KR20190124992A - Dehydrating apparatus of sludge - Google Patents

Abstract

To dehydrate waste sludge, the present invention provides a waste sludge dehydration apparatus which prevents the flow of a pressing block in a pressing guide and enables the pressing block to pressurize a dehydration unit stably when the pressing block pressurizes the dehydration unit while moving along the pressing guide. For the above, the waste sludge dehydration apparatus includes: a dehydration unit which dehydrates waste sludge; a pressing block which is connected to one side of the dehydration unit; a pressing unit which slides and moves the pressing block; a main body unit which includes a dehydration guide forming the slide movement path of the dehydration unit and a pressing guide forming the slide moving path of the pressing block; and a detachment prevention unit which prevents a tilt of the pressing block in the pressing guide when the pressing block closely pressurizes the dehydration unit.

Description

Waste sludge dewatering device {DEHYDRATING APPARATUS OF SLUDGE}

The present invention relates to a waste sludge dewatering apparatus, and more particularly, in dewatering waste sludge, when the pressurized block pressurizes the dewatering unit while moving along the pressurizing guide, it prevents the flow of the pressurizing block from the pressurizing guide and pressurizes it. Disclosed is a waste sludge dewatering device which allows the block to pressurize the dewatering unit stably.

In general, the waste sludge dewatering device may supply waste sludge between two sheets of nonwoven fabric facing each other, pressurize with a filter plate, and discharge the water contained in the waste sludge to cake the sludge.

However, in the waste sludge dewatering apparatus according to the prior art, when the movable block moves along the guide and pressurizes the dewatering unit including the filter cloth and the filter plate, the movable block is inclined from the guide by the waste sludge supplied between the filter cloths. The movable block did not pressurize the dewatering unit uniformly, and there was a problem that the dewatering effect of the waste sludge was inhibited.

Republic of Korea Patent Publication No. 10-1022815 (Invention name: waste sludge dewatering device, 2011. 03. 17. notification)

An object of the present invention is to solve the conventional problems, in dewatering the waste sludge, when pressing the dewatering unit while the pressure block moves along the pressure guide, to prevent the flow of the pressure block in the pressure guide, the pressure block The present invention provides a waste sludge dewatering device to stably pressurize the dewatering unit.

According to a preferred embodiment for achieving the above object of the present invention, the waste sludge dewatering apparatus according to the present invention comprises a dewatering unit to which waste sludge is dewatered; A pressure block connected to one side of the dewatering unit; A pressurizing unit for slidingly moving the pressurizing block; A main body unit including a dehydration guide forming a slide moving path of the dewatering unit and a pressing guide forming a slide moving path of the pressing block; And a lifting prevention unit for preventing the inclination of the pressing block from the pressing guide when the pressing block presses the dewatering unit in close contact.

Here, the lifting prevention unit, the feed roller unit which is provided in the pressing block for supporting the pressing block on the basis of the upper end of the pressing guide; An adjusting roller part spaced apart from the conveying roller part and provided on the pressing block and spaced apart from the lower end of the pressing guide; And a pressurizing guide provided on the pressing guide so as to face the feed roller portion or facing the adjusting ruler portion, and when the pressurizing block pressurizes the dewatering unit, an adjusting guide for adjusting the play between the adjusting roller portion and the pressing guide. It includes;

Here, the adjustment guide portion, the pressure inclined block is provided inclined along the direction to press the dewatering unit; includes.

Here, the adjustment guide portion, the pressure block in the control inclined portion extends along the direction of pressing the dewatering unit is a roller support for supporting the control roller portion; further includes.

Here, any one of the feed roller portion and the adjustment roller portion, the support bracket portion provided in the pressure block; A support shaft portion provided in the support bracket portion; And a support roller provided on the support shaft and rotatable with respect to the support shaft in response to a slide movement of the pressure block.

According to the waste sludge dewatering apparatus according to the present invention, in dewatering the waste sludge, when the pressurized block pressurizes the dewatering unit while moving along the pressurizing guide, the flow of the pressurized block is prevented from the pressurizing guide, and the pressurized block is stable. The dewatering unit can be pressurized. In addition, the present invention can maintain the cross state (orthogonal state) of the pressure block and the pressure guide as well as maintain the parallel state of the pressure block and the dehydration unit, it is possible to stabilize the slide movement of the filter plate and the pressure block in the main unit.

In addition, the present invention allows the waste sludge to be caked between the filter cloth portion, it is possible to facilitate the discharge of the dewatered caked waste sludge.

In addition, the present invention can stabilize the cake of the waste sludge between the filter cloth, and minimize the water content in the caked waste sludge.

In addition, the present invention can freely slide movement along the arrangement direction of the dewatering unit, facilitates the reciprocating motion of the filter cloth, and can easily discharge the caked waste sludge.

In addition, according to the present invention, the waste sludge remaining in the filter cloth portion can be easily dropped in response to the reciprocating movement of the filter cloth portion, and the filter cloth portion can be kept clean.

In addition, the present invention can stabilize the change of the filter bag for the dewatering process of the waste sludge in the filter bag, it is possible to keep the filter bag flat, it is possible to prevent the residue of caked waste sludge in the filter bag.

In addition, the present invention can provide a stable pressing force to the dewatering unit to prevent the inclination of the press block by pressing the dewatering unit in a two-stage pressurization method of the dewatering unit.

In addition, the present invention can minimize the flow of the pressure block in the body unit, smooth the slide movement of the pressure block in the pressure guide, it is possible to adjust the play formed between the pressure block and the lower end of the pressure guide.

In addition, the present invention, in adjusting the play, smoothes the movement of the adjustment roller, and when the return to the original position according to the release of the pressure, the pressure block is slidably moved.

In addition, the present invention can smooth the rotation of the feed roller and the adjustment roller portion, it can prevent the interference in the pressure block and the pressure guide.

1 is a side view showing a state in which the filter plate parts spaced apart from the waste sludge dewatering apparatus according to an embodiment of the present invention.
Figure 2 is a side view showing a state in which the filter plate in close contact with each other in the waste sludge dewatering apparatus according to an embodiment of the present invention.
Figure 3 is a front view showing a dewatering unit in the waste sludge dewatering apparatus according to an embodiment of the present invention.
FIG. 4 is a view showing a side arrangement of FIG. 3.
Figure 5 is a front view showing a combined state of the pressure block and the pressure guide via the lifting prevention unit in the waste sludge dewatering apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the waste sludge dewatering apparatus according to the present invention. At this time, the present invention is not limited or limited by the embodiment. In addition, in describing the present invention, a detailed description of known functions or configurations may be omitted to clarify the gist of the present invention.

A waste sludge dewatering apparatus according to an embodiment of the present invention will now be described with reference to FIGS. 1 to 5.

Waste sludge dewatering apparatus according to an embodiment of the present invention is a dewatering unit 10, the pressurized block connected to one side of the dewatering unit 10, the pressurized block 20, the pressurized block 20 to slide the waste sludge dewatering unit 30, a main body unit 40 including a dehydration guide 41 forming a slide moving path of the dewatering unit 10 and a pressing guide 42 forming a slide moving path of the pressing block 20; When the pressure block 20 presses the dewatering unit 10 in close contact, the pressure guide 42 may include a lifting prevention unit 50 which prevents the inclination of the pressure block 20.

Here, the dewatering unit 10 face each other between the filter plate portion 11 that is slidable in the main body unit 40 so as to approach or be spaced apart from each other, and a pair of filter plate portions 11 facing each other for the reception of the waste sludge. It may include a filter cloth portion 12 disposed to be viewed, and a filter driving portion 13 slidably coupled to the dehydration guide 41 and reciprocating the filter cloth portion 12 between a pair of filter plate portions 11. have.

In addition, the dewatering unit 10 may further include a diaphragm 14 provided on one side of the pair of filter cloth portions 12 and a dehydration driving part (not shown) for expanding or contracting the diaphragm 14. The diaphragm 14 may be integrally formed with the filter plate 11.

In addition, the dewatering unit 10 may further include a washing unit 138 for supplying a washing fluid to the filter cloth unit 12 in response to the reciprocating movement of the filter cloth unit 12. The washing unit 138 may be spaced apart from the filter poguide unit 133 to be described later, and spray the washing fluid toward the filter poguide unit 133.

Both sides of the filter plate 11 may be recessed to form a filter guide groove 111 in which the pressure guide 42 is seated.

Here, the filtration driving unit 13 is provided in the upper support portion 131 for supporting the upper portion of the filter cloth portion 12, the lower support portion 132 for supporting the lower portion of the filter cloth portion 12, and the lower portion of the filter plate portion 11 A filter cloth guide part 133 provided to guide the movement of the filter cloth part 12, a wire drum part 134 slidably coupled to the dehydration guide 41, and a state wound around the wire drum part 134 Rotating the dehydration guide 41 so that both ends of the wire portion 135 and the upper support 131 and the lower support 132 are relatively reciprocated, respectively, connected to the upper support 131 and the lower support 132. The driving motor unit 136 may be included.

The upper support part 131 and the lower support part 132 may be separately disposed in the filter plate part 11 or reciprocately move in the filter plate part 11. In an embodiment of the present invention, the pair of filter cloth portions 12 are all supported by the upper support portion 131, and the filter cloth portions 12 are respectively supported by the lower support portion 132. More specifically, the upper portion of the pair of filter cloth portion 12 is supported by one upper support portion 131, any one of the pair of lower support portion 132 is provided on one side of the filter plate portion 11 side The filter cloth part 12 is supported, and the other of the pair of lower support parts 132 is provided on the filter plate part 11 side of the other side to support the filter cloth part 12 of the other side.

The filter cloth part 12 may surround the filter cloth guide part 133 and reciprocate in the filter plate part 11. The filter cloth part 12 can be reciprocated in the up and down direction based on the direction of the filter plate part 11 shown in the drawing. The outer circumferential surface of the filter cloth guide part 133 includes a plurality of uneven parts 1331 protruded or recessed in a state spaced apart from each other, such that the filter cloth part 12 is moved or the filter cloth part 12 is moved from the filter cloth guide part 133. When the washing fluid is supplied, the dewatered waste sludge may be stably separated from the filter cloth 12. The uneven portion 1331 may protrude or be depressed long along the longitudinal direction of the filter cloth guide portion.

The wire drum unit 134 may be detachably coupled to two separated members.

In addition, the filter driving unit 13 may further include a tension adjusting unit 137 elastically supporting the filter cloth guide unit 133 with respect to the filter plate unit 11 to control the tension of the filter cloth unit 12. The tension adjusting part 137 may adjust the tension of the filter cloth part 12 by pulling the filter cloth guide part 133 from the lower part of the filter plate part 11 to the lower side of the filter plate part 11.

Both sides of the pressure block 20 may be formed with depressions in the pressure guide groove 21 in which the pressure guide 42 is seated in correspondence with the filter cloth guide groove 111.

The pressurizing unit 30 is slidably coupled to the pressurizing guide 42 in a state of being coupled to the pressurizing block 20, the actuator 31 for sliding the pressurizing block 20 in the pressurizing guide 42; One side is coupled to the body unit 40, the other side is coupled to the actuator 31, may include a cylinder unit 32 for sliding the actuator 31 relative to the body unit 40.

Then, the filter plate 11 of the dewatering unit 10 is in contact with each other or preliminary contact with each other according to the operation of the cylinder unit 32, the press block 20 is the dewatering unit 10 in accordance with the operation of the actuator 31 By pressurizing and pressurizing the filter plate part 11 of this, waste sludge supplied between the mutually opposing filter plate parts 11 can be dewatered.

The actuator 31 is coupled to the driving body portion 311 slidably coupled to the pressure guide 42, the driving rod portion 312 coupled to the pressing block 20, and the driving body portion 311. It may include a block driver 313 for reciprocating the driving rod unit 312 in the state. The drive body 311 is provided with a driving roller which is rolled along the upper end of the pressure guide 42 can smooth the slide movement of the drive body 311 in the pressure guide (42).

The actuator 31 may further include a brake part 314 that fixes the driving body 311 or the block driving part 313 to the pressure guide 42. Then, the slide movement of the actuator 31 can be prevented with respect to the operation of the cylinder unit 32 according to the operation of the brake unit 314. In addition, when the block driver 313 is operated according to the operation of the brake unit 314, the driving body 311 or the block driver 313 is prevented from being pushed relatively from the pressure block 20, and the pressure block ( 20 can increase the pressing force of the dewatering unit (10).

One side of the cylinder unit 32 may be coupled to the main body unit 40, and the other side of the cylinder unit 32 may be coupled to the driving body 311 or the block driving unit 313. The cylinder unit 32 may be provided as a pair to stabilize the slide movement of the pressure block 20 or the actuator 31. In addition, the piston or cylinder in the cylinder unit 32 may be coupled to the pressure block 20 to be slidable. Cylinder unit 32 is a piston or cylinder can be reciprocated in multiple stages.

Body unit 40 may be provided with a support for supporting the dehydration guide 41 and the pressure guide (42). In addition, the main body unit 40 may be provided with a discharge unit (not shown) for discharging the dewatered waste sludge.

Lifting prevention unit 50 is provided in the pressure block 20 is spaced apart from the feed roller unit 51 and the feed roller unit 51 for supporting the pressure block 20 on the basis of the upper end of the pressure guide (42). The pressure roller 20 and the adjustment roller unit 52 which is spaced apart based on the lower end of the pressure guide 42 and the feed roller 51 facing the control roller unit 52 or the pressure guide so as to face the control roller 52 ( 42 may include an adjustment guide part 53 provided. The adjusting guide part 53 controls the play between the adjusting roller part 52 and the pressing guide 42 when the pressing block 20 pressurizes the dewatering unit 10.

Here, the adjustment guide portion 53 is installed in the slide movement section of the pressure block 20 by the actuator 31 of the pressure unit 30, the cylinder during the slide movement of the pressure block 20 by the cylinder unit 32 The load by the unit 32 can be minimized, and the slide movement accuracy of the pressure block 20 can be improved when the actuator moves the slide of the pressure block 20 by the actuator 31.

Accordingly, when the pressure block 20 pressurizes the dewatering unit 10, the pressure block 20 is inclined back and forth by the play with the pressure guide 42 or the pressure block 20 is pressed by the pressure guide 42. It is possible to prevent the rising of the pressure guide 42 by the clearance between the and, evenly pressurizing the filter plate 11 of the dewatering unit 10, it is possible to increase the dewatering effect of the waste sludge.

Here, the feed guide part 54 is provided at the upper end of the pressurizing guide 42 corresponding to the feed roller part 51 along the moving direction of the pressurizing block 20, and the feed guide part 51 is provided at the feed roller part 51. A roller guide part 55 coupled to 54 may be provided to stably guide the slide movement of the pressure block 20. In addition, the transfer guide portion 54 is also coupled to the above-described driving roller (not shown) can stably guide the slide movement of the actuator (31).

In addition, the adjustment guide portion 53 includes a control inclination portion 531 which is provided inclined along the direction in which the pressure block 20 presses the dewatering unit 10, the pressure block 20 is a dehydration unit (10) When pressurizing, the feed roller unit 51 or the adjusting roller unit 52 can be stably guided, and the play between the press block 20 and the lower end of the pressurizing guide 42 can be stably adjusted.

In addition, the adjustment guide portion 53 extends along the direction in which the pressure block 20 pressurizes the dewatering unit 10 in the adjustment inclination portion 531 to support the feed roller portion 51 or the adjustment roller portion 52. Roller support 532 may be further included. The roller support part 532 removes the play between the feed roller part 51 and the adjusting roller part 52 when the press block 20 presses the dewatering unit 10, and the press guide, and the press block 20 The support state between the upper end of the pressure guide 42 and the support state between the pressure block 20 and the lower end of the pressure guide 42 can be stably maintained, and the pressure block 20 is the pressure guide 42 in a stable support state. The slide is moved smoothly in the dehydration unit 10 can be pressurized stably. The roller support part 532 is parallel to the direction in which the pressure block 20 presses the dewatering unit 10 or the longitudinal direction of the pressure guide 42. In addition, the roller support part 532 may guide the slide movement in a state in which the pressure block 20 is orthogonal to the pressure guide 42.

One of the conveying roller part 51 and the adjusting roller part 52 is a support bracket part 521 provided in the pressure block 20, a support shaft part 522 provided in the support bracket part 521, and a support. It may include a support roller 523 provided on the shaft portion 522 and rotatable with respect to the support shaft portion 522 in response to the slide movement of the pressure block 20.

The operation of the waste sludge dewatering apparatus according to an embodiment of the present invention will now be described. At this time, the adjustment guide 53 is described on the basis of being installed on the lower end of the pressure guide (42).

According to the forward movement of the cylinder unit 32, the pressure block 20 slides along the pressure guide 42, and the roller guide part 55 of the feed roller part 51 is the feed guide part of the pressure guide 42 ( A pair of filter plate portions 11 which are moved along 54 and face each other may be brought into contact or preliminary contact. At this time, waste sludge is accommodated between the pair of filter cloth portions 12. In response to the operation of the brake unit 314, the driving body 311 and the block driving unit 313 of the actuator 31 are stopped by the pressure guide 42, and the driving rod unit 312 is operated according to the operation of the block driving unit 313. ) Advances the pressure block 20 to further press the filter plate (11). Then, the roller guide part 55 of the feed roller part 51 is moved along the feed guide part 54 of the pressure guide 42, and the adjustment roller part 52 passes through the adjustment inclination part 531. Since the moving to the roller guide portion 55, the pressing block 20 moves in a state perpendicular to the pressing guide 42, the pressing block 20 can uniformly press the one side of the filter plate (11). have.

Further, by further pressurizing the filter plate portion 11 in accordance with the expansion of the diaphragm 14, the dewatering effect of the waste sludge can be improved.

When the dewatering of the waste sludge is completed, the diaphragm 14 is contracted, the driving rod 312 is returned to its original position, and the brake unit 314 is released in accordance with the reverse operation of the cylinder unit 32. The pressure block 20 is moved to the original position, and the filter plate portion 11 of the dewatering unit 10 shows a state spaced apart from each other.

At this time, when the wire drum part 134 is rotated forward according to the forward operation of the driving motor unit 136, the lower support part 132 is raised while the upper support part 131 is lowered according to the movement of the wire part 135. . At this time, the tension control unit 137 is in a state in which the tension is applied to the filter cloth 12, a pair of filter cloth 12 is spaced apart from the dewatered waste sludge can be separated while falling.

Here, by alternately repeating the forward rotation and the reverse rotation of the wire drum portion 134, it is possible to stabilize the separation of the waste sludge in the filter cloth portion 12.

After the dewatered waste sludge is separated, the waste paper sludge remaining in the filter cloth part 12 may be separated by washing the filter cloth part 12 through the washing part 138. In the washing operation process, the forward and reverse rotations of the wire drum part 134 are alternately repeated, thereby improving the washing power of the filter cloth part 12.

When the wire drum part 134 is reversely rotated according to the reverse operation of the driving motor part 136, the upper support part 131 rises as the wire part 135 moves, and the lower support part 132 descends to its original position. To return.

Subsequently, by supplying the waste sludge between the operation of the press block 20 and the pair of filter cloth portions 12 as described above, the dewatering operation of the waste sludge can be repeated.

According to the above-described waste sludge dewatering apparatus, in dewatering the waste sludge, when the pressure block 20 presses the dewatering unit 10 while moving along the pressure guide 42, the pressure block 42 in the pressure guide 42 It is possible to prevent the flow of the 20, the pressure block 20 can pressurize the dewatering unit 10 in a stable manner. In addition, the pressure block 20 maintains the crossing state (orthogonal state) of the pressure guide 42 as well as the parallel state of the pressure block 20 and the dehydration unit 10, the filter plate portion in the main body unit 40 The slide movement of the 11 and the press block 20 can be stabilized.

In addition, the waste sludge is dehydrated while being caked between the pair of filter cloth portions 12, and the waste sludge dehydrated can be easily discharged.

In addition, the caked of the waste sludge can be stabilized between the pair of filter cloth portions 12, and the water content in the caked waste sludge can be minimized.

In addition, it is possible to freely slide movement along the arrangement direction of the dewatering unit 10, to facilitate the reciprocating motion of the filter cloth 12, and to easily discharge the caked waste sludge.

In addition, in response to the reciprocating movement of the filter cloth portion 12, the waste sludge remaining in the filter cloth portion 12 can be easily eliminated, and the filter cloth portion 12 can be kept clean.

In addition, it is possible to stabilize the change of the filter cloth portion 12 with respect to the dewatering process of the waste sludge in the filter cloth portion 12, to keep the filter cloth portion 12 flat, and to prevent the remaining of caked waste sludge in the filter cloth portion. Can be.

In addition, preventing the inclination of the pressure block 20 by pressing the dewatering unit 10 in a two-stage pressurization manner of the dewatering unit 10 may provide a stable pressing force to the dewatering unit 10.

In addition, to minimize the flow of the pressure block 20 in the main body unit 40, smooth the slide movement of the pressure block 20 in the pressure guide 42, between the pressure block 20 and the lower end of the pressure guide (42). The play formed in the can be controlled.

In addition, in adjusting the play, the movement of the adjustment roller unit 52 is smoothed, and when the pressure block 20 is returned to its original position upon release of the pressure, the pressure block 20 is stably moved.

In addition, it is possible to smooth the rotation of the feed roller 51 and the adjustment roller 52, and to prevent interference from the pressing block 20 and the pressing guide 42.

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art can variously change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified or changed.

10: dewatering unit 11: filter plate portion 111: filter guide groove
12: filter cloth 13: filter driving unit 131: upper support
132: lower support portion 133: filter cloth guide portion 1331: uneven portion
134: wire drum portion 135: wire portion 136: drive motor portion
137: tension control unit 138: cleaning unit 14: diaphragm
15: dehydration drive unit 20: pressure block 21: pressure guide groove
30: pressurizing unit 31: actuator 311: drive body
312: drive rod portion 313: block driving portion 314: brake portion
32: cylinder unit 40: main unit 41: dehydration guide
42: pressure guide 50: lifting prevention unit 51: feed roller unit
52: adjusting roller portion 521: support bracket portion 522: support shaft portion
523: support roller 53: adjustment guide portion 531: adjustment inclined portion
532: roller support portion 54: feed guide portion 55: roller guide portion

Claims (5)

Dewatering unit for waste sludge dewatering;
A pressure block connected to one side of the dewatering unit;
A pressurizing unit for slidingly moving the pressurizing block;
A main body unit including a dehydration guide forming a slide moving path of the dewatering unit and a pressing guide forming a slide moving path of the pressing block; And
And a lifting prevention unit for preventing the inclination of the pressurizing block from the pressurizing guide when the pressurizing block tightly pressurizes the dewatering unit. The method of claim 1,
The lifting prevention unit,
A feed roller unit provided in the pressing block to support the pressing block based on the upper end of the pressing guide;
An adjusting roller part spaced apart from the conveying roller part and provided on the pressing block and spaced apart from the lower end of the pressing guide; And
It is provided in the pressure guide to face the feed roller portion or to face the control ruler portion, when the pressure block presses the dewatering unit, the adjustment guide portion for adjusting the play between the control roller portion and the pressure guide Wastewater sludge dewatering apparatus comprising a. The method of claim 2,
The adjustment guide portion, waste sludge dewatering apparatus comprising a; the control inclination portion is provided inclined along the direction in which the pressure block presses the dewatering unit. The method of claim 3,
The adjustment guide portion, the roller sludge dewatering apparatus further comprises a roller support portion that extends along the direction in which the pressure block in the control inclined portion presses the dewatering unit is supported by the control roller unit. The method according to any one of claims 2 to 4,
Any one of the feed roller and the adjustment roller,
A support bracket portion provided on the pressing block;
A support shaft portion provided in the support bracket portion; And
And a support roller provided on the support shaft, the support roller being rotatable based on the support shaft in response to the slide movement of the pressure block.

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