CN214245986U - Integrated sewage regulation and storage equipment and drainage system - Google Patents
Integrated sewage regulation and storage equipment and drainage system Download PDFInfo
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- CN214245986U CN214245986U CN202022207000.2U CN202022207000U CN214245986U CN 214245986 U CN214245986 U CN 214245986U CN 202022207000 U CN202022207000 U CN 202022207000U CN 214245986 U CN214245986 U CN 214245986U
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- 239000010865 sewage Substances 0.000 title claims abstract description 112
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 182
- 230000001105 regulatory effect Effects 0.000 claims abstract description 29
- 230000010354 integration Effects 0.000 claims abstract description 9
- 239000008239 natural water Substances 0.000 claims description 15
- 230000007704 transition Effects 0.000 claims description 6
- 230000000903 blocking effect Effects 0.000 claims description 5
- 239000002351 wastewater Substances 0.000 claims 8
- 238000009434 installation Methods 0.000 abstract description 6
- 230000000694 effects Effects 0.000 abstract description 5
- 238000010276 construction Methods 0.000 abstract description 4
- 239000007788 liquid Substances 0.000 description 20
- 239000003344 environmental pollutant Substances 0.000 description 8
- 230000005484 gravity Effects 0.000 description 8
- 231100000719 pollutant Toxicity 0.000 description 8
- 230000007547 defect Effects 0.000 description 5
- 238000005192 partition Methods 0.000 description 5
- 230000003750 conditioning effect Effects 0.000 description 4
- 238000012544 monitoring process Methods 0.000 description 4
- 238000000034 method Methods 0.000 description 3
- 241000973497 Siphonognathus argyrophanes Species 0.000 description 2
- 230000001276 controlling effect Effects 0.000 description 2
- 238000007789 sealing Methods 0.000 description 2
- 239000002699 waste material Substances 0.000 description 2
- 238000009825 accumulation Methods 0.000 description 1
- 230000003044 adaptive effect Effects 0.000 description 1
- 238000011001 backwashing Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 230000007774 longterm Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 239000010802 sludge Substances 0.000 description 1
- 238000011144 upstream manufacturing Methods 0.000 description 1
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Abstract
The utility model discloses an integration sewage regulation equipment and drainage system, include: the body is provided with a flow distribution area and a storage regulation area, and the flow distribution area is provided with a first water inlet pipe and a first water outlet pipe; the first on-off switch is correspondingly arranged at the pipe orifice part of the first water outlet pipe; the storage regulating assembly is arranged in the storage regulating area and communicated with the storage regulating area and the flow dividing area; when the first on-off switch is turned off, sewage flowing into the shunting area from the first water inlet pipe flows into the storage area through the storage adjusting assembly; when the first on-off switch is turned on, sewage flowing into the shunting area from the first water inlet pipe is discharged into a downstream pipeline through the first water outlet pipe, and/or sewage in the storage adjusting area flows into the shunting area through the storage adjusting assembly. The utility model discloses can reach the technological effect of carrying out the regulation to sewage to and regional with shunting and the regional integration of regulation on a body, greatly practice thrift the time of construction and installation, have low cost, have simple structure, convenient operation and extensive applicability's characteristics.
Description
Technical Field
The utility model belongs to the technical field of the drainage, in particular to integration sewage regulation equipment and drainage system.
Background
The urban pipe network is divided into a confluence drainage system and a shunt drainage system and is used for discharging sewage (such as domestic sewage) in a unit area.
However, in this drainage method, the drained sewage directly enters the drainage pipe and then mixes with the rainwater, and if the mixed water of the rainwater and the sewage is directly drained into the natural water body in rainy days, the received water body is easily polluted seriously, and if the mixed water is directly drained into the sewage treatment facility for treatment, a large amount of clean rainwater in rainy days enters the sewage treatment facility for unnecessary treatment, which results in resource waste.
Therefore, the structural design that sewage directly enters a sewage discharge pipeline to be output in the prior art has the technical defects that the natural water body is extremely easy to seriously pollute in rainy days, or the sewage treatment facility has overlarge treatment pressure, resource waste and the like.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that the structural design who directly gets into sewage pipes among the prior art and give the output has very easily to cause the serious pollution of natural water when rainy day, perhaps technical defect such as sewage treatment facility treatment pressure is too big, wasting of resources.
In order to solve the technical problem, the utility model provides an integration sewage regulation and storage equipment, include:
the water storage device comprises a body, a water storage tank and a water outlet pipe, wherein the body is provided with a shunting area and a storage adjusting area, the shunting area is provided with a first water inlet pipe and at least one first water outlet pipe, and the storage adjusting area and the shunting area are distributed adjacently;
the number of the first on-off switches is matched with that of the first water outlet pipes, and each first on-off switch is correspondingly arranged at the pipe orifice part of one first water outlet pipe;
the storage adjusting assembly is arranged in the storage adjusting area and communicated with the storage adjusting area and the flow dividing area;
when the first on-off switch is turned off, sewage flowing into the diversion area from the first water inlet pipe flows into the storage area through the storage adjusting assembly;
when the first on-off switch is turned on, sewage flowing into the diversion area from the first water inlet pipe is discharged into a downstream pipeline or a natural water body through the first water outlet pipe, and/or sewage in the storage area flows into the diversion area through the storage adjusting assembly.
Optionally, the storage regulating assembly includes:
a circulation pipe orifice arranged on the storage adjusting area so as to communicate the storage adjusting area with the flow dividing area, wherein the elevation of the bottom of the circulation pipe orifice is equal to or higher than the elevation of the top of the first water outlet pipe;
the draining pump is arranged at the bottom of the regulating and storing area;
and the water inlet pipe orifice of the water discharge pipe is communicated with the drainage pump, and the water outlet pipe orifice of the water discharge pipe is communicated with the flow dividing area.
Optionally, the water outlet pipe orifice of the water outlet pipe is arranged in the flow pipe orifice.
Optionally, the storage regulating assembly includes:
a flow pipe opening arranged on the storage adjusting area to communicate the storage adjusting area and the flow dividing area,
the second on-off switch is arranged on the flow pipe orifice;
the draining pump is arranged at the bottom of the regulating and storing area;
and the water inlet pipe orifice of the water discharge pipe is communicated with the drainage pump, and the water outlet pipe orifice of the water discharge pipe is communicated with the flow dividing area.
Optionally, the storage regulating assembly includes:
the water inlet pipe orifice of the water outlet pipe is positioned at the bottom of the storage adjusting area, the water outlet pipe orifice of the water outlet pipe is communicated with the flow dividing area, and the pipe bottom elevation of the water outlet pipe orifice of the water outlet pipe is equal to or higher than the pipe top elevation of the first water outlet pipe;
the gas pipe is arranged in the storage regulation area and communicated with the outside;
and the air source is connected with the air conveying pipe.
Optionally, the storage regulating assembly includes:
the water inlet pipe orifice of the water discharge pipe is positioned at the bottom of the storage adjusting area, and the water outlet pipe orifice of the water discharge pipe is communicated with the flow dividing area;
the gas pipe is arranged in the storage regulation area and communicated with the outside;
the gas source is connected with the gas conveying pipe;
and the second on-off switch is arranged on the water outlet pipe opening of the water outlet pipe.
Optionally, the inlet pipe mouth department of drain pipe is provided with the transition elbow, the transition elbow is U type structure, the U type open end of U type structure with the bottom in regulation region is leveled.
Optionally, the integrated sewage storage and regulation device further comprises:
and the dirt blocking part is positioned in the flow splitting area and is arranged at the opening of the circulating pipe to envelop the opening of the circulating pipe.
Optionally, the integrated sewage storage and regulation device further comprises:
and the dirt blocking part is positioned in the flow dividing area and is arranged at the water outlet opening of the drain pipe so as to envelop the water outlet opening of the drain pipe.
Optionally, one end of the first water outlet pipe is communicated with the internal space of the diversion area, and the other end of the first water outlet pipe penetrates through the internal space of the storage area and is communicated with a downstream pipeline or a natural water body;
or,
one end of the first water outlet pipe is communicated with the inner space of the flow splitting area, and the other end of the first water outlet pipe is communicated with a downstream pipeline or a natural water body.
Optionally, the first on-off switch is one of the following switches: a gate, valve, pinch valve, or flexible shut-off device;
and/or the presence of a gas in the gas,
the second on/off switch is one of the following switches: a gate, a valve, a pinch valve, or a flexible shut-off device.
In another aspect, the present invention also provides a drainage system, which includes:
an integrated sewage storage and conditioning apparatus as claimed in any one of the preceding claims;
the rainfall meter is used for monitoring rainfall signals;
the controller is connected with the first on-off switch and/or the second on-off switch and the rain gauge, controls the first on-off switch and/or the second on-off switch to act according to the rainfall signal monitored by the rain gauge, enables the controller to control the integrated sewage storage device to store water when the rainfall reaches a set threshold value, and controls the integrated sewage storage device to drain water when the rainfall does not reach the set threshold value.
Optionally, the method further includes:
the liquid level meter is connected with the controller and used for monitoring a liquid level signal in the storage area, and the controller controls the first on-off switch and/or the on-off switch to act according to the liquid level signal monitored by the liquid level meter and the rainfall signal monitored by the rain gauge;
the controller controls the first on-off switch and/or the on-off switch to act according to the liquid level signal monitored by the liquid level meter and the rainfall signal monitored by the rain gauge, and specifically comprises:
when the rainfall does not reach the set threshold value, the controller controls the first on-off switch to be turned on;
or,
when the rainfall reaches a set threshold value, the controller controls the first on-off switch to be closed and the second on-off switch to be opened;
or,
when the rainfall reaches a set threshold value and a liquid level signal reaches the set threshold value, the controller controls the first on-off switch to be turned on and the second on-off switch to be turned on.
Has the advantages that:
firstly, the utility model provides an integrated sewage regulation and storage equipment, when needing to carry out regulation and storage to sewage in rainy day, first break-make switch is in the off-state, and along with the sewage liquid level in the shunting region constantly rises at this moment, it flows into in the regulation and storage region through the regulation and storage subassembly under self action of gravity; when the rainfall is finished, the first on-off switch is in an open state, and at the moment, sewage in the regulation area flows into the diversion area under the action of the regulation assembly and is discharged by the first water outlet pipe, so that the technical defects that the discharged sewage directly enters a sewage discharge pipeline to be output in the prior art, namely, the serious pollution of natural water is easily caused in rainy days, or the treatment pressure of a sewage treatment facility is overlarge, the resource is wasted and the like are effectively overcome, the technical effect of regulating and storing the sewage when the sewage discharge is not needed can be achieved, and the rainfall regulation system has the characteristics of simple structure, convenience in operation and wide applicability;
②, the utility model provides an integration sewage regulation equipment will shunt regional and the regional integration of regulation on a body, compare with separately independent design and reduce area to whole body can carry out integrated installation and debugging in the mill, installs to the scene at the delivery after qualified, has greatly practiced thrift the time of construction and installation, has low cost's characteristics.
The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.
Drawings
In order to more clearly illustrate the embodiments of the present disclosure or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a schematic view of an embodiment of an integrated sewage storage and regulation device provided by an embodiment of the present invention;
FIG. 2 is a top view of FIG. 1;
FIG. 3 is a schematic diagram of another embodiment of the integrated sewage storage and conditioning apparatus according to an embodiment of the present invention;
FIG. 4 is a top view of FIG. 3;
FIG. 5 is a schematic view of another embodiment of the integrated sewage storage and conditioning apparatus according to an embodiment of the present invention;
FIG. 6 is a top view of FIG. 5;
FIG. 7 is a schematic view of another embodiment of the integrated sewage storage and conditioning apparatus according to an embodiment of the present invention;
fig. 8 is a top view of fig. 7.
Detailed Description
The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present specification belong to the protection scope of the present invention; the "and/or" keyword referred to in this embodiment means sum or two cases, in other words, a and/or B mentioned in the embodiments of this specification means two cases of a and B, A or B, and describes three states where a and B exist, such as a and/or B, and means: only A does not include B; only B does not include A; including A and B.
Meanwhile, in the embodiments of the present description, when an element is referred to as being "fixed to" another element, it may be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used in the embodiments of the present description are for illustrative purposes only and are not intended to limit the present invention.
Example 1
Referring to fig. 1 to 8, an integrated sewage storage device provided in the embodiments of the present disclosure has a function of storing sewage, and includes a body 1, a first on-off switch 21, and a storage assembly.
Specifically, the body 1 has a flow dividing region 11 and a storage region 12, both of which are integrated into one body 1, and the two regions are separated by a partition plate and are adjacently distributed, so that the body 1 of an integrated tank or cylinder structure is formed. A first water inlet pipe 111 and at least one first water outlet pipe 112 are provided on the diversion area 11, the first water inlet pipe 111 is used for connecting with an upstream pipeline (for example, a water outlet pipe of a septic tank) to receive the discharged sewage, the first water outlet pipe 112 is connected with a downstream pipeline to discharge the sewage, and in the practical application, 1 or more first water outlet pipes 112 can be provided to form a plurality of discharge outlets to connect with different types of downstream pipelines (for example, a sewage interception pipe, a confluence pipe, etc.). Meanwhile, the number of the first on-off switches 21 is the same as that of the first water outlet pipes 112, that is, each first on-off switch 21 is correspondingly arranged at the pipe orifice of one first water outlet pipe 112, so as to control whether the sewage in the first water outlet pipe 112 circulates or not. The storage regulating assembly is arranged in the storage regulating area 12 and is communicated with the two areas, namely the storage regulating area 12 and the flow dividing area 11, and the storage regulating assembly is a communicating assembly of the storage regulating area 12 and the flow dividing area 11 and is also a driving assembly for driving the sewage in the storage regulating area 12 into the flow dividing area 11.
Therefore, when sewage is directly discharged without being regulated and stored in fine days, the first on-off switch is in an on state, the sewage input by the first water inlet pipe 111 is directly discharged to a downstream pipeline through the first water outlet pipe 112, and when the sewage is regulated and stored in rainy days, the first on-off switch 21 is in an off state, and the sewage flows into the regulating and storing area 12 through the regulating and storing assembly under the action of self gravity along with the continuous rise of the sewage liquid level in the diversion area 11; the first on-off switch 21 is in an open state when rainfall is finished, and at the moment, sewage in the storage area 12 flows into the diversion area 11 under the driving action of the storage and regulation component and is discharged by the first water outlet pipe 112, so that the technical defects that the natural water body is easily seriously polluted in rainy days, or the treatment pressure of a sewage treatment facility is overlarge, the resource is wasted and the like in the structural design that the discharged sewage directly enters a sewage discharge pipeline to be output in the prior art are effectively avoided, the technical effect of regulating and storing the sewage when the sewage discharge is not needed can be achieved, and the device has the characteristics of simple structure, convenience in operation and wide applicability, in addition, the diversion area 11 and the storage area 12 are integrated on one body 1, the occupied area is reduced compared with the separated independent design, the whole body 1 can be integrally installed and debugged in a factory, and the device can be installed on site after being qualified, greatly saves the time of construction and installation and has the characteristic of low cost.
In this embodiment, as a first implementation of the storage assembly, it may include: a flow pipe opening 31, a drain pump 32, and a drain pipe 33 provided in the storage area 12.
The circulation pipe orifice 31 may be opened on a partition board shared by the storage area 12 and the diversion area 11 for communicating the storage area 12 and the diversion area 11, the drainage pump 32 is disposed at the bottom of the storage area 12, the water inlet pipe orifice 331 of the drainage pipe 33 is communicated with the drainage pump 32, and the water outlet pipe orifice 332 of the drainage pipe 33 is communicated with the diversion area 11.
It should be noted that, in this embodiment of the storage assembly, the elevation of the bottom of the flow pipe 31 (which can be understood as the lowest position of the flow pipe 31) is equal to or higher than the elevation of the top of the first outlet pipe 112 (which can be understood as the highest position of the first outlet pipe 112); this is because in sunny days, only the sewage flowing in through the first water inlet pipe 111 is needed to be directly discharged through the first water outlet pipe 112, so when the elevation of the bottom of the pipe of the circulating pipe orifice 31 is equal to or higher than the elevation of the top of the pipe of the first water outlet pipe 112, the sewage can be effectively prevented from flowing into the storage facility 12 through the storage regulating assembly, and when the sewage in the diversion area 11 needs to be regulated in rainy days, the first on-off switch 21 is closed at this time, and as the liquid level of the sewage in the diversion area 11 continuously rises, the sewage flows into the storage regulating area 12 through the flowing pipe orifice 31 under the action of self gravity; when the rainfall is finished, the first on-off switch 21 is in an open state, and the sewage in the storage area 12 flows into the diversion area 11 through the drain pipe 33 under the driving action of the drain pump 32 and is discharged through the first water outlet pipe 112. The outlet nozzle 332 of the drain pipe 33 may be directly provided in the flow nozzle 31 for the sake of structural simplicity. Of course, it also can set up the mouth of pipe in addition on the baffle between reposition of redundant personnel region 11 and regulation region 12, does not do the restriction to this embodiment, as long as can realize driving the structural design of sewage drive to the reposition of redundant personnel region 11 in the regulation region 12 through drain pipe 33 under drain pump 32's driving action, all is applicable to the utility model discloses.
In this embodiment, as a second embodiment of the storage module, it may include: a flow pipe opening 31, a drain pump 32, a drain pipe 33, and a second on/off switch provided in the storage area 12.
The circulation pipe orifice 31 may be opened on a partition board shared by the storage area 12 and the diversion area 11 for communicating the storage area 12 and the diversion area 11, the second on-off switch is disposed at the position of the circulation pipe orifice 31 for controlling the circulation of the circulation pipe orifice 31, the drainage pump 32 is disposed at the bottom of the storage area 12, the water inlet pipe orifice 331 of the drainage pipe 33 is communicated with the drainage pump 32, and the water outlet pipe orifice 332 of the drainage pipe 33 is communicated with the diversion area 11.
It should be noted that, in this second embodiment of the storage assembly, since the second on-off switch is disposed at the position of the flow pipe orifice 31, the height of the bottom of the flow pipe orifice 31 (which can be understood as the lowest position of the flow pipe orifice 31) is not limited to be equal to or higher than the height of the top of the first outlet pipe 112 (which can be understood as the highest position of the first outlet pipe 112); this is because in a sunny day, although only the sewage flowing in through the first water inlet pipe 111 is directly discharged through the first water outlet pipe 112, at this time, if the pipe bottom elevation of the circulation pipe orifice 31 is lower than the pipe top elevation of the first water outlet pipe 112, only the second on-off switch needs to be closed. When the elevation of the bottom of the pipe of the flow through pipe port 31 is equal to or higher than the elevation of the top of the first water outlet pipe 112, the second on/off switch may not do any action. Therefore, the sewage is effectively prevented from flowing into the storage facility 12 through the storage assembly, and when the sewage in the diversion area 11 needs to be stored in rainy days, the first on-off switch 21 is closed, the second on-off switch is opened, and the sewage flows into the storage facility 12 through the flow pipe opening 31 under the action of self gravity as the liquid level of the sewage in the diversion area 11 is continuously increased; when the rainfall is finished, the first on-off switch 21 is in an open state, and the second on-off switch is also in an open state, so that the sewage in the storage area 12 flows into the diversion area 11 through the drain pipe 33 under the driving action of the drain pump 32 and is discharged by the first water outlet pipe 112. The outlet nozzle 332 of the drain pipe 33 may be directly provided in the flow nozzle 31 for the sake of structural simplicity. Of course, it also can set up the mouth of pipe in addition on the baffle between reposition of redundant personnel region 11 and regulation region 12, does not do the restriction to this embodiment, as long as can realize driving the structural design of sewage drive to the reposition of redundant personnel region 11 in the regulation region 12 through drain pipe 33 under drain pump 32's driving action, all is applicable to the utility model discloses.
It should be added here that, regarding the pump drainage mode formed by the drainage pump 32 and the drainage pipe 33, a third on-off switch may be additionally arranged at the position of the water outlet pipe opening 332 of the drainage pipe 33, and those skilled in the art can understand, by combining the design principle of the second on-off switch, that after the third on-off switch is arranged at the position of the water outlet pipe opening 332 of the drainage pipe 33, the bottom elevation setting position of the water outlet pipe opening 332 of the drainage pipe 33 may not be limited, and similarly, if the drainage pump 32 or the drainage pipe 33 is provided with a switch valve, the function of the third on-off switch can also be realized by the switch valve, which is not described herein again, and the design principle of arranging the third on-off switch at the position of the water outlet pipe opening 332 of the drainage pipe 33 may refer to the design principle of the second on-off switch, and the two are completely the same.
In this embodiment, as a third embodiment of the storage assembly, it may include: a drain pipe 33, a gas pipe 35 and a gas source.
The water inlet pipe 331 of the water discharge pipe 33 is located at the bottom of the storage adjusting area 12, the water outlet pipe 332 of the water discharge pipe 33 can be opened on a common partition board of the storage adjusting area 12 and the flow dividing area 11 for communicating the storage adjusting area 12 and the flow dividing area 11, the air pipe 35 is arranged in the storage adjusting area 12 and connected with an air source, and communicated with the outside, and the air source can be arranged outside the storage adjusting area 12 and can be connected with the external air source.
It should be noted that, in this embodiment of the storage assembly, the elevation of the bottom of the water inlet pipe 331 of the water outlet pipe 33 (which can be understood as the bottommost position of the water inlet pipe 331 of the water outlet pipe 33) is equal to or higher than the elevation of the top of the first water outlet pipe 112 (which can be understood as the topmost position of the first water outlet pipe 112); this is because in sunny days, only the sewage flowing in from the first water inlet pipe 111 is needed to be directly discharged through the first water outlet pipe 112, so when the pipe bottom elevation of the water inlet pipe mouth 331 of the water outlet pipe 33 is equal to or higher than the pipe top elevation of the first water outlet pipe 112, the sewage can be effectively prevented from flowing into the storage facility 12 through the storage component, and when the sewage in the diversion area 11 needs to be stored in rainy days, the first on-off switch 21 is closed at this time, and as the air pipe 35 is communicated with the outside, the sewage level in the diversion area 11 rises along with the rise of the sewage level, and the sewage continuously flows into the storage facility 12 through the flow pipe mouth 31 under the action of its own gravity; when the rainfall is over, the first on-off switch 21 is in an open state, the air source charges compressed air into the storage area 12 through the air delivery pipe, and at the moment, the sewage in the storage area 12 flows into the diversion area 11 through the water discharge pipe 33 under the action of air pressure and is discharged through the first water outlet pipe 112.
In this embodiment, as a fourth embodiment of the storage assembly, it may include: a drain pipe 33, a gas pipe 35, a gas source and a second on-off switch.
The water inlet pipe 331 of the water discharge pipe 33 is located at the bottom of the storage adjusting area 12, the water outlet pipe 332 of the water discharge pipe 33 can be opened on a partition board shared by the storage adjusting area 12 and the flow dividing area 11 and used for communicating the storage adjusting area 12 and the flow dividing area 11, the air pipe 35 is arranged in the storage adjusting area 12 and connected with an air source and communicated with the outside, the air source can be arranged outside the storage adjusting area 12 and can be connected with an external air source, and the fourth embodiment is different from the third embodiment of the storage adjusting assembly in that a second on-off switch is also arranged at the water outlet pipe 332 of the water discharge pipe 33. Due to the second on-off switch, the tube bottom elevation of the outlet tube opening 332 of the water discharge tube 33 (which can be understood as the bottommost part of the outlet tube opening 332 of the water discharge tube 33) is not limited to be equal to or higher than the tube top elevation of the first water discharge tube 112 (which can be understood as the topmost part of the first water discharge tube 112); this is because in a sunny day, although only the sewage flowing in through the first water inlet pipe 111 is directly discharged through the first water outlet pipe 112, if the pipe bottom elevation of the water outlet pipe opening 332 of the water outlet pipe 33 is lower than the pipe top elevation of the first water outlet pipe 112, only the second on-off switch needs to be closed. When the height of the bottom of the outlet pipe orifice 332 of the water outlet pipe 33 is equal to or higher than the height of the top of the first outlet pipe 112, the second on-off switch may not do any action.
Therefore, the sewage is effectively prevented from flowing into the storage facility 12 through the storage assembly, when the sewage in the diversion area 11 needs to be stored in rainy days, the first on-off switch 21 is closed, the second on-off switch is opened, and the sewage in the diversion area 11 continuously rises along with the increase of the sewage level in the diversion area 11, and the sewage in the diversion area 11 flows into the storage area 12 through the water outlet pipe opening 332 of the drainage pipe 33 under the action of self gravity because the storage area 12 is communicated with the outside through the air conveying pipe; when the rainfall is over, the first on-off switch 21 is in an open state, and the second on-off switch is also in an open state, so that the sewage in the storage area 12 flows into the diversion area 11 through the drain pipe 33 under the pressure of the charged compressed air and is discharged through the first water outlet pipe 112.
Of course, for the third and fourth embodiments of the storage module, it can be understood by those skilled in the art that when the compressed air is delivered into the storage area 12 through the air source and the air delivery pipe, the whole storage area 12 needs to be sealed, and how to seal the storage area is not described in detail in this embodiment, and the storage area can be sealed by a conventional sealing means (for example, sealing at a well lid connection position).
Meanwhile, in the third and fourth embodiments of the storage assembly, the water inlet pipe 331 of the water discharge pipe 33 is located at the bottom of the storage area 12, and in this manner, the water inlet pipe 331 of the water discharge pipe 33 is provided with the transition elbow 3311, the transition elbow 3311 is in a U-shaped structure, the U-shaped opening end of the U-shaped structure is level with the bottom of the storage area 12, which is to discharge the sewage at the bottom of the storage area 12 for the purpose of maximizing, so that the sludge and even crusting caused by long-term existence and accumulation are avoided. And in the first and second embodiments of the storage assembly, the drain pump 32 is also at the bottom of the storage area 12, and is based on the same principle, which is not described herein again.
It should be noted that, in the diversion area 11, part of the pollutants with larger diameter or volume also flows into the regulation area 12 through the water inlet pipe of the circulation pipe or the drain pipe under the action of water flow, and this makes it very easy to cause blockage to the water inlet pipe of the circulation pipe or the drain pipe, or even after entering the regulation area 12 through the water inlet pipe of the circulation pipe or the drain pipe, because the pollutant diameter or volume is larger, the bottom of the regulation area 12 is very easy to settle and crust under the action of gravity, and then cause that part of the sewage at the bottom of the regulation area 12 cannot be completely emptied, settled and crust, and finally cause the regulation area 12 to block up and cannot normally enter water or exit water. Based on this, this embodiment sets up in the inlet tube mouth department of circulation mouth of pipe or drain pipe and keeps off dirty 4 to the whole mouth of pipe of envelope, make the rivers in the reposition of redundant personnel region 11 behind keeping off dirty 4, just so make when keeping off dirty 4 of flowing through, intercept diameter or the great pollutant of volume through keeping off dirty 4, the effectual inlet tube mouth inflow regulation region 12 that has prevented diameter or the great pollutant of volume through circulation mouth of pipe or drain pipe under the effect of rivers.
As an implementation mode of this specification embodiment keeping off dirty 4, it can be the grid that is used for keeping off dirty, and the aperture size of grid according to actual need nimble confirm can, and to keeping off dirty 4 specific type, the utility model discloses do not limit, for example graticule mesh, filter screen etc. as long as can realize carrying out the structure of interception to the great pollutant of diameter or volume, all be applicable to the utility model discloses, also all be in the utility model discloses an within the protection scope.
As an embodiment of the grid of the present description, it may be semicircular, and certainly it may also be square or conical, or oval, and the present invention is not limited, and those skilled in the art can understand that, when it is semicircular, because the blocking section is an arc surface, when the pollutant is blocked and attached to the arc surface of the grid, when the water in the storage regulation area 12 is evacuated by the air pressure and flows into the diversion area 11, the pollutant attached to the grid surface can be washed by the back washing manner, and in addition, the arc surface structure of the grid makes the pollutant easily fall off and flow back to the diversion area 11 and be discharged into the downstream pipeline.
In the embodiment of the present specification, the arrangement manner of the first water outlet pipe 112 may also be changed in many ways, for example, as the most preferable two ways, the first way may be that one end of the first water outlet pipe 112 is communicated with the internal space of the diversion area 11, and the other end is directly communicated with a downstream pipeline or a natural water body through the internal space of the whole storage area 12; the second method is that one end of the first water outlet pipe 112 is communicated with the inner space of the diversion area 11, and the other end is directly communicated with the downstream pipeline or the natural water body without passing through the storage area 12.
In this embodiment, the first on-off switch, the second on-off switch and/or the third on-off switch may be one of the following switches: a gate, valve, pinch valve, or flexible shut-off device; therefore, the utility model discloses do not do the injeciton, in other words, as long as can realize carrying out the on-off switch that controls to the sewage circulation that the mouth of pipe goes out, all be applicable to the utility model discloses, also all be in the utility model discloses a within the protection scope.
Example two
As a supplementary embodiment of the first embodiment of the present application, on the basis of the first embodiment of the present application, the second embodiment provided by the present application further includes a rain gauge and a controller, the rain gauge is in signal connection with the controller and is used for monitoring a rainfall signal, and the controller is used for controlling the first on-off switch and the second on-off switch to operate according to the rainfall signal. As a control manner of the controller, it may be: when a clear day signal is monitored, the first on-off switch is controlled to be turned on, at the moment, sewage in a clear day sequentially flows into a downstream pipeline or a natural water body through the diversion area 11 and the first water outlet pipe, or sewage in the storage area 12 flows into the diversion area 11 through the water outlet pipe or a circulation pipe opening and is discharged through the first water outlet pipe by the diversion area 11; when a signal in rainy days is monitored, the first on-off switch is controlled to be closed and/or the second on-off switch is controlled to be opened, and at the moment, sewage flows into the storage area 12 through the flow dividing area 11 and the drainage pipe or the flow pipe opening in sequence to be stored.
Further, the second embodiment may further include a liquid level meter for monitoring liquid level signals in the diversion area 11 and/or the storage area 12, and the controller receives the liquid level signals transmitted by the liquid level meter and rainfall signals monitored by the rain gauge, and comprehensively controls the first on-off switch and the second on-off switch to operate. As a control manner of the controller, it may be: when a clear day signal is monitored, the first on-off switch and the second on-off switch are controlled to be turned on, and at the moment, dirty water in a clear day flows into a downstream pipeline through the diversion area 11 and the first water outlet pipe in sequence; when a rainy day signal is monitored, the first on-off switch is controlled to be closed and the second on-off switch is controlled to be opened, the liquid level height in the storage area 12 is continuously increased, when the liquid level threshold is reached, the first on-off switch is controlled to be opened so as to discharge part of sewage in the storage area 12, and when the liquid level height of the storage area 12 is reduced to a certain liquid level threshold, the first on-off switch is continuously controlled to be closed and the second on-off switch is continuously controlled to be opened so as to perform circulating operation.
Those skilled in the art will understand that the control manner of the controller is only an exemplary control manner of the second embodiment, and is not limited thereto, and those skilled in the art can make adaptive adjustment or modification to the control manner according to the actual working condition, and this embodiment is not limited thereto, and it is understood that the control manner is still within the scope of the application and protection of the present application.
In summary of examples 1-2, it can be concluded that:
firstly, the utility model provides an integrated sewage regulation and storage equipment, when needing to carry out regulation and storage to sewage in rainy day, first break-make switch is in the off-state, and along with the sewage liquid level in the shunting region constantly rises at this moment, it flows into in the regulation and storage region through the regulation and storage subassembly under self action of gravity; when the rainfall is finished, the first on-off switch is in an open state, and at the moment, sewage in the regulation area flows into the diversion area under the action of the regulation assembly and is discharged by the first water outlet pipe, so that the technical defects that the discharged sewage directly enters a sewage discharge pipeline to be output in the prior art, namely, the serious pollution of natural water is easily caused in rainy days, or the treatment pressure of a sewage treatment facility is overlarge, the resource is wasted and the like are effectively overcome, the technical effect of regulating and storing the sewage when the sewage discharge is not needed can be achieved, and the rainfall regulation system has the characteristics of simple structure, convenience in operation and wide applicability;
②, the utility model provides an integration sewage regulation equipment will shunt regional and the regional integration of regulation on a body, compare with separately independent design and reduce area to whole body can carry out integrated installation and debugging in the mill, installs to the scene at the delivery after qualified, has greatly practiced thrift the time of construction and installation, has low cost's characteristics.
Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the examples, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.
Claims (12)
1. The utility model provides an integration sewage regulation equipment which characterized in that includes:
the water storage device comprises a body (1) and a water storage device, wherein the body (1) is provided with a flow dividing region (11) and a storage adjusting region (12), the flow dividing region (11) is provided with a first water inlet pipe (111) and at least one first water outlet pipe (112), and the storage adjusting region (12) is distributed adjacent to the flow dividing region (11);
the number of the first on-off switches (21) is matched with that of the first water outlet pipes (112), and each first on-off switch (21) is correspondingly arranged at the pipe orifice part of one first water outlet pipe (112);
the storage assembly is arranged in the storage area (12) and communicated with the storage area (12) and the flow dividing area (11);
when the first on-off switch (21) is closed, sewage flowing into the diversion area (11) from the first water inlet pipe (111) flows into the storage adjusting area (12) through the storage adjusting assembly;
when the first on-off switch (21) is turned on, sewage flowing into the diversion area (11) from the first water inlet pipe (111) is discharged into a downstream pipeline or a natural water body through the first water outlet pipe (112), and/or sewage in the storage adjusting area (12) flows into the diversion area (11) through the storage adjusting assembly.
2. The integrated wastewater storage apparatus of claim 1, wherein the storage assembly comprises:
a circulation pipe opening (31) arranged on the storage adjusting area (12) to communicate the storage adjusting area (12) with the flow dividing area (11), wherein the elevation of the bottom of the circulation pipe opening (31) is equal to or higher than the elevation of the top of the first water outlet pipe (112);
a drain pump (32) disposed at the bottom of the regulated area (12);
a water discharge pipe (33), a water inlet pipe orifice (331) of the water discharge pipe (33) is communicated with the water discharge pump (32), and a water outlet pipe orifice (332) of the water discharge pipe (33) is communicated with the flow dividing area (11).
3. The integrated wastewater storage facility of claim 2, wherein:
the water outlet pipe orifice (332) of the water outlet pipe (33) is arranged in the flow pipe orifice (31).
4. The integrated wastewater storage apparatus of claim 1, wherein the storage assembly comprises:
a flow-through orifice (31) opening onto the storage region (12) to communicate the storage region (12) with the flow-splitting region (11),
the second on-off switch is arranged on the circulating pipe orifice (31);
a drain pump (32) disposed at the bottom of the regulated area (12);
a water discharge pipe (33), a water inlet pipe orifice (331) of the water discharge pipe (33) is communicated with the water discharge pump (32), and a water outlet pipe orifice (332) of the water discharge pipe (33) is communicated with the flow dividing area (11).
5. The integrated wastewater storage apparatus of claim 1, wherein the storage assembly comprises:
the water inlet pipe (331) of the water outlet pipe (33) is positioned at the bottom of the storage area (12), the water outlet pipe (332) of the water outlet pipe (33) is communicated with the flow dividing area (11), and the pipe bottom elevation of the water outlet pipe (332) of the water outlet pipe (33) is equal to or higher than the pipe top elevation of the first water outlet pipe (112);
the gas pipe (35) is arranged in the storage regulating area (12) and communicated with the outside;
and the air source is connected with the air conveying pipe (35).
6. The integrated wastewater storage apparatus of claim 1, wherein the storage assembly comprises:
a water outlet pipe (33), wherein a water inlet pipe orifice (331) of the water outlet pipe (33) is positioned at the bottom of the storage area (12), and a water outlet pipe orifice (332) of the water outlet pipe (33) is communicated with the flow dividing area (11);
the gas pipe (35) is arranged in the storage regulating area (12) and communicated with the outside;
the air source is connected with the air conveying pipe (35);
and the second on-off switch is arranged on a water outlet pipe opening (332) of the water outlet pipe (33).
7. The integrated sewage storage apparatus of any one of claims 5 to 6, wherein:
the utility model discloses a water storage tank, including drain pipe (33), water inlet pipe (331) department is provided with transition elbow (3311), transition elbow (3311) is U type structure, the U type open end of U type structure with the bottom of regulation region (12) is held level.
8. The integrated sewage storage apparatus of any one of claims 2 to 4, further comprising:
keep off dirty piece (4), keep off dirty piece (4) and be located in reposition of redundant personnel region (11), and set up circulation mouth of pipe (31) department, with the envelope circulation mouth of pipe (31).
9. The integrated sewage storage apparatus of any one of claims 5 to 6, further comprising:
a dirt blocking member (4), wherein the dirt blocking member (4) is positioned in the flow dividing area (11) and is arranged at the water outlet pipe opening (332) of the drain pipe (33) to envelop the water outlet pipe opening (332) of the drain pipe (33).
10. The integrated wastewater storage facility of any of claims 2 to 6,
one end of the first water outlet pipe (112) is communicated with the internal space of the diversion area (11), and the other end of the first water outlet pipe penetrates through the internal space of the storage area (12) and is communicated with a downstream pipeline or a natural water body;
or,
one end of the first water outlet pipe (112) is communicated with the inner space of the flow dividing area (11), and the other end of the first water outlet pipe is communicated with a downstream pipeline or a natural water body.
11. The integrated wastewater storage facility of claim 6,
the first on-off switch is one of the following switches: a gate, valve, pinch valve, or flexible shut-off device;
and/or the presence of a gas in the gas,
the second on/off switch is one of the following switches: a gate, a valve, a pinch valve, or a flexible shut-off device.
12. A drainage system, characterized in that the drainage system comprises:
the integrated wastewater storage facility of any of claims 1-11.
Priority Applications (1)
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CN202022207000.2U CN214245986U (en) | 2020-09-30 | 2020-09-30 | Integrated sewage regulation and storage equipment and drainage system |
Applications Claiming Priority (1)
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CN202022207000.2U CN214245986U (en) | 2020-09-30 | 2020-09-30 | Integrated sewage regulation and storage equipment and drainage system |
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CN202022207000.2U Active CN214245986U (en) | 2020-09-30 | 2020-09-30 | Integrated sewage regulation and storage equipment and drainage system |
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Address after: No. 509 Weihu Road, Shamao Street, Hannan District, Wuhan City, Hubei Province, 430090 Patentee after: Wuhan Shengyu Smart Ecological Environmental Protection Co.,Ltd. Address before: 430056 3rd floor, workshop 1, No. 189, North Qianli Road, Wuhan Economic and Technological Development Zone, Hubei Province Patentee before: WUHAN SHENGYU DRAINAGE SYSTEM Co.,Ltd. |
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