CN220906042U - Double-tank type sewage storage device for cleaning septic tank - Google Patents

Abstract

The utility model relates to a double-tank type sewage storage device for cleaning a septic tank, which comprises a tank body, wherein a partition plate is arranged in a storage cavity of the tank body, so that the tank body forms two mutually independent sub storage cavities, two sewage inlets and two sewage outlets are arranged on the tank body, and each sub storage cavity corresponds to one sewage inlet and one sewage outlet respectively; the tank body is provided with a vacuum pipeline and a positive pressure pipeline, the vacuum pipeline comprises three suction ports, wherein the first suction port is communicated with a vacuum pump, the second suction port and the third suction port are respectively communicated with the tops of the two sub storage cavities, the second suction port and the third suction port are respectively provided with a first control valve, the positive pressure pipeline comprises three air blowing ports, the first air blowing ports are connected with a positive pressure fan, the second air blowing ports and the third air blowing ports are respectively communicated with the tops of the two sub storage cavities, and the second air blowing ports and the third air blowing ports are respectively provided with a second control valve. The two sub-storage cavities can be recycled in an alternating mode, the sewage storage and pollution discharge efficiency of the sewage storage device is high, and the cleaning efficiency of the septic tank is improved.

Description

Double-tank type sewage storage device for cleaning septic tank

Technical Field

The utility model relates to the technical field of environmental protection, in particular to a double-tank type sewage storage device for cleaning a septic tank.

Background

In sewage of sewage, septic tanks, landfill leachate storage tanks and the like, there are more coarse slag such as board, tree branches, wood blocks, plastic bags/bottles, cloth strips, sanitary products, stones and the like, which are the main causes of clogging, in addition to waste water and silt. Therefore, coarse slag needs to be pumped out to reduce blockage, so that the sewer, the septic tank and the like can perform normal functions. During cleaning, the sucked-out coarse waste water is usually temporarily stored by means of a waste storage device. At present, the sewage storage device is generally provided with only one stored tank body, so that after the stored tank body is full, the crude slag sewage in the tank body needs to be cleaned, and the tank body can be used for accommodating the crude slag sewage again, so that the cleaning time is increased, the cleaning efficiency of the septic tank is greatly reduced, and the cleaning cost is increased.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art, and provides a double-tank type sewage storage device for cleaning a septic tank, wherein the tank body of the double-tank type sewage storage device is provided with two mutually independent sub-storage cavities, and the two sub-storage cavities can be used alternately, so that the cleaning efficiency of the septic tank is improved, and the cleaning cost is reduced.

The technical scheme of the utility model is as follows: a double-tank type sewage storage device for cleaning a septic tank comprises a tank body, wherein a partition plate is arranged in a storage cavity of the tank body to enable the tank body to form two mutually independent sub storage cavities, two sewage inlets and two sewage outlets are formed in the tank body, and each sub storage cavity corresponds to one sewage inlet and one sewage outlet respectively; the vacuum pipeline comprises three suction ports, wherein a first suction port is used for being communicated with a vacuum pump, a second suction port and a third suction port are respectively communicated with the tops of the sub-storage cavities, a first control valve is respectively arranged on the second suction port and the third suction port, the positive pressure pipeline comprises three air blowing ports, the first air blowing ports are connected with a positive pressure fan, the second air blowing ports and the third air blowing ports are respectively communicated with the tops of the two sub-storage cavities, and a second control valve is respectively arranged on the second air blowing ports and the third air blowing ports.

Optionally, a sewage suction pipe and two sewage discharge pipes are arranged on the tank body, the sewage suction pipe comprises an inlet end and two outlet ends, the inlet end is used for connecting a sewage suction spiral arm, the two outlet ends are respectively connected with the two sewage inlet openings, and the two sewage discharge pipes are respectively connected with the two sewage discharge openings.

Optionally, two sewage inlets are arranged at the top of the tank body, and two sewage outlets are arranged at the bottom of the tank body.

Optionally, liquid level observation windows are respectively arranged on the left side and the right side of the tank body, each liquid level observation window is covered by a transparent cover, and one sub storage cavity at least corresponds to one liquid level observation window.

Optionally, two inlets are arranged at the top of the tank body, one of the sub storage cavities corresponds to one of the inlets, and each of the inlets is sealed by a hole cover.

Optionally, the tank body is cylindrical, the baffle perpendicular to the circumference lateral wall of the tank body, two advance dirty mouthful, two the drain is all located on the circumference lateral wall of the tank body.

Optionally, at least two support bases are integrally arranged at the bottom of the tank body, and mounting holes are respectively formed in each support base.

Optionally, each supporting base is disposed on a circumferential sidewall of the tank body, and each supporting base is distributed along a central axis direction of the tank body.

Optionally, a mounting bracket is integrally arranged on the circumferential side wall of the tank body, the mounting bracket comprises a horizontal supporting plate, and the positive pressure fan is supported on the supporting plate.

Optionally, two groups of liquid level sensors are arranged on the tank body, each group of liquid level sensors respectively comprises a high liquid level sensor and a low liquid level sensor which extend into the sub storage cavities, and each sub storage cavity corresponds to one group of liquid level sensor.

The technical scheme is adopted: the double-tank type sewage storage device for cleaning the septic tank comprises a tank body, wherein a partition plate is arranged in a storage cavity of the tank body to enable the tank body to form two mutually independent sub storage cavities, two sewage inlets and two sewage outlets are formed in the tank body, and each sub storage cavity corresponds to one sewage inlet and one sewage outlet respectively; the vacuum pipeline comprises three suction ports, wherein a first suction port is used for being communicated with a vacuum pump, a second suction port and a third suction port are respectively communicated with the tops of the sub-storage cavities, a first control valve is respectively arranged on the second suction port and the third suction port, the positive pressure pipeline comprises three air blowing ports, the first air blowing ports are connected with a positive pressure fan, the second air blowing ports and the third air blowing ports are respectively communicated with the tops of the two sub-storage cavities, and a second control valve is respectively arranged on the second air blowing ports and the third air blowing ports. The storage cavity of the tank body forms two mutually independent sub-storage cavities through the partition plate, so that coarse slag sewage in one sub-storage cavity can be discharged in the process of accommodating coarse slag sewage in the other sub-storage cavity, the coarse slag sewage in the other sub-storage cavity can be used for accommodating after being discharged, the two sub-storage cavities are recycled in a mutually alternating manner, the sewage storage and sewage discharge efficiency of the sewage storage device is high, the cleaning time of coarse slag in the septic tank is shortened, the cleaning efficiency of the septic tank is greatly improved, and the cleaning cost is reduced.

Optionally, a sewage suction pipe and two sewage discharge pipes are arranged on the tank body, the sewage suction pipe comprises an inlet end and two outlet ends, the inlet end is used for connecting a sewage suction spiral arm, the two outlet ends are respectively connected with the two sewage inlet openings, and the two sewage discharge pipes are respectively connected with the two sewage discharge openings. One sewage suction pipeline can convey coarse slag wastewater into the two sub storage cavities, so that the layout and arrangement of the pipelines are facilitated; and two sewage pipes can be connected with two sewage deslagging systems respectively, or two sewage pipes are connected to one sewage deslagging system, so that the application range of the sewage storage device is enlarged.

Optionally, two sewage inlets are arranged at the top of the tank body, and two sewage outlets are arranged at the bottom of the tank body. The sewage inlet at the top is more beneficial for coarse slag to enter the sub-storage cavity; the drain is arranged at the bottom, so that the pressure intensity of the upper space in the sub-storage cavity is increased conveniently through the action of the positive pressure fan, and coarse slag wastewater is extruded to be discharged from the drain at the bottom.

Optionally, liquid level observation windows are respectively arranged on the left side and the right side of the tank body, each liquid level observation window is covered by a transparent cover, and one sub storage cavity at least corresponds to one liquid level observation window. The liquid level observation window that sets up can be convenient for the staff to know the storage condition of each sub-storage intracavity coarse slag waste water.

Optionally, two inlets are arranged at the top of the tank body, one of the sub storage cavities corresponds to one of the inlets, and each of the inlets is sealed by a hole cover. The inlet is convenient for workers to enter the tank body for dredging or maintaining when abnormal conditions such as blockage and the like occur.

Optionally, the tank body is cylindrical, the baffle perpendicular to the circumference lateral wall of the tank body, two advance dirty mouthful, two the drain is all located on the circumference lateral wall of the tank body. The cylindrical tank body is more suitable for the high-pressure pollution discharge and low-pressure pollution suction environment required by the sub-storage cavity.

Optionally, at least two support bases are integrally arranged at the bottom of the tank body, and mounting holes are respectively formed in each support base. The dirt storage device can be fixed through the mounting holes of the support base, so that the device can be applied to the shaking environment on a vehicle and the like, and the service environment of the dirt storage device is enlarged.

Optionally, each supporting base is disposed on a circumferential sidewall of the tank body, and each supporting base is distributed along a central axis direction of the tank body. The tank body can be transversely placed, and the center of the sewage storage device can be lowered by transverse placement, so that the sewage storage device is not easy to shake.

Optionally, a mounting bracket is integrally arranged on the circumferential side wall of the tank body, the mounting bracket comprises a horizontal supporting plate, and the positive pressure fan is supported on the supporting plate. The installation support that sets up has made things convenient for the installation of positive pressure fan.

Optionally, two groups of liquid level sensors are arranged on the tank body, each group of liquid level sensors respectively comprises a high liquid level sensor and a low liquid level sensor which extend into the sub storage cavities, and each sub storage cavity corresponds to one group of liquid level sensor. The liquid level sensor is arranged to facilitate the judgment of the system on the storage conditions in the sub storage cavities, so that the specific alternate time of the two sub storage cavities is automatically determined.

The double-tank type sewage storage device for cleaning the septic tank provided by the utility model forms two mutually independent sub storage cavities through the partition plate, so that the two sub storage cavities can be mutually and alternately recycled, the sewage storage and pollution discharge efficiency of the sewage storage device is high, the cleaning time of coarse slag in the septic tank is reduced, the cleaning efficiency of the septic tank is greatly improved, and the cleaning cost is reduced.

The utility model is further described below with reference to the drawings and specific examples.

Drawings

FIG. 1 is a schematic diagram of a dual tank type dirt storage apparatus for septic tank cleaning;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

Fig. 4 is a schematic structural view of the can body.

In the drawing, 1 is a tank body, 101 is a partition plate, 102 is a sub storage cavity, 2 is a liquid level observation window, 3 is a sewage suction pipeline, 4 is a positive pressure fan, 5 is a positive pressure pipeline, 6 is a vacuum pipeline, 7 is a sewage discharge pipeline, 8 is an inlet, 9 is a liquid level sensor, 10 is a supporting base, and 11 is a mounting bracket.

Detailed Description

Referring to fig. 1 to 4, a double-tank type sewage storage device for cleaning a septic tank comprises a tank body 1, wherein the tank body 1 can be made of metal, and particularly can be formed by integral casting. A partition board 101 is arranged in the storage cavity of the tank body 1, so that the tank body 1 forms two mutually independent sub storage cavities 102, and the partition board 101 and the tank body 1 are of an integral structure. Two sewage inlets and two sewage outlets are arranged on the tank body 1, and each sub storage cavity 102 corresponds to one sewage inlet and one sewage outlet respectively. The left side and the right side of the tank body 1 are respectively provided with a liquid level observation window 2, each liquid level observation window 2 is covered by a transparent cover, and one sub storage cavity 102 at least corresponds to one liquid level observation window 2. The liquid level observation window 2 is arranged so that staff can know the storage condition of the coarse slag wastewater in each sub storage cavity 102 conveniently. Two inlets 8 are arranged at the top of the tank body 1, one of the sub storage cavities 102 corresponds to one of the inlets 8, and each inlet 8 is sealed by a hole cover. The inlet 8 is convenient for workers to enter the tank body 1 for dredging or maintaining when abnormal conditions such as blockage and the like occur. Two groups of liquid level sensors 9 are arranged on the tank body 1, each group of liquid level sensors 9 respectively comprises a high liquid level sensor 9 and a low liquid level sensor 9 which extend into the sub storage cavity 102, and each sub storage cavity 102 respectively corresponds to one group of liquid level sensors 9. The liquid level sensor 9 is arranged to facilitate the judgment of the storage condition of the sub-storage cavities 102 by the system, so that specific alternate time of the two sub-storage cavities 102 is automatically determined.

The tank body 1 is cylindrical, the partition plate 101 is perpendicular to the circumferential side wall of the tank body 1, and the two sewage inlets and the two sewage outlets are all arranged on the circumferential side wall of the tank body 1. The cylindrical tank 1 is more suitable for the high-pressure pollution discharge and low-pressure pollution suction environment needed in the sub-storage cavity 102. At least two support bases 10 are integrally arranged at the bottom of the tank body 1, and mounting holes are respectively formed in each support base 10. The pollution storage device can be fixed through the mounting holes of the support base 10, so that the device can be applied to the shaking environment on a vehicle and the like, and the service environment of the pollution storage device is enlarged. Further, each supporting base 10 is disposed on a circumferential sidewall of the tank body 1, and each supporting base 10 is distributed along a central axis direction of the tank body 1. The tank body 1 can be transversely placed, and the center of the sewage storage device can be lowered by transverse placement, so that the sewage storage device is not easy to shake. In this embodiment, in order to facilitate the installation of the positive pressure fan 4, a mounting bracket 9 is integrally disposed on the circumferential side wall of the tank body 1, and the mounting bracket 9 includes a horizontal support plate, and the positive pressure fan 4 is supported on the support plate.

The sewage suction device is characterized in that the tank body 1 is provided with a sewage suction pipeline 3 and two sewage discharge pipelines 7, the sewage suction pipeline 3 comprises an inlet end and two outlet ends, the inlet end is used for connecting a sewage suction spiral arm, the two outlet ends are respectively connected with two sewage inlet openings, and the two sewage discharge pipelines 7 are respectively connected with two sewage discharge openings. One sewage suction pipeline 3 can convey coarse slag wastewater into two sub-storage cavities 102, so that the layout of the pipelines is more convenient; and two sewage pipes 7 can be connected two sewage deslagging systems respectively, or two sewage pipes 7 are connected to a sewage deslagging system, so that the application range of the sewage storage device is enlarged. The vacuum pipeline 6 and the positive pressure pipeline 5 are arranged on the tank body 1, the vacuum pipeline 6 comprises three suction ports, wherein the first suction port is communicated with a vacuum pump, the second suction port and the third suction port are respectively communicated with the tops of the two sub-storage cavities 102, the second suction port and the third suction port are respectively provided with a first control valve, the positive pressure pipeline 5 comprises three air blowing ports, the first air blowing ports are connected with the positive pressure fan 4, the second air blowing ports and the third air blowing ports are respectively communicated with the tops of the two sub-storage cavities 102, and the second air blowing ports and the third air blowing ports are respectively provided with a second control valve. In this embodiment, two sewage inlets are formed at the top of the tank body 1, and two sewage outlets are formed at the bottom of the tank body 1. The sewage inlet at the top is more beneficial for coarse slag to enter the sub-storage cavity 102; the drain is arranged at the bottom, so that the pressure of the upper space in the sub-storage cavity 102 is increased conveniently by the action of the positive pressure fan 4, and coarse slag wastewater is extruded and discharged from the drain at the bottom.

When the sewage sucking device is used, in the sewage sucking process, a first control valve at the suction port of the vacuum pipeline 6 corresponding to the sub-storage cavity 102 for containing coarse slag sewage is controlled to be opened, and a second control valve at the air blowing port of the positive pressure pipeline 5 corresponding to the sub-storage cavity 102 for containing coarse slag sewage is controlled to be closed; the sub-storage chamber 102 is subjected to a sewage sucking operation, and the vacuum pipeline 6 sucks air in the sub-storage chamber 102 to form a low-pressure environment to suck coarse slag sewage from the sewage inlet, so that the sewage outlet of the sub-storage chamber 102 is closed in the process. In the sewage discharging process, a second control valve at the air blowing port of the positive pressure pipeline 5 corresponding to the sub-storage cavity 102 needing to discharge the coarse slag sewage is controlled to be opened, and a first control valve at the suction port of the vacuum pipeline 6 corresponding to the sub-storage cavity 102 needing to discharge the coarse slag sewage is controlled to be closed; the sub-storage chamber 102 is subjected to blowdown operation, and the positive pressure fan 4 blows air into the sub-storage chamber 102 for blowdown, so that high-pressure environment is formed for extruding coarse slag sewage to be discharged from a blowdown outlet, and the sewage suction outlet of the sub-storage chamber 102 is in a closed state in the process. Therefore, the two sub storage cavities can enable the sewage storage device to perform sewage suction and sewage discharge processes at the same time.

In the double-tank sewage storage device for cleaning the septic tank provided by the embodiment, the storage cavity of the tank body 1 forms two mutually independent sub-storage cavities 102 through the partition plate 101, so that coarse slag sewage in one sub-storage cavity 102 can be discharged in the process of accommodating coarse slag sewage in the other sub-storage cavity 102, the coarse slag sewage in the other sub-storage cavity 102 can be used for accommodating after being discharged, the two sub-storage cavities 102 can be recycled alternately, the sewage storage and sewage discharge efficiency of the sewage storage device is high, the cleaning time of coarse slag in the septic tank is reduced, the cleaning efficiency of the septic tank is greatly improved, and the cleaning cost is reduced.

Claims (10)

1. The double-tank type sewage storage device for cleaning the septic tank is characterized by comprising a tank body, wherein a partition plate is arranged in a storage cavity of the tank body to enable the tank body to form two mutually independent sub storage cavities, two sewage inlets and two sewage outlets are arranged on the tank body, and each sub storage cavity corresponds to one sewage inlet and one sewage outlet respectively; the vacuum pipeline comprises three suction ports, wherein a first suction port is used for being communicated with a vacuum pump, a second suction port and a third suction port are respectively communicated with the tops of the sub-storage cavities, a first control valve is respectively arranged on the second suction port and the third suction port, the positive pressure pipeline comprises three air blowing ports, the first air blowing ports are connected with a positive pressure fan, the second air blowing ports and the third air blowing ports are respectively communicated with the tops of the two sub-storage cavities, and a second control valve is respectively arranged on the second air blowing ports and the third air blowing ports.

2. The double tank type sewage storage device for cleaning a septic tank according to claim 1, wherein: the sewage suction device is characterized in that a sewage suction pipeline and two sewage discharge pipelines are arranged on the tank body, the sewage suction pipeline comprises an inlet end and two outlet ends, the inlet end is used for being connected with a sewage suction spiral arm, the two outlet ends are respectively connected with two sewage inlet openings, and the two sewage discharge pipelines are respectively connected with two sewage discharge openings.

3. The double tank type sewage storage device for cleaning a septic tank according to claim 1, wherein: two the dirt inlet is located the top of jar body, two drain are located the bottom of jar body.

4. The double tank type sewage storage device for cleaning a septic tank according to claim 1, wherein: the left side and the right side of the tank body are respectively provided with a liquid level observation window, each liquid level observation window is covered by a transparent cover, and one sub storage cavity at least corresponds to one liquid level observation window.

5. The double tank type sewage storage device for cleaning a septic tank according to claim 1, wherein: two inlets are formed in the top of the tank body, one of the sub storage cavities corresponds to one of the inlets, and each of the inlets is sealed by a hole cover.

6. The double tank type sewage storage device for cleaning a septic tank according to claim 1, wherein: the tank body is cylindrical, the baffle is perpendicular to the circumference lateral wall of the tank body, and the two sewage inlets and the two sewage outlets are all arranged on the circumference lateral wall of the tank body.

7. The double tank type sewage storage device for cleaning a septic tank according to claim 6, wherein: the bottom of the tank body is integrally provided with at least two support bases, and each support base is provided with a mounting hole.

8. The double tank type sewage storage device for cleaning a septic tank according to claim 7, wherein: each supporting base is arranged on the circumferential side wall of the tank body, and the supporting bases are distributed along the central axis direction of the tank body.

9. The double tank type sewage storage device for cleaning a septic tank according to claim 6, wherein: the installation support is integrally arranged on the circumferential side wall of the tank body and comprises a horizontal supporting plate, and the positive pressure fan is supported on the supporting plate.

10. The double tank type sewage storage device for cleaning a septic tank according to claim 1, wherein: the tank body is provided with two groups of liquid level sensors, each group of liquid level sensors respectively comprises a high liquid level sensor and a low liquid level sensor which extend into the sub storage cavities, and each sub storage cavity corresponds to one group of liquid level sensor.