CN218231935U - Exhaust device of slag remover - Google Patents

Abstract

The utility model relates to an exhaust apparatus, specific scummer exhaust apparatus that says so, including the processing assembly, dissolve the gas subassembly, heating element, pressure boost assembly, scrape and get the subassembly, filtering component and vacuum pump, dissolve the gas unit mount in the bottom of processing assembly, heating element installs the inside at the processing assembly, pressure boost assembly fixes the top at the processing assembly, filtering component is located one side of processing assembly, the top at filtering component is installed to the vacuum pump, processing assembly includes the processing jar, dissolve the gas subassembly including dissolving the gas pitcher, install the refrigeration board on dissolving the inner wall of gas pitcher, heating element includes the inner bag, the inner bag is fixed on the inner wall of processing jar, install the heater strip between inner bag and the processing jar, pressure boost assembly includes the booster pump. The utility model discloses enable the aquatic and merge into more air, form more bubble after being convenient for to can float the particulate matter in the sewage fast, be convenient for simultaneously fast to the bubble discharge that has particulate matter that will float on the surface of water.

Description

Exhaust device of slag remover

Technical Field

The utility model relates to an exhaust apparatus specifically is a scummer exhaust apparatus, belongs to sewage treatment technical field.

Background

Sewage treatment is a process for removing pollutants from municipal wastewater, mainly including domestic sewage and some industrial wastewater. The physical, chemical and biological processes are used for removing pollutants, generating treated wastewater which is enough to be safely released into the environment, melting gas into sewage when the sewage is treated, then forming bubbles with the gas in the sewage to remove the gas, and taking out the microparticles attached to the bubbles to avoid blocking equipment in the subsequent sewage treatment process.

Chinese patent No. CN210505797U provides a microbubble deslagging, decontamination and exhaust integrated device, which improves the separation effect, improves the operation stability and improves the working efficiency; including handling the case, it is provided with the treatment chamber to handle incasement portion, it is provided with first pipeline to handle bottom of the case portion intercommunication, first pipeline output end is provided with the dissolved air pump, dissolved air pump output end intercommunication is provided with the dissolved air tank, it is provided with the aerator to handle the incasement bottom, the aerator passes through the second pipeline intercommunication with the dissolved air tank output, be provided with the intake pipe on the dissolved air pump, the intake pipe input is provided with first valve, it is provided with deslagging mechanism to handle the first regional intercommunication of case right side wall, deslagging mechanism includes the box, the fixed block, dwang and fender lid, the inside chamber of collecting of box, box left side wall bottom intercommunication is provided with the inlet tube, it is provided with the overflow mouth to handle the first region of case right side wall, inlet tube input and overflow mouth intercommunication, the inlet tube output is provided with the fender ring.

However, in the above-mentioned case, although air is introduced into the sewage by the dissolved air pump, the dissolved air tank and the aerator and then released by the aerator, the gas introduced into the water is relatively small, resulting in that the micro-particles in the sewage cannot be rapidly removed, and at the same time, the discharge of the micro-particle-containing bubbles floating on the water surface is relatively slow or insufficient.

In view of this, the present invention is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an exhaust device of a slag remover for solving the problems.

The utility model discloses a following technical scheme realizes above-mentioned purpose, a scummer exhaust apparatus, get subassembly, filtering component and vacuum pump including processing assembly, dissolved gas subassembly, heating element, pressure boost subassembly, scraping, dissolve gas unit mount in processing assembly's bottom, heating element installs the inside at processing assembly, pressure boost subassembly fixes the top at processing assembly, filtering component is located one side of processing assembly, the top at filtering component is installed to the vacuum pump, processing assembly includes the processing jar, dissolve gas subassembly is including dissolving the gas pitcher, install the refrigeration board on dissolving the inner wall of gas pitcher, heating element includes the inner bag, the inner bag is fixed on the inner wall of processing jar, install the heater strip between inner bag and the processing jar, pressure boost subassembly includes the booster pump, the booster pump is installed at the top of processing jar, it includes motor and scraper blade to scrape the subassembly, motor fixed mounting is at the top of processing jar, the output at the motor is fixed to the scraper blade.

Further, the inlet tube is installed to one side of handling the jar, the water intaking valve is installed to one side of inlet tube, the end jar is installed to the bottom of handling the jar, dissolve the gas pitcher and install the inside at the end jar.

Further, the dissolved air assembly further comprises a dissolved air pump, a connecting pipe and an aerator, the dissolved air pump is installed inside the bottom tank, the connecting pipe is fixed between the aerator and the dissolved air tank, and the input end and the output end of the dissolved air pump are respectively communicated with the bottom of the treatment tank and one side of the dissolved air tank through pipelines.

Furthermore, the pressurizing assembly further comprises a one-way electromagnetic air valve and an air guide pipe, the one-way electromagnetic air valve is installed at the output end of the pressurizing pump, and two ends of the air guide pipe are respectively communicated with the top of the one-way electromagnetic air valve and the top of the treatment tank.

Furthermore, filtering component is including filtering the jar, filtering the top of jar and run through and install communicating pipe, the one end of communicating pipe is fixed with one-way solenoid valve, one-way solenoid valve installs the opposite side at the processing jar.

Furthermore, a one-way electromagnetic blow-down valve is installed at the bottom of the filter tank, and a blow-down pipe is installed at the bottom of the one-way electromagnetic blow-down valve.

Furthermore, the top of filtering the jar is installed electromagnetism discharge valve, the blast pipe is installed at electromagnetism discharge valve's top, the internally mounted of filtering the jar has double-deck filter screen.

Further, the internally mounted who filters the jar has the washing subassembly, it includes clear water pipe and shower nozzle to wash the subassembly, the opposite side at the filtration jar is run through to the one end of clear water pipe, the shower nozzle is installed and is being located the clear water pipe bottom of filtering jar inside, the clear water valve is installed to one side of clear water pipe.

The utility model discloses a technological effect and advantage: (1) The temperature in the dissolved air tank can be reduced by the refrigeration plate, the heating wire and the booster pump, so that more air is mixed into water, the booster pump is adopted to boost the water in the treatment tank, so that more air is further mixed into the water, when bubbles need to overflow, the heating wire is electrified by the aerator at the same time, the water is heated by the heating wire, so that the air in the water quickly overflows, the air overflow amount in the water is increased, and the exhaust efficiency is improved; (2) Through the arranged scraping component, a motor in the scraping component drives the scraping plate to rotate, and the rotation of the scraping plate can quickly discharge bubbles floating on the water surface in the treatment tank through the communicating pipe; (3) Through the vacuum pump that sets up, the vacuum pump can reduce the pressure in the filtering tank, makes the bubble fully break, and the particulate matter who attaches to on the bubble passes through the blow off pipe and discharges.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the treatment tank of the present invention;

FIG. 3 is a schematic view of the internal structure of the filtration tank of the present invention;

fig. 4 is a schematic structural view of the scraping assembly of the present invention.

In the figure: 100. a processing component; 101. a treatment tank; 102. a water inlet pipe; 103. a water inlet valve; 104. a bottom tank; 200. a gas dissolving component; 201. a dissolved air pump; 202. a dissolved air tank; 203. a refrigeration plate; 204. a connecting pipe; 205. an aerator; 300. a heating assembly; 301. an inner container; 302. heating wires; 400. a pressurizing assembly; 401. a booster pump; 402. a one-way electromagnetic gas valve; 403. an air duct; 500. scraping the component; 501. a motor; 502. a squeegee; 600. a filter assembly; 601. a filter tank; 602. a communicating pipe; 603. a one-way solenoid valve; 604. a one-way electromagnetic blowdown valve; 605. a sewage discharge pipe; 606. an electromagnetic exhaust valve; 607. an exhaust pipe; 608. double-layer filter screens; 700. a vacuum pump; 800. cleaning the assembly; 801. a clean water pipe; 802. a clean water valve; 803. and (4) a spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, an exhaust apparatus for a cleaner includes a processing assembly 100, a gas dissolving assembly 200, a heating assembly 300, a pressurizing assembly 400, a scraping assembly 500, a filtering assembly 600, and a vacuum pump 700, wherein the gas dissolving assembly 200 is installed at the bottom of the processing assembly 100, the heating assembly 300 is installed inside the processing assembly 100, the pressurizing assembly 400 is fixed at the top of the processing assembly 100, the filtering assembly 600 is located at one side of the processing assembly 100, the vacuum pump 700 is installed at the top of the filtering assembly 600, and the input end of the vacuum pump 700 is communicated with a filter tank 601 in the filtering assembly 600;

the air dissolving assembly 200 comprises an air dissolving tank 202, a refrigeration plate 203 is installed on the inner wall of the air dissolving tank 202, the refrigeration plate 203 can reduce the temperature in the air dissolving tank 202, so that more air is further dissolved in water, the air dissolving assembly 200 further comprises an air dissolving pump 201, a connecting pipe 204 and an aerator 205, the air dissolving pump 201 is installed inside the bottom tank 104, the air dissolving pump 201 melts the air into sewage, the connecting pipe 204 is fixed between the aerator 205 and the air dissolving tank 202, and the input end and the output end of the air dissolving pump 201 are respectively communicated with the bottom of the treatment tank 101 and one side of the air dissolving tank 202 through pipelines;

the heating assembly 300 comprises an inner container 301, the inner container 301 is fixed on the inner wall of the treatment tank 101, a heating wire 302 is installed between the inner container 301 and the treatment tank 101, the heating wire 302 heats water to enable air in the water to quickly overflow, meanwhile, the air overflow amount in the water is improved, and the exhaust efficiency is improved;

the pressurizing assembly 400 comprises a pressurizing pump 401, the pressurizing pump 401 is installed at the top of the treatment tank 101, the scraping assembly 500 comprises a motor 501 and a scraper plate 502, the motor 501 is fixedly installed at the top of the treatment tank 101, the motor 501 drives the scraper plate 502 to rotate, the scraper plate 502 is fixed at the output end of the motor 501, and bubbles floating on the water surface in the treatment tank 101 can be quickly discharged through a communicating pipe 602 through rotation of the scraper plate 502.

As a technical optimization scheme of the utility model, processing assembly 100 includes treatment tank 101, and inlet tube 102 is installed to one side of treatment tank 101, opens water intaking valve 103, and in sewage entered into treatment tank 101 through inlet tube 102, water intaking valve 103 was installed to one side of inlet tube 102, and end jar 104 was installed to the bottom of treatment tank 101, dissolves gas pitcher 202 and installs the inside at end jar 104.

As a technical optimization scheme of the utility model, pressure boost subassembly 400 still includes one-way electromagnetism pneumatic valve 402 and air duct 403, and one-way electromagnetism pneumatic valve 402 is installed at pressure boost pump 401's output, and pressure boost pump 401 carries out the pressure boost to the treatment tank 101 water-logging, makes the aquatic integrate into more air, and the both ends of air duct 403 communicate with the top of one-way electromagnetism pneumatic valve 402 and treatment tank 101 respectively.

As the utility model discloses a technical optimization scheme, filtering component 600 includes filtering tank 601, filtering tank 601's top is run through and is installed communicating pipe 602, the one end of communicating pipe 602 is fixed with one-way solenoid valve 603, whether one-way solenoid valve 603 control communicating pipe 602 communicates with processing tank 101, one-way solenoid valve 603 is installed at the opposite side of processing tank 101, one-way electromagnetic blowoff valve 604 is installed to filtering tank 601's bottom, blow off pipe 605 is installed to the bottom of one-way electromagnetic blowoff valve 604, open one-way electromagnetic blowoff valve 604, the microgranule that will adhere to on the bubble passes through blow off pipe 605 and discharges, electromagnetic exhaust valve 606 is installed at filtering tank 601's top, blast pipe 607 is installed at electromagnetic exhaust valve 606's top, filtering tank 601's internally mounted has double-layer filter screen 608, double-layer filter screen 608 can filter the microgranule.

As the utility model discloses a technical optimization scheme, the internally mounted of filter tank 601 has washing subassembly 800, wash subassembly 800 including clear water pipe 801 and shower nozzle 803, the opposite side at filter tank 601 is run through to the one end of clear water pipe 801, shower nozzle 803 is installed in the clear water pipe 801 bottom that is located filter tank 601 inside, clear water valve 802 is installed to one side of clear water pipe 801, open clear water valve 802, the clear water is spouted into on double-deck filter screen 608 through clear water pipe 801 and shower nozzle 803 and is washd it.

When the utility model is used, sewage is injected into the treatment tank 101 through the water inlet pipe 102, the water level in the treatment tank 101 is slightly higher than the inner diameter center position of the communicating pipe 602, the booster pump 401 is started, the booster pump 401 boosts the water in the treatment tank 101 to enable more air to be blended into the water, then the dissolved air pump 201 is started, the dissolved air pump 201 blends air into the sewage, then the sewage enters the dissolved air tank 202, the refrigeration plate 203 is started to reduce the temperature in the dissolved air tank 202 to enable more air to be further blended into the water, then the sewage enters the treatment tank 101 through the aerator 205 through the connecting pipe 204, when bubbles need to overflow, the heating wire 302 is electrified when the aeration is carried out through the aerator 205, the heating wire 302 heats the water to enable the air in the water to overflow rapidly, the air overflow amount in the water is improved simultaneously, the exhaust efficiency is improved, micro-particles can be attached to the bubbles, after treatment, the one-way electromagnetic valve 603 is opened, water and micro-particles in the treatment tank 101 can be attached to bubbles and enter the filter tank 601 through the communicating pipe 602, the motor 501 is started at the same time, the motor 501 drives the scraper 502 to rotate, the scraper 502 can rotate to quickly discharge the bubbles floating on the water surface in the treatment tank 101 through the communicating pipe 602, then the one-way electromagnetic valve 603 is closed, the vacuum pump 700 is started, the vacuum pump 700 reduces the pressure in the filter tank 601, the bubbles are fully broken, gas is partially discharged through the vacuum pump 700, then the vacuum pump 700 is closed, the one-way electromagnetic blow-down valve 604 is opened, the micro-particles attached to the bubbles are discharged through the blow-down pipe 605, and when the double-layer filter screen 608 needs to be cleaned, the clean water valve 802 is opened, and clean water is sprayed onto the double-layer filter screen 608 through the clean water pipe 801 and the spray nozzle 803, so that the double-layer filter screen 608 is cleaned.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. An exhaust device of a slag remover comprises a processing assembly (100), a gas dissolving assembly (200), a heating assembly (300), a pressurizing assembly (400), a scraping assembly (500), a filtering assembly (600) and a vacuum pump (700), and is characterized in that: dissolve gas subassembly (200) and install the bottom at processing assembly (100), heating element (300) are installed in the inside of processing assembly (100), pressure boost subassembly (400) are fixed at the top of processing assembly (100), filtering component (600) are located the one side of processing assembly (100), the top at filtering component (600) is installed in vacuum pump (700), processing assembly (100) are including handling jar (101), dissolve gas subassembly (200) including dissolving gas jar (202), install refrigeration board (203) on dissolving the inner wall of gas jar (202), heating element (300) include inner bag (301), inner bag (301) are fixed on the inner wall of handling jar (101), install heater strip (302) between inner bag (301) and processing jar (101), pressure boost subassembly (400) include booster pump (401), the top at processing jar (101) is installed to booster pump (401), scrape and get subassembly (500) and include motor (501) and scraper blade (502), motor (501) fixed mounting is at the top of handling jar (101), the output of scraper blade (501) is fixed at scraper blade (502).

2. The exhaust apparatus for a slag remover according to claim 1, wherein: a water inlet pipe (102) is installed on one side of the treatment tank (101), a water inlet valve (103) is installed on one side of the water inlet pipe (102), a bottom tank (104) is installed at the bottom of the treatment tank (101), and a dissolved air tank (202) is installed inside the bottom tank (104).

3. A deslagging exhaust apparatus according to claim 2 wherein: the dissolved air assembly (200) further comprises a dissolved air pump (201), a connecting pipe (204) and an aerator (205), the dissolved air pump (201) is installed inside the bottom tank (104), the connecting pipe (204) is fixed between the aerator (205) and the dissolved air tank (202), and the input end and the output end of the dissolved air pump (201) are communicated with the bottom of the treatment tank (101) and one side of the dissolved air tank (202) through pipelines respectively.

4. A deslagging exhaust apparatus according to claim 1 wherein: the pressurizing assembly (400) further comprises a one-way electromagnetic air valve (402) and an air duct (403), the one-way electromagnetic air valve (402) is installed at the output end of the pressurizing pump (401), and two ends of the air duct (403) are respectively communicated with the one-way electromagnetic air valve (402) and the top of the treatment tank (101).

5. A deslagging exhaust apparatus according to claim 1 wherein: the filter assembly (600) comprises a filter tank (601), a communicating pipe (602) is installed at the top of the filter tank (601) in a penetrating mode, a one-way electromagnetic valve (603) is fixed at one end of the communicating pipe (602), and the other side of the treatment tank (101) is installed on the one-way electromagnetic valve (603).

6. The exhaust apparatus for a slag remover according to claim 5, wherein: the bottom of the filter tank (601) is provided with a one-way electromagnetic blow-down valve (604), and the bottom of the one-way electromagnetic blow-down valve (604) is provided with a blow-down pipe (605).

7. The exhaust apparatus for a cleaner according to claim 6, wherein: electromagnetism discharge valve (606) are installed to the top of filter tank (601), blast pipe (607) are installed to the top of electromagnetism discharge valve (606), the internally mounted of filter tank (601) has double-deck filter screen (608).

8. A deslagging exhaust apparatus according to claim 5 wherein: the internally mounted of filter tank (601) has washing subassembly (800), wash subassembly (800) including clear water pipe (801) and shower nozzle (803), the opposite side at filter tank (601) is run through to the one end of clear water pipe (801), shower nozzle (803) are installed and are being located the clear water pipe (801) bottom of filter tank (601) inside, clear water valve (802) are installed to one side of clear water pipe (801).

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