CN116534957B - Spiral-flow type sewage and wastewater electrolysis treatment equipment - Google Patents

Abstract

The invention relates to the technical field of wastewater treatment, in particular to spiral-flow type sewage and wastewater electrolytic treatment equipment, which comprises a sewage tank, a water inlet, a water outlet and the like, wherein one side of the sewage tank is provided with a communicated water inlet, the bottom surface of the sewage tank is provided with the water outlet, the water inlet is connected with an electrolytic tank fixedly arranged at the inner side of the sewage tank, the top of the electrolytic tank is provided with a power supply, the bottom side of the power supply is connected with a cathode and an anode which extend into the electrolytic tank, the spiral-flow type sewage and wastewater electrolytic treatment equipment further comprises an adding component, the adding component comprises a liquid storage tank, a liquid discharge pipe and a hydraulic cylinder, the liquid storage tank is arranged on the electrolytic tank, and a catalyst is contained in the liquid storage tank. According to the invention, the adding component is arranged at the top of the electrolytic cell, so that the catalyst can be sent into the electrolyte with different water depths along the liquid discharge pipe which moves up and down after being uniformly stirred in the liquid storage tank, and further, the catalyst can be rapidly diffused in the electrolyte after being added, the reaction rate of oxidation and reduction reactions is improved, and the sewage and wastewater treatment efficiency is accelerated.

Description

Spiral-flow type sewage and wastewater electrolysis treatment equipment

Technical Field

The invention relates to the technical field of wastewater treatment, in particular to spiral-flow type sewage and wastewater electrolysis treatment equipment.

Background

The electrolytic treatment of waste water is to convert electric energy into chemical energy to produce oxidation and reduction reactions near the electrodes in the electrolytic tank for water treatment, and during the reaction of the electrolytic waste water, toxic matters in the waste water will produce new matters through oxidation and reduction reactions, and the new matters precipitate and escape, so that the concentration of the toxic matters in the waste water is correspondingly reduced.

When the conventional sewage and wastewater electrolytic treatment equipment is used, a proper amount of catalyst is often added into an electrolytic cell to improve the reaction speed in order to accelerate the treatment efficiency, and after the catalyst is added, a certain time is required for the catalyst to diffuse in the electrolyte due to the fact that the content of the sewage and wastewater serving as the electrolyte in the electrolytic cell is high, so that the treatment efficiency of the sewage and wastewater is limited, a great amount of time is required for sewage and wastewater treatment to wait, and the period of wastewater recovery circulation is prolonged.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides spiral-flow type sewage and wastewater electrolysis treatment equipment.

The technical scheme of the invention is as follows: the utility model provides a spiral-flow type sewage and wastewater electrolytic treatment equipment, includes effluent water sump, water inlet, delivery port, electrolytic cell, power and positive and negative electrode, and the water inlet of intercommunication is installed to effluent water sump one side, and the effluent water sump bottom surface is equipped with the delivery port, water inlet department is connected with the electrolytic cell of fixed mounting in the effluent water sump inboard, the power is installed at the electrolytic cell top, and the power bottom side is connected with the positive and negative electrode that stretches into in the electrolytic cell, still including the interpolation subassembly, add the subassembly including liquid reserve tank, fluid-discharge tube and pneumatic cylinder, install the liquid reserve tank on the electrolytic cell, hold the catalyst in the liquid reserve tank, the liquid reserve tank bottom is connected with the fluid-discharge tube that stretches into in the electrolytic cell, the fluid-discharge tube can slide from top to bottom relative the electrolytic cell, install the pneumatic cylinder on the electrolytic cell, pneumatic cylinder can promote liquid reserve tank and fluid-discharge tube to rise.

Further, add the subassembly still including screw rod, branch and stirring frame, be equipped with the screw rod that can rotate relatively on the liquid reserve tank, the screw rod passes the liquid reserve tank top surface and stretches out, installs branch on the electrolytic cell, the branch top extends to the screw rod side, has seted up the internal thread hole on it, and the screw rod passes internal thread hole and branch through screw-thread fit's mode swing joint, has cup jointed the stirring frame on the part that the screw rod is located the liquid reserve tank inboard.

Further, still including the whirl subassembly, the whirl subassembly is including drain pipe, turbine and filter screen, link to each other through the drain pipe between electrolytic cell and the effluent water sump, install the turbine in the drain pipe, the drain pipe goes out the water side and is equipped with the filter screen.

Furthermore, the bottom surface of the sewage pool is an inclined surface, and the joint of the water outlet and the sewage pool is the lowest point of the inclined surface.

Further, still including the subassembly of taking out, the subassembly of taking out is including pivot, salvaging frame, gear, inserted bar, rack, elastic component, leading wheel and stay cord, and the pivot is installed in the effluent water sump internal rotation, fixedly connected with netted salvaging frame in the pivot, pivot both ends coaxial coupling have the gear, be equipped with slidable inserted bar on the effluent water sump, the terminal fixedly connected with rack of inserted bar, rack and gear engagement are connected with the elastic component between rack and the effluent water sump, and the leading wheel is installed to effluent water sump top both sides symmetry, and stay cord one end fixed connection is on the liquid reserve tank, and the other end is on the rack through leading wheel fixed connection.

Further, still include the collection subassembly, collect the subassembly including shade, fixed frame and collection frame, install semi-cylindrical shade on the effluent water sump, the shade will rotate and stretch out the frame removal orbit cage behind the effluent water sump and cover in, shade downside fixedly connected with fixed frame, be equipped with the collection frame that can slide and take out in the fixed frame.

Further, still including push pedal, elastic tube and brush, fixedly connected with in the pivot can be with the push pedal of effluent water sump lateral wall laminating, the push pedal can rotate along with the pivot is synchronous, is connected with the elastic tube between push pedal and the effluent water sump, it is equipped with the brush that stretches out to the outside to salvage the frame end, the brush can scrub the shade inner wall when salvaging the frame and rotate.

The beneficial effects are that: 1. according to the invention, the adding component is arranged at the top of the electrolytic cell, so that the catalyst can be sent into the electrolyte with different water depths along the liquid discharge pipe which moves up and down after being uniformly stirred in the liquid storage tank, and further the catalyst can be quickly diffused in the electrolyte after being added, the reaction rate of oxidation and reduction reactions is improved, and the sewage and wastewater treatment efficiency is accelerated;

2. according to the invention, through the arrangement of the cyclone component, the waste water in the electrolytic tank can be quickly discharged into the sewage tank along the drain pipe under the driving action of the turbine, and the drainage efficiency is effectively improved, the drainage time is reduced, and the occurrence of drain pipe blockage can be reduced by adopting the cyclone design;

3. according to the invention, the rotatable fishing assembly is arranged in the sewage pool, so that floats on the surface of sewage and wastewater liquid can be fished out timely and sent into the collecting frame for unified collection, and the motion process of the fishing frame after the fishing frame is separated from the liquid level is always in the shade, so that the pollution to the external environment in the fishing process can be effectively reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a rear view of the present invention.

Fig. 3 is a schematic view of the internal structure of the present invention.

Fig. 4 is a schematic perspective view of the power supply and the cathode and anode of the present invention.

Fig. 5 is a schematic perspective view of an additive assembly according to the present invention.

Fig. 6 is a schematic perspective view of a sectional view of a liquid storage tank according to the present invention.

Fig. 7 is a schematic perspective view of a cyclone assembly according to the present invention.

Fig. 8 is a schematic perspective view of a turbine according to the present invention.

Fig. 9 is a schematic perspective view of the bailing assembly of the present invention.

Fig. 10 is a schematic perspective view of a collection assembly according to the present invention.

FIG. 11 is a schematic perspective view of the push plate and the elastic tube of the present invention.

Fig. 12 is a schematic perspective view of a brush according to the present invention.

Part names and serial numbers in the figure: 1_lagoon, 2_water inlet, 3_water outlet, 4_electrolytic cell, 5_power supply, 6_cathode and anode, 7_add component, 71_tank, 72_drain, 73_hydraulic cylinder, 74_screw, 75_strut, 76_stirring rack, 8_cyclone component, 81_drain, 82_turbine, 83_filter screen, 9_pick-up component, 91_spindle, 92_pick-up frame, 93_gear, 94_plug, 95_rack, 96_elastic piece, 97_guide wheel, 98_pull rope, 10_collect component, 101_shade, 102_fix frame, 103_collect frame, 11_push plate, 12_elastic tube, 13_brush.

Detailed Description

The invention is described in detail below with reference to the drawings and the specific embodiments.

Example 1

The utility model provides a spiral-flow type sewage and wastewater electrolytic treatment equipment, as shown in fig. 1-6, including effluent water sump 1, water inlet 2, delivery port 3, electrolytic cell 4, power 5 and negative electrode 6, through the water inlet 2 of bolt mounting intercommunication in the middle of the upper portion of effluent water sump 1 front side, effluent water sump 1 bottom surface rear side is equipped with the delivery port 3 that vertically stretches out downwards, effluent water sump 1 bottom surface is the inclined plane, the junction of delivery port 3 and effluent water sump 1 is the minimum of inclined plane, water inlet 2 department sealing connection has fixed mounting at the inboard electrolytic cell 4 of effluent water sump 1, electrolytic cell 4 adopts the necking down structural design, electrolytic cell 4 top is installed through the bolt low-voltage direct current power 5, and power 5 bottom side is connected with negative electrode 6 that stretches into in the electrolytic cell 4, still including the interpolation subassembly 7 that is used for adding catalyst to accelerate reaction rate, but install relative lift's delivery port 71 on electrolytic cell 4, liquid storage 71 bottom has the liquid storage 71 to stretch into the electrolytic cell 72 through the fixed connection mode of joint and liquid drain 72 and the liquid pot 73 is equipped with two and the electrolytic cell 72 is equipped with the relative liquid drain 72, and the liquid pot 72 is equipped with two drain 72 in the mode that the relative pot 72 is connected with the left side and right side and the electrolytic cell 73 is equipped with the positive electrode 72.

As shown in fig. 6, the adding component 7 further includes a screw 74, a supporting rod 75 and a stirring rack 76, two screws 74 capable of rotating relatively are symmetrically disposed in the liquid storage tank 71, the screws 74 penetrate through the top surface of the liquid storage tank 71 and extend out, the supporting rod 75 is welded at the top of the electrolytic cell 4, the top end of the supporting rod 75 extends towards the side of the screw 74, an internal threaded hole matched with the screw 74 is formed at the tail end of the supporting rod, the screw 74 penetrates through the internal threaded hole and is movably connected with the supporting rod 75 in a threaded fit manner, and when the screw 74 moves up and down, the internal threaded hole at the tail end of the supporting rod 75 enables the screw to rotate simultaneously, and the stirring rack 76 is sleeved on the part of the screw 74 located inside the liquid storage tank 71.

As shown in fig. 7 and 8, the cyclone assembly 8 for delivering the wastewater in the electrolytic tank 4 is further included, the cyclone assembly 8 includes a drain pipe 81, a turbine 82 and a filter screen 83, the electrolytic tank 4 and the sewage tank 1 are connected through the drain pipe 81, the drain pipe 81 is spiral, the turbine 82 capable of driving the water flow to rotate is installed in the drain pipe 81 through bolts, and the replaceable filter screen 83 is installed at the water outlet side of the drain pipe 81 through a clamping manner.

When the device is used, sewage and wastewater are introduced into the electrolytic tank 4 along the water inlet 2, the power supply 5 is controlled to be electrified so that the wastewater is used as electrolyte to generate oxidation and reduction reactions near the cathode and anode electrodes 6, meanwhile, the hydraulic cylinder 73 is driven to drive the liquid storage tank 71 to move up and down relative to the electrolytic tank 4, the screw 74 moves up and down along with the liquid storage tank 71, and simultaneously rotates under the screw thread matching effect of the supporting rod 75 to drive the stirring frame 76 in the liquid storage tank 71 to rotate, the catalyst in the liquid storage tank 71 is uniformly stirred, the liquid discharge pipe 72 extending into the electrolytic tank 4 from the bottom side of the liquid storage tank 71 is synchronously lifted, the catalyst is conveyed into the electrolyte with different water depths along the liquid discharge pipe 72, the oxidation and reduction reaction rate is accelerated, the sewage and wastewater is driven by the turbine 82 to flow into the sewage tank 1 along the water discharge pipe 81 through the filter screen 83 under the action of gravity and is discharged to the water outlet 3 under the action of gravity and is conveyed into the next procedure.

Example 2

On the basis of embodiment 1, as shown in fig. 9, the fishing assembly 9 for fishing out the liquid level floating objects is further included, the fishing assembly 9 comprises a rotating shaft 91, a fishing frame 92, a gear 93, a plunger 94, a rack 95, an elastic piece 96, guide wheels 97 and a pull rope 98, the rotating shaft 91 is rotatably installed at the top of the short side of the rear side of the sewage tank 1, the rotating shaft 91 is fixedly connected with a meshed fishing frame 92 through bolts, the fishing frame 92 obliquely stretches into the sewage tank 1, the fishing frame 92 is composed of baffles on two sides and a middle net part, two ends of the rotating shaft 91 are coaxially connected with the gears 93, jacks are formed in the tops of two sides of the sewage tank 1, the plunger 94 capable of horizontally sliding are arranged in the jacks, racks 95 with upward tooth openings are welded at the tail ends of the outer sides of the plungers, the racks 95 are meshed with the gears 93, the elastic piece 96 is connected between the racks 95 and the sewage tank 1, the elastic piece 96 adopts a stainless steel compression spring, two groups of guide wheels 97 are symmetrically installed on two sides of the top of the sewage tank 1 in a clamping mode, one end of the liquid storage wheels 97 on the same side are mutually perpendicular, one end 98 is fixedly connected to the other end of the liquid storage wheels 98, and the other end of the liquid storage wheels is fixedly connected to the rack 95 when the other end is horizontally connected to the rack 95 through the guide wheels 71.

After sewage and wastewater is sent into the sewage tank 1 through electrolytic treatment, certain floats exist on the surface of the liquid, under the action of the pulling force of upward movement of the liquid storage tank 71, the pull rope 98 is guided by the guide wheel 97 to move to the side of the electrolytic tank 4, the rack 95 and the inserted link 94 are pulled to slide in along the insertion hole on the side wall of the sewage tank 1, the elastic piece 96 is compressed, the rack 95 horizontally moves to push the gear 93 to drive the rotating shaft 91 to rotate, the salvage frame 92 rotates to salvage and take out the liquid level floats, and when the salvage frame 92 further rotates, the liquid storage tank 1 is sent out, then the liquid storage tank 71 moves downwards, the rack 95 and the inserted link 94 slide out away from the electrolytic tank 4 under the reset action of the elastic piece 96, the rotating shaft 91 and the salvage frame 92 are driven to rotate and reset, and the salvage frame 92 falls back into the sewage tank 1.

As shown in fig. 10, the utility model also includes a collecting component 10 for collecting and taking out sundries uniformly, the collecting component 10 includes a shade 101, a fixed frame 102 and a collecting frame 103, a semi-cylindrical shade 101 is installed on the sewage tank 1, the middle part of the shade 101 protrudes upwards and the opening faces downwards, the moving track of the salvaging frame 92 which rotates to extend out of the sewage tank 1 is covered by the shade 101, the bottom side of the shade 101 is fixedly connected with a rectangular fixed frame 102 through bolts, the collecting frame 103 which can be taken out from the side surface in a sliding way is arranged in the fixed frame 102, and a handle is fixedly installed on the side surface of the collecting frame 103.

As shown in fig. 11 and 12, the sewage treatment device further comprises a push plate 11, an elastic tube 12 and a brush 13, wherein a rectangular push plate 11 which can be attached to the side wall of the sewage pool 1 is fixedly connected to the rotating shaft 91, the push plate 11 can synchronously rotate along with the rotating shaft 91, the push plate 11 is attached to the inner wall of the sewage pool 1 when the salvage frame 92 rotates and is knocked down, a telescopic square elastic tube 12 is connected between the push plate 11 and the sewage pool 1, the tail end of the salvage frame 92 is provided with the brush 13 which extends outwards, the surface of the brush 13 is provided with rows of bristles which are distributed among the rows, and the brush 13 can brush the inner wall of the shade 101 when the salvage frame 92 rotates.

When the salvaging frame 92 drags out the floating matters in the liquid surface of the sewage pool 1, the salvaging frame 92 continuously rotates in the shade 101, the hairbrush 13 at the tail end of the salvaging frame is contacted with the inner wall of the shade 101 and generates relative friction, the hairbrush 13 brushes off and clears the sundries attached to the inner wall of the shade 101 until the salvaging matters in the salvaging frame 92 are separated from the salvaging frame 92 under the action of gravity and inertia, and fall into the collecting frame 103 in the middle of the fixing frame 102, then the collecting frame 103 can be slid and taken out from the side surface to perform uniform recovery treatment, meanwhile, when the salvaging frame 92 rotates, the push plate 11 at the lower side of the rotating shaft 91 synchronously rotates along the same direction, the floating matters at the lower side of the salvaging frame 92 are pushed out to avoid residual accumulation, when the push plate 11 rotates to be opened, the elastic tube 12 at the back of the push plate 11 stretches, and after the push plate 11 rotates to be attached to the inner wall of the sewage pool 1, the elastic tube 12 contracts, and then the pushing action of the sewage when the push plate 11 rotates back can be reduced.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (3)

1. The utility model provides a spiral-flow type sewage electrolytic treatment device, includes effluent water sump (1), water inlet (2), delivery port (3), electrolytic cell (4), power (5) and negative and positive electrode (6), and water inlet (2) of intercommunication are installed to effluent water sump (1) one side, and effluent water sump (1) bottom surface is equipped with delivery port (3), water inlet (2) department is connected with electrolytic cell (4) of fixed mounting inboard in effluent water sump (1), power (5) are installed at electrolytic cell (4) top, and power (5) bottom side is connected with negative and positive electrode (6) that stretch into in electrolytic cell (4); the method is characterized in that: the electrolytic cell is characterized by further comprising an adding component (7), wherein the adding component (7) comprises a liquid storage tank (71), a liquid discharge pipe (72) and a hydraulic cylinder (73), the liquid storage tank (71) is arranged on the electrolytic cell (4), a catalyst is contained in the liquid storage tank (71), the liquid discharge pipe (72) extending into the electrolytic cell (4) is connected to the bottom of the liquid storage tank (71), the liquid discharge pipe (72) can slide up and down relative to the electrolytic cell (4), the hydraulic cylinder (73) is arranged on the electrolytic cell (4), and the liquid storage tank (71) and the liquid discharge pipe (72) can be pushed to rise by the hydraulic cylinder (73); the adding assembly (7) further comprises a screw (74), a supporting rod (75) and a stirring frame (76), the screw (74) capable of rotating relatively is arranged on the liquid storage tank (71), the screw (74) penetrates through the top surface of the liquid storage tank (71) to extend out, the supporting rod (75) is arranged on the electrolytic cell (4), the top end of the supporting rod (75) extends to the side of the screw (74), an internal threaded hole is formed in the supporting rod, the screw (74) penetrates through the internal threaded hole and is movably connected with the supporting rod (75) in a threaded fit mode, and the stirring frame (76) is sleeved on the part of the screw (74) located inside the liquid storage tank (71); the hydraulic cylinder (73) is driven to drive the liquid storage tank (71) to move up and down relative to the electrolytic cell (4), the screw rod (74) rotates under the threaded cooperation of the supporting rod (75) while moving up and down along with the liquid storage tank (71), and the stirring frame (76) in the liquid storage tank (71) is driven to rotate to stir and mix the catalyst in the liquid storage tank (71); the sewage tank is characterized by further comprising a fishing assembly (9), the fishing assembly (9) comprises a rotating shaft (91), a fishing frame (92), a gear (93), a plug rod (94), a rack (95), an elastic piece (96), a guide wheel (97) and a pull rope (98), the rotating shaft (91) is fixedly connected with the meshed fishing frame (92) on the rotating shaft (91), the two ends of the rotating shaft (91) are coaxially connected with the gear (93), the tail end of the plug rod (94) is fixedly connected with a rack (95), the rack (95) is meshed with the gear (93), an elastic piece (96) is connected between the rack (95) and the sewage tank (1), the guide wheel (97) is symmetrically arranged on two sides of the top of the sewage tank (1), one end of the pull rope (98) is fixedly connected with the rotating shaft (91), the other end of the pull rope is fixedly connected with the storage tank (71) through the guide wheel (97) and the guide wheel (95), the collecting assembly (10) is further comprises a collecting assembly (10), the collecting assembly (10) comprises a shade (101), a fixed frame (103) and a semi-cylindrical shade (101) is arranged on the collecting frame (102), the novel sewage treatment device is characterized in that the cover (101) covers a moving track of a salvaging frame (92) which rotates to extend out of the sewage tank (1), a fixed frame (102) is fixedly connected to the bottom side of the cover (101), a collecting frame (103) which can be slidably taken out is arranged in the fixed frame (102), the novel sewage treatment device further comprises a pushing plate (11), an elastic tube (12) and a hairbrush (13), the pushing plate (11) attached to the side wall of the sewage tank (1) is fixedly connected to the rotating shaft (91), the pushing plate (11) synchronously rotates along with the rotating shaft (91), the elastic tube (12) is connected between the pushing plate (11) and the sewage tank (1), the hairbrush (13) which extends outwards is arranged at the tail end of the salvaging frame (92), and the hairbrush (13) brushes the inner wall of the cover (101) when the salvaging frame (92) rotates.

2. A spiral-flow type sewage electrolysis apparatus according to claim 1, wherein: still including whirl subassembly (8), whirl subassembly (8) are including drain pipe (81), turbine (82) and filter screen (83), link to each other through drain pipe (81) between electrolytic tank (4) and effluent water sump (1), install turbine (82) in drain pipe (81), drain pipe (81) play water side is equipped with filter screen (83).

3. A spiral-flow type sewage electrolysis apparatus according to claim 1, wherein: the bottom surface of the sewage tank (1) is an inclined surface, and the interface of the water outlet (3) and the sewage tank (1) is the lowest point of the inclined surface.