected by the scraper of the water cart, The water cart is A connecting bracket made of stainless steel mounted on the bottom thereof; And mounted on the lower portion of the connecting bracket, further comprising a graphite bush shoe formed with a rail groove of the form surrounding the rail, The drive unit is Reduction motor capable of forward and reverse rotation; A driving pulley and a driven pulley connected to the shaft of the reduction motor to transmit rotational power; A tension pulley installed between the driving pulley and the driven pulley to provide a tension force to the wire; A tension adjusting bracket for adjusting the tension by providing a pressing force to the tension pulley; A rear wire sheave provided on both sides of the rear inner surface of the sedimentation basin for supporting the wire passing through the subsea vehicle; Return wire sheaves installed on both sides of the front inner surface of the settling basin for supporting the wire passing through the rear wire sheave; A wire wound around the driving pulley, driven pulley, rear wire sheave and return wire sheave, and fixed to the predetermined portion of the water cart to reciprocate it; A compression pulley installed on both sides of the driving pulley and the driven pulley to press the wire to have a tension force; Compression force adjusting bolt for pressing the compression pulley; A cushioning spring fitted to the compression force adjusting bolt to provide a buffering force to the compression pulley; A drive gear connected to the shaft of the reduction motor to transmit the turning power; A driven gear connected to the shaft of the driven pulley and receiving rotational power of a drive gear; An intermediate gear provided between the drive gear and the driven gear; A power transmission clutch connected to the shaft of the driven gear; A worm gear that is engaged with the power transmission clutch and converts its rotational force by 90 °; And It includes an external output transmission shaft connected to the shaft of the worm gear, The sludge crushing means is A first bevel gear connected to an external output transmission shaft for converting its horizontal rotational power by 90 ° in a vertical direction; A second bevel gear positioned at a hopper of the sedimentation basin and connected to a lower portion of a vertical shaft fitted to a follower of the first bevel gear; A rotating shaft inserted into the driven part of the second bevel gear and rotating; Rotary mill for crushing the solidified sludge collected in the hopper unit at predetermined intervals on the rotary shaft Sliding shoe sludge collection apparatus comprising a. delete