CN108863001B

CN108863001B - Inclined efficient solid-liquid separation device and working method thereof

Info

Publication number: CN108863001B
Application number: CN201810815068.3A
Authority: CN
Inventors: 李剑峰
Original assignee: Suzhou Shuimu Kangqiao Environment Engineering Technology Co ltd
Current assignee: Suzhou Shuimu Kangqiao Environment Engineering Technology Co ltd
Priority date: 2018-07-24
Filing date: 2018-07-24
Publication date: 2021-06-08
Anticipated expiration: 2038-07-24
Also published as: CN108863001A

Abstract

The invention discloses an inclined high-efficiency solid-liquid separation device, which comprises: an inclined high-efficiency solid-liquid separation device, comprising: the device comprises a base, a support frame, a solid-liquid separation mechanism and a control device, wherein a first support frame and a second support frame are arranged in the support frame, the height of the first support frame is higher than that of the second support frame, and the solid-liquid separation mechanism is obliquely arranged on the support frame; the solid-liquid separation mechanism is provided with a feed inlet, a separation mechanism and a shell, the feed inlet is provided with a first moisture detection mechanism, the feed inlet is provided with a stirring mechanism, a liquid outlet is arranged below the separation mechanism, and a filtering mechanism is arranged below the liquid outlet; the first moisture detection mechanism detects moisture in the slurry, and the control device adaptively adjusts the running speed of the separation mechanism to realize intellectualization of the separation work; the sludge accumulation phenomenon is avoided due to the arrangement of the stirring mechanism.

Description

Inclined efficient solid-liquid separation device and working method thereof

Technical Field

The invention belongs to the technical field of sewage treatment, and particularly relates to an inclined efficient solid-liquid separation device and a working method thereof.

Background

With the rapid development of social economy, the living standard and the living quality of people are continuously improved, the rhythm of people is continuously accelerated no matter in production or life, the requirement on the environment is higher and higher, and the automation and the intellectualization of production are gradually realized. The treatment of sludge and mud is mostly carried out through sedimentation tank etc. at present, and its processing speed is slower, and its whole processing system area is great, increases the cost expenditure of enterprise.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the invention aims to provide an inclined high-efficiency solid-liquid separation device which is simple in structure and reasonable in design, and greatly improves the structural stability and the production efficiency.

The technical scheme is as follows: in order to achieve the above object, the present invention provides an inclined high-efficiency solid-liquid separation apparatus comprising: the device comprises a base, a support frame, a solid-liquid separation mechanism and a control device, wherein the support frame is internally provided with a first support frame and a second support frame, the height of the first support frame is higher than that of the second support frame, and the solid-liquid separation mechanism is obliquely arranged on the support frame;

be equipped with feed inlet, separating mechanism and casing on the solid-liquid separation mechanism, separating mechanism locates the inside of casing, just the upper portion of casing is located to the feed inlet, feed inlet department is equipped with first moisture detection mechanism, just feed inlet department is equipped with rabbling mechanism, separating mechanism's below is equipped with the leakage fluid dram, the one end that separating mechanism kept away from the feed inlet is equipped with the solid bin outlet, just the below of leakage fluid dram is equipped with filtering mechanism, separating mechanism, first moisture detection mechanism, rabbling mechanism and filtering mechanism all are connected with controlling means.

The inclined efficient solid-liquid separation device provided by the invention optimizes the structure of the whole separation device, and the solid-liquid separation mechanism is obliquely arranged on the support frame, so that liquid can conveniently flow out downwards, and the separation efficiency is improved; the first moisture detection mechanism is arranged at the feed inlet to detect the moisture of the slurry, and the running speed of the separation mechanism is adaptively adjusted through the control device according to the detected data, so that the separation work is intelligentized; simultaneously, the setting of feed inlet department rabbling mechanism lets it can break up the mud that gets into the feed inlet, avoids it to appear silt and piles up the phenomenon, and its back solid-liquid separation of being convenient for has also further improved the efficiency and the effect of its separation to let its better demand that satisfies production.

Furthermore, first support frame and second support frame all adopt retractable support frame, and the setting of retractable support frame lets it can carry out appropriate regulation to separating mechanism's gradient according to actual needs, great improvement its suitability.

Further, be equipped with stand and supporting seat in first support frame and the second support frame, be equipped with the track on the stand, the supporting seat passes through slider and rail connection, just the top of supporting seat is equipped with U type support, U type support cooperatees with separating mechanism, and the setting of U type support lets it can more laminate with separating mechanism, improves the stability of its operation.

Furthermore, a driving mechanism and a screw rod are arranged in the separating mechanism, the screw rod is conical, a rotating blade is arranged on the outer side of the screw rod, the driving mechanism is connected with the screw rod, and the width of the rotating blade is gradually increased along with the reduction of the diameter of the screw rod.

Further, be equipped with a set of filter screen between separating mechanism and the casing, filter screen's mesh diminishes to the casing from separating mechanism gradually, just filter screen adopts to dismantle with the casing and is connected.

Further, the below of solid bin outlet is equipped with the storage case, one side of storage case is equipped with the discharge gate, the discharge gate is connected with extrusion mechanism, just extrusion mechanism's extrusion feed inlet department is equipped with second moisture detection mechanism, extrusion mechanism and second moisture detection mechanism are connected with controlling means. The arrangement of the extrusion mechanism can remove water from the separated solid again, and the extrusion mechanism and the separation mechanism realize double solid-liquid separation, so that the separation effect is further improved.

Furthermore, a pressing plate, a bottom plate and a pressing driving mechanism are arranged in the extruding mechanism, a rotor is arranged on the bottom plate, the pressing plate is obliquely arranged above the bottom plate, the pressing driving mechanism is arranged above the pressing plate, and the pressing driving mechanism is connected with the control device. The inclined pressing plate can improve the pressing effect and facilitate the downward flow of water.

Furthermore, a supporting plate is arranged above the pressing plate, a balance plate is arranged above the supporting plate, the pressing driving mechanism is arranged above the balance plate and adopts a servo motor, a frequency converter is arranged on the servo motor, and the servo motor and the frequency converter are both connected with a control device. The setting of balance plate can let the pressure that the clamp plate pushed down more even, improves its effect of pushing down.

The control device is provided with a separation control module, a detection control module, a stirring control module, an inclination adjustment control module, a pressing control module and a controller module, wherein the separation control module is connected with a driving mechanism in a separation mechanism, a first detection control unit and a second detection control unit are arranged in the detection control module, the first detection control unit and the second detection control unit are respectively connected with a first moisture detection mechanism and a second moisture detection mechanism, the stirring control module is connected with a stirring mechanism, a first support frame adjustment control unit and a second support frame adjustment control unit are arranged in the inclination adjustment control module, the first support frame adjustment control unit and the second support frame adjustment control unit are respectively connected with a first support frame and a second support frame, and the pressing control module is connected with an extrusion mechanism, and the separation control module, the detection control module, the stirring control module, the gradient adjustment control module and the pressing control module are all connected with the controller module.

The working method of the inclined efficient solid-liquid separation device comprises the following specific working methods:

1): firstly, detecting the water content in the slurry entering a feed port through a first water detection mechanism, transmitting a detection result to a control device, analyzing the detected data through a data mechanism in the control device, and transmitting an analyzed result to a controller module;

2): then the controller module adjusts the speed of a driving mechanism in the separating mechanism according to the received data;

3): after the slurry enters the feeding hole, the control device commands the stirring mechanism to stir the slurry through the stirring control module;

4): the stirred slurry enters a separation mechanism for separation, and in the separation process, water is filtered by a filtering mechanism at a liquid outlet and then is discharged downwards;

5): the separated mud is driven by the rotating blades to move upwards and is discharged into a storage box through a solid discharge port;

6): then, when the mud in the storage box flows into the extrusion mechanism, the second moisture detection mechanism detects moisture in the mud and transmits a detection result to the control device when the mud passes through an extrusion feeding port of the extrusion mechanism, the data detected by the data mechanism in the control device are analyzed, and the result obtained by the analysis is transmitted to the controller module;

7): then the controller module adjusts the pressure of the pressing driving mechanism according to the received data, then the balance plate is driven to press downwards by the pressing driving mechanism, and the pressing plate moves downwards in the pressing process of the balance plate, so that the moisture in the mud is extruded;

8): the squeezed water flows into a water accumulation pool below the pressing mechanism, and the squeezed mud is discharged through the output end of the pressing mechanism;

9): in the working process of the steps 1) to 8), the inclination of the separating mechanism can be adjusted according to actual needs, namely the heights of the first support frame and the second support frame are respectively adjusted through the first support frame adjusting control unit and the second support frame adjusting control unit, and the height of the support seat is changed by driving the sliding block to move up and down along the track.

The technical scheme shows that the invention has the following beneficial effects: .

1. The inclined efficient solid-liquid separation device provided by the invention optimizes the structure of the whole separation device, and the solid-liquid separation mechanism is obliquely arranged on the support frame, so that liquid can conveniently flow out downwards, and the separation efficiency is improved; the first moisture detection mechanism is arranged at the feed inlet to detect the moisture of the slurry, and the running speed of the separation mechanism is adaptively adjusted through the control device according to the detected data, so that the separation work is intelligentized; simultaneously, the setting of feed inlet department rabbling mechanism lets it can break up the mud that gets into the feed inlet, avoids it to appear silt and piles up the phenomenon, and its back solid-liquid separation of being convenient for has also further improved the efficiency and the effect of its separation to let its better demand that satisfies production.

2. According to the invention, the first support frame and the second support frame both adopt telescopic support frames, and the arrangement of the telescopic support frames enables the inclination of the separating mechanism to be properly adjusted according to actual needs, so that the applicability of the separating mechanism is greatly improved.

3. According to the invention, the U-shaped support is arranged at the top of the support seat, the U-shaped support is matched with the separating mechanism, and the U-shaped support can be more attached to the separating mechanism, so that the operation stability of the separating mechanism is improved.

4. According to the invention, a material storage box is arranged below the solid discharge port, a discharge port is arranged on one side of the material storage box and is connected with the extrusion mechanism, a second moisture detection mechanism is arranged at the extrusion feed port of the extrusion mechanism, and the extrusion mechanism and the second moisture detection mechanism are connected with a control device. The arrangement of the extrusion mechanism can dewater the separated solid again, and the extrusion mechanism and the separation mechanism realize double solid-liquid separation, so that the separation effect is further improved, and the structure of the solid-liquid separation device is further optimized.

5. The pressing plate, the bottom plate and the pressing driving mechanism are arranged in the extruding mechanism, the rotor is arranged on the bottom plate, the pressing plate is obliquely arranged above the bottom plate, the pressing effect of the pressing plate can be improved due to the arrangement of the oblique pressing plate, and meanwhile, the downward flow of water is facilitated. The top of clamp plate is equipped with the backup pad, the top of backup pad is equipped with the balance plate, push down actuating mechanism and locate the top of balance plate, the pressure that the setting of balance plate can let the clamp plate push down is more even, improves its effect of pushing down.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the support frame of the present invention.

Detailed Description

The invention is further elucidated with reference to the drawings and the embodiments.

Example 1

An inclined high-efficiency solid-liquid separation device as shown in the figure comprises: the device comprises a base 1, a support frame 2, a solid-liquid separation mechanism 3 and a control device 4, wherein a first support frame 21 and a second support frame 22 are arranged in the support frame 2, the height of the first support frame 21 is higher than that of the second support frame 22, and the solid-liquid separation mechanism 3 is obliquely arranged on the support frame 2;

be equipped with feed inlet 31, separating mechanism 32 and casing 5 on solid-liquid separation mechanism 3, the inside of casing 5 is located to separating mechanism 32, just the upper portion of casing 5 is located to feed inlet 31, feed inlet 31 department is equipped with first moisture detection mechanism 33, just feed inlet 31 department is equipped with rabbling mechanism 34, separating mechanism 32's below is equipped with drain 35, the one end that separating mechanism 32 kept away from the feed inlet is equipped with solid bin outlet 36, just the below of drain 35 is equipped with filtering mechanism 6, separating mechanism 32, first moisture detection mechanism 33, rabbling mechanism 34 and filtering mechanism 6 all are connected with controlling means 4.

In this embodiment, the first support frame 21 and the second support frame 22 both adopt retractable support frames.

In this embodiment, the first support frame 21 and the second support frame 22 are provided with an upright column 23 and a support seat 24, the upright column 23 is provided with a rail 25, the support seat 24 is connected with the rail 25 through a slider, the top of the support seat 24 is provided with a U-shaped support 26, and the U-shaped support 26 is matched with the separating mechanism 32.

In this embodiment, the separation mechanism 32 is provided with a driving mechanism 321 and a screw rod 322, the screw rod 322 is tapered, a rotating blade 323 is arranged outside the screw rod 322, the driving mechanism 321 is connected with the screw rod 322, and the width of the rotating blade 323 gradually increases with the decrease of the diameter of the screw rod 322.

In this embodiment, a set of filtering screen 7 is arranged between the separating mechanism 32 and the casing 5, the mesh of the filtering screen 7 gradually decreases from the separating mechanism 32 to the casing 5, and the filtering screen 7 is detachably connected with the casing 5.

In this embodiment the below of solid bin outlet 36 is equipped with storage case 361, one side of storage case 361 is equipped with the discharge gate, the discharge gate is connected with extrusion mechanism 8, just extrusion mechanism 8's extrusion feed inlet department is equipped with second moisture detection mechanism 9, extrusion mechanism 8 and second moisture detection mechanism 9 are connected with controlling means 4.

In this embodiment, the pressing mechanism 8 is provided with a pressing plate 81, a bottom plate 82 and a pressing driving mechanism 83, the bottom plate 82 is provided with a rotor 84, the pressing plate 81 is obliquely arranged above the bottom plate 82, the pressing driving mechanism 83 is arranged above the pressing plate 81, and the pressing driving mechanism 83 is connected with the control device 4.

In this embodiment, a supporting plate 811 is disposed above the pressing plate 81, a balance plate 812 is disposed above the supporting plate 811, the downward driving mechanism 83 is disposed above the balance plate 812, the downward driving mechanism 83 is a servo motor, a frequency converter is disposed on the servo motor, and the servo motor and the frequency converter are both connected to the control device 4.

In this embodiment, the control device 4 is provided with a separation control module, a detection control module, a stirring control module, an inclination adjustment control module, a pressing control module and a controller module, the separation control module is connected with the driving mechanism 321 in the separation mechanism 32, the detection control module is provided with a first detection control unit and a second detection control unit, the first detection control unit and the second detection control unit are respectively connected with the first moisture detection mechanism 33 and the second moisture detection mechanism 9, the stirring control module is connected with the stirring mechanism 34, the inclination adjustment control module is provided with a first support frame adjustment control unit and a second support frame adjustment control unit, the first support frame adjustment control unit and the second support frame adjustment control unit are respectively connected with the first support frame 21 and the second support frame 22, and the pressing control module is connected with the extrusion mechanism 8, and the separation control module, the detection control module, the stirring control module, the gradient adjustment control module and the pressing control module are all connected with the controller module.

The first moisture detection mechanism 33 and the second moisture detection mechanism 9 both employ moisture meters.

Example 2

The working method of the inclined efficient solid-liquid separation device in the embodiment comprises the following specific working methods:

1): firstly, detecting the water content in the slurry entering the feed port 31 through a first water detection mechanism 33, transmitting a detection result to the control device 4, analyzing the detected data through a data mechanism in the control device 4, and transmitting an analyzed result to the controller module;

2): the controller module will then perform speed adjustment of the drive mechanism 321 in the separation mechanism 32 according to the received data;

3): after the slurry enters the feed port 31, the control device 4 instructs the stirring mechanism 34 to stir the slurry through the stirring control module;

4): the stirred slurry enters a separation mechanism 32 for separation, and in the separation process, water is filtered by a filtering mechanism 6 of a liquid outlet 35 and then is discharged downwards;

5): the separated mud is driven by the rotating blade 323 to move upwards and is discharged into the storage box 361 through the solid discharge port 36;

6): then, mud in the storage tank 361 enters the extrusion mechanism 8, when the mud passes through an extrusion feeding hole of the extrusion mechanism 8, the second moisture detection mechanism 9 detects moisture in the mud and transmits a detection result to the control device 4, the detected data is analyzed through a data mechanism in the control device 4, and the analyzed result is transmitted to the controller module;

7): then the controller module adjusts the pressure of the pressing driving mechanism 83 according to the received data, then the balance plate 812 is driven to press downwards by the pressing driving mechanism 83, and in the pressing process of the balance plate 812, the pressing plate 81 moves downwards, so that the moisture in the mud is extruded;

8): the squeezed water flows into a water accumulation pool below the pressing mechanism 8, and the squeezed mud is discharged through the output end of the pressing mechanism 8;

9): in the working process of the steps 1 to 8, the inclination of the separating mechanism 32 can be adjusted according to actual needs, that is, the heights of the first support frame 21 and the second support frame 22 are respectively adjusted by the first support frame adjusting control unit and the second support frame adjusting control unit, and the height of the support seat 24 is changed by driving the sliding block to move up and down along the track 25.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims

1. The utility model provides a high-efficient solid-liquid separation equipment of tilting which characterized in that: the method comprises the following steps: the device comprises a base (1), a support frame (2), a solid-liquid separation mechanism (3) and a control device (4), wherein the support frame (2) is internally provided with a first support frame (21) and a second support frame (22), the height of the first support frame (21) is higher than that of the second support frame (22), and the solid-liquid separation mechanism (3) is obliquely arranged on the support frame (2);

the device is characterized in that a feed inlet (31), a separating mechanism (32) and a shell (5) are arranged on the solid-liquid separating mechanism (3), the separating mechanism (32) is arranged inside the shell (5), the feed inlet (31) is arranged on the upper portion of the shell (5), a first moisture detecting mechanism (33) is arranged at the feed inlet (31), a stirring mechanism (34) is arranged at the feed inlet (31), a liquid discharge port (35) is arranged below the separating mechanism (32), a solid discharge port (36) is arranged at one end, far away from the feed inlet, of the separating mechanism (32), a filtering mechanism (6) is arranged below the liquid discharge port (35), and the separating mechanism (32), the first moisture detecting mechanism (33), the stirring mechanism (34) and the filtering mechanism (6) are all connected with a control device (4);

an upright post (23) and a supporting seat (24) are arranged in the first supporting frame (21) and the second supporting frame (22), a track (25) is arranged on the upright post (23), the supporting seat (24) is connected with the track (25) through a sliding block, a U-shaped support (26) is arranged at the top of the supporting seat (24), and the U-shaped support (26) is matched with the separating mechanism (32);

the separation mechanism (32) is internally provided with a driving mechanism (321) and a screw rod (322), the screw rod (322) is conical, the outer side of the screw rod (322) is provided with a rotating blade (323), the driving mechanism (321) is connected with the screw rod (322), and the width of the rotating blade (323) is gradually increased along with the reduction of the diameter of the screw rod (322);

a material storage box (361) is arranged below the solid discharge port (36), a discharge port is arranged on one side of the material storage box (361), the discharge port is connected with the extrusion mechanism (8), a second moisture detection mechanism (9) is arranged at the extrusion feed port of the extrusion mechanism (8), and the extrusion mechanism (8) and the second moisture detection mechanism (9) are connected with the control device (4);

the working method of the inclined high-efficiency solid-liquid separation device is as follows:

1): firstly, detecting the water content in the slurry entering the feed port (31) through a first water detection mechanism (33), transmitting a detection result to a control device (4), analyzing the detected data through a data mechanism in the control device (4), and transmitting an analysis result to a controller module;

2): then the controller module adjusts the speed of the driving mechanism (321) in the separating mechanism (32) according to the received data;

3): after the slurry enters the feeding hole (31), the control device (4) orders the stirring mechanism (34) to stir the slurry through the stirring control module;

4): the stirred slurry enters a separation mechanism (32) for separation, and in the separation process, water is filtered by a filtering mechanism (6) of a liquid outlet (35) and then is discharged downwards;

5): the separated mud is driven by a rotating blade (323) to move upwards and is discharged into a storage box (361) through a solid discharge port (36);

6): then, mud in the storage box (361) flows into the extrusion mechanism (8), when the mud passes through an extrusion feeding hole of the extrusion mechanism (8), the second moisture detection mechanism (9) detects moisture in the mud and transmits a detection result to the control device (4), the data detected by the data mechanism in the control device (4) are analyzed, and the result obtained by the analysis is transmitted to the controller module;

7): then the controller module adjusts the pressure of the downward pressing driving mechanism (83) according to the received data, then the downward pressing driving mechanism (83) drives the balance plate (812) to press downwards, and in the process of pressing the balance plate (812), the pressing plate (81) moves downwards, so that the moisture in the mud is extruded;

8): the squeezed water flows into a water accumulation pool below the pressing mechanism (8), and the squeezed mud is discharged through the output end of the pressing mechanism (8);

9): in the working process of the steps 1) to 8), the inclination of the separating mechanism (32) can be adjusted according to actual requirements, namely the heights of the first support frame (21) and the second support frame (22) are respectively adjusted through the first support frame adjusting control unit and the second support frame adjusting control unit, and the height of the support seat (24) is changed by driving the sliding block to move up and down along the track (25).

2. The inclined high-efficiency solid-liquid separation device according to claim 1, wherein: the first support frame (21) and the second support frame (22) are both telescopic support frames.

3. The inclined high-efficiency solid-liquid separation device according to claim 1, wherein: be equipped with a set of filter screen (7) between separating mechanism (32) and casing (5), the mesh of filter screen (7) diminishes gradually to casing (5) from separating mechanism (32), just filter screen (7) and casing (5) adoption can be dismantled and be connected.

4. The inclined high-efficiency solid-liquid separation device according to claim 1, wherein: be equipped with clamp plate (81), bottom plate (82) and push down actuating mechanism (83) in extrusion mechanism (8), be equipped with rotor (84) on bottom plate (82), clamp plate (81) are the top of slope form locating bottom plate (82), push down actuating mechanism (83) and locate the top of clamp plate (81), it is connected with controlling means (4) to push down actuating mechanism (83).

5. The inclined high-efficiency solid-liquid separation device according to claim 4, wherein: the top of clamp plate (81) is equipped with backup pad (811), the top of backup pad (811) is equipped with balance plate (812), push down the top of balance plate (812) is located in actuating mechanism (83), just it adopts servo motor to push down actuating mechanism (83), just the last converter that is equipped with of servo motor, servo motor and converter all are connected with controlling means (4).

6. The inclined high-efficiency solid-liquid separation device according to claim 1, wherein: the device is characterized in that a separation control module, a detection control module, a stirring control module, an inclination adjustment control module, a pressing control module and a controller module are arranged in the control device (4), the separation control module is connected with a driving mechanism (321) in a separation mechanism (32), a first detection control unit and a second detection control unit are arranged in the detection control module, the first detection control unit and the second detection control unit are respectively connected with a first moisture detection mechanism (33) and a second moisture detection mechanism (9), the stirring control module is connected with a stirring mechanism (34), a first support frame adjustment control unit and a second support frame adjustment control unit are arranged in the inclination adjustment control module, and the first support frame adjustment control unit and the second support frame adjustment control unit are respectively connected with a first support frame (21) and a second support frame (22), the pressing control module is connected with the extrusion mechanism (8), and the separation control module, the detection control module, the stirring control module, the gradient adjustment control module and the pressing control module are all connected with the controller module.