CN108163952A - A kind of high-efficient energy-saving environment friendly sewage-treatment plant - Google Patents

Abstract

The invention discloses a kind of high-efficient energy-saving environment friendly sewage-treatment plants, including stent, foul water tank is vertically installed on the stent, piston is slidably connected in the foul water tank, the air cylinder device for driving the reciprocating motion of the pistons is installed on the stent, the air cylinder device includes setting cylinder body on the bracket and the hollow ram being slidably connected in the cylinder body；Through flow hole is being equipped at the piston on the hollow ram side；The upper surface of the piston is equipped with multiple arcs cylinder manifold A, and the circumference side of the piston is equipped with external screw thread, and the medial surface of the foul water tank is equipped with the internal thread to cooperate with the external screw thread；The lower rotation of the foul water tank is connected with installing plate；The monolithic processor control device of piping break-make is additionally provided with into water piping and discharge piping and controlled in the foul water tank；The equipment dynamic source is few, enormously simplifies operation sequence, and entire processing procedure is all that sealing will not generate smell pollution environment.

Description

A kind of high-efficient energy-saving environment friendly sewage-treatment plant

Technical field

The present invention relates to technical field of sewage treatment equipment, specially a kind of high-efficient energy-saving environment friendly sewage-treatment plant.

Background technology

Can generate large amount of sewage in industrial production and resident's daily life, if these sewage it is untreated be discharged directly into it is small Water quality and environmental landscape can be seriously affected in small stream, river, it is therefore desirable to bright by adding by sewage centralized collection to foul water tank Alum precipitates and through other program, is finally discharged into river.Traditional sewage disposal process for sewage by be located at foul water tank center into Water pipe is discharged into babinet from top to bottom, and the outlet of water inlet divides into umbrella-shaped baffle, and waste water is made to be uniformly distributed in pond, then along pond Entire section slowly rises, and suspended matter is settled under the effect of gravity in the taper sludge bucket of cartonning bottom, and primary water is all from babinet upper end It discharges in the spout hole enclosed, when the sludge in sludge bucket reaches a certain amount of, is discharged sludge by sludge pump, whole process needs Multiple water pumps are wanted, operation sequence is sufficiently complex, and entire foul water tank is all peculiar smell ratio in open therefore sewage disposal process It is larger；In addition if the especially more sewage base sludge of suspended matter is discharged not in time can seriously affect wastewater treatment efficiency.

Invention content

(1) technical problems to be solved

The present invention provides a kind of high-efficient energy-saving environment friendly sewage-treatment plant, and power source is few, enormously simplifies operation sequence, And entire processing procedure is all that sealing will not generate smell pollution environment.

(2) technical solution

To achieve the above object, the present invention provides following technical solution：A kind of high-efficient energy-saving environment friendly sewage-treatment plant, packet Stent is included, foul water tank is vertically installed on the stent, slidably connects piston in the foul water tank, on the stent The air cylinder device for driving the reciprocating motion of the pistons is installed, the air cylinder device includes the cylinder body of setting on the bracket, And it is slidably connected in the cylinder body and the hollow ram with being connect by clutch shaft bearing with the piston rotation, described first The inner ring of bearing is interference fitted with the hollow ram, and outer ring and the mounting groove being arranged on the piston are interference fitted；Institute It states and through flow hole is being equipped at the piston on hollow ram side；The upper surface of the piston is equipped with multiple arcs cylinder manifold A, the circumference side of the piston are equipped with external screw thread, and the medial surface of the foul water tank is equipped with to cooperate with the external screw thread For driving the internal thread of the piston rotation；The bottom of the foul water tank is rotatably connected to installing plate by second bearing, The upper surface of the installing plate is equipped with multiple arcs cylinder manifold B, is vertically equipped with and converges at the rotation center of the installing plate Discharge orifice；Two driving holes are vertically equipped on the piston, vertically set that there are two sliding on the installing plate upwards The dynamic drive link being connected in the driving hole；It is additionally provided in the foul water tank into water piping and discharge piping.

Through the above technical solutions, when the high-efficient energy-saving environment friendly sewage-treatment plant works, if piston is located at foul water tank Sewage is filled in top position and entire foul water tank, the hollow ram in the rear-bank rotor housing through settlement of sewage completion after a period of time Band piston moves downward at the same time discharge piping opening, the external screw thread on piston and the internal thread phase interaction in foul water tank Under, piston slowly rotates and then the drive link by being arranged in driving hole drives installing plate slowly to rotate so that sewage The deposit in bottom portion flows to confluence hole under the action of multiple arcs cylinder manifold B, so as to be discharged from discharge piping；In this row Moving down with piston during going out, the interior vacuum that formed on the top of piston of foul water tank cause sewage to enter institute by water inlet piping It states in foul water tank, air cylinder device start-up operation hollow ram band piston is transported upwards after being completed through settlement of sewage after a period of time Dynamic at the same time discharge piping is opened, and under the internal thread interaction in the external screw thread and foul water tank on piston, piston delays Slow rotation is so that the deposit of upper piston area flows to through flow hole under the action of multiple arcs cylinder manifold A and enters in hollow ram so Discharge upwards afterwards；Forming vacuum in the lower part of piston equally during piston upwards, in foul water tank causes sewage to pass through It crosses water inlet piping to enter in foul water tank, carries out precipitation process and be then exhausted from after for a period of time, so moving in circles only needs a gas Cylinder assembly greatly reduces power source, while simplifies operation sequence；Setting arc cylinder manifold A and arc cylinder manifold B can make Sediment is obtained more fast and effeciently to discharge.

In further technical solution, the water inlet piping includes being arranged on the foul water tank side and close to top First water inlet pipe is equipped with the first check valve on first water inlet pipe；It further includes and is arranged on the foul water tank side and leans on Second water inlet pipe of nearly bottom is equipped with the second check valve on second water inlet pipe；The discharge piping includes being mounted on institute The first blow-off pipe of hollow ram upper end is stated, the first electrically-controlled valve is installed and for detecting sewage on first blow-off pipe The first sensor of turbidity；First row is equipped on first blow-off pipe between first electrically-controlled valve and the hollow ram Water pipe is equipped with the second electrically-controlled valve on first drainpipe；Further include mounted on foul water tank bottom centre position and with Second blow-off pipe that hole connects that converges, third electrically-controlled valve is equipped with and for detecting dirt on second blow-off pipe The second sensor of water turbidity；Second row is equipped on second blow-off pipe between the third electrically-controlled valve and the foul water tank Water pipe is equipped with the 4th electrically-controlled valve on second drainpipe.

In further technical solution, the first sensor is arranged on the discharge side of first electrically-controlled valve；Described Two sensors are arranged on the discharge side of the third electrically-controlled valve；The setting can ensure in the first electrically-controlled valve and third electrically-controlled valve pass When closing, the first drainpipe and the second drainpipe discharge be all the clear water precipitated.

In further technical solution, monolithic processor control device is further included, the monolithic processor control device includes being arranged on Microcontroller on the stent, the input terminal of the microcontroller is respectively between the first sensor and the second sensor Electrical connection, the output terminal of the microcontroller respectively with first electrically-controlled valve, the second electrically-controlled valve, third electrically-controlled valve, the 4th automatically controlled It is electrically connected between valve；The setting is automatically controlled by chip microcontroller high-efficient energy-saving environment friendly sewage-treatment plant.

In further technical solution, first check valve and second one-way valve structures identical include being equipped with logical The valve body in hole is hinged with the valve block for controlling the through-hole break-make on the valve body in the top edge of the through-hole, described Magnet A is equipped in the lower edge of the through-hole on valve body, the valve block is equipped with the magnet B being mutually attracted with the magnet A.

In further technical solution, first water inlet pipe and second water inlet pipe are both connected on water inlet manifold, The water inlet manifold is equipped with to put into alum into the alum delivery device in sewage；The alum delivery device is included along institute The swivel nut that water inlet manifold is axially disposed in the water inlet manifold is stated, feeding spiro rod is rotatably connected in the swivel nut, it is described to send The left end of material screw rod is equipped with the rotating vane for feeding spiro rod to be driven to rotate；It is equipped on the water inlet manifold and the spiral shell The hopper for being used to place alum of set connection；The right side of the swivel nut is equipped with the batching hole for launching alum.

(3) advantageous effect

Compared with prior art, technical scheme of the present invention has the following advantages：The high-efficient energy-saving environment friendly sewage disposal fills When putting work, if piston, which is located in the top position of foul water tank and entire foul water tank, has filled with sewage, through sewage after a period of time It precipitates the band piston of the hollow ram in the rear-bank rotor housing of completion and moves downward at the same time discharge piping opening, it is outer on piston Under internal thread interaction in screw thread and foul water tank, piston slowly rotates and then the drive link by being arranged in driving hole Installing plate is driven slowly to rotate so that the deposit of foul water tank bottom flows to confluence hole under the action of multiple arcs cylinder manifold B, So as to be discharged from discharge piping；The moving down with piston in this discharge process, foul water tank is interior to be formed very on the top of piston Sky is so that sewage enters by water inlet piping in the foul water tank, and air cylinder device is opened after being completed through settlement of sewage after a period of time Beginning work hollow ram drives piston upwards, and at the same time discharge piping is opened, in the external screw thread and foul water tank on piston Internal thread interaction under, piston slowly rotation so that upper piston area deposit multiple arcs cylinder manifold A effect Under flow to through flow hole and enter in hollow ram and discharge then up；Equally during piston upwards, in foul water tank The lower part of piston forms vacuum and sewage is entered by water inlet piping in foul water tank, after carrying out precipitation process for a period of time again Discharge, so moving in circles only needs an air cylinder device to greatly reduce power source, while simplify operation sequence.

Description of the drawings

Fig. 1 is a kind of cross-sectional view of high-efficient energy-saving environment friendly sewage-treatment plant in the present embodiment；

Fig. 2 is the enlarged structure schematic diagram at A in Fig. 1；

Fig. 3 is the structure diagram of piston in the present embodiment；

Fig. 4 is the structure diagram of installing plate in embodiment；

Fig. 5 is the cross-sectional view of alum delivery device in this implementation.

The corresponding component names of each reference numeral are：1. stent；2. foul water tank；3. piston；4. cylinder body；5. hollow push away Bar；6. the first water inlet pipe；7. the first check valve；8. the second water inlet pipe；9. the second check valve；10. the first blow-off pipe；11. first Electrically-controlled valve；12. first sensor；13. the first drainpipe；14. the second electrically-controlled valve；15. the second blow-off pipe；16. third electrically-controlled valve； 17. second sensor；18. the second drainpipe；19. the 4th electrically-controlled valve；20. microcontroller；21. through-hole；22. valve body；23. valve block； 24. magnet A；25. magnet B；26. clutch shaft bearing；27. arc cylinder manifold A；28. second bearing；29. water inlet manifold；30. installation Plate；31. arc cylinder manifold B；32. hole of converging；33. driving hole；34. drive link；35. swivel nut；36. feeding spiro rod；37. pivoting leaf Piece；38. hopper；39. batching hole；501. through flow hole.

Specific embodiment

- 5 are please referred to Fig.1, the present invention provides a kind of high-efficient energy-saving environment friendly sewage-treatment plant, including stent 1, the stent Vertically piston 3 is slidably connected in the foul water tank 2, is pacified on the stent 1 by being installed by welding with foul water tank 2 on 1 Equipped with the air cylinder device that the piston 3 is driven to move back and forth, the air cylinder device includes the cylinder body 4 being arranged on the stent 1, And it is slidably connected in the cylinder body 4 and the hollow ram 5 with being rotatablely connected by clutch shaft bearing 26 and the piston 3, institute The inner ring and the hollow ram 5 for stating clutch shaft bearing 26 are interference fitted, outer ring and the mounting groove mistake being arranged on the piston 3 It is full of cooperation；Through flow hole 501 is being equipped at the piston 3 on 5 side of hollow ram；The upper surface of the piston 3 is set There are eight arc cylinder manifold A 27, the circumference side of the piston 3 is equipped with external screw thread, is set on the medial surface of the foul water tank 2 There is the internal thread for being used to that the piston 3 to be driven to rotate to cooperate with the external screw thread；The bottom of the foul water tank 2 passes through Two bearings 28 are rotatably connected to installing plate 30, and the upper surface of the installing plate 30 is equipped with eight and 27 arcs of arc cylinder manifold A Shape opposite arc cylinder manifold B 31 is vertically equipped with confluence hole 32 at the rotation center of the installing plate 30；The work Two driving holes 33 are vertically equipped on plug 3, vertically set that there are two be slidably connected on the installing plate 30 upwards Drive link 34 in the driving hole 33；It is additionally provided in the foul water tank 2 into water piping and discharge piping.

The water inlet piping includes being arranged on 2 side of foul water tank and close to first water inlet pipe 6 at top, and described the First check valve 7 is installed on one water inlet pipe 6；Further include be arranged on 2 side of foul water tank and close to bottom second into Water pipe 8 is equipped with the second check valve 9 on second water inlet pipe 8；The discharge piping includes being mounted on the hollow ram 5 First blow-off pipe 10 of upper end is equipped with the first electrically-controlled valve 11 and for detecting turbidity of sewage on first blow-off pipe 10 First sensor 12, model：Water WT-RCOT；In first electrically-controlled valve 11 and institute on first blow-off pipe 10 It states and the first drainpipe 13 is equipped between hollow ram 5, second electrically-controlled valve 14 is installed on first drainpipe 13；Further include peace The second blow-off pipe 15 connected mounted in the 2 bottom centre position of foul water tank and with the confluence hole 32, second blowdown Third electrically-controlled valve 16 and the second sensor 17 for detecting turbidity of sewage, model are installed on pipe 15：Water WT- RCOT；The second drainpipe 18, institute are equipped on second blow-off pipe 15 between the third electrically-controlled valve 16 and the foul water tank 2 It states and the 4th electrically-controlled valve 19 is installed on the second drainpipe 18.

The first sensor 12 is arranged on the discharge side of first electrically-controlled valve 11；The second sensor 17 is arranged on The discharge side of the third electrically-controlled valve 16, the setting can ensure in the first electrically-controlled valve 11 and the closing of third electrically-controlled valve 16, the What one drainpipe 13 and the second drainpipe 18 were discharged is all the clear water precipitated.The equipment further includes monolithic processor control device, institute It states monolithic processor control device and includes the microcontroller 20 being arranged on the stent 1, the model 80C51 of the microcontroller 20；Institute The input terminal for stating microcontroller 20 is electrically connected between the first sensor 12 and the second sensor 17 respectively, the monolithic The output terminal of machine 20 is respectively between first electrically-controlled valve 11, the second electrically-controlled valve 14, third electrically-controlled valve 16, the 4th electrically-controlled valve 19 Electrical connection；The setting realizes automatically controlling for high-efficient energy-saving environment friendly sewage-treatment plant by microcontroller 20.

First check valve 7 and 9 structure of the second check valve identical include the valve body 22 equipped with through-hole 21, described The valve block 23 for controlling 21 break-make of through-hole, the valve body 22 are hinged in the top edge of the through-hole 21 on valve body 22 On in the lower edge of the through-hole 21 be equipped with magnet A 24, the valve block 23 is equipped with and is mutually attracted with the magnet A 24 Magnet B 25.

First water inlet pipe 6 and second water inlet pipe 8 are both connected on water inlet manifold 29, on the water inlet manifold 29 Equipped with for by alum put into sewage in alum delivery device；The alum delivery device is included along 29 axis of water inlet manifold To the swivel nut 35 being arranged in the water inlet manifold 29, feeding spiro rod 36, the feeding spiral shell are rotatably connected in the swivel nut 35 The left end of bar 36 is equipped with the rotating vane 37 for feeding spiro rod 36 to be driven to rotate；It is equipped on the water inlet manifold 29 and institute State the hopper 38 for being used to place alum of the connection of swivel nut 35；The right side of the swivel nut 35 is equipped with to launch feeding intake for alum Hole 39.During sewage in water inlet manifold 29 is flowed to foul water tank 2, flow drives rotating vane 37 to rotate and then drive Feeding spiro rod 36 rotates, and the alum in hopper 38 is put into from batching hole 39 in sewage, which can accurately ensure bright The input amount of alum is mutually matched with entering the sewage quantity in foul water tank 2, so as to have the function that efficient water purification.

When the high-efficient energy-saving environment friendly sewage-treatment plant works, if piston 3 is located at the top position of foul water tank 2 and entire dirt The sewage added with alum is filled in water tank 2, air cylinder device work hollow ram 5 after being completed through settlement of sewage after a period of time With piston 3 the third electrically-controlled valve 16 at the same time the second blow-off pipe 15 is moved downward to open, the external screw thread on piston 3 with Under internal thread interaction in foul water tank 2, slowly rotation and then the transmission by being slidably connected in driving hole 33 of piston 3 Bar 34 drives installing plate 30 slowly to rotate so that the deposit of 2 bottom of foul water tank is under the action of eight arc cylinder manifold B 31 Flow direction confluence hole 32, the deposit of 2 bottom of foul water tank is discharged from the second blow-off pipe 15, when second sensor 17 detects that sewage is turbid When degree is less than 20 setting value of microcontroller, microcontroller 20 sends out control signal so that the 4th electrically-controlled valve 19 closes third while opening Electrically-controlled valve 16, until the clear water in foul water tank 2 is discharged from the second drainpipe 18；With piston 3 in this discharge process It moves down, forming vacuum on the top of piston 3 in foul water tank 2 causes the sewage added with alum by the first water inlet pipe 6 and setting The first check valve 7 on the first water inlet pipe 6 enters in the foul water tank 2, gas after being completed through settlement of sewage after a period of time Cylinder assembly work hollow ram 5 is moved upwards with piston 3, and at the same time the first electrically-controlled valve 11 on the first blow-off pipe 10 is beaten It opens, under the external screw thread on piston 3 and the interaction of the internal thread in foul water tank 2, slowly rotation causes on piston 3 piston 3 The deposit in portion flowed under the action of eight arc cylinder manifold A 27 through flow hole 501 enter hollow ram 5 in then up from First blow-off pipe 10 is discharged, and when first sensor 12 detects that turbidity of sewage is less than 20 setting value of microcontroller, microcontroller 20 is sent out Go out to control signal so that the second electrically-controlled valve 14 closes the first electrically-controlled valve 11 while opening, until will be located at piston 3 in foul water tank 2 The clear water on top is discharged from the first drainpipe 13, equally during piston 3 moves upwards, in foul water tank 2 under piston 3 Portion forms vacuum and sewage is caused to enter sewage by the second water inlet pipe 8 and the second check valve 9 being arranged on the second water inlet pipe 8 It in case 2, carries out precipitation process and is then exhausted from after for a period of time, so moving in circles, it is dynamic that an air cylinder device is only needed to greatly reduce Power source, while simplify operation sequence.

The above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvements and modifications can also be made, these improvements and modifications Also it should be regarded as protection scope of the present invention.

Claims (6)

1. including stent, sewage is vertically equipped on the stent (1) for a kind of high-efficient energy-saving environment friendly sewage-treatment plant Case (2), which is characterized in that slidably connect piston (3) in the foul water tank (2), be equipped with described in driving on the stent (1) The air cylinder device that piston (3) moves back and forth, the air cylinder device include the cylinder body (4) being arranged on the stent (1) and slide The dynamic hollow ram (5) being connected in the cylinder body (4) and be rotatablely connected by clutch shaft bearing (26) and the piston (3), institute The inner ring and the hollow ram (5) for stating clutch shaft bearing (26) are interference fitted, outer ring and the peace being arranged on the piston (3) Tankage is interference fitted；Through flow hole (501) is being equipped at the piston (3) on hollow ram (5) side；

The upper surface of the piston (3) is equipped with multiple arcs cylinder manifold A (27), and the circumference side of the piston (3) is equipped with outer Screw thread, the medial surface of the foul water tank (2) is equipped with is used to drive the piston (3) rotation with what the external screw thread cooperated Internal thread；The bottom of the foul water tank (2) is rotatably connected to installing plate (30), the installing plate by second bearing (28) (30) upper surface is equipped with multiple arcs cylinder manifold B (31), is vertically equipped at the rotation center of the installing plate (30) Converge hole (32)；Two driving holes (33) are vertically equipped on the piston (3), installing plate (30) upper edge is square vertically To setting upwards, there are two the drive links (34) being slidably connected in the driving hole (33)；

It is additionally provided on the foul water tank (2) into water piping and discharge piping.

2. high-efficient energy-saving environment friendly sewage-treatment plant according to claim 1, which is characterized in that the water inlet piping includes setting It puts on the foul water tank (2) side and is equipped with the on first water inlet pipe (6) at top, first water inlet pipe (6) One check valve (7)；Further include be arranged on the foul water tank (2) side and close to bottom the second water inlet pipe (8), described second Second check valve (9) is installed on water inlet pipe (8)；The discharge piping includes the mounted on the hollow ram (5) upper end One blow-off pipe (10) is equipped with the first electrically-controlled valve (11) and for detecting turbidity of sewage on first blow-off pipe (10) First sensor (12)；On first blow-off pipe (10) between first electrically-controlled valve (11) and the hollow ram (5) Equipped with the first drainpipe (13), the second electrically-controlled valve (14) is installed on first drainpipe (13)；It further includes mounted on described Foul water tank (2) bottom centre position and the second blow-off pipe (15) connected with confluence hole (32), second blow-off pipe (15) third electrically-controlled valve (16) is installed and for detecting the second sensor of turbidity of sewage (17) on；Second blowdown It manages and is equipped with the second drainpipe (18), the second row on (15) between the third electrically-controlled valve (16) and the foul water tank (2) 4th electrically-controlled valve (19) is installed on water pipe (18).

3. high-efficient energy-saving environment friendly sewage-treatment plant according to claim 2, which is characterized in that the first sensor (12) It is arranged on the discharge side of first electrically-controlled valve (11)；The second sensor (17) is arranged on the third electrically-controlled valve (16) Discharge side.

4. high-efficient energy-saving environment friendly sewage-treatment plant according to claim 3, which is characterized in that further include microcontroller control dress It puts, the monolithic processor control device includes the microcontroller (20) being arranged on the stent (1), the input of the microcontroller (20) End is electrically connected between the first sensor (12) and the second sensor (17) respectively, the output of the microcontroller (20) End is electric between first electrically-controlled valve (11), the second electrically-controlled valve (14), third electrically-controlled valve (16), the 4th electrically-controlled valve (19) respectively Connection.

5. high-efficient energy-saving environment friendly sewage-treatment plant according to claim 3, which is characterized in that first check valve (7) It is identical with the second check valve (9) structure to include the valve body (22) equipped with through-hole (21), described on the valve body (22) The top edge of through-hole (21) is hinged with the valve block (23) for controlling the through-hole (21) break-make, in institute on the valve body (22) The lower edge for stating through-hole (21) is equipped with magnet A (24), and the valve block (23) is equipped with what is be mutually attracted with the magnet A (24) Magnet B (25).

6. high-efficient energy-saving environment friendly sewage-treatment plant according to claim 1, which is characterized in that first water inlet pipe (6) It is both connected on water inlet manifold (29) with second water inlet pipe (8), the water inlet manifold (29) is equipped with to throw in alum Enter the alum delivery device in sewage；The alum delivery device include along the water inlet manifold (29) be axially disposed within it is described into Swivel nut (35) in supply mains (29), the swivel nut (35) is interior to be rotatably connected to feeding spiro rod (36), the feeding spiro rod (36) Left end be equipped with for drive feeding spiro rod (36) rotate rotating vane (37)；Be equipped on the water inlet manifold (29) with The hopper (38) for being used to place alum of swivel nut (35) connection；The right side of the swivel nut (35) is equipped with bright for launching The batching hole (39) of alum.