CN213885155U - High-efficient environmental protection effluent collection device - Google Patents

Abstract

The utility model provides a high-efficient environmental protection effluent collection device in the waste water treatment technical field, include the base and have the filter tank that holds the chamber, be equipped with at least one collection tank on the base, the upper end of collection tank is connected with exhaust tube and the waste water suction tube that is linked together with the collection tank, the lower extreme of collection tank is equipped with the blow off pipe of outside extension, detachably is connected with the filter screen in the filter tank, be equipped with a plurality of filtration pore on the filter screen, the filter screen will hold the chamber and separate for filter residue room and filtrate room, one side of the filter tank at filtrate room place is equipped with the drain pipe outside stretching out the filter tank, the drain pipe is linked together with the waste water suction tube, one side that the drain pipe was kept away from to the filter tank at filter residue room place is equipped with the feed liquor pipe, the one end that the filter tank was kept away from to the feed liquor pipe is linked together.

Description

High-efficient environmental protection effluent collection device

Technical Field

The utility model belongs to the technical field of waste water treatment, in particular to high-efficient environmental protection effluent collection device.

Background

The garbage transfer station is an important hub for urban garbage collection and treatment, is a hub for connecting a garbage generation source with a tail end treatment system, and is an essential link in an urban household garbage collection and transportation treatment system.

The waste water source of the garbage transfer station is more, the nature is different, the collection and treatment mode is different, the waste water generated by the garbage transfer station mainly comprises garbage percolate consisting of domestic waste water, flushing waste water and the like, and the garbage percolate is characterized by high pollutant concentration, large water quality change range and strong stink, although the retention time of the garbage in the garbage transfer station is short, the output amount of the percolate is less, the percolate has high pollution and must be used as a key treatment object of the waste water of the transfer station.

Among the prior art, the landfill leachate that the garbage truck in the rubbish transfer station was compressed or oozed often directly discharges to outdoor sewage collecting pit through sewage pipes, but there are several problems if sewage directly discharges, (1) the civil engineering of sewage collecting pit must accomplish certain slope, the cost is high, and the blow off pipe is easy to amass silt, plug up pipeline and outlet, the blow off pipe need keep open state and is convenient for collect waste water, but the exposed environment gives off rubbish foul, the environment is abominable, it is inconvenient to use, (2) depend on waste water to flow to sewage pipes by the action of gravity, waste water such as frequent leachate discharges unclean, not only cause the rubbish transfer station environment abominable, also make the compression rubbish that the garbage truck transported from the rubbish transfer station pollute the way road in transit.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model discloses an aim at solves the weak point among the prior art, has solved polluted environment, awkward technical problem among the prior art, provides a high-efficient environmental protection effluent collection device, the utility model discloses safety ring protects, convenient to use.

The purpose of the utility model is realized like this: the utility model provides a high-efficient environmental protection effluent collection device, includes the base and has the filter tank that holds the chamber, be equipped with at least one collection tank on the base, the upper end of collection tank is connected with exhaust tube and the waste water suction tube that is linked together with the collection tank, the lower extreme of collection tank is equipped with the blow off pipe of outside extension, detachably is connected with the filter screen in the filter tank, is equipped with a plurality of filtration pore on the filter screen, the filter screen will hold the chamber and separate for filter residue room and filtrate room, one side of the filter tank at filtrate room place is equipped with the drain pipe that stretches out the filter tank outside, the drain pipe is linked together with the waste water suction tube, one side that the drain pipe was kept away from to the filter tank at filtrate room place is equipped with the feed liquor pipe, the one end that the filter tank was kept away from to the feed liquor pipe is linked together with the exit end of suction pump, and the entry end of suction pump is connected with the operation suction tube.

The utility model discloses during the use, the suction pump work, the workman can place the operation suction tube in the rubbish pond, rubbish waste liquid is produced when rubbish in the rubbish pond is compressed, the waste liquid is operated the suction tube suction pump and gets into the feed liquor pipe from the exit end of suction pump, waste water gets into the filter residue room in the filter bowl from the feed liquor pipe, receive the filter effect of filtration pore, the filter residue is kept in the filter residue room, filtrating flows into the filter residue room, the exhaust tube closes after will collecting jar interior evacuation, the interior filtrating of filtrate room is sucked through the drain pipe to the waste water suction, filtrating is stored in the collection jar, when the waste water in the collection jar holds fully, waste water discharges to next grade waste water treatment district from the blow off pipe again, realize the airtight collection of rubbish waste water, prevent environmental pollution; the filter screen in the filter tank of the utility model divides the filter tank into a filtrate chamber and a filter residue chamber, effectively filters large-particle impurities in the waste liquid, prevents the conveying pipeline from being blocked, and is convenient to use; the combined arrangement of the suction pump, the collection tank, the exhaust pipe and the waste water suction pipe can reduce the time of exposing waste liquid in air after garbage compression, realize the instant discharge and instant suction of the garbage waste liquid, keep the waste liquid in a closed suction environment, and has the advantages of good sealing and storing effect of the waste liquid, safety, environmental protection, convenient use and good treatment effect; can be applied to the treatment work of the waste water in the waste transfer station.

In order to control the intelligent operation of the collecting tank, a first switch valve is arranged on the exhaust pipe, a second switch valve is arranged on the waste water suction pipe, a third switch valve is arranged on the blow-off pipe, a supporting seat is arranged on one side of the base, an air compressor is arranged on the supporting seat, an air compressor air inlet pipe and an air compressor air outlet pipe are arranged on the air compressor, and the first switch valve, the second switch valve and the third switch valve are respectively communicated with the air compressor air outlet pipe.

But dismantle fast in order to realize the filter screen, the symmetry is equipped with the plug connector on filtering jar's the inner wall, the plug connector is including connecting the connecting portion on filtering jar inner wall, the both ends of connecting portion are equipped with respectively to the extension that holds the chamber extension, two space between extension and the connecting portion forms the draw-in groove, the filter screen can peg graft in the draw-in groove.

In order to realize the sealing connection of upper cover and holding vessel, it has the upper cover to cross to articulate on the jar, crosses the jar and has arranged at least one locking Assembly along circumference direction, locking Assembly includes check lock lever and two engaging lugs, two the engaging lug is fixed on crossing the jar, the check lock lever is connected between two engaging lugs through the screw rod, the check lock lever can overturn from top to bottom round the screw rod, threaded connection has the latch segment on the check lock lever, and it has the locking groove to open on the latch segment, but the upper cover joint is in the locking groove, the upper end of latch segment is equipped with the locking handle, it is equipped with a plurality of shock pad to cross the jar downside.

Can be with the waste liquid suction in the filter tank to the collection tank in order to realize the collection tank, still be equipped with the suction subassembly on the supporting seat, the suction subassembly includes at least one vacuum pump of installing on the supporting seat, be connected with vacuum outlet duct and the vacuum intake pipe that upwards extends on the vacuum pump, vacuum intake pipe is linked together with the exhaust tube, still be equipped with the vacuum inlet tube on the vacuum pump, be equipped with the temperature sensor who is used for detecting the intraductal temperature of vacuum inlet on the vacuum inlet tube.

As a further improvement, the suction subassembly still includes the gas-water separation jar, the upper end of gas-water separation jar is equipped with the separator intake pipe, the vacuum outlet duct is linked together with the separator intake pipe, the one end of gas-water separation jar is equipped with the water connecting pipe that is linked together with the gas-water separation jar, the water connecting pipe is linked together with the vacuum inlet tube, the other end of gas-water separation jar still is equipped with separator inlet tube and separator outlet pipe, and the separator inlet tube is in the top of separator outlet pipe, be equipped with switch solenoid valve on separator inlet tube and the separator outlet pipe respectively.

In order to realize the liquid level monitoring in the gas-water separation tank, one side of the gas-water separation tank close to the water connecting pipe is provided with a liquid level meter, a liquid level sensor is connected in the gas-water separation tank, the liquid level sensor sends a detected liquid level signal to the liquid level meter, and the liquid level meter displays a liquid level value.

In order to realize that the air entering the air compressor is free of impurities, an air compressor mounting box is further arranged on the supporting seat, the air compressor is connected in the air compressor mounting box, an air filter is connected to the inner wall of the air compressor mounting box, and the output end of the air filter is communicated with an air inlet pipe of the air compressor.

In order to conveniently overhaul the collecting tank, still be equipped with the maintenance pipe on the collecting tank, it has the access hole that is linked together with the collecting tank to open on the maintenance pipe, it has the switch door that can block up the access hole to articulate on the maintenance pipe.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a perspective structural view of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a partially enlarged view of fig. 2 at B.

FIG. 5 is a partial enlarged view of the portion C in FIG. 2

Fig. 6 is a schematic structural view of the middle filtering tank of the present invention.

Fig. 7 is a view from direction D-D of fig. 6.

Fig. 8 is a schematic structural view of the middle filter tank of the present invention when the upper cover is opened.

Fig. 9 is a partial enlarged view at E in fig. 8.

Fig. 10 is a schematic view of the internal structure of the hollow press mounting box of the present invention.

In the figure: 1 base, 2 collecting tank, 201 air exhaust pipe, 202 waste water suction pipe, 203 sewage discharge pipe, 204 maintenance pipe, 205 switch door, 3 switch valve I, 4 switch valve II, 5 switch valve III, 6 support base, 7 air compressor, 701 air compressor air inlet pipe, 702 air compressor air outlet pipe, 8 suction component, 801 vacuum pump, 801a vacuum air outlet pipe, 801b vacuum air inlet pipe, 801c vacuum water inlet pipe, 802 gas-water separation tank, 802a separator air inlet pipe, 802b water connecting pipe, 802c separator water inlet pipe, 802d separator water outlet pipe, 802e switch electromagnetic valve, 9 temperature sensor, 10 liquid level meter, 11 air compressor installation box, 1101 air inlet hole, 12 air filter, 1201 output end, 13 electric cabinet, 14 filter tank, 1401 holding cavity, 1402 plug connector, 1402a connecting part, 1402b extending part, 1402c clamping groove, residue filtering chamber, 1403 filtering liquid chamber, liquid outlet pipe, 1406 liquid inlet pipe 1405, 1407 shock pad, 15 upper cover, 1501 handle, 16 filter screen, 1601 filter hole, 17 locking component, 1701 connecting lug, 1702 locking rod, 1703 screw rod, 1704 locking block, 1704a locking groove, 1705 locking handle, 18 suction pump, 1801 operating suction pipe, 19 climbing ladder.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

1-10, including a base 1 and a filter tank 14 with a holding cavity 1401, the base 1 is provided with at least one collecting tank 2, the collecting tank 2 is provided with an inspection pipe 204 and a climbing ladder 19, the inspection pipe 204 is provided with an inspection opening communicated with the collecting tank 2, the inspection pipe 204 is hinged with a switch door 205 capable of plugging the inspection opening, the upper end of the collecting tank 2 is connected with an exhaust pipe 201 and a waste water suction pipe 202 communicated with the collecting tank 2, the exhaust pipe 201 is provided with a switch valve I3, the waste water suction pipe 202 is provided with a switch valve II 4, the lower end of the collecting tank 2 is provided with a drain pipe 203 extending outwards, the drain pipe 203 is provided with a switch valve III 5, one side of the base 1 is provided with a supporting seat 6, the supporting seat 6 is provided with an air compressor 7, the air compressor 7 is provided with an air compressor 701 and an air compressor outlet pipe 702, the switch valve I3, the supporting seat 6 is provided with an air inlet pipe and an air compressor outlet pipe 702, The second switch valve 4 and the third switch valve 5 are respectively communicated with an air outlet pipe 702 of the air compressor, a filter screen 16 is detachably connected in the filter tank 14, the filter screen 16 is provided with a plurality of filter holes 1601, the filter screen 16 divides the accommodating cavity 1401 into a filter residue chamber 1403 and a filter residue chamber 1404, the inner wall of the filter tank 14 is symmetrically provided with plug connectors 1402, each plug connector 1402 comprises a connecting part 1402a connected on the inner wall of the filter tank 14, two ends of each connecting part 1402a are respectively provided with an extending part 1402b extending towards the accommodating cavity 1401, a clamping groove 1402c is formed by the space between the two extending parts 1402b and the connecting part 1402a, the filter screen 16 can be inserted into the clamping groove 1402c, one side of the filter tank 14 where the filter residue chamber 1404 is provided with a liquid outlet pipe 1405 extending out of the filter tank 14, the liquid outlet pipe 1405 is communicated with a waste water suction pipe 202, one side of the filter tank 14 where the filter residue chamber 1403 is far away from the liquid outlet pipe 1405 is provided with a liquid inlet pipe 1406, one end of the liquid inlet pipe 1406 far away from the filter tank 14 is communicated with an outlet end of the suction pump 18, an operating suction tube 1801 is connected to the inlet end of the suction pump 18; the filter tank 14 is hinged with an upper cover 15, at least one locking assembly 17 is arranged on the filter tank 14 along the circumferential direction, each locking assembly 17 comprises a locking rod 1702 and two connecting lugs 1701, the two connecting lugs 1701 are fixed on the filter tank 14, the locking rod 1702 is connected between the two connecting lugs 1701 through a screw 1703, the locking rod 1702 can turn over up and down around the screw 1703, a locking block 1704 is connected to the locking rod 1702 in a threaded manner, a locking groove 1704a is formed in the locking block 1704, the upper cover 15 can be clamped in the locking groove 1704a, a locking handle 1705 is arranged at the upper end of the locking block 1704, and a plurality of shock absorption pads 1407 are arranged on the lower side of the filter tank 14; the supporting seat 6 is further provided with a suction assembly 8, the suction assembly 8 comprises at least one vacuum pump 801 arranged on the supporting seat 6, the vacuum pump 801 is connected with a vacuum air outlet pipe 801a and an upwardly extending vacuum air inlet pipe 801b, the vacuum air inlet pipe 801b is communicated with the air exhaust pipe 201, the vacuum pump 801 is further provided with a vacuum water inlet pipe 801c, and the vacuum water inlet pipe 801c is provided with a temperature sensor 9 for detecting the temperature of water in the vacuum water inlet pipe 801 c; the pumping assembly 8 further comprises a gas-water separation tank 802, a separator air inlet pipe 802a is arranged at the upper end of the gas-water separation tank 802, a vacuum air outlet pipe 801a is communicated with the separator air inlet pipe 802a, a water connecting pipe 802b communicated with the gas-water separation tank 802 is arranged at one end of the gas-water separation tank 802, the water connecting pipe 802b is communicated with a vacuum water inlet pipe 801c, a separator water inlet pipe 802c and a separator water outlet pipe 802d are further arranged at the other end of the gas-water separation tank 802, the separator water inlet pipe 802c is arranged above the separator water outlet pipe 802d, and a switch electromagnetic valve 802e is respectively arranged on the separator water inlet pipe 802c and the separator water outlet pipe 802 d; a liquid level meter 10 is arranged on one side of the gas-water separation tank 802 close to the water connecting pipe 802b, a liquid level sensor is connected in the gas-water separation tank 802, the liquid level sensor sends a detected liquid level signal to the liquid level meter 10, and the liquid level meter 10 displays a liquid level value; still be equipped with air compressor machine install bin 11 and electric cabinet 13 on the supporting seat 6, air compressor machine 7, on-off solenoid valve 802e, level gauge 10 and temperature sensor 9 are connected with the electric cabinet electricity respectively, and air compressor machine 7 is connected in air compressor machine install bin 11, is connected with air cleaner 12 on the air compressor machine install bin 11 inner wall, and air cleaner 12's output 1201 is linked together with air compressor machine intake pipe 701.

In the utility model, the first switch valve 3, the second switch valve 4 and the third switch valve 5 are preferably pneumatic butterfly valves, the first switch valve 3, the second switch valve 4 and the third switch valve 5 are in a closed state in an initial state, the switches of the first switch valve 3, the second switch valve 4 and the third switch valve 5 are controlled by air conveyed by the air compressor 7 (the pneumatic butterfly valves are driven by air to open or close, which is not repeated in the utility model), the electric cabinet 13 controls the air compressor 7 to ventilate the first switch valve 3, the second switch valve 4 and the third switch valve 5, air enters the air compressor installation box 11 from the air inlet hole 1101 and flows into the air filter 12, after the air filter 12 filters particle impurities, the air flows into the first switch valve 3, the second switch valve 4 and the third switch valve 5 from the output end 1201 through a plurality of air conveying pipes respectively (the air conveying pipes are prior art, which is not drawn in the utility model), during use, the first switch valve 3 is opened, the vacuum pump 801 and the gas-water separation tank 802 work, the vacuum air inlet pipe 801b pumps air in the collection tank 2 into the vacuum pump 801 through the air exhaust pipe 201, meanwhile, the vacuum water inlet pipe 801c pumps water in the gas-water separation tank 802 into the vacuum pump 801 through the water connecting pipe 802b, water and air enter the vacuum pump 801, the volume in the vacuum pump 801 is gradually reduced, the pressure is continuously increased, the gas is compressed, when the compressed gas reaches the exhaust pressure, the water and the air are discharged into the gas-water separation tank 802 from the vacuum air outlet pipe 801a to be separated from the gas and the water, the processes of air suction, compression and exhaust are carried out in a circulating reciprocating mode, so that the continuous air suction work of the collection tank 2 is achieved, a liquid level sensor in the gas-water separation tank 802 simultaneously sends liquid level signals to the liquid level meter 10 and the electric control box 13, the liquid level meter 10 displays the liquid level value, and meanwhile, the temperature sensor 9 sends temperature signals to the control box, when the temperature is not in the set temperature range or the liquid level in the gas-water separation tank 802 is not in the set liquid level range, the control box can respectively control the switch electromagnetic valves 802e on the separator water inlet pipe 802c and the separator water outlet pipe 802d to carry out water supplement or temperature reduction work; when the vacuum degree in the collection tank 2 reaches a set pressure, the suction pump 18 works, a worker can place the operation suction pipe 1801 on a garbage truck, garbage waste liquid is generated when the garbage on the garbage truck is compressed, the waste liquid is sucked into the suction pump 18 by the operation suction pipe 1801 and enters the liquid inlet pipe 1406 from the outlet end of the suction pump 18, the waste water enters the filter residue chamber 1403 in the filter tank 14 from the liquid inlet pipe 1406 again, filter residues are kept in the filter residue chamber 1403 under the filtering action of the filter holes 1601, filtrate flows into the filter residue chamber 1404, the second switch valve 4 is opened, the waste water suction pipe 202 sucks the filtrate in the filter residue chamber 1404 through the liquid outlet pipe 1405, the filtrate is sucked into the collection tank 2 for storage, when the waste water in the collection tank 2 is fully stored, the liquid level sensor in the collection tank 2 sends a liquid level signal to the control box, the control box controls the air compressor 7 to supply air to the third switch valve 5, the third switch valve 5 is opened, and the waste water is discharged to a next-stage waste water treatment area from the sewage discharge pipe 203, the closed collection of the garbage waste water is realized, and the environmental pollution is prevented; when the collecting tank 2 needs to be overhauled, the locking handle 1705 can be unscrewed, the locking piece is enabled to loosen the switch door 205, the switch door 205 is opened, and the collecting tank 2 can be overhauled from an overhaul port; when filter screens 16 with different specifications need to be replaced, the filter screens 16 need to be replaced or filter residues in the filter residue chamber 1403 need to be cleaned, the locking handle 1705 is unscrewed, the locking handle 1705 drives the locking block 1704 to move upwards along the locking rod 1702, the locking block 1704 does not press the upper cover 15 any more, the locking rod 1702 is rotated downwards, the upper cover 15 is separated from the locking groove 1704a, the handle 1501 can be held to open the upper cover 15, then the filter screens 16 are lifted upwards, the filter screens 16 can be pulled out from the clamping grooves 1402c, the filter screens 16 are detached, filter residues in the filter tank 14 are cleaned, then a new filter screen 16 is placed between the two extending parts 1402b and inserted downwards, the new filter screen 16 can be inserted into the clamping grooves 1402c, for cleaning the filter residues, the filter residues in the filter residue chamber 1403 can be cleaned directly without detaching the filter screens 16, finally the handle 1501 is held, the upper cover 15 is turned towards the filter tank 14, the upper cover 15 covers the filter tank 14, the locking rod 1702 is rotated towards the upper cover 15, the upper cover 15 enters the locking groove 1704a, then the locking handle is rotated, the locking handle 1705 drives the locking block 1704 to rotate until the upper cover 15 is pressed by the upper side of the locking block 1704 where the locking groove 1704a is located, and the upper cover 15 is locked; in the utility model, the filter screen 16 in the middle filter tank 14 divides the filter tank 14 into the filtrate chamber 1404 and the residue filtering chamber 1403, so that large-particle impurities in waste liquid can be effectively filtered, the blockage of a conveying pipeline is prevented, and the use is convenient; the suction pump 18, the collection tank 2, the exhaust pipe 201 and the waste water suction pipe 202 are jointly arranged, so that the time of exposing waste liquid in air after garbage compression can be shortened, the garbage waste liquid can be discharged and pumped immediately, the waste liquid is kept in a closed suction environment, the waste liquid sealing and storing effect is good, the safety and environmental protection are realized, the use is convenient, and the treatment effect is good; can be applied to the treatment work of the waste water in the waste transfer station.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (9)

1. The utility model provides a high-efficient environmental protection effluent collection device which characterized in that: including the base with have the filter tank that holds the chamber, be equipped with at least one collection tank on the base, the upper end of collection tank is connected with exhaust tube and the waste water suction tube that is linked together with the collection tank, the lower extreme of collection tank is equipped with the blow off pipe of outside extension, detachably is connected with the filter screen in the filter tank, is equipped with a plurality of filtration pore on the filter screen, the filter screen will hold the chamber and separate for filter residue room and filtrate room, one side of the filter tank at filtrate room place is equipped with the drain pipe that stretches out the filter tank outside, the drain pipe is linked together with the waste water suction tube, one side that the drain pipe was kept away from to the filter tank at filtrate room place is equipped with the feed liquor pipe, the one end that the filter tank was kept away from to the feed liquor pipe is linked together.

2. The efficient and environment-friendly wastewater collection device according to claim 1, wherein: the waste water suction pipe is provided with a first switch valve, the waste water suction pipe is provided with a second switch valve, the blow-off pipe is provided with a third switch valve, one side of the base is provided with a supporting seat, the supporting seat is provided with an air compressor, the air compressor is provided with an air inlet pipe and an air outlet pipe, and the first switch valve, the second switch valve and the third switch valve are respectively communicated with the air outlet pipe of the air compressor.

3. The efficient and environment-friendly wastewater collection device according to claim 1, wherein: the filter tank is characterized in that plug connectors are symmetrically arranged on the inner wall of the filter tank and comprise connecting portions connected to the inner wall of the filter tank, extending portions extending to the containing cavities and two of the extending portions are arranged at two ends of each connecting portion respectively, a clamping groove is formed in the space between each extending portion and each connecting portion, and the filter screen can be inserted into the clamping grooves.

4. The efficient and environment-friendly wastewater collection device according to claim 3, wherein: it has the upper cover to cross articulated on the jar, crosses the jar and has arranged at least one locking Assembly along circumference direction, locking Assembly includes check lock lever and two engaging lugs, two the engaging lug is fixed on crossing the jar, the check lock lever is connected between two engaging lugs through the screw rod, the check lock lever can overturn from top to bottom round the screw rod, threaded connection has the latch segment on the check lock lever, and it has the locking groove to open on the latch segment, but the upper cover joint is in the locking groove, the upper end of latch segment is equipped with the locking handle, it is equipped with a plurality of shock pad to cross the jar downside.

5. The efficient and environment-friendly wastewater collection device according to claim 2, wherein: still be equipped with the suction subassembly on the supporting seat, the suction subassembly includes at least one vacuum pump of installing on the supporting seat, be connected with vacuum outlet duct and the vacuum intake pipe that upwards extends on the vacuum pump, vacuum intake pipe is linked together with the exhaust tube, still be equipped with the vacuum inlet tube on the vacuum pump, be equipped with the temperature sensor who is used for detecting the intraductal temperature of vacuum inlet on the vacuum inlet tube.

6. The efficient and environment-friendly wastewater collection device according to claim 5, wherein: the suction assembly further comprises a gas-water separation tank, a separator air inlet pipe is arranged at the upper end of the gas-water separation tank, a vacuum outlet pipe is communicated with the separator air inlet pipe, a water connecting pipe communicated with the gas-water separation tank is arranged at one end of the gas-water separation tank, the water connecting pipe is communicated with a vacuum water inlet pipe, a separator water inlet pipe and a separator water outlet pipe are further arranged at the other end of the gas-water separation tank, the separator water inlet pipe is arranged above the separator water outlet pipe, and switch electromagnetic valves are respectively arranged on the separator water inlet pipe and the separator water outlet pipe.

7. The efficient and environment-friendly wastewater collection device according to claim 6, wherein: one side that the gas-water separation jar is close to the water connecting pipe is equipped with the level gauge, be connected with level sensor in the gas-water separation jar, level sensor sends the liquid level signal who detects for the level gauge, and the level gauge shows the liquid level value.

8. The efficient and environment-friendly wastewater collection device according to claim 7, wherein: still be equipped with the air compressor machine install bin on the supporting seat, the air compressor machine is connected in the air compressor machine install bin, be connected with air cleaner on the air compressor machine install bin inner wall, air cleaner's output and air compressor machine intake pipe are linked together.

9. The high-efficiency environment-friendly wastewater collection device according to any one of claims 1 to 8, characterized in that: still be equipped with the maintenance pipe on the holding vessel, it has the access hole that is linked together with the holding vessel to open on the maintenance pipe, it has the switch door that can block up the access hole to articulate on the maintenance pipe.

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