LU102553B1 - Environmentally friendly solid-liquid separation device - Google Patents

Abstract

An environmentally friendly solid-liquid separation device comprising a cylinder body, wherein a housing is installed in the inner cavity of the cylinder body, and a cover plate is connected to the top of the housing by a buckle, and a first through hole is provided at the bottom of the housing , and wherein a filter cotton layer is disposed above the first through hole, and a rotating shaft is symmetrically welded to the intermediate portion of the outer wall of the housing, and a reduction device is installed on the outside of the cylinder body, and the power output end of the reduction device for transmission with the rotating shaft is connected, and a motor is installed at the power input end of the reduction device, and a box body is movably connected under the cylinder body, and the upper opening of the box body is formed open, and with the A drain pipe is connected in the middle of the lower surface of the box body, and a support plate is installed in an inner cavity of the box body.

Description

Description Environmentally friendly solid-liquid separation device

TECHNICAL FIELD The present utility model relates to the field of solid-liquid separation technology, in particular an environmentally friendly solid-liquid separation device.

BACKGROUND ART Solid-liquid separation is a process in which suspended solids are removed from water or waste water. Solids are generally removed from wastewater using sieving or sedimentation processes. The separation methods used in sludge treatment include gravity concentration of the sludge, flotation of the sludge, or mechanical dewatering of the sludge. When it comes to water treatment, there are microfiltration, clarification and deep-bed filtration processes. The process of separating solid and liquid is solid-liquid separation, and there are many processes such as sedimentation, filtration, membrane filtration, filter press and vacuum. The centrifugal solid-liquid separator is a machine that uses centrifugal force to separate the solid particles and flakes in the liquid. The currently existing solid-liquid separation device mainly has the following disadvantages:

1. In the currently existing solid-liquid separation device, the liquid is immediately drained after the separation, since the liquid contains a large amount of impurities, immediate draining will lead to environmental pollution;

2. With the solid-liquid separation apparatus currently in existence, the solids after separation cannot be conveniently taken out from inside the apparatus.

CONTENT OF THE PRESENT USED MODEL It is an aim of the present utility model to provide an environmentally friendly solid-liquid separation device in order to solve the problems of the prior art. To solve the above technical problems, the present utility model uses the following technical solution: an environmentally friendly solid-liquid separation device comprising a cylinder body, a housing being installed in the inner cavity of the cylinder body, and a cover plate being attached to the upper part of the housing a buckle is connected, and wherein a first through hole is provided at the bottom of the housing, and wherein a filter cotton layer is arranged above the first through hole, and wherein a rotating shaft is symmetrically welded to the intermediate portion of the outer wall of the housing, and wherein on the outside a reduction device is installed on the cylinder body, and the power output end of the reduction device is connected to the rotating shaft for transmission, and a motor is installed on the power input end of the reduction device, and a box is installed under the cylinder body nbody is movably connected, and wherein the upper opening of the box body is formed open, and a drain pipe is connected to the center of the lower surface of the box body, and a support plate is installed in an inner cavity of the box body, and a support plate is installed above the support plate Microfiltration membrane is laid, and wherein a second through hole is provided on the surface of the carrier plate. A cylinder cover is connected to the upper part of the cylinder body by a hinge, the bottom of the cylinder body being made open, with the arrangement of the cylinder cover it is prevented that the separated water is thrown out through the upper opening of the cylinder body.

A handle is firmly attached to the upper surface of the cover plate, the outer wall of the handle being covered with a hump rubber pad, with the arrangement of the handle a holding point for the cover plate can be provided in order to facilitate the dismantling and assembly of the cover plate, and with the arrangement of the hump rubber pad, the frictional force between the hand and the handle can be increased.

The first through holes are provided in a number of more than 1, and the first through holes are distributed in a matrix arrangement, which is conducive to solid-liquid separation.

A bearing is arranged on one side of the rotating shaft and is fixedly installed on the inner wall of the cylinder body, the inner ring of the bearing being rotatably connected to the rotating shaft; by the fact that the rotating shaft rotates in mating manner with the inner ring of the bearing, the resistance of the housing to the rotation can be reduced, at the same time the gyration accuracy of the housing is ensured. At the edge of the lower surface of the cover plate, a protrusion is arranged surrounding it, wherein a sealing rubber strip is embedded in the outer wall of the protrusion; in that the projection and the upper opening of the housing form an embedded structure and the sealing rubber strip is tightly fitted to the inner wall of the upper opening of the housing, the sealing effect of the joint between the cover plate and the housing can be improved.

The upper opening of the box body corresponds to the lower opening of the cylinder body, the size of the upper opening of the box body being larger than that of the lower opening of the cylinder body, which is conducive to the separated water and the | to collect deposited solid. Self-locking universal wheels are installed symmetrically on both sides of the drainpipe, with the arrangement of the self-locking universal wheels, the movement of the box body is facilitated, thereby reducing the labor intensity during transportation. The second through-holes are provided in a number greater than 1, the second through-holes being distributed in a matrix arrangement, which is conducive to the water permeating through the carrier plate after filtering.

Support rods are symmetrically welded to the bottom of the outer wall of the cylinder body, and a seat is installed at the lower end of the support rod to provide stable support for the cylinder body. Advantages:

1. The materials are fed to the inside of the housing, at the same time the cover plate is attached to the upper opening of the housing, after the motor has been switched on, it drives the housing to rotate, and by a mutual fit between different gears in the reduction gear, the Rotation speed of the housing is set, after the high-speed rotation of the housing, the water content in the materials is filtered out through the filter cotton layer under the action of centrifugal force and then thrown out through the first through holes, while the solid materials are caught by the filter cotton layer on the inside of the housing, the separated water falls under the action of gravity to the inside of the box body, and the water is filtered through the microfiltration membrane, thereby the small impurities mixed in the water can be excellently filtered out to avoid that s an immediate discharge of the water leads to environmental pollution;

2. After the completed solid-liquid separation, the cover plate is opened, at the same time the housing is driven to rotate by the motor so that the opening of the housing is directed downwards, and in that the box body is directly below the lower opening of the Housing, the solid materials in the housing fall under the action of gravity into the box body, and the solid materials are supported by the support plate, which is conducive to taking the solid materials out of the interior of the device after the deposition.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a schematic representation of the overall structure of the present utility model. FIG. 2 shows a schematic cross-sectional structural diagram of a housing of the present utility model.

FIG. 3 shows a schematic structural view of a cover plate of the present utility model.

Figure 4 shows a schematic cross-sectional structural diagram of a box body of the present utility model.

LIST OF REFERENCE NUMERALS 1 cylinder body 101 cylinder cover 2 housing 201 cover plate 202 handle 203 hump rubber pad 204 first through hole 205 filter cotton layer 206 rotating shaft 207 bearing 208 protrusion 209 sealing rubber strip 3 reducer 301 motor 4 box body 401 drain pipe 402 self-locking universal wheel 403 support plate 5 second through hole 404 microfiltration membrane 405

501 seat

DETAILED DESCRIPTION See Figures 1 to 4, the present utility model provides the following technical solution: an environmentally friendly solid-liquid separation device comprising a cylinder body 1, wherein a housing 2 is installed in the inner cavity of the cylinder body 1, and where ans Upper part of the housing 2 a cover plate 201 is connected by a buckle, and wherein a first through hole 204 is provided on the bottom of the housing 2, and wherein a filter cotton layer 205 is arranged above the first through hole 204, and wherein on the intermediate portion of the outer wall of the housing 2, a rotating shaft 206 is symmetrically welded, and a reduction device 3 is installed on the outside of the cylinder body 1, and the power output end of the reduction device 3 is connected to the rotating shaft 206 for transmission, and at the power input end of the reduction device 3, a motor 30th 1 is installed, and under the cylinder body 1, a box body 4 is movably connected, and the upper opening of the box body 4 is formed open, and with the center of the lower surface of the box body 4, a drain pipe 401 is connected, and in one inner cavity | of the box body 4, a carrier plate 403 is installed, and a microfiltration membrane 404 is laid above the carrier plate 403, and a second through hole 405 is provided on the surface of the carrier plate 403. The materials are fed to the inside of the housing 2, at the same time the cover plate 201 is attached to the upper opening of the housing 2, after the motor 301 is turned on, it drives the housing 2 to rotate, and by a mutual fit between different gears in the Reduction device 3, the speed of the housing 2 is set, after the high-speed rotation of the housing 2, the water content in the materials is filtered out under the action of centrifugal force through the filter cotton layer 205 and then thrown out through the first through holes 204, while the solid materials through the filter cotton layer 205 the inside of the housing 2 are collected, the separated water falls under the action of gravity to the inside of the box body 4, and through the

Microfiltration membrane 404, the water is filtered, as a result of which the small impurities mixed in the water can be filtered out in an excellent manner, in order to avoid that an immediate discharge of the water leads to environmental pollution; After the completed solid-liquid separation, the cover plate 201 is opened, at the same time the housing 2 is driven to rotate by the motor 301, so that the opening of the housing 2 is directed downwards, and because the box body 4 is directly below the is located in the lower opening of the housing 2, the solid materials in the housing 2 fall under the action of gravity into the box body 4, and the solid materials are supported by the support plate 403, which is conducive to the solid materials after deposition from the interior of the Take out the device.

A cylinder cover 101 is connected to the upper part of the cylinder body 1 by a hinge, the bottom of the cylinder body 1 being open; the arrangement of the cylinder cover 101 prevents the separated water from being thrown out through the 1 upper opening of the cylinder body 1.

A handle 202 is firmly attached to the upper surface of the cover plate 201, the outer wall of the handle 202 being covered with a hump rubber pad 203, with the arrangement of the handle 202 a holding point for the cover plate 201 can be provided to facilitate the dismantling and assembly of the To facilitate cover plate 201, and with the arrangement of the hump rubber pad 203, the frictional force between the hand and the handle 202 can be increased.

The first through holes 204 are provided in a number of more than 1, and the first through holes 204 are distributed in a matrix arrangement, which is conducive to solid-liquid separation.

On one side of the rotating shaft 206, a bearing 207 is arranged which is fixedly installed on the inner wall of the cylinder body 1, the inner ring of the bearing 207 being rotatably connected to the rotating shaft 206; in that the rotating shaft 206 rotates in mating manner with the inner ring of the bearing 207, the resistance of the housing 2 to the rotation can be reduced, while the gyration accuracy of the housing 2 is ensured.

At the edge of the lower surface of the cover plate 201, a projection 208 is arranged surrounding it, with a sealing rubber strip 209 being embedded in the outer wall of the projection 208; in that the protrusion 208 and the upper opening of the housing 2 form an embedded structure and the sealing rubber strip 209 is closely fitted to the inner wall of the upper opening of the housing 2, the sealing effect of the joint between the cover plate 201 and the housing 2 can be improved.

The upper opening of the box body 4 corresponds to the lower opening of the cylinder body 1, the size of the upper opening of the box body 4 being larger than that of the lower opening of the cylinder body 1, which is conducive to collecting the separated water and the separated solids.

On both sides of the drain pipe 401, self-locking universal wheels 402 are installed symmetrically, with the arrangement of the self-locking universal wheels 402, the movement of the box body 4 is facilitated, thereby reducing the labor intensity during transportation.

The second through-holes 405 are provided in a number of more than 1, the second through-holes 405 being distributed in a matrix arrangement, which is conducive to the water permeating through the support plate 403 after being filtered.

Support rods 5 are symmetrically welded to the bottom of the outer wall of the cylinder body 1, a seat 501 being installed at the lower end of the support rod 5 in order to provide stable support for the cylinder body 1.

The working principle of the present utility model is as follows: the materials are fed to the inside of the housing 2, at the same time the cover plate 201 is attached to the upper opening of the housing 2, after the motor 301 is switched on, it drives the housing 2 to rotate, and the speed of the housing 2 is set by a mutual fit between different gears in the reduction device 3, after the high-speed rotation of the housing 2, the water content in the materials is filtered out under the action of centrifugal force through the filter cotton layer 205 and then thrown out through the first through holes 204 while the solid materials through the filter cotton layer | ey

205 are collected on the inside of the housing 2, the separated water falls under the action of gravity to the inside of the box body 4, and the water is filtered through the microfiltration membrane 404, so that the small impurities mixed in the water can be filtered out excellently to avoid that immediate discharge of the water leads to environmental pollution; After the completed solid-liquid separation, the cover plate 201 is opened, at the same time the housing 2 is driven to rotate by the motor 301, so that the opening of the housing 2 is directed downwards, and because the box body 4 is directly below the is located in the lower opening of the housing 2, the solid materials in the housing 2 fall under the action of gravity into the box body 4, and the solid materials are supported by the support plate 403, which is conducive to the solid materials after deposition from the interior of the Remove device; a cylinder cover 101 is connected to the upper part of the cylinder body 1 by a hinge, the bottom of the cylinder body 1 being open, with the arrangement of the cylinder cover 101, the separated water is prevented from being thrown out through the upper opening of the cylinder body 1; A handle 202 is firmly attached to the upper surface of the cover plate 201, the outer wall of the handle 202 being covered with a hump rubber pad 203, with the arrangement of the handle 202 a holding point for the cover plate 201 can be provided to facilitate the dismantling and assembly of the Cover plate 201, and with the arrangement of the hump rubber pad 203, the frictional force between the hand and the handle 202 can be increased; the first through holes 204 are provided in a number of more than 1, the first through holes 204 being distributed in a matrix arrangement, which is conducive to solid-liquid separation; on one side of the rotating shaft 206 is a bearing 207 fixedly installed on the inner wall of the cylinder body 1, the inner ring of the bearing 207 being rotatably connected to the rotating shaft 206; in that the rotating shaft 206 rotates in mating manner with the inner ring of the bearing 207, the resistance of the housing 2 to the rotation can be reduced, at the same time the gyration accuracy of the housing 2 is ensured; at the edge of the lower surface of the cover plate 201, a protrusion 208 is arranged surrounding it, with a sealing rubber strip 209 being embedded in the outer wall of the protrusion 208; in that the protrusion 208 and the upper |

_ LU102553 opening of the housing 2 form an embedded structure and the sealing rubber strip 209 fits closely to the inner wall of the upper opening of the housing 2, the sealing effect of the joint between the cover plate 201 and the housing 2 can be improved; the upper opening of the box body 4 corresponds to the lower opening of the cylinder body 1, the size of the upper opening of the box body 4 being larger than that of the lower opening of the cylinder body 1, which is conducive to collecting the separated water and the separated solids; universal self-locking wheels 402 are installed symmetrically on both sides of the drain pipe 401, with the arrangement of the universal self-locking wheels 402, the movement of the box body 4 is facilitated, thereby reducing the labor intensity in transportation; the second through-holes 405 are provided in a number greater than 1, the second through-holes 405 being distributed in a matrix arrangement, which is conducive to the water permeating through the support plate 403 after being filtered; At the bottom of the outer wall of the cylinder body 1, support rods 5 are tied symmetrically, with a seat 501 being installed at the lower end of the support rod 5 in order to provide a stable support for the cylinder body 1.

Claims (10)

Claims 1. Environmentally friendly solid-liquid separation device, characterized in that it comprises a cylinder body (1), a housing (2) being installed in the inner cavity of the cylinder body (1), and a cover plate being installed on the upper part of the housing (2) (201) is connected by a buckle, and wherein a first through hole (204) is provided on the bottom of the housing (2), and wherein a filter cotton layer (205) is arranged above the first through hole (204), and on which Intermediate portion of the (2) outer wall of the housing (2) a rotating shaft (206) is symmetrically welded, and a reduction device (3) is installed on the outside of the cylinder body (1), and the power output end of the reduction device (3) for transmission is connected to the rotating shaft (206), and a motor (301) is installed at the power input end of the reduction device (3), and a box is installed under the cylinder body (1) nbody (4) is movably connected, and wherein the upper opening of the box body (4) is formed open, and wherein a drain pipe (401) is connected to the center of the lower surface of the box body (4), and wherein in an inner cavity of the Box body (4) a carrier plate (403) is installed, and a microfiltration membrane (404) is laid above the carrier plate (403), and a second through hole (405) is provided on the surface of the carrier plate (403). 2. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that a cylinder cover (101) is connected to the upper part of the cylinder body (1) by a hinge, the bottom of the cylinder body (1) being open. 3. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that a handle (202) is fixedly connected to the upper surface of the cover plate (201), the outer wall of the handle (202) being covered with a hump rubber pad (203) . 4. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that the first through holes (204) are provided in a number of more than 1, the first through holes (204) being distributed in a matrix arrangement. ——— 5. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that a bearing (207) is arranged on one side of the rotating shaft (206), which is permanently installed on the inner wall of the cylinder body (1), the inner ring of the Bearing (207) is rotatably connected to the rotating shaft (206). 6. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that a projection (208) is arranged surrounding the edge of the lower surface of the cover plate (201), a sealing rubber strip (209) in the outer wall of the projection (208) is embedded. 7. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that the upper opening of the box body (4) corresponds to the lower opening of the cylinder body (1), the size of the upper opening of the box body (4) being greater than that of the lower Opening of the cylinder body (1) is. 8. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that self-locking universal wheels (402) are installed symmetrically on both sides of the drain pipe (401). 9. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that the second through holes (405) are provided in a number of more than 1, the second through holes (405) being distributed in a matrix arrangement. 10. Environmentally friendly solid-liquid separation device according to claim 1, characterized in that support rods (5) are symmetrically welded to the bottom of the outer wall of the cylinder body (1), a seat (501) being installed at the lower end of the support rod (5) .