CN206352073U - A kind of potential energy reoxygenation sewage disposal parallel system water-supply apparatus - Google Patents

Abstract

The utility model discloses a kind of potential energy reoxygenation sewage disposal parallel system water-supply apparatus, including upper water assembly and the upper water box being symmetrical set, upper water box is provided with water inlet and water inlet controlling organization, the upper water box bottom surface below drainage control mechanism and upper water management mechanism, drainage control mechanism is provided with upper water box and is provided with delivery port；With sewage is gradually filled in the upper water box of side, water inlet controlling organization closing water inlet, drainage control mechanism is opened water assembly on delivery port, upper water management means block and supplied water into the side upper water box, and upper water assembly starts to supply water into opposite side upper water box.The utility model makes potential energy reoxygenation sewage disposal parallel system alternately upper water, without personal management, can whole automatic controls, water pump continuously works, it is to avoid starts repeatedly, can extend water pump service life, reduces the usage amount of water pump, reduce energy consumption, improve efficiency.

Description

A kind of potential energy reoxygenation sewage disposal parallel system water-supply apparatus

Technical field

The utility model belongs to technical field of sewage, and in particular to a kind of potential energy reoxygenation sewage disposal parallel system is used Water-supply apparatus.

Background technology

At present, carrying out biological treatment for sewage both at home and abroad mainly takes activated sludge mutually to be tied with Biological Contact Oxidation Process The further treatment technique of conjunction, the water quality after processing can reach the standard of recycle-water, such biologic process for treating sewage aerobic process Use aeration more（Predominantly blast aeration）, to increase the dissolved oxygen in sewage, to allow in activated sludge or filler biological Aerobic microbiological on film is able to grow, bred, and decomposes the organic matter in sewage, but aeration reoxygenation efficiency is very low, energy consumption It is very high, get into smooth costly.Potential energy reoxygenation utilizes potential energy-utilized oxygen-increasing ecological bed, and potential energy is discharged water by buoyancy and is converted into kinetic energy Carry out big oxygen reoxygenation and stripping, it is possible to reduce aeration power consumption and artificial control, it is necessary first to which sewage is evacuated to most last layer.In order to Pump interrupted water works, it is to avoid water pump frequent starting, is supplied water using a water pump to two upper water boxs, it is necessary to a set of parallel system Water-supply apparatus, when sewage load is larger simultaneously, it usually needs two potential energy-utilized oxygen-increasing ecological beds in parallel are handled, and are also needed Two water-supply apparatus are wanted to be supplied water respectively to potential energy-utilized oxygen-increasing ecological bed.

Utility model content

Based on the deficiencies in the prior art, the purpose of this utility model is to provide a kind of potential energy reoxygenation sewage disposal taken in conjunction System water-supply apparatus.

To achieve these goals, the technical solution adopted in the utility model is：

A kind of potential energy reoxygenation sewage disposal parallel system water-supply apparatus, including upper water assembly and be symmetrical set it is upper Water tank, the upper water assembly is transversely fixed on two upper water boxs, and upper water box is provided with water inlet controlling organization, upper water box and set There is the upper water box bottom surface below drainage control mechanism and upper water management mechanism, drainage control mechanism to be provided with delivery port；

The upper water assembly includes the upper aquaporin being transversely fixed on two upper water boxs, the middle part of upper aquaporin bottom surface Upper hose is communicated with, the upper hose is connected with water pump, and sewage is evacuated in upper aquaporin by water pump；Upper aquaporin upper end Being fixedly arranged in the middle of for mouth is transversely hinged with the transverse tube that left and right ends are closed on support frame, support frame, transverse tube is built with water, transverse tube Left and right ends be hung with first baffle for stopping upper aquaporin water outlet, the first baffle is slided with upper aquaporin to be connected When connecing, and realizing that side first baffle closes water outlet by transverse tube, the first baffle of opposite side opens water outlet；

Rectangular shaped rim is transversely provided with the upper water box, and rectangular shaped rim is located at the lower section of upper aquaporin, the rectangle The bottom of frame is connected with upper water box, and upper water box is located at the upper port closing outside rectangular shaped rim, and the side of rectangular shaped rim is provided with Water inlet, water inlet is externally provided with the U-shaped frame for enclosing water inlet, and the U-shaped frame is higher than rectangular shaped rim and U-shaped frame is opened Mouthful end with rectangular shaped rim is seamless is abutted against, the passway at the upper left and right two ends of aquaporin is respectively in left and right two U-shaped frames；

The water inlet controlling organization includes being arranged at lever dolly in U-shaped frame, and one end of lever dolly is fixed with the One floating body, the other end of lever dolly is fixed with the second baffle for closing water inlet, U-shaped frame by water inlet provided with the One osculum；

The drainage control mechanism includes the first casing being fixed in upper water box, the first casing upper end opening and the first case The upper port of body is located in rectangular shaped rim, and the second floating body is provided with the first casing；Bottom surface and upper water box in the middle part of first casing There is spacing between bottom surface, the delivery port is located at the lower section in the middle part of the first casing, and delivery port, which is provided with, to be used to close delivery port Be fixed with head rod on third baffle, third gear plate, the upper end of head rod through the first casing bottom plate and with the Two floating bodies are fixedly connected；The bottom of first casing one side is provided with the first discharge outlet, and the outside of the first discharge outlet, which is provided with, to be used to seal The fourth gear plate of the first discharge outlet is closed, lower end and the first casing of the fourth gear plate are hinged, and the top of fourth gear plate is fixed with 3rd floating body；

The upper water management mechanism includes the second casing being fixed in upper water box, and second casing is located at first baffle Lower section, the upper port of the second casing is located in rectangular shaped rim, and the 3rd casing, the height of the 3rd casing are provided with the second casing Degree is less than the first casing, and the upper surface of the 3rd casing is fixed with the second vertical connecting rod, and the upper end of second connecting rod is worn Cross aquaporin and be hooked on transverse tube；The top of second casing one side, which is provided with, is used for the water conservancy diversion to the 3rd casing internal drainage Pipe, the other end of mozzle at the top of the first casing one side with being connected, and the bottom of the second casing one side is provided with second row The mouth of a river, the outside of the second discharge outlet is provided with the fifth gear plate for being used for closing the second discharge outlet, the lower end of the fifth gear plate and the Two casings are hinged, and the top of fifth gear plate is fixed with the 4th floating body, and the bottom of the 3rd casing is provided with the second osculum.

Preferably, U-shaped frame openend is provided with for the guiding gutter to the first casing internal drainage, institute between the first casing The one end for stating guiding gutter is fixed in rectangular shaped rim, and the other end of guiding gutter is fixed on the top of the first casing.

Preferably, upper aquaporin is provided with front and rear corresponding slot with first baffle joint, and the first baffle insertion is inserted In groove, and moved up and down along slot.

Preferably, the diameter of first osculum is 20 ~ 30 millimeters, a diameter of 5 ~ 10 millimeters of the second osculum.

Preferably, length direction of the bottom surface of the third baffle along third baffle is provided with the gusset for reinforcing.

The utility model makes potential energy reoxygenation sewage disposal parallel system alternately upper water, without personal management, can whole automatic controls, Water pump continuously works, it is to avoid start repeatedly, can extend water pump service life, reduces the usage amount of water pump, reduces energy consumption, carries High efficiency.

Brief description of the drawings

Fig. 1 is schematic perspective view of the present utility model；

Fig. 2 is Fig. 1 right view；

Fig. 3 is Fig. 1 upward view；

Fig. 4 is Fig. 1 front view；

Fig. 5 is profiles of the Fig. 4 along line A-A；

Fig. 6 is profiles of the Fig. 4 along line B-B；

Fig. 7 is Fig. 4 top view；

Fig. 8 is profiles of the Fig. 7 along line C-C；

Fig. 9 is profiles of the Fig. 7 along line D-D；

Figure 10 is the enlarged drawing of water inlet control assembly in Fig. 1；

Figure 11 is the partial enlarged drawing at E in Fig. 8；

Figure 12 is the enlarged drawing of drainage control mechanism in Fig. 9；

Figure 13 is the partial enlarged drawing at F in Figure 12；

Figure 14 is the enlarged drawing of Tu9Zhong Shang water managements mechanism；

Figure 15 is the partial enlarged drawing at G in Figure 14.

Embodiment

Potential energy reoxygenation sewage disposal parallel system is made up of the potential energy-utilized oxygen-increasing ecological beds of two operations simultaneously, such as the institute of Fig. 1 ~ 15 Show, a kind of potential energy reoxygenation sewage disposal parallel system water-supply apparatus, including upper water assembly and the upper water box that is symmetrical set 10, two upper water boxs 10 are located at the top of two potential energy-utilized oxygen-increasing ecological beds respectively, and the upper water assembly is transversely fixed on two On upper water box 10, upper water box 10 is provided with water inlet controlling organization, and upper water box 10 is interior to be provided with drainage control mechanism and upper water management machine Delivery port 23 is transversely provided with the bottom surface of upper water box 10 below structure, drainage control mechanism.

The upper water assembly includes the upper aquaporin 2 being transversely fixed on two upper water boxs 10, and the upper aquaporin 2 is leaned on Upper hose 1 is communicated with the middle part of the front side of nearly upper water box 10, the upper bottom surface of aquaporin 2, the upper hose 1 is connected with water pump, and leads to Cross water pump sewage is evacuated in upper aquaporin 2；Being fixedly arranged in the middle of on cover plate 3, cover plate 3 for the upper upper port of aquaporin 2 is fixed with branch The transverse tube 5 of left and right ends closing is transversely hinged with support 4, support frame 4, and hinged place is located at the middle part of transverse tube 5, transverse tube 5 Built with the water of semicanal, in the case where no external force is acted on, transverse tube 5 keeps stablizing motionless, when the stress of transverse tube 5 rotates When, the water of transverse tube 5 can flow；The left and right ends of transverse tube 5 are hung with the first baffle for stopping the upper water outlet of aquaporin 2 7, the first baffle 7 is slidably connected with upper aquaporin 2, and upper aquaporin 2 is with the joint of first baffle 7 provided with front and rear corresponding slotting In groove 6, the insertion of first baffle 7 slot 6, and moved up and down along slot 6；Stop that upper water leads to when left side first baffle 7 is in During the state of the left side port water outlet of road 2, the left end of transverse tube 5 is rotated down, and the first baffle 7 on right side can be made in the lifting of transverse tube 5 Under, the port on the right side of aquaporin 2 is in water outlet state, equally, stop upper aquaporin 2 when right side first baffle 7 is in During the state of right side port water outlet, the right-hand member of transverse tube 5 is rotated down, and the first baffle 7 in left side can be acted in the lifting of transverse tube 5 Under, the port in the left side of aquaporin 2 is in the first baffle of water outlet state, i.e., two 7 can realize under the leverage of transverse tube 5 It is alternately opening/closing.

Front side is transversely provided with rectangular shaped rim 8 on the upper water box 10, and the rectangular shaped rim 8 is by front, rear, left and right four Vertical rib, which is enclosed, to be formed, and rectangular shaped rim 8 is located at the lower section of upper aquaporin 2, bottom and the upper water box 10 of the rectangular shaped rim 8 It is connected, upper water box 10 is located at the upper port closing outside rectangular shaped rim 8；The rear side of rectangular shaped rim 8 is provided with water inlet 24, water inlet 24 left and right and rear side is provided with vertical rib to enclose U-shaped frame 9, and the U-shaped frame 9 is higher than rectangular shaped rim 8 and U-shaped side The openend of the front side of frame 9 with rectangular shaped rim 8 is seamless is abutted against, the passway at the left and right two ends of upper aquaporin 2 extends respectively to left and right In two U-shaped frames 9.

The water inlet controlling organization includes the lever dolly 13 being arranged in U-shaped frame 9, and one end of lever dolly 13 is fixed There is the first floating body 12, the other end of lever dolly 13 is fixed with the second baffle 11 for closing water inlet 24, U-shaped frame 9 The side of water inlet 24 is provided with the first osculum 14；When the first floating body 12 floats, pass through the effect of lever dolly 13, second baffle 11 Can downwardly turn over and block water inlet 24, the diameter of water inlet 24 is more than the first osculum 14, the first osculum 14 it is a diameter of 25mm, for slowly discharging the water in U-shaped frame 9, makes second baffle 11 be reset to the open mode of water inlet 24.

The drainage control mechanism includes the first casing 16 for being fixed on front side in upper water box 10, and the upper end of the first casing 16 is opened The upper port of mouth and the first casing 16, which is slightly below in rectangular shaped rim 8, the first casing 16, is provided with the second floating body 17；In first casing 16 There is spacing between the bottom surface in portion and the bottom surface of upper water box 10, the delivery port 23 is located at the lower section at the middle part of the first casing 16, water outlet Mouth 23 is provided with the third baffle 25 for being used for closing delivery port 23, third gear plate and is fixed with two vertical head rods 20, two head rods 20 are individually fixed in the left part and right part of third baffle 25, and the upper end of two head rods 20 is worn Cross the bottom plate of the first casing 16 and be fixedly connected with the second floating body 17；Length side of the bottom surface of third baffle 25 along third baffle 25 To provided with the gusset 26 for reinforcing；The bottom of the one side of first casing 16 is provided with the first discharge outlet 27, the first discharge outlet 27 Outside is provided with the fourth gear plate 28 for being used for closing the first discharge outlet 27, and the lower end of the fourth gear plate 28 is cut with scissors with the first casing 16 Connect, the top of fourth gear plate 28 is fixed with the 3rd floating body 29.The openend of U-shaped frame 9 between the first casing 16 be provided be used for The guiding gutter 21 of the internal drainage of first casing 16, the rear end of the guiding gutter 21 is fixed in rectangular shaped rim 8, the front end of guiding gutter 21 It is fixed on the top of the first casing 16.

The upper water management mechanism includes being fixed on the second casing 18 of front side in upper water box 10, second casing 18 In the lower section of first baffle 7, the upper port of the second casing 18 is located in rectangular shaped rim 8, open provided with upper end in the second casing 18 The 3rd casing 19, the height of the 3rd casing 19 is less than the first casing 16, and the upper surface of the 3rd casing 19 is fixed with vertically The second connecting rod 22, the upper end of second connecting rod 22 is through upper aquaporin 2 and is hooked on transverse tube 5；Second casing 18 The top of one side, which is provided with, is used for the mozzle 30 to the internal drainage of the 3rd casing 19, the other end of mozzle 30 and the first casing 16 It is connected at the top of one side, the bottom of the one side of the second casing 18 is provided with the second discharge outlet 32, the outside of the second discharge outlet 32 Provided with the fifth gear plate 33 for closing the second discharge outlet 32, the lower end of the fifth gear plate 33 is hinged with the second casing 18, the The top of five baffle plates 33 is fixed with the 4th floating body 34, and the bottom of the 3rd casing 19 is provided with the second osculum 31, the pipe of mozzle 30 Mouth is more than the second osculum 31, a diameter of 8mm of the second osculum 31, for slowly discharging the sewage in the 3rd casing 19.

In the potential energy reoxygenation sewage disposal system in parallel to two during water, sewage is pumped into by upper hose 1 by water pump In water pipe 1；Sewage first is discharged into upper water box 10 to the left, now, the left end of transverse tube 5 is higher than the right-hand member of transverse tube 5, the first of left end Baffle plate 7 is lifted by transverse tube 5, makes have spacing between the bottom of first baffle 7 and the bottom of upper aquaporin 2, and the first gear on right side Plate 7 is forward and backward and bottom connects with upper aquaporin 2, and the interior water of transverse tube 5 flow to transverse tube right-hand member, in situation about being acted on without external force Under, transverse tube keeps inclination motionless, and the left side port of sewage from upper aquaporin 2 is discharged into the U-shaped frame 9 in left side, now, water inlet 24 are in open mode, and sewage enters left side upper water box 10 by water inlet 24；With in left side upper water box 10 wastewater level by Gradually rise, the 3rd floating body 29 floats under buoyancy, fourth gear plate 28 is closed the first discharge outlet 27, the 4th floating body 34 is floating Float under power effect, fifth gear plate 33 is closed the second discharge outlet 32, now, the first casing 16, the second casing 18 and the 3rd case There was only very small amount sewage in body 19, the second floating body 17 is still located at the bottom of the first casing 16, and third baffle 25 is located on delivery port 23 And close delivery port 23；When the wastewater level in left side upper water box 10 reaches 10 upper surface of upper water box, rectangular shaped rim 8 and U-shaped Water level continues to rise in frame 9, and the first floating body 12 is raised by buoyancy, drives second baffle 11 to turn over by lever dolly 13 Turn, until second baffle 11 blocks water inlet 24 completely, the water that upper aquaporin 2 is discharged into U-shaped frame 9 is no longer by water inlet 24 Upper water box 10 is flowed into, but is flowed into by guiding gutter 21 in the first casing 16, the second floating body 17 is gradually risen by buoyancy, is led to Crossing head rod 20 drives third baffle 25 to raise, and the sewage opened in delivery port 23, left side upper water box 10 is begun through out Discharge downwards at the mouth of a river 23；At the same time, the water of upper aquaporin 2 continues through U-shaped frame 9 and guiding gutter 21 is discharged into the first casing 16 Interior, the water level in the first casing 16 rises, up to being discharged into by mozzle 30 in the 3rd casing 19 for the first casing 16, the 3rd case The built-in full water of body 19 drops, and pulls downward on the left end of transverse tube 5 by the second connecting rod 22, and the first baffle 7 in left side moves down stop Current direction transverse tube left part in upper aquaporin 2 internal drainage of upper water box 10 to the left, transverse tube 5, transverse tube 5 keeps left end reduction, makes the right side The first baffle 7 of side is raised, and completes the upper water of left side upper water box 10, and upper aquaporin 2 starts in stable upper water box 10 to the right Draining.Meanwhile, remaining water is flowed slowly into the upper water box 10 of left side by the first osculum 14 in U-shaped frame 9, the first floating body 12 Slowly fall, second baffle 11 is raised by lever dolly 13, remaining sewage is rapid by water inlet 24 in U-shaped frame 9 Flow into the upper water box 10 of left side, the sewage in the 3rd casing 19 is slowly flowed into the second casing 18 by the second osculum 31；With The sewage in the upper water box 10 of left side is gradually discharged, when wastewater level is floating less than the 3rd floating body 29 and the 4th in left side upper water box 10 During body 34, fourth gear plate 28 and fifth gear plate 33 are downwardly turned over, and the water in the first casing 16 is discharged into by the first discharge outlet 27 In the upper water box 10 in left side, the water in the second casing 18 by the upper water box 10 on the left of the inflow of the second discharge outlet 32, all leading to again Cross the potential energy-utilized oxygen-increasing ecological bed that delivery port 23 drains into the lower section of left side upper water box 10；As the water level in the first casing 16 is reduced, the Two floating bodies 17 fall until third baffle 25 closes delivery port 23, the draining of completion left side upper water box 10.At the same time, on right side Sewage is gradually injected into water tank 10, rises according to the second floating body 17 with identical process in left side upper water box 10, right side, beats The delivery port 23 of right side upper water box 10 is opened, the 3rd casing 19 on right side drops, and makes the right side port shutdown water outlet of aquaporin 2, Upper water box 10 supplies water upper aquaporin 2 to the left again, so alternately, without manual control, low energy consumption, efficiency high.

The utility model is not restricted to the described embodiments, and simply illustrates this reality described in above-described embodiment and specification With new principle, the utility model also has various change and changed on the premise of the utility model spirit and scope are not departed from Enter, these changes and improvements are both fallen within the range of claimed the utility model.

Claims (5)

1. a kind of potential energy reoxygenation sewage disposal parallel system water-supply apparatus, including upper water assembly and the upper water that is symmetrical set Case, the upper water assembly is transversely fixed on two upper water boxs, it is characterised in that：Upper water box is provided with water inlet controlling organization, The upper water box bottom surface below drainage control mechanism and upper water management mechanism, drainage control mechanism is provided with upper water box and is provided with water outlet Mouthful；

The upper water assembly includes the upper aquaporin being transversely fixed on two upper water boxs, the middle part connection of upper aquaporin bottom surface There is upper hose, the upper hose is connected with water pump, and sewage is evacuated in upper aquaporin by water pump；Upper aquaporin upper port The transverse tube that left and right ends closing is transversely hinged with support frame, support frame is fixedly arranged in the middle of, transverse tube is built with water, a left side for transverse tube Right two ends are hung with the first baffle for stopping upper aquaporin water outlet, and the first baffle is slidably connected with upper aquaporin, And when realizing that side first baffle closes water outlet by transverse tube, the first baffle of opposite side opens water outlet；

Rectangular shaped rim is transversely provided with the upper water box, and rectangular shaped rim is located at the lower section of upper aquaporin, the rectangular shaped rim Bottom be connected with upper water box, upper water box is located at the upper port closing outside rectangular shaped rim, and the side of rectangular shaped rim is provided with water inlet Mouthful, water inlet is externally provided with the U-shaped frame for enclosing water inlet, and the U-shaped frame is higher than rectangular shaped rim and U-shaped frame openend With rectangular shaped rim is seamless is abutted against, the passway at the upper left and right two ends of aquaporin is located in left and right two U-shaped frames respectively；

The water inlet controlling organization includes the lever dolly being arranged in U-shaped frame, and one end of lever dolly is fixed with first and floated Body, the other end of lever dolly, which is fixed with the second baffle for closing water inlet, U-shaped frame, is provided with first row by water inlet Water hole；

The drainage control mechanism includes the first casing being fixed in upper water box, and the first casing upper end is open and the first casing Upper port is located in rectangular shaped rim, and the second floating body is provided with the first casing；The bottom surface of bottom surface and upper water box in the middle part of first casing Between have a spacing, the delivery port is located at the lower section in the middle part of the first casing, and delivery port, which is provided with, to be used to close the 3rd of delivery port Head rod is fixed with baffle plate, third gear plate, the upper end of head rod passes through the bottom plate of the first casing and floated with second Body is fixedly connected；The bottom of first casing one side is provided with the first discharge outlet, and the outside of the first discharge outlet, which is provided with, is used to closing the The fourth gear plate of one discharge outlet, lower end and the first casing of the fourth gear plate are hinged, and the top of fourth gear plate is fixed with the 3rd Floating body；

The upper water management mechanism includes the second casing being fixed in upper water box, and second casing is located under first baffle Side, the upper port of the second casing is located in rectangular shaped rim, and the 3rd casing is provided with the second casing, and the height of the 3rd casing is low In the first casing, the upper surface of the 3rd casing is fixed with the second vertical connecting rod, and the upper end of second connecting rod is through upper Aquaporin is simultaneously hooked on transverse tube；The top of second casing one side, which is provided with, is used for the mozzle to the 3rd casing internal drainage, leads The other end of flow tube at the top of the first casing one side with being connected, and the bottom of the second casing one side is provided with the second discharge outlet, The outside of second discharge outlet is provided with the fifth gear plate for being used for closing the second discharge outlet, lower end and the second casing of the fifth gear plate It is hinged, the top of fifth gear plate is fixed with the 4th floating body, and the bottom of the 3rd casing is provided with the second osculum.

2. potential energy reoxygenation sewage disposal parallel system water-supply apparatus according to claim 1, it is characterised in that：U-shaped side Frame openend is provided with for the guiding gutter to the first casing internal drainage between the first casing, and one end of the guiding gutter is fixed on In rectangular shaped rim, the other end of guiding gutter is fixed on the top of the first casing.

3. potential energy reoxygenation sewage disposal parallel system water-supply apparatus according to claim 1, it is characterised in that：Upper water leads to Road is provided with front and rear corresponding slot, the first baffle insertion slot with first baffle joint, and is moved up and down along slot.

4. potential energy reoxygenation sewage disposal parallel system water-supply apparatus according to claim 1, it is characterised in that：Described The diameter of one osculum is 20 ~ 30 millimeters, a diameter of 5 ~ 10 millimeters of the second osculum.

5. potential energy reoxygenation sewage disposal parallel system water-supply apparatus according to claim 1, it is characterised in that：Described Length direction of the bottom surface of three baffle plates along third baffle is provided with the gusset for reinforcing.