CN113045171A - Efficient sludge concentration equipment and treatment method - Google Patents

Abstract

The invention discloses a sludge high-efficiency concentration device and a treatment method, wherein the sludge high-efficiency concentration device comprises a concentration device frame assembly, a first side plate, a second side plate, an installation barrel, an arc-shaped groove, a driving assembly, a sludge storage assembly and a cover plate assembly, wherein the concentration device frame assembly comprises a base plate, a first side plate, the second side plate, the installation barrel, the arc-shaped groove, the driving assembly, the sludge storage assembly and the cover plate assembly, the first side plate is fixed on the top surface of the base plate, the second side plate is arranged right opposite to the first side plate and fixed with the base plate, the installation barrel is fixed on the side wall of the first side plate, the arc-shaped groove is formed in the side wall of the second side plate and is abutted against one end of the installation barrel, the sludge storage assembly and the sludge cover plate.

Description

Efficient sludge concentration equipment and treatment method

Technical Field

The invention relates to the technical field of sludge concentration, in particular to a high-efficiency sludge concentration device and a treatment method.

Background

The sludge concentration method comprises a gravity concentration method, an air flotation concentration method and a centrifugal concentration method, in the prior art, a centrifugal sludge concentration mode is used, after sludge concentration is completed, a centrifugal concentration structure needs to wait for workers to discharge the sludge after concentration, and then the sludge to be concentrated is injected, so that the centrifugal concentration mode has the defects of long waiting time, time waste and low efficiency in the use process, and therefore, the sludge high-efficiency concentration equipment and the sludge treatment method are provided.

Disclosure of Invention

Therefore, the invention aims to provide sludge high-efficiency concentration equipment and a sludge treatment method, wherein a relatively independent operation structure is formed by the mutual matching of a concentration equipment frame structure and a sludge storage structure, so that the effects of discharging concentrated sludge and re-injecting sludge to be concentrated are not required to wait after the sludge is concentrated, the time is fully utilized, and the efficiency is improved.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

an efficient sludge concentration device comprises:

the concentration equipment frame assembly comprises a base plate, a first side plate, a second side plate, an installation barrel and an arc-shaped groove, wherein the first side plate is fixed on the top surface of the base plate, the second side plate is arranged right opposite to the first side plate and fixed with the base plate, the installation barrel is fixed on the side wall of the first side plate, and the arc-shaped groove is formed in the side wall of the second side plate and abutted against one end of the installation barrel;

the driving assembly comprises an L-shaped mounting plate arranged on the other side of the first side plate, a driving motor arranged on the surface of the L-shaped mounting plate, an electric telescopic rod for connecting the L-shaped mounting plate with the first side plate, a fixing plate fixed on the two side walls of the driving motor, a fastening bolt for locking the fixing plate and the L-shaped mounting plate, a mounting port arranged on the side surface of the first side plate, a connecting shaft connected to one end of the driving motor, a through hole arranged on the side end of the mounting barrel and a rectangular block which sequentially penetrates through the mounting port and the through hole and extends into the mounting barrel;

the sludge storage assembly comprises a sludge storage frame, a sludge inlet, a rectangular plate, a rectangular opening and a biological membrane filter screen, wherein the sludge storage frame is arranged on one side of the installation cylinder and can be placed in the installation cylinder;

the cover plate assembly comprises a hydraulic rod fixed on the side face of the second side plate, a rotating shaft connected to the top end of the hydraulic rod, a pressing plate fixed with the rotating shaft and toughened glass installed on the surface of the pressing plate.

In a preferable embodiment of the sludge high-efficiency concentration apparatus according to the present invention, a circular rod is fixed to a side surface of the sludge storage frame and an end of the sludge storage frame away from the installation cylinder.

As a preferable scheme of the efficient sludge concentration equipment, a circular sleeve is fixed on one end of the side surface of the pressure plate, which is close to the mounting cylinder.

As a preferable scheme of the efficient sludge concentration equipment, when the pressure plate presses the installation cylinder, the circular rod is sleeved in the circular sleeve.

The preferable scheme of the efficient sludge concentration equipment provided by the invention is that the efficient sludge concentration equipment further comprises a liquid storage assembly, wherein the liquid storage assembly comprises a diversion trench arranged on the bottom surface of the inner wall of the mounting cylinder, a liquid outlet pipe connected to the outer eaves wall of the mounting cylinder, a placing transverse plate fixed on the side wall of the base plate and a liquid storage frame placed on the surface of the placing transverse plate.

As a preferable scheme of the efficient sludge concentration equipment, one end of the liquid outlet pipe is positioned right above the liquid storage frame.

A high-efficiency sludge concentration treatment method comprises the following steps:

s1: firstly, a user injects sludge to be concentrated into a sludge storage frame through a water pump, after the injection is finished, the user directly clamps the sludge storage frame into an installation cylinder by using machinery, after the clamping, a rectangular block is clamped with a rectangular opening, the user stirs a pressing plate after the clamping, the pressing plate directly shields a port of the installation cylinder under the action of a rotating shaft, the installation cylinder is sealed by the pressing plate under the action of a hydraulic rod after the shielding, and the next step is carried out after the sealing is finished;

s2: the user opens the drive motor switch, the drive motor drives the connecting shaft to rotate, the connecting shaft rotates to drive the sludge storage frame to rotate due to the fact that the rectangular opening is clamped with the rectangular block, water continuously diffuses to the periphery of the sludge storage frame in the rotating process, water outlet efficiency is greatly improved, and the user can directly observe the water outlet speed through the toughened glass;

s3: when the sludge storage frame rotates for a period of time and the water is less, the user controls the electric telescopic rod to stretch and retract at the moment to drive the whole driving motor to move backwards until the rectangular opening and the rectangular block are separated from each other, and the sludge storage frame loses external force and stops slowly at the moment to obtain concentrated sludge;

s4, after the concentration is finished, the user directly controls the hydraulic stem to stretch out and draw back forward, the user stirs the clamp plate after stretching out and drawing back, the clamp plate separates with the installation section of thick bamboo under the effect of axis of rotation this moment, the user directly stores the frame with silt and wholly takes out this moment, it has silt to change another and has stored up, treat that concentrated silt stores the frame can, such treatment, practice thrift the silt discharge after the concentration, the time of the thick silt of need concentration is reinjected into again, such silt concentration treatment mode latency is shorter, store the frame when concentrated at another silt, the user will just take out, the silt that the concentration finishes is emptied, and pour into the thick silt that needs the concentration, the make full use of time, and is more.

Compared with the prior art, the invention has the beneficial effects that: through setting up mutual cooperation of concentrator frame structure and storage silt structure, form relatively independent operation structure, reach need not to wait for the silt discharge after will concentrating and the effect of reinjection into with the silt of required concentration after with silt concentration, make full use of time, raise the efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a first perspective view of a sludge concentration plant according to the present invention;

FIG. 2 is a structural view of a driving assembly of the sludge high-efficiency thickening apparatus of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the liquid storage assembly in FIG. 1 of the sludge high-efficiency thickening apparatus according to the present invention;

FIG. 4 is an enlarged view of the sludge storage unit of FIG. 1 of the sludge highly effective thickening apparatus according to the present invention;

FIG. 5 is a second perspective view of the sludge concentration plant according to the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional views illustrating the structure of the device are not enlarged partially according to the general scale for convenience of illustration, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The invention provides a sludge high-efficiency concentration device and a sludge treatment method, wherein a concentration device frame structure and a sludge storage structure are matched with each other to form a relatively independent operation structure, so that the effects of discharging concentrated sludge and re-injecting sludge to be concentrated without waiting after the sludge is concentrated are achieved, the time is fully utilized, and the efficiency is improved.

Fig. 1 to 5 are schematic diagrams illustrating an overall structure of an embodiment of a sludge high-efficiency concentration apparatus according to the present invention, and referring to fig. 1 to 5, a concrete structure of the sludge high-efficiency concentration apparatus and a treatment method according to the embodiment includes: a thickening apparatus rack assembly 100, a driving assembly 200, a sludge storage assembly 300, and a cover plate assembly 400.

The concentrator shelf assembly 100 is used for the constitution and the support of whole equipment, maintain normal operating use, concretely, the concentrator shelf assembly 100 is including the bed plate 110 that sets up, fix the first curb plate 120 at the top surface of bed plate 110, set up in the positive opposite side of first curb plate 120 and with the fixed second curb plate 130 of bed plate 110, fix the installation section of thick bamboo 140 at the first curb plate 120 lateral wall, set up at the second curb plate 130 lateral wall and with the arc wall 150 of the one end butt of installation section of thick bamboo 140, when specifically using, bed plate 110 and ground contact, it is stable to maintain, first curb plate 120 and second curb plate 130 are used for fixed mounting section of thick bamboo 140, conveniently with the cooperation installation of silt subassembly 300 and use.

The driving assembly 200 is used for driving the sludge storage assembly 300 to work and perform dewatering and concentration, and specifically, the driving assembly 200 includes an L-shaped mounting plate 210 disposed at the other side of the first side plate 120, a driving motor 220 disposed on the surface of the L-shaped mounting plate 210, an electric telescopic rod 230 connecting the L-shaped mounting plate 210 with the first side plate 120, fixing plates 240 fixed at two side walls of the driving motor 220, fastening bolts 250 locking the fixing plates 240 with the L-shaped mounting plate 210, a mounting port 260 formed at the side surface of the first side plate 120, a connecting shaft 270 connected to one end of the driving motor 220, a through hole 280 formed at the side end of the mounting barrel 140, and a rectangular block 290 sequentially penetrating the mounting port 260 and the through hole 280 and extending into the mounting barrel 140, when the driving assembly is used specifically, a user opens and closes the driving motor 220, the driving motor 220 drives the connecting shaft 270 to rotate, and the, at this time, the rotation of the connecting shaft 270 drives the sludge storage frame 310 to rotate, and the water in the sludge storage frame 310 continuously diffuses to the periphery in the rotating process, so that the water outlet efficiency is greatly improved, when the sludge storage frame 310 rotates for a period of time and the water is less discharged, a user controls the electric telescopic rod 230 to stretch and retract at this time to drive the whole driving motor 220 to move backwards until the rectangular opening 350 and the rectangular block 290 are separated from each other, and at this time, the sludge storage frame 310 loses external force and stops slowly to obtain concentrated sludge.

The sludge storage assembly 300 is used for storing sludge to be concentrated, and is matched with the concentrating equipment rack assembly 100, so that the waiting time of discharging after the sludge concentration is finished is reduced, and the concentration efficiency is improved, specifically, the sludge storage assembly 300 comprises a sludge storage frame 310 which is arranged on one side of the installation cylinder 140 and can be placed in the installation cylinder 140, a sludge inlet 320 which is arranged on the surface of a tank body of the sludge storage frame 310, a rectangular plate 340 which is fixed on one end side of the sludge storage frame 310, a rectangular opening 350 which is arranged on the surface of the rectangular plate 340 and is clamped with the rectangular block 290, and a biomembrane filter screen 360 which is arranged on the surface of the tank body of the sludge storage frame 310, when the sludge storage assembly is used specifically, a user directly takes out the sludge storage frame 310 integrally after the concentration is finished, then replaces the other sludge storage frame 310 with the sludge to be concentrated, the sludge storage frame 310 to be concentrated does not, the time of the sludge needing to be concentrated is injected again, the waiting time of the sludge concentration treatment mode is short, when the other sludge storage frame 310 is concentrated, a user takes out the sludge just after the sludge is concentrated, the sludge after the concentration is emptied, the sludge needing to be concentrated is injected, the time is fully utilized, and the efficiency is high.

The apron subassembly 400 is used for compressing tightly the silt subassembly 300 that stores up after will installing, prevent to rotate the in-process and accidentally drop and run out to the installation section of thick bamboo 140 outside, reduce the potential safety hazard, it is concrete, apron subassembly 400 is including fixing the hydraulic stem 410 in second curb plate 130 side, connect the axis of rotation 420 on hydraulic stem 410 top, with the fixed clamp plate 430 of axis of rotation 420 and install the toughened glass 440 on clamp plate 430 surface, when specifically using, the user uses machinery to store frame 310 direct card with silt and goes into to the installation section of thick bamboo 140 in, the back is gone into to the card, rectangular block 290 carries out the block with rectangular opening 350, the user stirs clamp plate 430 after the card is gone into, clamp plate 430 directly shelters from the port of installation section of thick bamboo 140 under the effect of axis of rotation 420 this moment, it seals installation section of thick bamboo 140 to shelter.

Further, the back is compressed tightly to clamp plate 430 among this embodiment, is only that connecting axle 270 one side unipolar is connected, and stability is not strong like this to the moisture that whole sludge concentration equipment produced can't in time be retrieved, when the water resource is wasted, lead to the concentrated efficiency of the silt each time of judgement that can not be accurate, for this through setting up circular pole 330, circular sleeve 450 and stock solution subassembly 500 and solve above-mentioned problem.

The one end that the frame 310 side was stored to silt and kept away from the installation section of thick bamboo 140 is fixed with circular pole 330, the one end that the side of clamp plate 430 was close to the installation section of thick bamboo 140 is fixed with circular sleeve 450, when specifically using, when clamp plate 430 compressed tightly the installation section of thick bamboo 140, circular pole 330 cup jointed in circular sleeve 450, store frame 310 at silt like this and rotate the in-process, circular pole 330 is the same at circular sleeve 450 internal rotation, the design of cooperation connecting axle 270 like this, form the biax structure, improve pivoted stability, prevent to drop.

The liquid storage assembly 500 is used for storing liquid in time, weighing the stored liquid, and matching with the whole mass comparison calculation of sludge, the concentration rate can be accurately obtained, so that the concentration efficiency can be controlled more intuitively, specifically, the liquid storage assembly 500 comprises a diversion trench 510 arranged on the bottom surface of the inner wall of the mounting cylinder 140, a liquid outlet pipe 520 connected to the outer eave wall of the mounting cylinder 140, a placing transverse plate 530 fixed on the side wall of the base plate 110 and a liquid storage frame 540 placed on the surface of the placing transverse plate 530, when the liquid storage frame 310 is used specifically, in the rotation process of the sludge storage frame 310, moisture flows out through a biomembrane filter screen 360, water flow splashes on the inner wall of the mounting cylinder 140, because the inner wall of the mounting cylinder 140 is a curved surface, the water flow directly falls down and finally collects in the diversion trench 510, the water flow is left in the liquid storage frame 540 under the action of the diversion trench 510, the structure, the concentration rate is conveniently judged, and the sludge control concentration efficiency is better.

The invention also provides a high-efficiency sludge concentration treatment method, which comprises the following specific steps in combination with the figures 1-5:

s1, firstly, a user injects sludge to be concentrated into the sludge storage frame 310 through a water pump, after the injection is finished, the user directly clamps the sludge storage frame 310 into the installation cylinder 140 through a machine, after the clamping, the rectangular block 290 is clamped with the rectangular opening 350, the clamping user toggles the pressing plate 430, at the moment, the pressing plate 430 directly shields the port of the installation cylinder 140 under the action of the rotating shaft 420, and the mounting cylinder 140 is sealed by the pressing plate 430 under the action of the hydraulic rod 410 after the shielding;

s2, a user turns on a switch of the driving motor 220, the driving motor 220 drives the connecting shaft 270 to rotate, and the rectangular opening 350 is clamped with the rectangular block 290, so that the connecting shaft 270 rotates to drive the sludge storage frame 310 to rotate, water in the sludge storage frame 310 continuously diffuses to the periphery in the rotating process, the water outlet efficiency is greatly improved, and the user can directly observe the water outlet speed through the toughened glass 440;

s3, when the water is discharged less after rotating for a period of time, the user controls the electric telescopic rod 230 to stretch and retract at the moment, the whole driving motor 220 is driven to move backwards until the rectangular opening 350 and the rectangular block 290 are separated from each other, and at the moment, the sludge storage frame 310 loses external force and stops slowly to obtain concentrated sludge;

s4, after the concentration is finished, the user directly controls the hydraulic rod 410 to stretch forwards, the user pulls the pressing plate 430 after stretching, the pressing plate 430 is separated from the mounting cylinder 140 under the action of the rotating shaft 420, the user directly takes out the whole sludge storage frame 310 at the moment, another sludge stored in the frame is replaced, the frame 310 can be stored in the sludge to be concentrated, the treatment mode does not need to wait, the concentrated sludge is discharged, the time of the sludge to be concentrated is saved, the time of the sludge to be concentrated is required to be injected, the waiting time of the sludge concentration treatment mode is short, the user just takes out the sludge to be concentrated when the frame 310 is concentrated in another sludge storage frame, the concentrated sludge is emptied, the sludge to be concentrated is injected, the time is fully utilized, and the efficiency.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the disclosed embodiments of the invention may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. The utility model provides a mud high efficiency concentrator which characterized in that includes:

the concentration equipment frame assembly (100) comprises a base plate (110), a first side plate (120) fixed on the top surface of the base plate (110), a second side plate (130) arranged opposite to the first side plate (120) and fixed with the base plate (110), a mounting barrel (140) fixed on the side wall of the first side plate (120), and an arc-shaped groove (150) arranged on the side wall of the second side plate (130) and abutted against one end of the mounting barrel (140);

the driving assembly (200) comprises an L-shaped mounting plate (210) arranged on the other side of the first side plate (120), a driving motor (220) placed on the surface of the L-shaped mounting plate (210), an electric telescopic rod (230) connecting the L-shaped mounting plate (210) with the first side plate (120), fixing plates (240) fixed on two side walls of the driving motor (220), fastening bolts (250) locking the fixing plates (240) with the L-shaped mounting plate (210), a mounting port (260) formed in the side surface of the first side plate (120), a connecting shaft (270) connected to one end of the driving motor (220), a through hole (280) formed in the side end of the mounting cylinder (140), and a rectangular block (290) which sequentially penetrates through the mounting port (260) and the through hole (280) and extends into the mounting cylinder (140);

the sludge storage assembly (300) comprises a sludge storage frame (310) which is arranged on one side of the installation cylinder (140) and can be placed in the installation cylinder (140), a sludge inlet (320) which is arranged on the surface of the tank body of the sludge storage frame (310), a rectangular plate (340) which is fixed on one end side of the sludge storage frame (310), a rectangular opening (350) which is arranged on the surface of the rectangular plate (340) and is clamped with the rectangular block (290), and a biofilm filter screen (360) which is arranged on the surface of the tank body of the sludge storage frame (310);

the cover plate assembly (400) comprises a hydraulic rod (410) fixed on the side surface of the second side plate (130), a rotating shaft (420) connected to the top end of the hydraulic rod (410), a pressing plate (430) fixed with the rotating shaft (420), and tempered glass (440) installed on the surface of the pressing plate (430).

2. The efficient sludge thickening device of claim 1, wherein: a circular rod (330) is fixed at one end of the side surface of the sludge storage frame (310) far away from the installation cylinder (140).

3. The efficient sludge thickening device of claim 1, wherein: a circular sleeve (450) is fixed on one end of the side surface of the pressure plate (430) close to the mounting cylinder (140).

4. The efficient sludge thickening device of claim 1, wherein: when the pressure plate (430) presses the installation cylinder (140), the circular rod (330) is sleeved in the circular sleeve (450).

5. The efficient sludge thickening device of claim 1, wherein: still include stock solution subassembly (500), stock solution subassembly (500) are including seting up diversion trench (510), the connection of installation section of thick bamboo (140) inner wall bottom surface are in drain pipe (520) of the outer eaves wall of installation section of thick bamboo (140), fix placing diaphragm (530) and placing of bed plate (110) lateral wall place diaphragm (530) surperficial stock solution frame (540).

6. The efficient sludge thickening apparatus as claimed in claim 5, wherein: one end of the liquid outlet pipe (520) is positioned right above the liquid storage frame (540).

7. A sludge high-efficiency concentration treatment method using the sludge high-efficiency concentration equipment according to any one of claims 1 to 6, characterized by comprising the steps of,

s1: firstly, a user injects sludge to be concentrated into a sludge storage frame (310) through a water pump, after the injection is finished, the user directly clamps the sludge storage frame (310) into the installation cylinder (140) by using a machine, after the clamping is finished, the rectangular block (290) is clamped with the rectangular opening (350), the user pokes the pressing plate (430) after the clamping is finished, at the moment, the pressing plate (430) directly shields the port of the installation cylinder (140) under the action of the rotating shaft (420), the mounting cylinder (140) is sealed under the action of the hydraulic rod (410) by the pressing plate (430) after the shielding, and the next step is carried out after the sealing is finished;

s2: the user opens the switch of the driving motor (220), the driving motor (220) drives the connecting shaft (270) to rotate, and the rectangular opening (350) is clamped with the rectangular block (290), so that the connecting shaft (270) rotates to drive the sludge storage frame (310) to rotate, moisture in the sludge storage frame (310) continuously diffuses to the periphery in the rotating process, the water outlet efficiency is greatly improved, and the user can directly observe the water outlet speed through the toughened glass (440);

s3: when the water is discharged less after rotating for a period of time, the user controls the electric telescopic rod (230) to stretch and retract at the moment, the whole driving motor (220) is driven to move backwards until the rectangular opening (350) and the rectangular block (290) are separated from each other, and at the moment, the sludge storage frame (310) loses external force and stops slowly to obtain concentrated sludge;

s4, after the concentration is finished, the user directly controls the hydraulic rod (410) to stretch forwards, the user pulls the pressing plate (430) after stretching, the pressing plate (430) is separated from the mounting cylinder (140) under the action of the rotating shaft (420), the user directly takes out the whole sludge storage frame (310) at the moment, then another sludge is replaced, the sludge to be concentrated can be stored in the frame (310), the treatment mode does not need to wait, the concentrated sludge is discharged, the time of the sludge to be concentrated is required to be injected, the waiting time of the sludge concentration treatment mode is short, when the other sludge storage frame (310) is concentrated, the user just takes out the sludge, the concentrated sludge is emptied, the sludge to be concentrated is injected, the time is fully utilized, and the efficiency is high.

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