KR100877880B1 - Centrifugal hydroextractor - Google Patents

Abstract

A solid-liquid separating centrifugal dehydrator is provided to prevent the abrasion of a screw conveyer and a bowl and to improve dehydrating efficiency. A solid-liquid separating centrifugal dehydrator comprises a cylindrical separation sedimentation part(A); a cone-shaped compression hydration part(B); an inner screw conveyer(130) installed at the inner center part of an outer bowl(110); a solid-liquid separation device(200) for separating the sludge through a sludge injection pipe(150) into a solid part and a liquid part; a falling discharge hole(217); and a guide channel.

Description

Centrifugal hydroextractor

The present invention relates to a solid-liquid separation type centrifugal dehydrator, and more specifically, to separate the solids such as fine sand and coarse sand contained in the sludge, and to perform dehydration to increase durability and increase moisture content of the dewatering member, The present invention relates to a solid-liquid centrifugal dehydrator capable of increasing the coagulation efficiency by the mixing distribution means and improving the dewatering efficiency by the even distribution.

In general, the sludge generated in the water, sewage water treatment process or livestock wastewater treatment process is injected into the centrifugal dehydrator to extract the sludge by the physical centrifugal force.

The centrifugal dehydrator extracts the sludge injected by the operation of the screw conveyor. In the case of the centrifuge, water and solids are injected into the rotating external bowl by injecting water and solids contained in the sludge into the rotating external bowl. In order to isolate | separate this, many are disclosed by Utility Model Application No. 91-16844, Unexamined-Japanese-Patent No. 2000-0064430, etc.

In the Utility Model Application No. 91-16844, the disk is mounted vertically perpendicular to the axial direction at the center of each pitch with a circumferential size of about two thirds of the body plate circumference at the center of the pitch distance of the screw conveyor horizontal side, The disc has dozens of drainage holes, the plate is only responsible for transporting the solids in the body and the disc is configured to settle the solids and prevent flow disturbances of the solids and the upper water,

In addition, Japanese Patent Application Laid-Open No. 2000-0064430 includes a long casing adapted to rotate about a longitudinal axis and a screw conveyor disposed about the same axis in the casing, so that the material to be supplied can be light and heavy. A centrifugal separator for separating, the screw conveyor includes an inlet formed in the conveyor body for supplying a material separated from the body in which the screw is embedded, and an outlet and a baffle for discharging heavy materials from one end casing of the conveyor. And the screw conveyor is adapted to rotate relative to the casing to convey the heavy material towards the outlet, wherein the baffle is formed between the inlets and the outlets and the radial distance at the axial position is the same axis. It is formed smaller than the screw radius distance in a directional position.

In such a conventional centrifugal dehydrator, the sludge and coarse sand are included in the raw sludge into the outer bowl of the dehydration tank, so the sludge injected according to the operation of the screw conveyor is separated into water (dehydration solution) and solids. In the process, the fine thread and coarse sand caused mechanical wear of the dewatering member and the dewatering efficiency also decreased. The sludge introduced into the outer bowl through the sludge inlet tube was eccentric to one side, resulting in a decrease in cohesion efficiency.

In addition, conventionally, the inclined surface of the inclined dehydration portion is formed in the form of a sharp one-step inclination angle of 24 to 36 degrees, so that the sludge solids stay at the beginning of the inclined surface for a long time, causing problems in separating and discharging the solids. There was a problem.

The present invention has been made to solve the above problems, by installing a solid-liquid separator to remove the foreign matter of the sand components contained in the sludge concentrate at the inlet of the sludge inlet pipe of the dehydrator of the screw conveyor and the outer bowl It is to provide a solid-liquid separation type centrifugal dehydrator to prevent wear and increase dehydration efficiency.

In addition, the present invention is to install a triangular pyramid-shaped distribution port in the mixing distribution space inside the inner screw conveyor in contact with the outlet of the sludge inlet pipe to maximize the cohesive efficiency by the even distribution action, forming a conical compression stage 2 stage The present invention provides a solid-liquid separation type centrifugal dehydrator which is formed at an inclination angle so that the dehydrated solids of the sludge can be smoothly discharged.

The solid-liquid separation type centrifugal dehydrator of the present invention is an outer bowl formed with a cylindrical sedimentation recess and a conical crimp dehydration unit inside the casing, a inner screw conveyor installed at the center of the inner surface of the outer bowl, and a mixing inside the inner screw conveyor. The sludge inlet pipe is installed at the position in contact with the dispensing space, and it is composed of centrifugal dehydrator which discharges sludge into the outer bowl through the dispersion hole, separates the solids and the dehydrated filtrate from the outer bowl, and discharges them to the cake discharge part and the dehydration discharge part respectively. Characterized in that the solid-liquid separator is installed at a position in contact with the inlet of the sludge inlet pipe to remove the foreign matter of the sand component contained in the sludge concentrate.

The solid-liquid separation type centrifugal dehydrator according to the present invention removes foreign substances of sand components contained in the sludge concentrate by the solid-liquid separator installed at the inlet of the sludge input pipe, and then inserts the sludge into the sludge input pipe so that the centrifugal dehydration is performed. And it can prevent the wear of the outer bowl and increase the dewatering efficiency, improve the dewatering efficiency by increasing the cohesive efficiency and even distribution by the mixing distribution means of the sludge, and the compression dewatering part of the conical shape smoothly solids It has the effect of being discharged.

The centrifugal dehydrator for solid-liquid separation dehydration according to the present invention includes an outer bowl 110 in which a cylindrical sedimentation settlement portion A and a conical compression dehydration portion B are formed inside the casing 100. In addition, the sludge input pipe 150 is installed at a position in contact with the inner movable screw conveyor 130 installed at the center of the inner surface of the outer bowl 110 and the mixing distribution space 118 inside the inner movable screw conveyor 130. Sludge is discharged into the outer bowl 110 which is reversely rotated through the 140, and the solids and the dewatered filtrate are separated in the outer bowl 110, and the solids are discharged to the cake discharge part 114 at the end of the compression dehydration part (B). The dehydration filtrate is composed of a centrifugal dehydrator discharged to the dehydration filtrate discharge portion 112 at the end of the sedimentation sedimentation section (A), but the sand component contained in the sludge concentrate at a position in contact with the inlet 151 of the sludge input pipe 150. To remove foreign substances from the Characterized in that the installation hayeoseo the separator 200.

In addition, evenly distributed sludge in the mixing distribution space 118 inside the inner movable screw conveyor 130 in contact with the outlet 152 of the sludge inlet tube 150 of the triangular pyramid shape to be ejected into the outer bowl (110). The distribution port 120 is installed.

In addition, the pressing dewatering portion (B) forming the conical shape is to form a two-stage inclination angle for smooth discharge of the dehydrated solids of the sludge.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The casing 100 according to the present invention is installed in a fixed frame and the outer bowl 110 is disposed therein, and the separating wall 102 is installed on the outer circumference of the outer bowl 110 to collect the dehydration liquid collecting space 104 and the cake collecting space. In the lower portion of the dehydration filtrate collection space 104 of the casing 100, the dewatered and separated dewatered filtrate is discharged from the soft sludge containing water, and the cake is formed at the lower portion of the casing 100. The lower portion of the collecting space 106 is capable of discharging the sludge solids in the solid state after subtracting water from the soft sludge containing water.

The outer bowl 110 is formed in a long cylindrical shape with one side of the cone and the outer bowl 110 is rotated in a forward direction by a power transmission means (not shown) consisting of a pulley and a motor on one side of the outer bowl 110 Is disposed horizontally as a whole and is formed in a cylindrical shape, the pressing dehydration portion (B) formed in a conical shape on one side of the outer bowl 110, the other cylindrical portion is a sedimentation settlement (A), each cake on both sides The discharge part 114 and the dehydration liquid discharge part 112 are provided.

The cake discharge portion 114 is located at the end of the compression dehydration portion (B), and is a passage for discharging the solids of the sludge removed moisture in the outer bowl 110,

The dehydration liquid discharge part 114 is a passage for discharging the dehydration liquid formed in the sludge containing moisture formed on the interface of the inner screw conveyor 130.

The inner screw conveyor 130 is horizontally installed in the center of the outer bowl 110, a plurality of screw blades of the inner screw conveyor 130 is formed to extend to the sedimentation settled portion (A) in the same pitch spiral. In the compression dehydration part (B), the circumference of the screw blades gradually decreases according to the angle of the cone.

The sludge inlet tube 150 is installed inside the inner copper screw conveyor 130, so that the foreign substances of the sand component contained in the sludge concentrate at the position in contact with the inlet 151 of the sludge inlet tube 150 can be introduced. Install the solid-liquid separator 200 to.

The solid-liquid separator 200 is provided with a cylindrical body 210 of the upper and lower narrow bar is formed sludge inlet pipe 212 on the upper side wall of the main body 210, the sludge inlet pipe 212 is a high pressure suction The sludge may be introduced through the pump 212a, and an introduction guide 214 is formed at the center of the upper surface of the main body 210 so as to communicate with the sludge inlet pipe 150 and the connecting pipe 215 and the main body 210. At the lower end, the drop discharge port 217 is formed to open and close the opening / closing valve 218.

The sludge inlet pipe 212 is preferably installed eccentrically so that the sludge hit the cylindrical one side wall of the body 210 to be turned, which is the sludge is continuously in the body 210 via the inlet pipe 212 In the case where the sludge is introduced, the sludge is capable of generating a vortex evenly distributed in the form in which the sludge is rotated in the cylindrical interior of the main body 210 by the inflow pressure by the suction pump 212a.

As the sludge is vortexed in the main body 210, the foreign matter is separated into solids up and down in such a manner that the foreign substance of the sand component sinks to the lower side, and the sludge in the solid-liquid separated state is opened in the main body 210. 214) is supplied to the sludge input pipe 150 in the form of being overflowed to allow continuous centrifugal dehydration.

A triangular pyramid-shaped distribution port for distributing sludge evenly into the mixing bowl 118 inside the inner screw conveyor 130 in contact with the outlet 152 of the sludge inlet pipe 150 to be ejected into the outer bowl 110. (120) is installed, but the end of the triangular pyramid of the distribution port 120 is introduced into the outlet 152 end of the sludge input pipe 150 to have a guide flow path 155 to form a space radially sludge distribution action It is desirable to facilitate.

In addition, the conical compression dehydration portion (B) forms a two-stage inclination angle forming an inclination angle on the inclined surface start portion (B1) and the inclined surface middle portion (B2) so that the dewatered cake of the sludge is smoothly discharged, but the dehydration The inclined surface start portion B1 of the portion B forms an inclination angle of 10 to 14 degrees, and the inclined surface middle portion B2 forms an inclination angle of 16 to 20 degrees, so that sludge solids are easily discharged.

Dispersion hole 140 is formed in the wall surface of the inner screw conveyor 130 and a pulley 162 is provided on one side of the rotation shaft 160 to the inner screw conveyor 130 by a power transmission means by the motor 170. ) Rotates.

The inner screw conveyor 130 is horizontally installed in the center of the outer bowl 110, a plurality of screw blades of the inner screw conveyor 130 is formed to extend to the sedimentation settled portion (A) in the same pitch spiral. In the compression dehydration part (B), the circumference of the screw blades gradually decreases according to the angle of the cone.

Referring to the operation of the present invention configured as described above in detail.

The present invention removes the foreign matter of the sand components contained in the sludge concentrate by the solid-liquid separator 200 installed in the inlet 151 of the sludge input pipe 150, and then put the sludge into the sludge input pipe 150 to the power transmission means. As a means for centrifugal dehydration by the outer bowl 110 and the inner screw conveyor 130 which are rotated by the outer bowl 110, it is possible to prevent wear of the inner screw conveyor 130 and the outer bowl 110 and increase the dewatering efficiency. do.

The solid-liquid separator 200 is made of upper and lower negotiation by the inlet pressure of the suction pump (212a) while the sludge concentrate is introduced into the body 210 through the sludge inlet pipe 212 formed on the upper side wall of the main body 210 The sludge inside the cylindrical body 210 is dispersed in the form of swirling and evenly dispersed in the sand component foreign matter is separated into the upper and lower solids by the separation falling into the lower sludge and then the upper sludge in the solid-liquid separated state Is supplied to the sludge inlet pipe 150 in the form of overflowing to the opening guide port 214 of the open upper side in the body 210 to achieve a continuous centrifugal dehydration.

That is, as described above, the sludge separated from the solid body in the main body 210 of the solid-liquid separator 200 is continuously introduced into the sludge input pipe 150 so that dehydration can be performed smoothly, and the bottom of the main body 210 is sand. Since foreign matters of the components are separated and separated, when the foreign matters are accumulated to some extent under the main body 210, the on / off valve 218 may be opened and separated.

The on-off valve 218 is provided with an electronic opening and closing means is automatically opened or closed with a certain time difference by a timer, or is opened and closed manually.

Then, the sludge introduced into the sludge input pipe 150 is discharged into the outer bowl 110 from the mixing distribution space 118 inside the inner screw conveyor 130 to become dehydrated, but the outlet 152 of the sludge input pipe 150 is discharged. The sludge is evenly distributed by the radial guide flow path 155 forming a space by the end of the distribution opening 120 having a triangular pyramid shape inside the end and is ejected to the outer bowl 110 so that the cohesive efficiency can be increased.

In addition, in the conical shape of the centrifugal dehydration, the compression dehydration portion B is formed at the inclined surface start portion B1 and the inclined surface middle portion B2 at two stages of inclination angles that form an inclination angle, respectively. B1) forms an inclination angle of 10 to 14 degrees, and the inclined surface middle portion B2 is made of an inclination angle of 16 to 20 degrees, so that the inclined surface beginning portion B1, which is transported to discharge the dehydrated solids of the sludge, forms a gentle inclination angle. The inclined surface middle portion (B2) is easy to make a larger inclination angle than the inclined surface start portion (B1) to be discharged smoothly in the direction of the cake discharge portion 114, which is a conventional inclined surface in the compression dehydration portion Compared with the configuration of a steep angle of inclination of 24 to 36 degrees, it is easy to separate and discharge the solids.

In the above, the present invention has been described with reference to the above embodiments, but various modifications can be made within the technical scope of the present invention.

Figure 1 is a longitudinal cross-sectional view showing the configuration of the overall centrifugal dehydrator of the present invention

Figure 2 (a) (b) is an enlarged cross-sectional view and action example of the solid-liquid separator of the present invention

Figure 3 is an exemplary view showing the operation of the whole centrifugal dehydrator

4 is an enlarged cross-sectional view of the portion “a” of FIG. 3.

* Explanation of symbols for main parts of the drawings

A: Separation sedimentation part B: Compression dehydration part

B1: Slope start portion B2: Slope middle portion

100 casing 102 partition wall

104: dehydration filtrate collecting space 106: cake collecting space

110: outer bowl 112: cake discharge unit

114: dehydration liquid discharge unit 118: mixed distribution space

120: distribution port 130: inner dong screw conveyor

140: dispersion hole 150: sludge input pipe

151: entrance 152: exit

155: guide flow path 160: pivot shaft

162: pulley 170: motor

200: solid-liquid separator 210: main body

212: sludge inlet pipe 212a: suction pump

214: Input Guide 215: Connector

217: dropping outlet 218: on-off valve

Claims (6)

The inner side of the casing 100 consists of an outer bowl formed with a cylindrical sedimentation settlement portion (A) and a conical crimp dewatering portion (B), but the inclined surface start portion (B1) and the inclined surface middle portion of the crimp dewatering portion (B). (B2) consists of a two-stage inclination angle to form an inclination angle, and And inner screw conveyor 130 is installed in the center of the inner surface of the outer bowl 110, The sludge input pipe 150 is installed at a position in contact with the mixing distribution space 118 inside the inner copper screw conveyor 130, and ejects the sludge into the outer bowl 110 through the dispersion hole 140, and in the outer bowl 110. Separation of the solids and the dehydration liquid in the cake discharge section 114 and the dehydration liquid discharge section 112 is composed of a centrifugal dehydrator discharged to each of the sludge condensate tube 150 in contact with the inlet 151 in the position And the solid-liquid separator 200 is installed to remove the foreign matter contained in the sand component is included, The solid-liquid separator 200 is provided with a cylindrical body 210 of the upper and lower narrow bar is formed in the sludge inlet pipe 212 through which the sludge is introduced through the suction pump (212a) on the upper side wall of the main body 210 and the main body An introduction guide 214 is formed at the center of the upper end of the 210 to communicate with the sludge input pipe 150 and the connecting pipe 215, and the lower end of the main body 210 is provided with a drop discharge outlet having an opening / closing valve 218 ( 217) formed,  A triangular pyramid-shaped distribution port for distributing sludge evenly into the mixing bowl 118 inside the inner screw conveyor 130 in contact with the outlet 152 of the sludge inlet pipe 150 to be ejected into the outer bowl 110. Solid state separation type characterized in that the 120 is installed, but the end of the triangular pyramid of the distribution port 120 has a guide flow path 155 which is inserted into the outlet 152 end of the sludge input pipe 150 to form a radial space. Centrifugal dehydrator. delete delete delete delete delete

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