CN213253163U - Siphon dredge controller - Google Patents

Abstract

The utility model relates to the technical field of sewage treatment, in particular to a siphon mud machine controller, which comprises a sedimentation tank, a frame arranged on the sedimentation tank, a control module, a travelling crane module, a siphon mechanism and a stirring module, wherein the control module, the travelling crane module, the siphon mechanism and the stirring module are arranged on the frame; the siphon mechanism comprises a sewage pump, a siphon main pipe connected with the sewage pump, a first suction dredge and a second suction dredge, wherein the first suction dredge and the second suction dredge are connected with the siphon main pipe; the first sludge suction machine comprises a mounting seat, a submersible pump and a siphon disc connected with the submersible pump; the stirring module is arranged on the mounting seat; the second sludge suction machine comprises a sludge suction seat communicated with the siphon main pipe; the stirring module includes agitator motor, with the stirring seat that agitator motor drive is connected, and set up in stirring fan blade on the stirring seat. The utility model provides a traditional hydrocone type suction dredge pipeline loaded down with trivial details, control singleness, degree of automation low scheduling problem.

Description

Siphon dredge controller

Technical Field

The utility model relates to a sewage treatment technical field especially relates to a siphon mud machine controller.

Background

With the rapid development of social economy, the living standard of people is continuously improved, the water consumption in cities and countryside is gradually increased, and the pollution is more and more serious. However, the available land in urban and rural areas is less and less, and the standards of tap water established by the country are stricter. Utilize the contact flocculation and precipitation principle to deposit the advection sedimentation tank in order to get rid of aquatic suspended solid at the water works, but take up an area of many, the sedimentation effect is unstable, inhale mud or arrange mud not thorough, and its leading cause is that it is unreasonable to scrape mud suction device setting, inhales mud not thorough, causes mud to store up too much.

The siphon type sludge suction machine is used for sewage treatment plants and water works to scrape sludge settled at the bottom of a tank to a sludge suction port by advection sedimentation, and the sludge is sucked while walking, and then the sludge is discharged out of the tank, so that the sludge at the bottom of the tank is removed.

However, the traditional siphon type suction dredge has complicated pipeline and single control, can realize smooth operation of pumping and discharging mud of the suction dredge only by manual or mechanical adjustment, and has low automation degree.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a siphon sludge machine controller for sucking out sludge settled on the bottom of the tank and discharging the sludge out of the tank, in order to solve the problems of the conventional technology.

A siphon mud machine controller comprises a sedimentation tank, a rack arranged on the sedimentation tank, a control module arranged on the rack, a travelling module, a siphon mechanism and a stirring module arranged on the siphon mechanism; the siphon mechanism comprises a sewage pump, a siphon main pipe connected with the sewage pump, a first suction dredge and a second suction dredge, wherein the first suction dredge and the second suction dredge are connected with the siphon main pipe; the first sludge suction machine comprises a mounting seat, a submersible pump and a siphon disc connected with the submersible pump; the stirring module is arranged on the mounting seat; the second sludge suction machine comprises a sludge suction seat communicated with the siphon main pipe; the stirring module includes agitator motor, with the stirring seat that agitator motor drive is connected, and set up in stirring fan blade on the stirring seat.

In one embodiment, the traveling crane module comprises a driving member, a roller in driving connection with the driving member, and a rail assembly arranged on the sedimentation tank and matched with the roller.

In one embodiment, the first dredge comprises a first branch pipe communicated with the siphon main pipe; the second suction dredge comprises a second branch pipe communicated with the siphon main pipe.

In one embodiment, the system further comprises a flow regulating module; the flow regulating module is respectively connected with the siphon main pipe and the second branch pipe.

In one embodiment, the siphon disc comprises a support frame connected with the submersible pump and at least one group of sludge suction ports arranged on the support frame.

In one embodiment, the mud suction seat comprises a U-shaped pipe and a mud suction pipe communicated with the U-shaped pipe.

In one embodiment, the vacuum-pumping device further comprises a vacuum-pumping module; the vacuumizing module is arranged on the rack; the vacuumizing module comprises a vacuum pump and an exhaust pipe communicated with the vacuum pump and the siphon main pipe respectively.

In one embodiment, the system further comprises a travelling crane frequency converter; the driving frequency converter is arranged on the rack.

In one embodiment, the stirring module comprises a stirring rod and a limiting member arranged on the stirring seat.

In one embodiment, the system further comprises an AC inlet wire, a touch screen, a switch valve and a PLC module; the switch valve is respectively connected with the control module and the AC alternating current inlet wire; the touch screen is connected with the control module; the PLC module is connected with the switch valve.

The utility model has the advantages as follows:

the utility model discloses set up a siphon mud machine controller and be used for the mud suction that will deposit at the bottom of the pool, and with the mud discharge pond outside, set up the frame and be used for overall structure's connection installation use, set up the driving module and be used for realizing that the frame moves on the sedimentation tank, the collection effect of mud is good, siphon mechanism and stirring module cooperate, the stirring module stirs the very tight mud of bonding, the mud that stirs is absorbed by siphon mechanism again, it is effectual to inhale mud, siphon mechanism includes the sewage pump, the person in charge who is connected with the sewage pump, the sewage pump absorbs mud through the person in charge of siphon, the first suction dredge and the second suction dredge that are connected with the person in charge of siphon, first suction dredge and second suction dredge mutually support and further improve the efficiency of inhaling mud; the first sludge suction machine comprises a mounting seat, a submersible pump and a siphon disc connected with the submersible pump, the sludge suction disc is deep into sludge, and the sludge suction effect is good; the stirring module is arranged on the mounting seat to facilitate stirring; the second sludge suction machine comprises a sludge suction seat communicated with the siphon main pipe; the stirring module includes agitator motor, the stirring seat of being connected with agitator motor drive, and set up the stirring fan blade on the stirring seat, and the during operation stirring motor drive stirring fan blade rotates, curls up sedimentary mud, and first suction dredge and second suction dredge mutually support and absorb the mud of curling to collect in unison.

Drawings

FIG. 1 is a schematic structural view of a siphon sludge machine controller of the present invention;

FIG. 2 is a schematic view of a connection structure of the siphon dredge controller of FIG. 1;

fig. 3 is another connection structure diagram of the siphon sludge machine controller of fig. 1.

Description of reference numerals: the device comprises a rack 10, a control module 11, a touch screen 12, an AC (alternating current) incoming line 13, a switch valve 14, a PLC (programmable logic controller) module 15, a sedimentation tank 20, a travelling module 30, a driving piece 31, a roller 32, a track assembly 33, a travelling frequency converter 40, a siphon mechanism 50, a sewage pump 51, a siphon main pipe 52, a first sludge suction machine 53, a mounting seat 531, a first branch pipe 532, a submersible pump 533, a siphon disc 534, a support frame 534a, a sludge suction port 534b, a second sludge suction machine 54, a second branch pipe 541, a sludge suction seat 542, a U-shaped pipe 542a, a sludge suction pipe 542b, a stirring module 60, a stirring motor 61, a stirring seat 62, stirring fan blades 63, a flow regulating module 70, a vacuumizing module 80, a vacuum pump 81 and an exhaust pipe.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 3, a siphon sludge machine controller according to an embodiment of the present invention is used for sucking out sludge deposited at the bottom of a tank and discharging the sludge out of the tank. In this embodiment, the siphon dredge controller includes a settling tank 20, a frame 10 disposed on the settling tank 20, a control module 11 disposed on the frame 10, a traveling module 30, a siphon mechanism 50, and a stirring module 60 disposed on the siphon mechanism 50; the siphon mechanism 50 comprises a sewage pump 51, a siphon main pipe 52 connected with the sewage pump 51, a first suction dredge 53 and a second suction dredge 54 connected with the siphon main pipe 52; the first sludge suction machine 53 comprises a mounting seat 531, a submersible pump 533 and a siphon disc 534 connected with the submersible pump 533; the stirring module 60 is arranged on the mounting seat 531; the second suction dredge 54 includes a dredge base 542 communicating with the siphon main pipe 52; the stirring module 60 includes a stirring motor 61, a stirring base 62 drivingly connected to the stirring motor 61, and stirring blades 63 disposed on the stirring base 62.

The travelling module 30 comprises a driving part 31, a roller 32 in driving connection with the driving part 31, and a track assembly 33 which is arranged on the sedimentation tank 20 and is matched with the roller 32; the traveling crane module 30 is used for realizing that the rack 10 moves on the sedimentation tank 20, and the sludge collection effect is good.

The first sludge suction machine 53 includes a first branch pipe 532 communicating with the siphon main pipe 52; the second suction dredge 54 includes a second branch pipe 541 communicating with the siphon main pipe 52.

The utility model also comprises a flow adjusting module 70; the flow rate regulating module 70 is connected to the siphon main pipe 52 and the second branch pipe 541, respectively.

The siphon plate 534 includes a support frame 534a connected to the submersible pump 533, and at least one set of sludge suction ports 534b provided on the support frame 534 a.

The sludge suction base 542 includes a U-shaped pipe 542a and a sludge suction pipe 542b communicating with the U-shaped pipe 542 a.

The utility model also comprises a vacuum-pumping module 80; the vacuumizing module 80 is arranged on the frame 10; the vacuum pumping module 80 includes a vacuum pump 81 and an exhaust pipe 82 respectively communicating with the vacuum pump 81 and the siphon main pipe 52.

The utility model also comprises a driving frequency converter 40; the driving frequency converter 40 is arranged on the frame 10 for controlling the direction and speed of the driving module 30, and the control effect is good.

The stirring module 60 includes a stirring rod and a limiting member disposed on the stirring base 62, and the limiting member is used for limiting the stirring rod and preventing deviation.

Referring to fig. 2 to 3, the present invention further includes an AC incoming line 13, a touch screen 12, a switch valve 14 and a PLC module 15; the switch valve 14 is respectively connected with the control module 11 and the AC inlet line 13; the touch screen 12 is connected with the control module 11; the PLC module 15 is connected to the switching valve 14.

The utility model discloses a siphon mud machine controller is used for will deposiing the mud suction at the bottom of the pool, and with the mud discharge outside the pond, it uses to set up the connection installation that frame 10 is used for overall structure, it is used for realizing that frame 10 moves on sedimentation tank 20 to set up driving module 30, the collection effect of mud is good, siphon mechanism 50 cooperatees with stirring module 60, stirring module 60 stirs the very tight mud of bonding, the mud that stirs is absorbed by siphon mechanism 50 again, it is effectual to inhale mud, siphon mechanism 50 includes sewage pump 51, the siphon person in charge 52 who is connected with sewage pump 51, sewage pump 51 absorbs mud through siphon person in charge 52, first suction dredge 53 and the second suction dredge 54 who is connected with person in charge 52, first suction dredge 53 and second suction dredge 54 mutually support and have further improved the efficiency of inhaling mud; the first sludge suction machine 53 comprises a mounting seat 531, a submersible pump 533 and a siphon disc 534 connected with the submersible pump 533, and the sludge suction disc is deep into sludge and has a good sludge suction effect; the stirring module 60 is arranged on the mounting seat 531 for stirring conveniently; the second suction dredge 54 includes a dredge base 542 communicating with the siphon main pipe 52; the stirring module 60 comprises a stirring motor 61, a stirring seat 62 in driving connection with the stirring motor 61, and stirring blades 63 arranged on the stirring seat 62, wherein the stirring motor 61 drives the stirring blades 63 to rotate during operation, deposited sludge is rolled up, and the first sludge suction machine 53 and the second sludge suction machine 54 are matched with each other to absorb the rolled sludge and perform uniform collection.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A siphon mud machine controller is characterized by comprising a sedimentation tank, a rack arranged on the sedimentation tank, a control module arranged on the rack, a travelling crane module, a siphon mechanism and a stirring module arranged on the siphon mechanism; the siphon mechanism comprises a sewage pump, a siphon main pipe connected with the sewage pump, a first suction dredge and a second suction dredge, wherein the first suction dredge and the second suction dredge are connected with the siphon main pipe; the first sludge suction machine comprises a mounting seat, a submersible pump and a siphon disc connected with the submersible pump; the stirring module is arranged on the mounting seat; the second sludge suction machine comprises a sludge suction seat communicated with the siphon main pipe; the stirring module includes agitator motor, with the stirring seat that agitator motor drive is connected, and set up in stirring fan blade on the stirring seat.

2. The siphon dredge controller of claim 1, wherein the traveling module comprises a driving member, a roller in driving connection with the driving member, and a track assembly disposed on the settling tank and engaged with the roller.

3. The siphon dredge controller of claim 1, wherein the first dredge comprises a first branch pipe in communication with the siphon main pipe; the second suction dredge comprises a second branch pipe communicated with the siphon main pipe.

4. The siphon dredge controller of claim 3, further comprising a flow regulation module; the flow regulating module is respectively connected with the siphon main pipe and the second branch pipe.

5. The siphon dredge controller of claim 1, wherein the siphon disc comprises a support frame connected to the submersible pump, and at least one set of dredge ports disposed on the support frame.

6. The siphoning dredge controller of claim 1, wherein the dredge suction base comprises a U-shaped pipe and a dredge suction pipe communicated with the U-shaped pipe.

7. The siphon dredge controller of claim 1, further comprising a vacuum pumping module; the vacuumizing module is arranged on the rack; the vacuumizing module comprises a vacuum pump and an exhaust pipe communicated with the vacuum pump and the siphon main pipe respectively.

8. The siphon dredge controller of claim 1, further comprising a travelling crane transducer; the driving frequency converter is arranged on the rack.

9. The siphon dredger controller of claim 1, wherein the stirring module comprises a stirring rod and a limiting member arranged on the stirring seat.

10. The siphon dredge controller of claim 1, further comprising an AC inlet line, a touch screen, a switch valve and a PLC module; the switch valve is respectively connected with the control module and the AC alternating current inlet wire; the touch screen is connected with the control module; the PLC module is connected with the switch valve.

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