KR100345933B1 - Dehydrating apparatus for a separator of solid/liquid of stock excretions - Google Patents

Abstract

The present invention relates to a dehydration apparatus of a manure manure solid-liquid separator that can simplify the structure by further dewatering the solids by a roller compaction method and further increase the dewatering efficiency, the dehydration apparatus comprising: a housing; A hopper installed on the housing; A porous drum rotatably installed in the lower part of the outlet of the hopper through numerous holes through the body having a predetermined width so that the liquid contained in the tomb supplied according to the guide of the hopper may fall; A motor for rotating the porous drum; At least two loading rollers installed in parallel to the upper portion of the porous drum to receive the rotational power of the motor to rotate the porous drum; Support rollers supporting the lower portion of the porous drum such that the porous drum is installed to correspond to the lower portion of the loading roller and is inserted therebetween so as to rotate in close contact with the loading roller; A brush drum protruding countless brushes in the body and rotatably installed at a predetermined position around the periphery of the porous drum to separate the mound sludges caught in the holes of the porous drum; A power transmission member connected to the motor and the one side loading roller to rotate the porous drum; A water collecting tank installed under the porous drum to collect a falling liquid separated from the mound by the porous drum and the loading roller; It is connected to the outlet of the sump tank includes a drain pipe for guiding the discharge of the liquid manure collected in the sump to the outside of the housing.

Description

Dehydrating apparatus for a separator of solid / liquid of stock excretions}

The present invention relates to a dehydration apparatus of a livestock manure solid-liquid separator that dehydrates the water contained in the livestock manure, and in particular, by dehydrating the livestock solids by a roller compaction method to simplify the structure and further increase the dewatering efficiency.

Livestock manure excreted by livestock farms is a major cause of environmental pollution, so it is collected separately and reprocessed.

As such, the manure reprocessing is mainly used in the sedimentation method using the sedimentation basin, in this sedimentation method sedimentation is inevitably generated in the sedimentation basin to separately process the sediment.

However, in this precipitation method, the solid precipitate having large particles lowers the sedimentation efficiency and lowers the manageability, so that the solid manure (solid powder) having large particles is separated at the pre-sedimentation stage by using the manure manure solid-liquid separator.

The separator for separating the tombs, in addition to the function of separating the tomb and liquid manure (liquid) powder from the manure manure, since the separated tomb contains a lot of water, dehydration function to remove this water is required. Various separators have been developed and used.

1 and 2 illustrate one embodiment of the conventional manure manure separator, which is commonly used as a manure manure separator (application number: 99-2806) previously filed by the applicant.

The conventional manure manure separator is largely divided into a separator 1 for separating the tomb mixed with liquid manure and a dehydration device 2 for dehydrating water contained in the tomb separated from the separator 1.

The separator 1 is a temporary reservoir (4) is installed in the upper portion of the cavity (3) is a metal net in which axial manure flowing through the temporary tank (4) is installed downward from one side of the temporary reservoir (4) (5) when the fluid flows in the overflow method to drain the liquid of manure manure to the sump (6) provided in the lower portion of the metal mesh (5) and discharged to the outlet (7), the tomb of manure manure 5) It is separated by flowing down to the bottom.

In addition, the dehydrator 2 is installed below the separator 1, and the shaft 11 having the screw 10 inside the cylinder 9 is supplied to the hopper 8 through the metal mesh 5. ) Is rotated by the power of the motor to dehydrate the water to collect the dehydrated water in the lower collecting tank 12 to discharge through the outlet 13, the sludge dehydrated as described above is the cylinder ( 9) Discharge to the outlet (not shown) through one side.

By the way, the dewatering device (2) is to dehydrate the mounds by pressing the screw 10 while rotating, the spiral screw 10 should have a sufficient length to sufficiently compress the dewatering the supplied mounds dehydrator There was a problem of being enlarged.

In addition, some of the mounds that are compressed and dehydrated while being moved according to the rotation of the screw 10 are discharged in a non-dehydrated state, and thus, sludge incineration is not possible because the dewatering is not performed efficiently, and these sludges may be reprocessed according to the purpose of use. When handling was a hassle.

Accordingly, the present invention is to solve the conventional defects as described above, the technical problem is to provide a axial manure dehydration apparatus that can simplify the structure by further dewatering the tombs by a roller compaction method, and further increase the dewatering efficiency.

The dehydration device of the liquid manure solid separator is a housing; A hopper installed on the housing and collecting and transporting the tombs discharged to the metal mesh into the housing; A porous drum rotatably installed in the lower part of the outlet of the hopper through numerous holes through the body having a predetermined width so that the liquid contained in the tomb supplied according to the guide of the hopper may fall; A motor providing rotational power to rotate the porous drum; Drive rollers and driven units installed on both sides of the upper part of the porous drum in a rolling contact state and connected to each other by a power transmission member to receive the rotational power of the motor and to rotate the porous drum to the rolling contact state while compressing the tombs supplied therebetween. A loading roller made of a roller; A support roller for supporting the inner wall of the porous drum such that the porous drum is installed to correspond to the respective driving rollers and the driven rollers and is inserted therebetween so as to be in close contact with the driving rollers and the driven rollers; A brush drum protruding countless brushes in the body and rotatably installed at a predetermined position around the perforated drum to separate mound sludges caught in the holes of the perforated drum when the mound is compressed by the rotation of the perforated drum; A power transmission member connected to the motor and the driving roller to rotate the porous drum; A water collecting tank installed under the porous drum and collecting a falling liquid component separated from the tomb by pressing the porous drum with a driving roller and a driven roller; It is characterized in that it comprises a drain pipe connected to the outlet of the sump and discharges the liquid collected in the sump to the outside of the housing,

In order to prevent the liquid content discharged from the separation treatment device with the tombs from being supplied into the hopper, a separator having a porous network at the top and a collection tank having an outlet at the bottom may be further inclined at the top of the hopper. .

1 is a side cross-sectional view showing an internal configuration of a conventional manure manure separator;

Figure 2 is a front schematic view of the dehydration device of the manure solids separator according to the present invention,

3 is a perspective view showing the assembled state of the rolling compression means according to the present invention;

4 is a perspective view of a driving roller according to the present invention;

5 is an enlarged view of a driving roller main part according to the present invention;

Figure 6 is a side cross-sectional view showing an assembled state of the separator of the present invention.

Explanation of symbols on the main parts of the drawings

15 housing 16 hopper

17: sump tank 18: drain pipe

19: motor 20: porous drum

21: drive roller 22: driven roller

23: support roller 24: brush roller

26: supply projection 27: inclined surface

29: filtration filter 30: vacuum pump

31: Separators

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Figure 2 is a front schematic view of the axial manure dehydration apparatus according to the invention, Figure 3 is a perspective view showing the assembled state of the rolling compression means according to the present invention, Figure 4 is a perspective view of the driving roller according to the present invention, Figure 5 is the present invention It is an enlarged view of the main drive roller according to.

Referring to Figure 1, the present invention is provided with a hopper 16 is installed on the upper portion of the housing 15, the rolling pressing means for rolling pressing the polymers supplied through the hopper 16 in the lower portion of the hopper 16 and A collecting tank 17 for collecting the liquids dehydrated from the tombs by the rolling pressing means is installed below the rolling pressing means, and the collected liquid is discharged to the outside of the housing 15 at the lower outlet of the collecting tank 17. The drain pipe 18 is installed.

The rolling compression means rotates in accordance with the rotation of the motor 19, so that the loading roller for rotating the porous drum 20, that is, the driving roller 21 and the driven roller 22, is concentric with the porous drum 20. It is installed, the support rollers 23 are installed in the lower portion of each of the drive rollers 21 and driven rollers 22 to be inserted between the drive rollers 21 and driven rollers 22 and the support rollers 23. The porous drum 20 is supported. In addition, the brush roller 24 is installed at the outer circumference of the porous drum 20 to remove the sludge caught in the porous drum 20 during the high-water dehydration process.

The porous drum 20 has a number of holes through the cylindrical body as shown in the figure so that the dehydrated moisture is discharged to the lower collecting tank 17 when the tombs are compressed. The porous drum 20 may be configured in a metal mesh shape or may be configured by numerous holes in the plate body.

The driving roller 21 and the driven roller 22 of the loading roller are installed on the porous drum 20 at predetermined intervals so that the porous drum 20 can be rotated without being shaken to support the power transmission member. They are connected to each other by 25 and are simultaneously linked by the motor 19. And the position of the drive roller 21 is installed directly below the outlet of the hopper 16 to easily press the tombs supplied, the driven roller 22 is spaced apart a predetermined interval in the rotation direction of the porous drum (20) Is installed in position.

The driving roller 21 and the driven roller 22 are each composed of a metal shaft S to protect the porous drum 20, and the outside of the shaft S is a soft rubber material R. It is preferable that it is comprised in the state covered with coating.

In particular, the drive roller 21 is to the outer periphery of the body so that it is possible to continuously feed the supplied mounds with the porous drum while smoothly rotating the porous drum 20 with a large contact friction as shown in FIGS. Innumerable supply protrusions 26 protrude in the longitudinal direction.

The supply protrusions 26 are protruded like a sawtooth shape as shown in FIG. 5, and when the contacted with the porous drum 20 receives a large frictional force in the rearward direction in the rotational direction, the compressed projections reinforce the rear strength and An inclined surface 27 is formed at the protruding rear end so as to slide well.

The driven roller 22 is dehydrated by closely pressing the coarse pre-compressed in the drive roller 21 by the rolling contact method, for this purpose, the driven roller 22 should be configured to have a smooth surface.

In addition, a normal pressing means 28 is installed outside the driving roller 21 and the driven roller 22 to closely contact the driving roller 21 and the driven roller 22 in the direction of the support roller 23. The porous drum 20 interposed therebetween is in intimate contact with the driving roller 21 and the driven roller 22 to allow smooth rotation.

The support roller 23 is installed to correspond to each of the driving roller 21 and the driven roller 22 so as to stably support the porous drum 20, the size and weight of the porous drum 20 The quantity can be adjusted accordingly to ensure stable support. Therefore, in the present specification, three supporting rollers 23 are used.

Like the driving roller 21, the support roller 23 also has a metal shaft therein, and a rubber material is coated on the outside of the shaft to protect the porous drum.

When the brush roller 24 is dehydrated and stuck in the hole of the porous drum 20 in a sludge state, brushes for pushing the sludge protrude innumerably to the outside of the body, and the brush is the porous drum 20. It is rotatably installed at a suitable position on the outer circumference of the porous drum 20 to be inserted into the hole of the. As an embodiment of the present invention, the drawing is shown to be installed at a lower portion, but may be installed at any other position.

The drain pipe 18 connected to the sump 17 is provided with a filtration filter 29 to filter sludge discharged with the liquid on the flow path, and a vacuum pump 30 behind the filtration filter 29. Is installed to force discharge the sludge filtered in the filtration filter (29).

Here, the drain pipe 18 is configured to open and close any part to replace the filtration filter 29 to remove the sludge when the sludge is accumulated in the filtration filter 29 is not desired to flow the liquid. Configured to do so.

On the other hand, in the present invention, when a small amount of the liquid is also introduced into the hopper 16 is separated from the separation treatment device is introduced into the hopper (16), in order to prevent the liquid is not supplied to the hopper (16) hopper ( It is also possible to further incline the separator 31 to be supplied to the 16 and to collect the liquid to the upper portion of the hopper (16).

The separator 31 is provided with a porous net 32 at the upper portion as shown in FIG. 6, and collects the liquid collected in the lower portion of the porous net 32 under the porous net 32 and discharges it to the discharge port 33. The sump 34 is installed, and both sides of the sump are fixed to the bracket protruding from the housing.

The following describes the process of dehydrating the water contained in the tomb according to the present invention configured as described above.

When driving the dewatering device of the present invention, the drive roller 21 and the driven roller 22 is rotated by the motor 19 and the power transmission member 35 to be inserted between the support roller 23 and the porous The drum 20 is rotated, and the brush roller 24 is also interlocked with the protruding brush because it is inserted into the hole of the porous drum 20.

In this state, the solids separated and discharged from the separator are supplied to the hopper 16, wherein the liquids supplied with the solids are collected in the separator 31 installed on the upper portion of the hopper 16. It will be sent to the settling basin.

Accordingly, the tomb passed through the separator 31 is sequentially compressed between the driving roller 21 and the driven roller 22 according to the rotation of the porous drum 20, thereby compressing moisture contained therein. Dehydrated. At this time, the supply protrusion 26 of the drive roller 21 is pushed by the supplied tombs with the porous drum 20 to be compressed so that the compressed tombs are smoothly separated along the inclined surface 27.

Thus, the porous drum 20 for pressing the tombs is supported by the respective support rollers 23 and is rotated in a stable state without being shaken, and the driving rollers 21 are driven by the pressing force of the pressing means 28. The porous drum 20 is to be rotated smoothly.

The dehydrated liquid is collected through the hole of the porous drum 20 and collected in the lower collecting tank 17, and then discharged to the outside of the housing 15 through the filtration filter 29, such as dehydrated liquid. The discharged sludge is discharged to the outside of the housing 15 through the chute 36.

Although the sludge dehydrated in the dehydration process is blocked in the hole of the porous drum 20, the brush roller 24 is to remove the sludge.

And the sludge discharged together with the liquid when the dehydrated liquid is passed through the drain pipe 18 is filtered in the filtration filter 29 to prevent the sludge from flowing out, the sludge is filtered a lot of the sludge in the filtration filter 29 When the flow is not smooth, the filtration filter 29 is separated to remove the filtered sludge or the vacuum pump 30 is driven to discharge the filtered sludge forcibly.

Therefore, in the present invention, the dewatering device of the solid manure separator is strongly compressed and dehydrated in a roller compaction method of the moisture contained in the tomb, thereby significantly increasing the water dehydration efficiency.

And it is possible to selectively adjust the width of the drum, the configuration has the advantage that the product can be simplified and miniaturized by interposing the porous drum between the loading roller and the support drum.

Claims (3)

In dehydrating the water contained in the constituents of the pulverulent separated by the manure manure solids separation device, A housing 15; A hopper 16 installed on the housing 15 to receive the tombs discharged from the separator; A porous drum 20 which is continuously installed below the hopper 16 so as to be supported by several support rollers 23 installed on concentric circumferences and freely rotate about one point; It is installed on both sides of the upper portion of the porous drum 20 in contact with the rolling and is driven while receiving the driving force from the separate motor 19 to the power transmission member 35 while rotating the porous drum 20 and at the same time supplied therebetween. A driving roller 21 and a driven roller 22 for pressing the mounds to be pressed; A brush roller (24) installed in the lower portion of the porous drum (20) in contact with clouds to drop the mound sludges stuck to the circumferential wall of the porous drum (20); And The lower part of the housing 15, characterized in that the condensed manure dewatering device, characterized in that it comprises a collecting tank (17) for collecting the liquid from the porous drum 20 to discharge through the drain pipe (18). delete delete