KR20170051195A - High efficient screw press with filtering function in screw shaft - Google Patents

Abstract

The present invention relates to a low-power and low-carbon type of screw press with a filtering function on a screw shaft, wherein the concentration and dewatering effect of a sludge are drastically increased by using a hollow screw shaft. The invention comprises: a support fixed and installed on one side and the other side of the upper portion of the base frame; a hollow cylindrical screen chamber having a double perforated net and being fixed at both ends between the one side and the other side support; a screw shaft provided inside the screen chamber and formed to have an outer diameter gradually increased from one end toward the other end; a screw blade formed in a spiral shape on an outer circumferential surface of the screw shaft; a screw forcibly rotated by the driving means; a cleaning unit for cleaning the screen chamber, which is located outside the chamber; and a pressing unit for pressing the concentrated sludge toward the other side of the support while moving toward the one side. The screw shaft is hollow with a perforated network, allowing a discharge of some water containing outside the screw shaft into the inside for dehydration, when the sludge is pressed by the rotation of the screw shaft. The hollow screw shaft increases the concentration and dewatering effect of sludge remarkably, thereby reducing energy consumption and minimizing carbon dioxide emission, and enhancing concentration and dehydration effect. Therefore, the invention is advantageous in terms of maintenance.

Description

TECHNICAL FIELD [0001] The present invention relates to a high-efficiency low-pressure screw press with a filtering function in a screw shaft,

The present invention relates to a low-power low-carbon screw press having a filtering function on a screw shaft, more specifically, to an additional filtration function on a screw shaft to increase sludge concentration and dewatering efficiency, To a low-powered low-carbon screw press.

Generally, a screw press is a device for concentrating and dewatering sludge by installing a rotating screw in a cylindrical perforated network.

An example of such a screw press is Korean Registered Patent Publication No. 10-1337290 (published on June 6, 2013).

However, such a conventional technique has a problem of reaching a certain technical limit in lowering the water content of the sludge, and it is in desperate need to develop a new technology capable of lowering the water content.

Korean Registered Patent Publication No. 10-1337290 (Announced on December 6, 2013)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and the present invention has been made in view of the above problems, and an object of the present invention is to provide a sludge- And to provide a power low carbon screw press.

The present invention also provides a low-power low-carbon screw press having filtration function on a screw shaft which is advantageous in maintenance from the viewpoint of enhancing the concentration and dewatering effect through the cleaning means of the screen chamber and cleaning means for enhancing durability The purpose is to provide.

As a means for solving the above problems, a low-power low-carbon screw press having a filtering function on a screw shaft of the present invention,

Base frame,

One side and the other side of the base frame being fixed to one side and the other side of the base frame,

A hollow cylindrical screen chamber fixed at both ends between the one and the other support rods and having a double perforated network structure,

A screw shaft installed inside the screen chamber and having a screw shaft formed so as to gradually increase its outer diameter from one end toward the other end and a screw blade formed in a spiral shape on the outer circumferential surface of the screw shaft,

A cleaning means for cleaning the screen chamber located outside the screen chamber and

And a pressurizing unit installed on the other support stand and moving toward one side to pressurize the concentrated sludge,

The screw shaft is hollow and has a perforated mesh structure. When the sludge is pressed by the rotation of the screw shaft, a part of water contained in the sludge is introduced into the outside of the screw shaft and discharged, .

The pressurizing means includes a presser for moving the other side end portion of the screw shaft to move to the opposite side in the discharge direction of the dewatered sludge to adjust the back pressure,

The water introduced into the screw shaft and moved to the other end of the screw shaft by the inclination of the screw shaft is connected to the lower surface of the presser at one end thereof and the other end is protruded at the lower portion of the screen chamber, And discharged through a liquid discharge path.

In addition,

A linear motion system including a linear motion guide installed between the one side and the other side support in a longitudinal direction of the screen chamber and a linear motion block moving on the linear motion guide and driven by a servo motor,

A main bracket fixed at the center of the linear motion block and installed in a direction perpendicular to the linear motion guide,

A ball bush coupled to both ends of the main bracket,

Guide shafts installed through the ball bushes and installed parallel to the linear motion guides and fixed to the one and the other support rods at both ends,

A cleaning water supply pipe formed to surround the outer periphery of the screen chamber,

A plurality of washing water nozzles disposed at predetermined intervals in the washing water supply pipe,

And a plurality of connection brackets having an upper portion coupled to the ball bush and a lower portion coupled to the wash water supply pipe.

One end of the screw shaft is coupled to a hollow shaft which is rotatably supported by a bearing on one side support base,

A plurality of sludge discharging holes are formed in an outer circumference between the partition wall and the hollow shaft and sludge introduced through the hollow shaft is discharged to the outside of the screw shaft.

The other end of the screw shaft is coupled to a solid shaft rotatably supported by an additional support provided on the outer side of the other support rod, and a first flange formed at one end of the solid shaft and a second flange formed at the other end of the screw shaft, , ≪ / RTI >

And a plurality of dewatering outlets are provided on the outer sides of the first flange and the second flange at regular intervals along the outer periphery.

According to the present invention, the low-power low-carbon screw press having a filtration function on the screw shaft of the present invention can remarkably increase the concentration and dehydration effect of the sludge by utilizing the hollow screw shaft formed by punching, It is possible to minimize the carbon dioxide emission and to increase the concentration and dewatering effect through the cleaning means of the screen chamber and to provide the cleaning means for enhancing the durability.

1 to 3 are sectional views showing a low-power low-carbon screw press having a filtering function on a screw shaft according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION A preferred embodiment of a low-power low-carbon screw press having a filtering function on a screw shaft according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 are sectional views showing a low-power low-carbon screw press having a filtering function on a screw shaft according to the present invention.

1 and 2, a low-power low-carbon screw press having a filtering function on a screw shaft 41 according to the present invention includes a base frame 10, one side and the other side supports 20 and 21, (30), a screw (40), a cleaning means, a pressurizing means, and the like.

The base frame 10 is an upper portion of each component to be described later. The base frame 10 is formed by combining a beam or the like to stably support the structures installed on the upper portion.

The one side and the other side support rods 20 and 21 are fixed to one side and the other side of the base frame 10, respectively.

The screen chamber 30 is a hollow cylindrical member fixed at both ends between the one and the other support rods 20 and 21 and having a double perforated network structure. The screen chamber 30 is composed of an inner net 31 and an outer net 32, The inner net 31 is configured to have a smaller hole size than the outer net 32 and the outer net 32 is configured to support the inner net 31.

The screw 40 is installed in the screen chamber 30 and has a screw shaft 41 formed to gradually increase its outer diameter toward the other end from the one end and a screw blade 41 formed in a spiral shape on the outer circumferential surface of the screw shaft 41. [ (42). The sludge is forcibly rotated by the driving means, and the sludge supplied into the screen chamber (30) is transferred and pressed from one side to the other side.

When the sludge is pressurized by the rotation of the screw shaft 41, a part of water contained in the sludge outside the screw shaft 41 flows into the inside of the screw shaft 41 So that the amount of dehydration can be increased.

One end of the screw shaft 41 is coupled to a hollow shaft 43 rotatably supported by a bearing on one side support 20 and a partition wall 44 is formed in one end of the screw shaft 41. [ And a plurality of sludge outlets 45 through which the sludge introduced through the hollow shaft 43 is discharged to the outside of the screw shaft 41 are formed on the outer circumference between the partition wall 44 and the hollow shaft 43 Respectively.

The other end of the screw shaft 41 is coupled to a solid shaft 46 rotatably supported by an additional support provided outside the other support rod 21, And a second flange 48 formed on the inner side of the other end of the screw shaft 41. The outer side of the first flange 47 and the second flange 48 are formed with a constant A plurality of dewatering outlets 49 are provided at intervals.

The driving means is a means for forcibly rotating the screw 40, and includes a driving motor M, a chain C, a sprocket S, and the like.

1 and 3, the cleaning means is located outside the screen chamber 30 and serves to clean foreign substances adhering to the perforation by spraying water into the screen chamber 30. As shown in FIGS. 1 and 3, A linear motion guide 51 provided between the other side support rods 20 and 21 in the longitudinal direction of the screen chamber 30 and the linear motion guide 51 and limited in movement by the limit switch L A linear motion system having a linear motion block 52 moving in the opposite direction and being driven by a servo motor SM, a central portion fixed to the linear motion block 52, A ball bushing 54 coupled to both ends of the main bracket 53 and a ball bushing 54 installed to pass through the ball bushing 54 and installed parallel to the linear motion guide 51, A washing water supply pipe 56 enclosing the outer periphery of the screen chamber 30 and a cleaning water supply pipe 56 surrounding the inside of the washing water supply pipe 56 at regular intervals And a plurality of connection brackets 58 having an upper portion coupled to the ball bush 54 and a lower portion coupled to the wash water supply pipe 56. The washing water supply pipe 56 provided with the nozzle is firmly supported and moved by the guide shaft 55, the ball bush 54, the main bracket 53 and the connecting bracket 58, so that an external force So that the durability of the apparatus can be increased.

The pressurizing means is a means for pressing the concentrated sludge while being installed on the other support base 21 and moving toward one side. The pressurizing means covers the other end of the screw shaft 41 and is disposed on the opposite side to the discharge direction of the dewatered sludge (61.Pressor) that adjusts the back pressure by moving the screw shaft (41), and flows into the inside of the screw shaft (41) and is guided to the other end of the screw shaft (41) by the inclination of the screw shaft The moved moisture is transferred to the presser 61 and then discharged through a dehydrating solution discharge path 62 formed at one end of the presser 61 and coupled to the lower portion of the screen chamber 30 .

The presser 61 is coupled to a link bar 64 whose one end is hinged to the other support 21 and the other end is connected to the front end of the air cylinder 63, The sludge is pressurized while moving the presser 61 in one direction.

The screen chamber 30 is provided with an inclined surface and a water discharge hole so that moisture falling from the screen chamber 30 can be collected and discharged. The moisture discharged from the inside of the screw shaft 41 is also discharged .

The low-power low-carbon screw press having a filtration function on the screw shaft 41 of the present invention, through the above-described problem, can effectively remove the concentration and dehydration effect of the sludge by utilizing the hollow screw shaft 41, It is possible to increase the concentration and dewatering effect of the screen chamber 30 through the cleaning means of the screen chamber 30 and to provide a cleaning means for enhancing the durability.

10: Base frame
20: one side support 21: the other side support
30: Screen chamber 31: Inner mesh
32: outer network
40: screw 41: screw shaft
42: screw blade 43: hollow shaft
44: partition wall 45: sludge outlet
46: Solid shaft 47: 1st flange
48: Second flange 49: Dewatering liquid outlet
51: Linear motion guide 52: Linear motion block
53: main bracket 54: ball bush
55: guide shaft 56: wash water supply pipe
57: wash water nozzle 58: connection bracket
61: Presser 62: Dewatered liquid discharge path
63: air cylinder 64: link bar
M: Drive motor C: Chain
S: Sprocket SM: Servo motor
L: Limit switch

Claims (1)

Base frame,
One side and the other side of the base frame being fixed to one side and the other side of the base frame,
A hollow cylindrical screen chamber fixed at both ends between the one and the other support rods and having a double perforated network structure,
A screw shaft installed inside the screen chamber and having a screw shaft formed so as to gradually increase its outer diameter from one end toward the other end and a screw blade formed in a spiral shape on the outer circumferential surface of the screw shaft,
A cleaning means for cleaning the screen chamber located outside the screen chamber and
And a pressurizing unit installed on the other support stand and moving toward one side to pressurize the concentrated sludge,
The screw shaft is hollow and has a perforated network structure. When the sludge is pressed by the rotation of the screw shaft, a part of water contained in the sludge is discharged to the outside of the screw shaft to be discharged,
The pressurizing means includes a presser for moving the other end of the screw shaft to move to the opposite side of the direction of discharge of the dewatered sludge to adjust the back pressure,
The water introduced into the screw shaft and moved to the other end of the screw shaft by the inclination of the screw shaft is connected to the lower surface of the presser at one end thereof and the other end is protruded at the lower portion of the screen chamber, Is discharged through a liquid discharge path,
The cleaning means
A linear motion system including a linear motion guide installed between the one side and the other side support in a longitudinal direction of the screen chamber and a linear motion block moving on the linear motion guide and driven by a servo motor,
A main bracket fixed at the center of the linear motion block and installed in a direction perpendicular to the linear motion guide,
A ball bush coupled to both ends of the main bracket,
Guide shafts installed through the ball bushes and installed parallel to the linear motion guides and fixed to the one and the other support rods at both ends,
A cleaning water supply pipe formed to surround the outer periphery of the screen chamber,
A plurality of washing water nozzles disposed at predetermined intervals in the washing water supply pipe,
And a plurality of connection brackets having an upper portion coupled to the ball bush and a lower portion coupled to the wash water supply pipe,
One end of the screw shaft is coupled to a hollow shaft rotatably supported by a bearing on one side support,
And a plurality of sludge discharging holes are formed in an outer circumference between the partition and the hollow shaft so that the sludge flowing through the hollow shaft is discharged to the outside of the screw shaft.
Low-power low-carbon screw press with filtration function on screw shaft

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