CN218306615U - Full-automatic buried slag removal regulating tank - Google Patents

Abstract

The utility model provides a bury formula scarfing cinder equalizing basin fully automatically, including equalizing basin body, roll filter residue mechanism, roll and push away sediment mechanism, scrape sediment part and sediment fill mechanism, the equalizing basin body is provided with the inlet tube, roll filter residue mechanism and roll and push away the rotation opposite direction that sediment mechanism pushed away sediment mechanism with the roll inside the equalizing basin body, and roll filter residue mechanism and roll, the inlet tube is connected with roll filter residue mechanism, and sediment fill mechanism sets up in roll filter residue mechanism and roll the below that pushes away sediment mechanism, scrapes the setting of sediment part between sediment fill mechanism and roll filter residue mechanism. When the filter screen is operated, wastewater is discharged to the rolling residue filtering mechanism, residues are stopped on the rolling filter screen, a large amount of residues roll and fall in the residue hopper mechanism, a small amount of residues are scraped by the residue scraping component and fall into the residue hopper mechanism, and the rolling residue pushing mechanism pushes and paves accumulated residues. The utility model has the characteristics of simple structure, occupation space are little, automated control and filter residue are efficient, applicable in rural sewage treatment volume is little, the dispersion.

Description

Full-automatic buried slag removal regulating tank

Technical Field

The utility model relates to a sewage treatment technical field particularly, relates to a bury formula scarfing cinder equalizing basin fully automatically.

Background

Along with the national economic development, the rural sewage treatment environment is more and more emphasized by various circles. The current rural sewage treatment mainly has the following characteristics: villages and towns at each station are scattered, the fluctuation of the sewage quality is large, the fluctuation of the water quantity is large in different periods, and the sewage quantity in the morning and evening is large while the sewage quantity in the daytime is small. Therefore, in order to ensure uniform water inlet of the system, the regulating tank is indispensable equipment for rural sewage treatment.

Simultaneously, through project practice, when administering rural sewage at present, even if every family's delivery port department has set up septic tank or filter screen, sewage hoist mechanism has set up grid etc. still can not effectively obtain effective clearance to miscellaneous sediment in the sewage. During the operation, the impurity slag can easily cause the blockage of pipelines, pipe fittings, pumps and the like. Meanwhile, because of the requirements of small land occupation in rural areas, simple maintenance requirements and the like, the regulating tank cannot be provided with a mechanical grid like a common urban sewage treatment plant.

At present, a basket grid is generally adopted at the front end of a regulating tank, but the moisture content of impurity slag is high, so that the whole basket is heavy, an independent basket lifting device needs to be arranged, and the maintenance is very difficult; the continuous operation cannot be realized, and the water inlet is required to be stopped in the slag removal process; the basket grid and the manhole are shared, so that safety risk exists; the basket grid is installed deeply and is easily submerged by water level during operation, so that impurities in the slag bucket mechanism drift out along with water flow.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bury formula scarfing cinder equalizing basin fully automatically, this equalizing basin has small-size, convenient, but continuous operation, easy to maintain, and the high characteristics of automation.

The embodiment of the utility model discloses a realize through following technical scheme:

the utility model provides a full-automatic formula scarfing cinder equalizing basin that buries, includes the equalizing basin body, rolls filter residue mechanism, rolls and pushes away sediment mechanism, scrapes sediment part and sediment fill mechanism, and the equalizing basin body is provided with the inlet tube, rolls filter residue mechanism and roll and push away sediment mechanism setting inside the equalizing basin body, and roll filter residue mechanism and roll and push away the rotation opposite direction of sediment mechanism, and the inlet tube is connected with roll filter residue mechanism, and sediment fill mechanism sets up in roll filter residue mechanism and roll below of pushing away sediment mechanism, scrapes the setting of sediment part between sediment fill mechanism and roll filter residue mechanism.

Further, the filter residue rolling mechanism comprises: the filter comprises a filter residue rotating roller and a rolling filter screen, and two sides of the rolling filter screen are provided with slag stopping edges.

Further, the rolling slag pushing mechanism comprises: the rolling belt, push away the sediment board, first commentaries on classics roller and second change the roller, and a plurality of pushes away the sediment board setting and takes on the rolling belt, and the second changes the roller and can rotate around first commentaries on classics roller.

Further, the sediment fill mechanism includes: translation sediment fill, support and pulley, translation sediment fill are installed in the top of support, and a plurality of pulley setting is between translation sediment fill and support, and translation sediment fill can be the translation slip on the support.

Furthermore, a movable stop block is arranged on one side of the translational slag hopper far away from the slag scraping component.

Furthermore, the regulating pool also comprises a driving motor, a driving wheel and a transmission belt, wherein the driving end of the driving motor is connected with any filter residue rotating roller, the driving wheel is meshed with any filter residue rotating roller, one end of the transmission belt is connected with the driving wheel, and the other end of the transmission belt is connected with the first rotating roller.

Furthermore, a water retaining part is arranged at the front end of the water inlet pipe.

The utility model discloses technical scheme has following advantage and beneficial effect at least:

the utility model discloses in, arrange waste water and stop the residue on the roll filter residue mechanism on the roll filter screen, a large amount of residues drop by oneself in sediment fill mechanism along the traffic direction of roll filter screen, and a small amount of filter residue is scraped after scraping the sediment part and is fallen in the sediment fill mechanism. Meanwhile, when residues on the residue bucket mechanism are accumulated to a certain height, the rolling residue pushing mechanism pushes and paves the residues in the opposite direction of the rolling residue filtering mechanism, and workers only need to clean the residues in the residue bucket mechanism regularly. The utility model has the characteristics of simple structure, occupation space are little, automated control and filter residue are efficient, applicable in rural sewage treatment volume is little, the dispersion.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is an overall schematic structural diagram provided in embodiment 1 of the present invention;

FIG. 2 is a schematic view of a slag removal state provided in embodiment 1 of the present invention;

fig. 3 is a side view of the residue filtering and pushing mechanism provided in embodiment 1 of the present invention;

fig. 4 is a top view of the residue filtering and residue pushing mechanism provided in embodiment 1 of the present invention;

an icon: 1-regulating tank body, 11-water inlet pipe, 12-access hole, 2-rolling residue filtering mechanism, 21-residue filtering roller, 22-rolling filter screen, 23-slag blocking edge, 3-rolling residue pushing mechanism, 31-rolling belt, 32-residue pushing plate, 33-first roller, 34-second roller, 4-residue scraping component, 5-residue bucket mechanism, 51-translation residue bucket, 52-support, 53-pulley, 6-driving motor, 61-driving wheel, 62-driving belt, 7-movable block, 8-water retaining component, 9-manhole, 91-liquid level meter, 92-lifting pump, 93-overflow hole, 94-residue settling baffle and 95-mounting fixed foot.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are part of the embodiments of the present invention, rather than all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Referring to fig. 1, a formula of burying scarfing cinder equalizing basin fully automatically, include equalizing basin body 1, roll filter residue mechanism 2, roll and push away sediment mechanism 3, scrape sediment part 4 and sediment fill mechanism 5, equalizing basin body 1 is provided with the inlet tube, roll filter residue mechanism 2 and roll and push away sediment mechanism 3 and set up inside equalizing basin body 1, and roll filter residue mechanism 2 and roll and push away the opposite direction of rotation that sediment mechanism 3 was pushed away in. The water inlet pipe is connected with the rolling residue filtering mechanism 2, the residue hopper mechanism 5 is arranged below the rolling residue filtering mechanism 2 and the rolling residue pushing mechanism 3, and the residue scraping component 4 is arranged between the residue hopper mechanism 5 and the rolling residue filtering mechanism 2.

Waste water is along with the inlet tube arrange roll filter residue mechanism 2 on with the residue stop on roll filter screen 22, be provided with water blocking part 11 in inlet tube 11 the place ahead and prevent water impact, roll filter screen 22's both sides all are provided with the flange 23 and prevent that unfiltered waste water from splashing. Liquid falls to the bottom of equalizing basin body 1 through rolling filter 22, and a large amount of residues drop by oneself in sediment fill mechanism 5 along the traffic direction motion of rolling filter 22, and a small amount of filter residue is scraped to fall to sediment fill mechanism 5 after scraping sediment part 4, and the bottom of sediment fill mechanism 5 adopts the filter screen structure to let the moisture in the residue drip to the bottom of equalizing basin body 1 by oneself.

Referring to fig. 3 and 4, the rolling pusher mechanism 3 includes: the slag pushing device comprises a rolling belt 31, a slag pushing plate 32, a first rotating roller 33 and a second rotating roller 34, wherein a plurality of slag pushing plates 32 are arranged on the rolling belt 31, and the second rotating roller 34 can rotate around the first rotating roller 33. When piling up the take the altitude when the residue on the sediment fill mechanism 5, push away the contact of cinder plate 32 and residue on the mechanism 3 of rolling and pushing away, promote, pave the residue toward the opposite direction of the filter residue mechanism 2 that rolls, prevent piling up of residue and influence the rotation of the filter residue mechanism 2 that rolls, pile up the automatic effect that drips that also can reduce remaining moisture in the residue after too high moreover as the residue.

Referring to fig. 2 and 3, the slag hopper mechanism 5 includes: the slag scraper comprises a translation slag hopper 51, a support 52 and pulleys 53, wherein the translation slag hopper 51 is installed above the support 52, the pulleys 53 are arranged between the translation slag hopper 51 and the support 52, the translation slag hopper 51 can slide on the support 52 in a translation manner, and one side of the translation slag hopper 51, which is far away from the slag scraping component 4, is provided with a movable stop 7. When the residue in the slag bucket mechanism 5 reaches the limit, the staff will roll the filter residue mechanism 2 and rotate around the first rotating roller 33, and the movable stop 7 is simultaneously removed to pull the translation slag bucket 51 towards the end far away from the roll filter residue mechanism 2, and the slag scraping component 4 does not interfere with the rolling slag pushing mechanism 3, and the residue is manually cleaned by using a slag shovel or taking out the whole translation slag bucket 51. After cleaning is completed, the work can be recovered by loading back in the reverse order.

Referring to fig. 3 and 4, the utility model discloses still include driving motor 6, drive wheel 61 and drive belt 62, driving motor 6's drive end is connected with arbitrary filter residue change roller 21, and drive wheel 61 and arbitrary filter residue change roller 21 meshing installation, the first change roller 33 of drive wheel 61, other end connection are connected to the one end of drive belt 62. Drive two mechanisms through a motor and realize the rotation of equidirectional not, make the utility model discloses the cost is lower, and the structure is simplified.

Referring to fig. 1, the utility model is provided with an access hole 12 at the top of the adjusting tank body 1 for equipment maintenance; a lift pump 92 is arranged in the regulating tank body 1, so that the sewage submersible pump is preferred, and more than 2 pumps are mutually standby; the lift pump 92 side sets up level gauge 91 and is used for level control and automatic operation in the equalizing basin body 1, and lift pump 92 and level gauge 91 top set up and overhaul manhole 9, and two holes separately set up make that equipment maintenance, slag removal mouth and manhole 9 separately independent setting, and are safer. The overflow port 93 is arranged on the water outlet side of the regulating reservoir body 1, so that the rolling residue filtering mechanism 2 is prevented from being submerged by overhigh liquid level in the regulating reservoir body 1 when the liquid level meter 91 or the lift pump 92 fails. A sediment trap 94 is disposed on the side of the lift pump 92 adjacent to the rolling residue filter mechanism 2 for trapping deposited residues and preventing the residues from blocking the lift pump 92.

The utility model discloses whole station PLC system that can intervene concentrates intelligent control:

when the machine is started, a front-end water inlet starting signal is taken, the PLC controls the starting of the driving motor 6, and the driving motor 6 drives the rolling residue filtering mechanism 2 and the rolling residue pushing mechanism 3 to operate; when the high liquid level of the liquid level meter 91 is reached in the regulating reservoir body 1, a feedback signal starts the lift pump 92 to supply water to the rear-end equipment;

when the liquid level is low, the driving motor 6 normally operates, and the lift pump 92 is stopped until the liquid level is high.

When the inflow was too big, elevator pump 92 can't be in time with sewage discharge, and the water level reaches overflow mouth 93 and overflows, and level gauge 91 feeds back overflow signal to PLC simultaneously, and the control front end is given water and is closed, stops driving motor 6, and elevator pump 92 normal operating normally again after low liquid level opens front end and is given water and driving motor 6.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a formula scarfing cinder equalizing basin is buried to full-automatic, its characterized in that: including equalizing basin body (1), roll filter residue mechanism (2), roll and push away sediment mechanism (3), scrape sediment part (4) and sediment fill mechanism (5), equalizing basin body (1) is provided with inlet tube (11), roll filter residue mechanism (2) and roll and push away sediment mechanism (3) and set up equalizing basin body (1) inside, just roll filter residue mechanism (2) and roll the rotation opposite direction who pushes away sediment mechanism (3), inlet tube (11) with roll filter residue mechanism (2) and connect, sediment fill mechanism (5) set up roll filter residue mechanism (2) with roll the below of pushing away sediment mechanism (3), it sets up to scrape sediment part (4) sediment fill mechanism (5) with roll between the filter residue mechanism (2).

2. The fully-automatic buried slag removal regulating tank as claimed in claim 1, wherein: the rolling residue filtering mechanism (2) comprises: the filter residue rolling roller (21) and the rolling filter screen (22), and two sides of the rolling filter screen (22) are provided with slag blocking edges (23).

3. The fully-automatic buried slag removal regulating tank as claimed in claim 2, wherein: the rolling slag pushing mechanism (3) comprises: roll area (31), push away slag plate (32), first roller (33) and second and change roller (34), a plurality of push away slag plate (32) and set up roll area (31) is last, roller (34) can be wound to the second first roller (33) of changeing rotates.

4. The fully-automatic buried slag removal regulating tank of claim 1, which is characterized in that: the slag bucket mechanism (5) comprises: translation sediment fill (51), support (52) and pulley (53), translation sediment fill (51) are installed the top of support (52), a plurality of pulley (53) set up translation sediment fill (51) with between support (52), translation sediment fill (51) can do the translation slip on the support (52).

5. The fully-automatic buried slag removal regulating tank as claimed in claim 4, wherein: and a movable stop block (7) is arranged on one side of the translational slag hopper (51) far away from the slag scraping component (4).

6. The fully-automatic buried slag removal regulating tank as claimed in claim 3, wherein: still include driving motor (6), drive wheel (61) and drive belt (62), the drive end of driving motor (6) with arbitrary filter residue changes roller (21) and is connected, drive wheel (61) with arbitrary filter residue changes roller (21) meshing installation, the one end of drive belt (62) is connected drive wheel (61), the other end are connected first commentaries on classics roller (33).

7. The fully-automatic buried slag removal regulating tank as claimed in claim 1, wherein: the front end of the water inlet pipe (11) is provided with a water retaining part (8).

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