CN221131096U - System for high solid content mud of real-time intelligent emission - Google Patents

Abstract

The utility model discloses a system for intelligently discharging high-solid-content sludge in real time, which comprises: the device comprises a siphon mud discharging device arranged on a travelling crane, a control device arranged on the travelling crane and used for controlling the siphon mud discharging device, a mud concentration meter arranged in a sedimentation tank and used for monitoring the concentration of mud residue, and a mud scraping device arranged on the travelling crane and extending into the sedimentation tank, wherein one end of the siphon mud discharging device is positioned at the bottom of the sedimentation tank, and the other end of the siphon mud discharging device extends into a drainage tank outside the sedimentation tank. The sludge concentration meter is arranged in the sedimentation tank to monitor the concentration of sludge, when the sludge concentration meter detects that the sedimentation tank reaches the pollution discharge standard, a signal is fed back to the control device, and the control device controls the siphon sludge discharge device to perform sludge discharge work, so that the influence of manual experience setting on the sludge discharge effect of the system is eliminated, a new structure is not needed, only the new structure is needed, the conception is novel, the sludge discharge water consumption is low, and the fine sludge discharge is performed by setting reasonable concentration parameters.

Description

System for high solid content mud of real-time intelligent emission

Technical field:

The utility model relates to the technical field of water treatment, in particular to a system for intelligently discharging sludge with high solid content in real time.

The background technology is as follows:

The advection sedimentation tank is an important component of water supply enterprise equipment, wherein mud discharging equipment of the advection sedimentation tank of most water supply plants adopts a travelling siphon mud discharging vehicle, and a sewage discharging scheme of the traditional advection sedimentation tank is shown in fig. 1 and comprises a sedimentation tank a, a mud discharging vehicle b, a siphon c, a mud scraping plate d and a water collecting tank upright post e.

At present, the siphon mud discharging vehicle on the market generally uses a siphon principle to walk and suck mud at the same time, so as to remove the mud deposited on the bottom of the pool, the operation parameters of the mud discharging vehicle of a water supply plant are mainly set by manual experience, the refinement degree is not high, a series of problems such as low water outlet concentration and increased water consumption can be caused, the mud discharging time is long, the solid content of mud discharging water is low, the treatment capacity of the follow-up process is increased, the overall operation cost is increased, a great deal of precious water resources can be wasted, and the concept of 'energy conservation and emission reduction' is not met.

In view of this, the present inventors have proposed the following means.

The utility model comprises the following steps:

The utility model aims to overcome the defects of the prior art and provides a system for intelligently discharging high-solid-content sludge in real time.

In order to solve the technical problems, the utility model adopts the following technical scheme: a system for intelligently discharging high-solids sludge in real time, comprising: the device comprises a siphon mud discharging device arranged on a traveling crane, a control device arranged on the traveling crane and used for controlling the siphon mud discharging device, a mud concentration meter arranged in a sedimentation tank and used for monitoring the concentration of mud residue, and a mud scraping device arranged on the traveling crane and extending to the sedimentation tank, wherein one end of the siphon mud discharging device is positioned at the bottom of the sedimentation tank, and the other end of the siphon mud discharging device extends to a drainage tank outside the sedimentation tank.

Furthermore, in the above technical solution, the siphon mud discharging device includes a siphon installed on the travelling crane, a mud sucking port disposed at an inlet end of the siphon and located at a bottom of the sedimentation tank, a pneumatic valve disposed at an outlet end of the siphon and located above the drainage tank, and a submersible pump for filling water into the siphon, wherein the mud concentration meter and the mud scraping device are disposed beside the mud sucking port.

Furthermore, in the above technical scheme, the siphon is including horizontal installation in horizontal pipe portion on the driving, a plurality of intervals set up in on the horizontal pipe portion and downwardly extending to inhale mud main pipe in the sedimentation tank, set up in inhale mud main pipe lower extreme and connect inhale mud mouth inhale mud and divide the pipe and set up in on horizontal pipe portion and downwardly extending to the water storage pipe in the water drainage tank, inhale and be provided with a plurality of on the mud branch pipe inhale the mud mouth, pneumatic valve is located the lower extreme of water storage pipe.

Furthermore, in the above technical scheme, the traveling crane is provided with a plurality of suction pipe brackets which extend downwards into the sedimentation tank and are used for supporting the suction main pipe, and the mud scraping device is arranged at the lower end of the suction pipe brackets and is positioned at one side of the suction port.

In the above technical scheme, the sludge concentration meter adopts ultrasonic or photoelectric sludge concentration meter.

Furthermore, in the above technical scheme, the mud scraping device comprises an arc-shaped mud scraping plate hinged to the lower end of the mud suction pipe support, a rubber plate arranged on the periphery of the arc-shaped mud scraping plate, a lifting mechanism arranged on the travelling crane and used for lifting the arc-shaped mud scraping plate, and a connecting rod for connecting the lifting mechanism with the arc-shaped mud scraping plate.

Furthermore, in the above technical solution, the length of the suction mud branch pipe is equal to the length of the arc-shaped mud scraping plate, and the suction mud branch pipe is located at the inner side of the arc-shaped mud scraping plate, and meanwhile, the rubber plates on two adjacent arc-shaped mud scraping plates are abutted to completely cover the corresponding area of the water collecting tank upright post in the sedimentation tank; the upper end and the lower end of the arc-shaped mud scraping plate are hinged with the mud suction pipe support and the lifting mechanism through a first lifting lug and a second lifting lug respectively, and the connecting rod is a stainless steel rod.

Furthermore, in the above technical scheme, the first lifting lug is provided with two and is located respectively the both ends of arc mud scraper, the second lifting lug set up in the middle part of arc mud scraper and with the one end of connecting rod is articulated, the other end of connecting rod with hoist mechanism connects.

Furthermore, in the above technical scheme, the rubber plate is mounted on the arc-shaped mud scraping plate through the pressing plate, and the pressing plate, the rubber plate and the arc-shaped mud scraping plate are penetrated through by adopting a plurality of bolt groups.

Furthermore, in the above technical solution, the rubber plate is provided with three rubber plates and is respectively located at the left and right ends and the lower end of the arc-shaped mud scraping plate; the pressing plate is made of stainless steel and has a thickness of 4mm; the arc-shaped mud scraping plate is a stainless steel plate, the thickness is 4mm, and the radian radius is 900mm; the rubber plate is made of PE material and has a thickness of 6mm.

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects:

1. According to the utility model, the sludge concentration meter is arranged in the sedimentation tank to monitor the sludge concentration, when the sludge concentration meter detects that the sedimentation tank reaches the pollution discharge standard, a signal is fed back to the control device, and the control device controls the siphon sludge discharge device to perform sludge discharge.

2. According to the utility model, the pneumatic valve is kept in a normally closed state, when the siphon is used for the first time, the siphon is kept full of water through the submersible pump, then the pneumatic valve is directly opened for each time of mud discharge to form the siphon for mud discharge, the submersible pump is not required to be started again to form vacuum, the starting times of the submersible pump are greatly reduced, and the starting times of the vacuum pump are zero in theory under the condition that the pipeline and the valve are not leaked.

Description of the drawings:

FIG. 1 is a prior art schematic diagram of the present utility model;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a second schematic diagram of the structure of the present utility model;

FIG. 4 is a schematic view of a mounting structure of an arc-shaped mud scraper according to the present utility model;

FIG. 5 is a second schematic view of the mounting structure of the arc-shaped mud scraper of the present utility model;

FIG. 6 is a schematic view of the construction of a suction main pipe according to the present utility model;

FIG. 7 is a top view of an arcuate wiper blade of the present utility model;

fig. 8 is a partial enlarged view at a in fig. 4.

The specific embodiment is as follows:

The utility model will be further described with reference to specific examples and figures.

Referring to fig. 2 to 8, a system for intelligently discharging high-solid-content sludge in real time includes: the device comprises a siphon mud discharging device 8 arranged on a travelling crane 2, a control device 10 arranged on the travelling crane 2 and used for controlling the siphon mud discharging device 8, a mud concentration meter 9 arranged in a sedimentation tank 1 and used for monitoring the concentration of mud residue, and a mud scraping device 100 arranged on the travelling crane 2 and extending into the sedimentation tank 1, wherein one end of the siphon mud discharging device 8 is positioned at the bottom of the sedimentation tank 1, and the other end of the siphon mud discharging device 8 extends into a drainage tank 11 outside the sedimentation tank 1. The sludge concentration meter 9 is arranged in the sedimentation tank 1 to monitor the concentration of sludge, when the sludge concentration meter 9 detects that the sedimentation tank 1 reaches the pollution discharge standard, a signal is fed back to the control device 10, the control device 10 controls the siphon sludge discharge device 9 to perform sludge discharge work, the influence of manual experience setting on the sludge discharge effect of the system can be eliminated through the scheme, a new structure is not needed, only the improvement is needed, the conception is novel, the sludge discharge water consumption is low, the refined sludge discharge is performed by setting reasonable concentration parameters, and the method is suitable for the sludge discharge improvement of the horizontal flow sedimentation Chi Hongxi truss sludge discharge vehicle in a waterworks in China.

The siphon mud discharging device 8 comprises a siphon pipe 81 installed on the travelling crane 2, a mud sucking port 32 arranged at the inlet end of the siphon pipe 81 and positioned at the bottom of the sedimentation tank 1, a pneumatic valve 82 arranged at the outlet end of the siphon pipe 81 and positioned above the water discharging groove 11, and a submersible pump 83 used for filling water into the siphon pipe 81, wherein the mud concentration meter 9 and the mud scraping device 100 are arranged beside the mud sucking port 32. The pneumatic valve 82 is installed at the lower end of the siphon pipe 81 close to the water outlet tank 11, the pneumatic valve 82 is kept in a normally closed state, when the siphon pipe 81 is used for the first time, water is filled in the pipe through the submersible pump 83, then the pneumatic valve 82 is directly opened every time for sludge discharge, siphoning can be formed for sludge discharge, the submersible pump 83 is not required to be started again to form vacuum, the starting times of the submersible pump 83 are greatly reduced, and in theory, the starting times of the vacuum pump are zero under the condition that a pipeline and a valve are not leaked.

The siphon 81 comprises a horizontal pipe portion 811 horizontally installed on the travelling crane 2, a plurality of suction main pipes 3 arranged on the horizontal pipe portion 811 at intervals and extending downwards into the sedimentation tank 1, a suction sub-pipe 31 arranged at the lower end of the suction main pipe 3 and connected with the suction ports 32, and a water storage pipe 812 arranged on the horizontal pipe portion 811 and extending downwards into the water storage tank 11, wherein a plurality of suction ports 32 are arranged on the suction sub-pipe 31, and the pneumatic valve 82 is positioned at the lower end of the water storage pipe 812.

The travelling crane 2 is provided with a plurality of suction pipe brackets 21 which extend downwards into the sedimentation tank 1 and are used for supporting the suction main pipe 3, and the mud scraping device 100 is arranged at the lower end of the suction pipe brackets 21 and is positioned at one side of the suction port 32. The sludge concentration meter 9 adopts an ultrasonic or photoelectric sludge concentration meter.

The mud scraping device 100 comprises an arc mud scraping plate 4 hinged to the lower end of the mud suction pipe support 21, a rubber plate 6 arranged on the periphery of the arc mud scraping plate 4, a lifting mechanism 7 arranged on the travelling crane 2 and used for lifting the arc mud scraping plate 4, and a connecting rod 71 connected with the lifting mechanism 7 and the arc mud scraping plate 4. The arc mud scraping plate 4 is located between two water collecting tank upright posts 5 at the bottom of the sedimentation tank 1, the length of the arc mud scraping plate 4 is smaller than two intervals between the water collecting tank upright posts 5, the length of the mud sucking branch pipe 31 is equal to the length of the arc mud scraping plate 4, the mud sucking branch pipe 31 is located at the inner side of the arc mud scraping plate 4, and simultaneously, two adjacent rubber plates 6 on the arc mud scraping plate 4 are in butt joint to completely cover the corresponding area of the water collecting tank upright posts 5 in the sedimentation tank 1. Adopt to set up the length of arc-shaped mud scraping plate 4 to be less than the interval of two water catch bowl stand 5 for arc-shaped mud scraping plate 4 can directly stretch to the bottom of sedimentation tank 1, and set up rubber slab 6 in the periphery of arc-shaped mud scraping plate 4, utilize the deformation of rubber slab 6 can with the bottom of the pool subsides completely and can buckle when contacting with water catch bowl stand 5 and walk around or laminate the outer wall, with guarantee that the silt of bottom of the pool and water catch bowl stand 5 corresponding region can be scraped completely away and concentrate, avoid causing the bottom of the pool to correspond water catch bowl stand 5 region and pile up large tracts of land mud. Secondly, adopt the suction dredge that sets up horizontal transverse distribution in the lower extreme of suction dredge person in charge 3 and be in charge 31 arrange and set up a plurality of suction ports 32 on the suction dredge, make the adsorption area scatter, avoid appearing suction port 32 outlying mud unable suction, thereby reach efficient mud discharging effect, avoid the water yield extravagant, need not to pause the system water blowdown cell body and carry out desilting work, reduce economic loss, practice thrift the cost. In addition, the adoption of the arc-shaped mud scraping plate can enable the sludge to be concentrated towards the middle in the collecting process, so that the sludge is conveniently pumped out through the sludge suction port 32.

The upper end and the lower end of the arc-shaped mud scraping plate 4 are respectively hinged with the mud suction pipe bracket 21 and the lifting mechanism 7 through a first lifting lug 41 and a second lifting lug 42, and the connecting rod 71 is a stainless steel rod. The first lifting lugs 41 are respectively arranged at two ends of the arc-shaped mud scraping plate 4, the second lifting lugs 42 are arranged in the middle of the arc-shaped mud scraping plate 4 and hinged with one end of the connecting rod 71, and the other end of the connecting rod 71 is connected with the lifting mechanism 7. Can upwards perk with arc mud scraping plate 4 swing through hoist mechanism 7, not only can be like this when the reverse motion of mud absorbing truck 2, the opposite side can not be collected mud to arc mud scraping plate 4, but also can be convenient for collect the mud layer upon layer and pile up one side at sedimentation tank 1, make things convenient for the concentrated discharge of follow-up. In an embodiment, the first lifting lug 41 and the second lifting lug 42 are respectively located at two sides of the arc-shaped mud scraping plate 4.

The rubber plate 6 is mounted on the arc-shaped mud scraping plate 4 through a pressing plate 40, and a plurality of bolt groups penetrate through the pressing plate 40, the rubber plate 6 and the arc-shaped mud scraping plate 4. The rubber plates 6 are provided with three blocks and are respectively positioned at the left end, the right end and the lower end of the arc-shaped mud scraping plate 4; the pressing plate 40 is made of stainless steel and has a thickness of 4mm; the arc-shaped mud scraping plate 4 is a stainless steel plate, the thickness is 4mm, and the radian radius is 900mm; the rubber plate 6 is made of PE material and has a thickness of 6mm. The rubber plate 6 is clamped and fixed on the arc-shaped mud scraping plate 4 through the pressing plate 40 matched with a plurality of groups of bolts, so that maintenance and replacement of the rubber plate 6 can be facilitated, and deformation between the rubber plate 6 and the arc-shaped mud scraping plate 4 can be ensured. The lower extreme of the main suction pipe 3 is Y-shaped, the sub suction pipe 31 is transversely connected in series with the tail end of the main suction pipe 3, and the suction ports 32 are horn-shaped and are arranged on the sub suction pipe 31 in parallel. Four suction ports 32 are arranged on the suction branch pipe 31 at intervals, and the sum of the hole areas of the four suction ports 32 is smaller than or equal to the cross-sectional area of the suction main pipe 3.

In summary, the working procedure of the utility model is as follows: when the siphon pipe is used for the first time, the siphon pipe 81 is kept filled with water by pumping water into the siphon pipe 81 through the submersible pump 83; further, when the travelling crane 2 is started, the sludge concentration meter 9 monitors the concentration of the muddy water layer in the sedimentation tank 1 in real time, and when the monitored sludge concentration exceeds a set value C0, the control device 10 opens the pneumatic valve 82 to form siphonage; further, when the siphon is formed, the suction opening 32 of the siphon 81 sucks the sludge at the bottom of the tank, and sucks the sludge deposited at the bottom of the sedimentation tank 1 and under the wall of the tank under the cooperation of the sludge scraping device 100, so that the sludge at the bottom of the sedimentation tank 1 is discharged into the drainage tank 11; further, the travelling crane 2 continues to travel, the concentration of the muddy water layer monitored by the sludge concentration meter 9 in real time is reduced, when the concentration of the sludge monitored by the sludge concentration meter 9 is smaller than a set value C1, the control device 10 closes the pneumatic valve 82, the siphon is terminated, and one sludge discharging procedure is finished. At this time, the siphon tube 81 is still full, so that the next siphon sludge discharge can be continuously operated. That is, the utility model can fully utilize the existing structures such as the sedimentation tank of a water works, and the like, does not need to newly build structures, only needs to be additionally arranged and modified, has novel conception and low mud water consumption, performs fine mud discharge by setting reasonable concentration parameters, and is suitable for the modification of the siphon mud discharge vehicle of the sedimentation tank of a water treatment plant. The scheme can eliminate the influence of manual experience setting on the mud discharging effect of the system, does not need a new structure, only needs additional installation and transformation, has novel conception and low mud discharging water consumption, performs fine mud discharging by setting reasonable concentration parameters, and is suitable for the transformation of the horizontal flow sedimentation Chi Hongxi truss mud discharging vehicle of a water works in China.

It is understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, but rather is to be accorded the full scope of all such modifications and equivalent structures, features and principles as set forth herein.

Claims (10)

1. The utility model provides a system of high solid content mud of real-time intelligent emission which characterized in that includes: the device comprises a siphon mud discharging device (8) arranged on a travelling crane (2), a control device (10) arranged on the travelling crane (2) and used for controlling the siphon mud discharging device (8), a mud concentration meter (9) arranged in a sedimentation tank (1) and used for monitoring mud residue concentration, and a mud scraping device (100) arranged on the travelling crane (2) and extending to the sedimentation tank (1), wherein one end of the siphon mud discharging device (8) is positioned at the bottom of the sedimentation tank (1), and the other end of the siphon mud discharging device (8) extends to a drainage groove (11) outside the sedimentation tank (1).

2. The system for intelligently discharging high-solid-content sludge in real time according to claim 1, wherein the system is characterized in that: the siphon mud discharging device (8) comprises a siphon (81) arranged on the travelling crane (2), a mud sucking port (32) arranged at the inlet end of the siphon (81) and positioned at the bottom of the sedimentation tank (1), a pneumatic valve (82) arranged at the outlet end of the siphon (81) and positioned above the drainage tank (11) and a submersible pump (83) used for enabling the siphon (81) to be filled with water, and the mud concentration meter (9) and the mud scraping device (100) are arranged beside the mud sucking port (32).

3. The system for intelligently discharging high-solid-content sludge in real time according to claim 2, wherein the system is characterized in that: siphon (81) including horizontal installation in horizontal pipe portion (811) on driving (2), a plurality of intervals set up in horizontal pipe portion (811) and downwardly extending to suction dredge main pipe (3) in sedimentation tank (1), set up in suction dredge main pipe (3) lower extreme and connect suction dredge (31) of suction inlet (32) and set up in horizontal pipe portion (811) and downwardly extending to water storage pipe (812) in water drainage tank (11), be provided with a plurality of on suction dredge (31) suction inlet (32), pneumatic valve (82) are located the lower extreme of water storage pipe (812).

4. A system for intelligently discharging high-solid-content sludge in real time according to claim 3, wherein: the mud scraping device is characterized in that a plurality of mud suction pipe supports (21) which extend downwards into the sedimentation tank (1) and are used for supporting the mud suction main pipe (3) are arranged on the travelling crane (2), and the mud scraping device (100) is arranged at the lower end of the mud suction pipe supports (21) and is located at one side of the mud suction opening (32).

5. The system for intelligently discharging high-solid-content sludge in real time according to claim 4, wherein the system is characterized in that: the sludge concentration meter (9) adopts an ultrasonic or photoelectric sludge concentration meter.

6. The system for intelligently discharging high-solid-content sludge in real time according to claim 5, wherein the system is characterized in that: the mud scraping device (100) comprises an arc mud scraping plate (4) hinged to the lower end of the mud suction pipe support (21), a rubber plate (6) arranged on the periphery of the arc mud scraping plate (4), a lifting mechanism (7) arranged on the travelling crane (2) and used for lifting the arc mud scraping plate (4), and a connecting rod (71) connected with the lifting mechanism (7) and the arc mud scraping plate (4).

7. The system for intelligently discharging high-solid-content sludge in real time according to claim 6, wherein the system is characterized in that: the length of the mud suction branch pipe (31) is equal to that of the arc-shaped mud scraping plate (4), the mud suction branch pipe (31) is positioned on the inner side of the arc-shaped mud scraping plate (4), and meanwhile, the butt joint of the two adjacent rubber plates (6) on the arc-shaped mud scraping plate (4) can completely cover the corresponding area of the water collecting tank upright post (5) in the sedimentation tank (1); the upper end and the lower end of the arc-shaped mud scraping plate (4) are hinged with the mud suction pipe support (21) and the lifting mechanism (7) through a first lifting lug (41) and a second lifting lug (42) respectively, and the connecting rod (71) is a stainless steel rod.

8. The system for intelligently discharging high-solid-content sludge in real time according to claim 7, wherein the system is characterized in that: the first lifting lug (41) is provided with two ends respectively located the arc-shaped mud scraping plate (4), the second lifting lug (42) is arranged in the middle of the arc-shaped mud scraping plate (4) and hinged with one end of the connecting rod (71), and the other end of the connecting rod (71) is connected with the lifting mechanism (7).

9. The system for intelligently discharging high-solid-content sludge in real time according to any one of claims 6 to 8, wherein the system is characterized in that: the rubber plate (6) is arranged on the arc-shaped mud scraping plate (4) through a pressing plate (40), and a plurality of bolt groups penetrate through the pressing plate (40), the rubber plate (6) and the arc-shaped mud scraping plate (4).

10. The system for intelligently discharging high-solid-content sludge in real time according to claim 9, wherein the system is characterized in that: the rubber plates (6) are provided with three blocks and are respectively positioned at the left end, the right end and the lower end of the arc-shaped mud scraping plate (4); the pressing plate (40) is made of stainless steel and has a thickness of 4mm; the arc-shaped mud scraping plate (4) is a stainless steel plate, the thickness is 4mm, and the radian radius is 900mm; the rubber plate (6) is made of PE material and has a thickness of 6mm.