CN220644503U - Municipal wastewater emergency treatment system based on BIM technology - Google Patents

Abstract

The utility model discloses a municipal sewage emergency treatment system based on BIM technology, which belongs to the technical field of sewage treatment, and the technical scheme is characterized by comprising an emergency treatment box and an emergency sewage disposal system, wherein the front side of the emergency treatment box is provided with a sewage inlet assembly, the emergency treatment mechanism and a sewage impurity discharging mechanism, municipal sewage and garbage are conveyed and discharged into the emergency treatment box by utilizing the sewage inlet assembly, then the emergency sewage disposal system is powered by a power supply module on the basis, then a control terminal controls a water measuring assembly of a water level sensing module and a lifting assembly of a lifting module, and after the sewage enters the emergency treatment box, the sewage is filtered and discharged by the sewage disposal assembly at the rear side of the emergency treatment box and is guided to a sewage treatment station for treatment, so that the garbage in the sewage is in the emergency treatment box.

Description

Municipal wastewater emergency treatment system based on BIM technology

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to a municipal sewage emergency treatment system based on a BIM technology.

Background

The municipal drainage system is a system which is specially used for draining and cleaning rainwater, domestic sewage and industrial wastewater, and is widely applied to municipal works.

Currently, the bulletin number is: the utility model of China of CN212866220U discloses a municipal sewage emergency treatment system, and this application relates to the technical field of municipal sewage treatment, especially relates to a municipal sewage emergency treatment system, aims at solving the problem that prior art sewage treatment efficiency is low, and its technical scheme is: comprises a sewage collecting mechanism, a sewage intercepting mechanism and a sewage discharging mechanism; the sewage collecting mechanism comprises a plurality of sewage collecting wells arranged on the urban ground, and sewage discharge channels used for communicating sewage treatment stations are arranged at the bottoms of the plurality of sewage collecting wells; the sewage interception mechanism comprises a sewage interception well arranged on the ground, the bottom of the sewage interception well is communicated with a sewage discharge channel, the sewage interception well is vertically arranged in the flow direction of the sewage discharge channel, and an interception net is arranged on the inner wall of the sewage interception well; the sewage discharge mechanism comprises a pretreatment tank which is used for being connected with a sewage discharge channel, and the application has the technical effects of improving sewage treatment efficiency and enabling sewage treatment to achieve energy conservation and emission reduction.

The existing municipal drainage system has the following defects when in use, a great deal of garbage is generated during the discharge of a great deal of municipal sewage, and when sewage finally flows to a sewage treatment station, the sewage contains a great deal of garbage which cannot be effectively separated, so that the sewage cannot be discharged rapidly, a great deal of time and the subsequent treatment speed of the sewage are wasted, and therefore, the municipal sewage emergency treatment system based on the BIM technology is provided, so that the problem is solved.

Disclosure of Invention

The utility model provides a municipal sewage emergency treatment system based on BIM technology, which aims to solve the defects that the existing municipal drainage system has a large number of wastes in the process of discharging a large amount of municipal sewage, and when the sewage finally flows to a sewage treatment station, the sewage cannot be discharged quickly due to the fact that a large amount of wastes are contained in the sewage and a large amount of time and the subsequent treatment speed of the sewage cannot be wasted.

The municipal sewage emergency treatment system based on the BIM technology comprises an emergency treatment box and an emergency sewage disposal system, wherein the front side of the emergency treatment box is provided with a sewage inlet assembly, the top of the emergency treatment box is provided with an emergency treatment mechanism, and the rear side and the bottom of the emergency treatment box are both provided with sewage disposal miscellaneous mechanisms;

the emergency sewage disposal system comprises a control terminal, a water level sensing module and a lifting module, wherein the water level sensing module and the lifting module are both in unidirectional electrical connection with the control terminal, a power supply module is arranged in unidirectional electrical connection with the emergency sewage disposal system, and the water level sensing module and the lifting module are emergency treatment mechanisms;

the emergency treatment mechanism comprises a water detection assembly and a lifting assembly, the water detection assembly is arranged on the front side of the top of the emergency treatment box, the lifting assembly is arranged on the rear side of the top of the emergency treatment box, the impurity discharging mechanism comprises a pollution discharging assembly and an impurity discharging assembly, the pollution discharging assembly is arranged on the rear side of the emergency treatment box, the impurity discharging assembly is arranged on the rear side of the top of the emergency treatment box, and the water detection assembly and the lifting assembly are a water level sensing module and a lifting module.

In order to achieve the effect of guiding sewage to drain and use, as a municipal sewage emergency treatment system based on BIM technology, the sewage inlet assembly preferably comprises a connecting pipe and a sewer pipe, wherein the connecting pipe is communicated with the front side of the emergency treatment box, and the bottom of the sewer pipe is communicated with the front side of the connecting pipe.

In order to achieve the effect of monitoring sewage in the emergency treatment tank, as a municipal sewage emergency treatment system based on the BIM technology, the water measurement assembly preferably comprises a water storage pipe, a fixed hanging piece and a water level monitor, wherein the water storage pipe is communicated with the front side of the top of the emergency treatment tank, the fixed hanging piece is welded at the top of the inside of the water storage pipe, the top of the water level monitor is bolted with the bottom of the fixed hanging piece, and the water level monitor is a water level sensing module.

In order to achieve the effect of facilitating subsequent emergency control and impurity removal of the emergency treatment box, the municipal sewage emergency treatment system based on the BIM technology is preferable, the lifting assembly comprises an electric telescopic rod, a connecting rod and an anti-blocking block, the electric telescopic rod is bolted in the middle of the top of the emergency treatment box, the telescopic end of the electric telescopic rod penetrates through the top of the emergency treatment box, the telescopic end of the electric telescopic rod is bolted with the top of the connecting rod, the top of the anti-blocking block is welded with the bottom of the connecting rod, and the electric telescopic rod is a lifting module.

In order to achieve the effect of transferring sewage in the emergency treatment box, the municipal sewage emergency treatment system based on the BIM technology is preferable, the sewage discharging assembly comprises a sewage transferring pipe and an interception screen plate, the sewage transferring pipe is communicated with the rear side of the emergency treatment box, and the interception screen plate is welded on the front side of the sewage transferring pipe.

In order to achieve the effect of discharging garbage in the emergency treatment tank under the control of the lifting assembly, the municipal sewage emergency treatment system based on the BIM technology is preferable, the impurity discharging assembly comprises a lower impurity pipe and a rotating discharge pipe, the top of the lower impurity pipe is communicated with the middle of the top of the emergency treatment tank, the top of the lower impurity pipe is clamped with the bottom of the anti-blocking block, and the rotating discharge pipe is communicated with the bottom of the lower impurity pipe.

In order to achieve the effect of buffering the water level in the emergency treatment tank, the municipal wastewater emergency treatment system based on the BIM technology is preferable, and an auxiliary buffer tube is communicated with the rear side of the top of the emergency treatment tank.

In order to achieve the effect of facilitating subsequent impurity removal and use, the municipal wastewater emergency treatment system based on the BIM technology is preferable, and inclined angle blocks are bolted to two sides of the bottom side of the emergency treatment box.

Compared with the prior art, the utility model has the beneficial effects that:

this municipal wastewater emergency treatment system based on BIM technique, through setting up emergent sewage system, advance dirty subassembly, emergency treatment mechanism and blowdown miscellaneous mechanism, through utilize advance dirty subassembly with municipal wastewater and rubbish delivery to the inside of emergent treatment case, then supply power to the sewage system of emergency on this basis through power module, then make its control terminal control water level sensing module's water measurement subassembly and lifting module's lifting unit, then after the sewage gets into emergent treatment case, the blowdown subassembly of rethread emergent treatment case rear side filters the discharge and leads to sewage treatment station and handles, and make the inside rubbish of sewage be in the inside of emergent treatment case, then when the increase of the inside water yield of municipal wastewater volume income emergent treatment case makes the blowdown subassembly produce and block up and drain when not unobstructed, make the inside of water measurement subassembly that gets into water level sensing module, then be detected by water measurement subassembly, then feed back to control terminal, then make the inside the instruction that blocks up the lifting unit who is in the emergent treatment case at the interior lift module top, thereby make the inside sewage treatment case filter the discharge and guide to sewage treatment station handle, and make the inside rubbish discharge after the sewage volume is in order to the time of leading to the normal use of this lift module, and make the sewage discharge after the sewage discharge is carried out the normal time to the sewage to the normal, and make the sewage discharge can be discharged with the normal sewage to the normal time of the subsequent control of the sewage discharge.

Drawings

FIG. 1 is an overall block diagram of a municipal wastewater emergency treatment system based on BIM technology of the utility model;

FIG. 2 is a schematic plan view of the emergency treatment tank of the present utility model;

FIG. 3 is a schematic diagram of an emergency sewage system according to the present utility model;

FIG. 4 is a schematic view of a dirt feeding assembly according to the present utility model;

FIG. 5 is a schematic view of the water measuring assembly of the present utility model;

FIG. 6 is a schematic view of a lifting assembly according to the present utility model;

FIG. 7 is a schematic view of a drain assembly according to the present utility model;

fig. 8 is a schematic structural diagram of the impurity removing unit according to the present utility model.

In the figure, 1, an emergency treatment box; 2. an emergency sewage disposal system; 201. a control terminal; 202. a water level sensing module; 203. a lifting module; 204. a power supply module; 3. a dirt inlet assembly; 301. connecting pipes; 302. a water supply pipe; 4. an emergency treatment mechanism; 401. a water measurement assembly; 4011. a water storage pipe; 4012. fixing the hanging piece; 4013. a water level monitor; 402. a lifting assembly; 4021. an electric telescopic rod; 4022. a connecting rod; 4023. anti-blocking blocks; 5. a pollution discharge impurity mechanism; 501. a blowdown assembly; 5011. a sewage transfer pipe; 5012. intercepting a screen plate; 502. a trash removal assembly; 5021. a impurity discharging pipe; 5022. a transfer pipe; 6. an auxiliary buffer tube; 7. and (5) tilting the angle block.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1-5, the present utility model provides the following technical solutions: the municipal sewage emergency treatment system based on the BIM technology comprises an emergency treatment box 1 and an emergency sewage disposal system 2, wherein a sewage inlet component 3 is arranged on the front side of the emergency treatment box 1, an emergency treatment mechanism 4 is arranged on the top of the emergency treatment box 1, and sewage impurity disposal mechanisms 5 are arranged on the rear side and the bottom of the emergency treatment box 1;

the emergency sewage disposal system 2 comprises a control terminal 201, a water level sensing module 202 and a lifting module 203, wherein the water level sensing module 202 and the lifting module 203 are electrically connected with the control terminal 201 in a unidirectional manner, the emergency sewage disposal system 2 is provided with a power supply module 204 in a unidirectional manner, and the water level sensing module 202 and the lifting module 203 are emergency treatment mechanisms 4;

the emergency treatment mechanism 4 comprises a water detection assembly 401 and a lifting assembly 402, the water detection assembly 401 is arranged on the front side of the top of the emergency treatment tank 1, the lifting assembly 402 is arranged on the rear side of the top of the emergency treatment tank 1, the impurity discharging mechanism 5 comprises a pollution discharging assembly 501 and an impurity discharging assembly 502, the pollution discharging assembly 501 is arranged on the rear side of the emergency treatment tank 1, the impurity discharging assembly 502 is arranged on the rear side of the top of the emergency treatment tank 1, and the water detection assembly 401 and the lifting assembly 402 are a water level sensing module 202 and a lifting module 203.

In this embodiment: by arranging the emergency sewage disposal system 2, the sewage inlet assembly 3, the emergency treatment mechanism 4 and the sewage disposal miscellaneous mechanism 5, municipal sewage and garbage are conveyed and discharged to the inside of the emergency treatment box 1 by utilizing the sewage inlet assembly 3, then the emergency sewage disposal system 2 is powered by the power supply module 204 on the basis, then the control terminal 201 controls the water measuring assembly 401 of the water level sensing module 202 and the lifting assembly 402 of the lifting module 203, after the sewage enters the emergency treatment box 1, the sewage is filtered and discharged by the sewage discharging assembly 501 at the rear side of the emergency treatment box 1 and is guided to a sewage treatment station for treatment, and when the water quantity in the sewage is increased in the emergency treatment box 1, and the sewage discharging assembly 501 is blocked, the inside of the water measuring assembly 401 of the water level sensing module 202 is further detected by the water measuring assembly 401, then the control terminal 201 is fed back to the lifting assembly 402 of the lifting assembly 203 at the top of the sewage discharging assembly 502, the sewage is filtered and discharged by the emergency treatment box 1, the sewage is discharged by the lifting assembly 203 at the rear side of the emergency treatment box 1, the sewage is discharged by the lifting assembly 502 after the emergency treatment box 1, the sewage is discharged by the emergency treatment box 1, and the sewage is discharged by the lifting assembly 203 at the same time as the normal time, and the sewage is discharged by the lifting assembly 502 is detected by the control terminal 201, thereby facilitating the use of the user.

As a technical optimization scheme of the utility model, the sewage inlet assembly 3 comprises a connecting pipe 301 and a sewer pipe 302, wherein the connecting pipe 301 is communicated with the front side of the emergency treatment tank 1, and the bottom of the sewer pipe 302 is communicated with the front side of the connecting pipe 301.

In this embodiment: through setting up connecting pipe 301 and downcomer 302, through carrying out welded intercommunication with connecting pipe 301 and downcomer 302, then with emergent treatment case 1's front side intercommunication, then with this with municipal sewage and the inside rubbish of sewage transport and discharge to emergent treatment case 1's inside to follow-up separation emission treatment.

As a technical optimization scheme of the utility model, the water measurement assembly 401 comprises a water storage pipe 4011, a fixed hanging piece 4012 and a water level monitor 4013, wherein the water storage pipe 4011 is communicated with the front side of the top of the emergency treatment box 1, the fixed hanging piece 4012 is welded at the top of the inside of the water storage pipe 4011, the top of the water level monitor 4013 is bolted with the bottom of the fixed hanging piece 4012, and the water level monitor 4013 is a water level sensing module 202.

In this embodiment: through setting up water storage pipe 4011, fixed hanging piece 4012 and water level monitor 4013, when the inside water yield of emergent processing case 1 is increased is discharged to municipal wastewater volume, make inside the water storage pipe 4011 that emergent processing case 1 top was linked together of sewage entering, then detect through the water level monitor 4013 of the water level sensing module 202 of fixed hanging piece 4012 bottom, then feed back to control terminal 201, then control terminal 201 carries out the instruction of descending down to backward lifting module 203 again, so that the use of follow-up blowdown is arranged to this convenience.

As a technical optimization scheme of the utility model, the lifting assembly 402 comprises an electric telescopic rod 4021, a connecting rod 4022 and an anti-blocking block 4023, wherein the electric telescopic rod 4021 is bolted in the middle of the top of the emergency treatment box 1, the telescopic end of the electric telescopic rod 4021 penetrates through the top of the emergency treatment box 1, the telescopic end of the electric telescopic rod 4021 is bolted with the top of the connecting rod 4022, the top of the anti-blocking block 4023 is welded with the bottom of the connecting rod 4022, and the electric telescopic rod 4021 is a lifting module 203.

In this embodiment: through setting up electric telescopic rod 4021, connecting rod 4022 and prevent stifled piece 4023, control terminal 201 gives the instruction that rises to electric telescopic rod 4021 that is in emergent processing case 1 top elevating module 203 to this makes it drive connecting rod 4022 and prevent stifled piece 4023 and rise, so that follow-up trash removal uses.

As a technical optimization scheme of the utility model, the sewage disposal assembly 501 comprises a sewage transfer pipe 5011 and an interception screen 5012, wherein the sewage transfer pipe 5011 is communicated with the rear side of the emergency treatment box 1, and the interception screen 5012 is welded on the front side of the sewage transfer pipe 5011.

In this embodiment: through setting up to change dirty pipe 5011 and interception otter board 5012, after municipal sewage arranges the inside to emergent treatment case 1, handle sewage guide to sewage treatment station through changeing dirty pipe 5011, intercept debris rubbish through interception otter board 5012 at this in-process for remain in the inside of emergent treatment case 1, with this realization to the use of sewage and rubbish separation.

As a technical optimization scheme of the utility model, the impurity discharging assembly 502 comprises a lower impurity tube 5021 and a rotating tube 5022, wherein the top of the lower impurity tube 5021 is communicated with the middle of the top of the emergency treatment box 1, the top of the lower impurity tube 5021 is clamped with the bottom of the anti-blocking block 4023, and the rotating tube 5022 is communicated with the bottom of the lower impurity tube 5021.

In this embodiment: through setting up miscellaneous tub 5021 down and changeing calandria 5022, the electric telescopic rod 4021 that does not open in the lift drives connecting rod 4022 and prevents stifled piece 4023 and rise the back, and the inside remaining sewage of its emergency treatment case 1 and rubbish discharge miscellaneous tub 5021 down and changeing calandria 5022 get rid of to this is convenient for the inside blowdown of emergency treatment case 1 use.

As a technical optimization scheme of the utility model, the rear side of the top of the emergency treatment box 1 is communicated with an auxiliary buffer tube 6.

In this embodiment: through setting up supplementary buffer tube 6, can realize buffering the effect of emergent processing case 1 inside water level to increase the practicality.

As a technical optimization scheme of the utility model, both sides of the bottom side inside the emergency treatment box 1 are bolted with inclined angle blocks 7.

In this embodiment: through setting up slope angle block 7, can promote the effect of the emergent processing case 1 trash-removal of being convenient for use to increase the practicality.

Working principle: firstly, through welding the connecting pipe 301 and the sewer pipe 302, then communicating with the front side of the emergency treatment tank 1, then conveying and discharging municipal sewage and garbage inside the sewage to the inside of the emergency treatment tank 1, then supplying power to the emergency sewage disposal system 2 through the power supply module 204 on the basis, then enabling the control terminal 201 to control the water level monitor 4013 of the water level sensing module 202 and the electric telescopic rod 4021 of the lifting module 203, after the sewage enters the emergency treatment tank 1, filtering and discharging the sewage through the sewage transfer pipe 5011 at the rear side of the emergency treatment tank 1 and guiding the sewage to the sewage treatment station for treatment, and enabling the garbage inside the sewage to be inside the emergency treatment tank 1, and then enabling the sewage to enter the inside of the water storage pipe 4011 of the water level sensing module 202 when the municipal sewage amount is discharged into the emergency treatment tank 1, the water amount is increased, so that the sewage discharge assembly 501 is blocked and the water discharge is not smooth, further, the sewage and garbage in the emergency treatment tank 1 are discharged through the lower trash pipe 5021 and the transfer pipe 5022, after the sewage and garbage in the emergency treatment tank 1 are lowered, the water level monitor 4013 of the water level sensing module 202 cannot detect the sewage and garbage, the control terminal 201 again controls the electric telescopic rod 4021 of the lifting module 203 to block the lower trash pipe 5021, and then the transfer pipe 5011 is used for normal sewage discharge, so that the sewage and garbage can be discharged rapidly, thereby reducing the discharge time and improving the subsequent treatment speed of the sewage, and facilitating the use of users.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. Municipal wastewater emergency treatment system based on BIM technique, including emergent treatment case (1) and emergent drain (2), its characterized in that: the sewage treatment device is characterized in that a sewage inlet assembly (3) is arranged on the front side of the emergency treatment box (1), an emergency treatment mechanism (4) is arranged at the top of the emergency treatment box (1), and a sewage impurity discharging mechanism (5) is arranged on the rear side and the bottom of the emergency treatment box (1);

the emergency sewage disposal system (2) comprises a control terminal (201), a water level sensing module (202) and a lifting module (203), wherein the water level sensing module (202) and the lifting module (203) are both electrically connected with the control terminal (201) in a unidirectional manner, the emergency sewage disposal system (2) is provided with a power supply module (204) in a unidirectional manner, and the water level sensing module (202) and the lifting module (203) are emergency treatment mechanisms (4);

the emergency treatment mechanism (4) comprises a water detection assembly (401) and a lifting assembly (402), the water detection assembly (401) is arranged on the front side of the top of the emergency treatment box (1), the lifting assembly (402) is arranged on the rear side of the top of the emergency treatment box (1), the impurity discharging mechanism (5) comprises an impurity discharging assembly (501) and an impurity discharging assembly (502), the impurity discharging assembly (501) is arranged on the rear side of the emergency treatment box (1), the impurity discharging assembly (502) is arranged on the rear side of the top of the emergency treatment box (1), and the water detection assembly (401) and the lifting assembly (402) are a water level sensing module (202) and a lifting module (203).

2. The municipal sewage emergency treatment system based on the BIM technology according to claim 1, wherein: the sewage inlet assembly (3) comprises a connecting pipe (301) and a sewer pipe (302), wherein the connecting pipe (301) is communicated with the front side of the emergency treatment tank (1), and the bottom of the sewer pipe (302) is communicated with the front side of the connecting pipe (301).

3. The municipal sewage emergency treatment system based on the BIM technology according to claim 1, wherein: the water measuring assembly (401) comprises a water storage pipe (4011), a fixed hanging piece (4012) and a water level monitor (4013), wherein the water storage pipe (4011) is communicated with the front side of the top of the emergency treatment box (1), the fixed hanging piece (4012) is welded at the top of the inside of the water storage pipe (4011), the top of the water level monitor (4013) is bolted with the bottom of the fixed hanging piece (4012), and the water level monitor (4013) is a water level sensing module (202).

4. The municipal sewage emergency treatment system based on the BIM technology according to claim 1, wherein: lifting assembly (402) are including electric telescopic handle (4021), connecting rod (4022) and anti-blocking block (4023), electric telescopic handle (4021) bolt is in the centre at emergent processing case (1) top, the flexible end of electric telescopic handle (4021) runs through the top of emergent processing case (1), the flexible end of electric telescopic handle (4021) is bolted with the top of connecting rod (4022), the bottom welding of anti-blocking block (4023) top and connecting rod (4022), electric telescopic handle (4021) is lifting module (203).

5. The municipal sewage emergency treatment system based on the BIM technology according to claim 1, wherein: the sewage disposal assembly (501) comprises a sewage transfer pipe (5011) and an interception screen plate (5012), wherein the sewage transfer pipe (5011) is communicated with the rear side of the emergency treatment box (1), and the interception screen plate (5012) is welded on the front side of the sewage transfer pipe (5011).

6. The municipal sewage emergency treatment system based on the BIM technology according to claim 1, wherein: the impurity removal assembly (502) comprises a lower impurity pipe (5021) and a rotating pipe (5022), wherein the top of the lower impurity pipe (5021) is communicated with the middle of the top of the emergency treatment box (1), the top of the lower impurity pipe (5021) is connected with the bottom of an anti-blocking block (4023) in a clamping mode, and the rotating pipe (5022) is communicated with the bottom of the lower impurity pipe (5021).

7. The municipal sewage emergency treatment system based on the BIM technology according to claim 1, wherein: the rear side at the top of the emergency treatment box (1) is communicated with an auxiliary buffer tube (6).

8. The municipal sewage emergency treatment system based on the BIM technology according to claim 1, wherein: both sides of the bottom side inside the emergency treatment box (1) are both bolted with inclined angle blocks (7).