CN112619373A - Comprehensive utilization and treatment equipment for waste water and waste gas - Google Patents
Comprehensive utilization and treatment equipment for waste water and waste gas Download PDFInfo
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- CN112619373A CN112619373A CN202011514566.8A CN202011514566A CN112619373A CN 112619373 A CN112619373 A CN 112619373A CN 202011514566 A CN202011514566 A CN 202011514566A CN 112619373 A CN112619373 A CN 112619373A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D53/00—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
- B01D53/14—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by absorption
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D47/00—Separating dispersed particles from gases, air or vapours by liquid as separating agent
- B01D47/02—Separating dispersed particles from gases, air or vapours by liquid as separating agent by passing the gas or air or vapour over or through a liquid bath
- B01D47/021—Separating dispersed particles from gases, air or vapours by liquid as separating agent by passing the gas or air or vapour over or through a liquid bath by bubbling the gas through a liquid bath
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F9/00—Multistage treatment of water, waste water or sewage
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/001—Processes for the treatment of water whereby the filtration technique is of importance
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/28—Treatment of water, waste water, or sewage by sorption
- C02F1/283—Treatment of water, waste water, or sewage by sorption using coal, charred products, or inorganic mixtures containing them
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F2001/007—Processes including a sedimentation step
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2103/00—Nature of the water, waste water, sewage or sludge to be treated
- C02F2103/18—Nature of the water, waste water, sewage or sludge to be treated from the purification of gaseous effluents
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/14—Maintenance of water treatment installations
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- Water Supply & Treatment (AREA)
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- Water Treatment By Sorption (AREA)
Abstract
The invention relates to a wastewater and waste gas treatment device, in particular to a wastewater and waste gas comprehensive utilization treatment device which comprises a water acceleration mechanism, a water impurity adsorption mechanism and a sedimentation mechanism, wherein the device can suck waste gas and is integrated into water, can accelerate sewage and accelerate adsorption of impurities in the sewage, can conveniently replace activated carbon, can accelerate sedimentation, is connected with the water impurity adsorption mechanism, the water impurity adsorption mechanism is connected with the sedimentation mechanism, and the sedimentation mechanism is connected with the water acceleration mechanism.
Description
Technical Field
The invention relates to a wastewater and waste gas treatment device, in particular to a comprehensive utilization treatment device for wastewater and waste gas.
Background
In the process of treating waste water and waste gas, the traditional treatment process needs separate treatment, the process is complex, the efficiency is low, and the efficiency of mixing waste gas into waste water is low, so the comprehensive utilization treatment equipment for waste water and waste gas is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing the comprehensive utilization and treatment equipment for the waste water and the waste gas, the equipment can suck the waste gas and be integrated into water, the equipment can accelerate and accelerate the adsorption of impurities in the sewage, the equipment can conveniently replace activated carbon, and the equipment can accelerate the sedimentation.
In order to solve the technical problems, the invention relates to a wastewater and waste gas treatment device, in particular to a wastewater and waste gas comprehensive utilization treatment device which comprises a water acceleration mechanism, a water impurity adsorption mechanism and a sedimentation mechanism, wherein the device can suck waste gas and dissolve the waste gas into water, the device can accelerate sewage and accelerate adsorption of impurities in the sewage, the device can conveniently replace activated carbon, and the device can accelerate sedimentation.
The water acceleration mechanism is connected with the water impurity adsorption mechanism, the water impurity adsorption mechanism is connected with the sedimentation mechanism, and the sedimentation mechanism is connected with the water acceleration mechanism.
As a further optimization of the technical scheme, the water acceleration mechanism of the wastewater and waste gas comprehensive utilization treatment equipment comprises a sewage inlet pipe, a sewage acceleration box, a transmission belt, a belt pulley, a coupling, a support frame, a pressurization pipe, a hydraulic cylinder, a belt pulley with a shaft, a transmission belt I, a belt pulley I, a sewage connecting pipe, an acceleration motor, a hydraulic rod, a connecting bent pipe, a high-temperature box, a waste gas inlet pipe orifice, a support seat, an extrusion plug, a one-way valve, a impeller with a shaft, a hot plate, an air cylinder, a dispersion seat and a heat dissipation hole, wherein the sewage inlet pipe is connected and communicated with the sewage acceleration box, the transmission belt is in friction connection with the belt pulley, the belt pulley is connected with the acceleration motor through the coupling, the sewage acceleration box is connected with the support frame, the pressurization pipe is communicated with the sewage acceleration box, the hydraulic cylinder is, belt shaft belt pulley and driving belt I friction coupling, belt shaft belt pulley and belt pulley I friction coupling, belt pulley I and driving belt friction coupling, sewage accelerating box links to each other and communicates with the sewage connecting pipe, connecting bend communicates forcing pipe and high temperature box, the high temperature box links to each other with the sewage accelerating box, the waste gas admission pipe penetrates the high temperature box and links to each other with the dispersion seat, the waste gas admission pipe links to each other with the waste gas admission mouth of pipe, the waste gas admission pipe links to each other with the supporting seat, the extrusion stopper links to each other with the hydraulic stem, extrusion stopper and forcing pipe sliding connection, the check valve sets up in the forcing pipe, belt shaft impeller and sewage accelerating box rotate to be connected, belt shaft impeller one end links to each other with the belt pulley, the other end is connected with the dryer, the dryer links to each other with the hot plate, the dryer rotates.
As a further optimization of the technical scheme, the water impurity adsorption mechanism of the comprehensive utilization and treatment equipment for wastewater and waste gas comprises a bearing seat, a bearing seat I, a connecting inlet pipe, a gate box, a limiting plate, a square column, a spring, a connecting block, a dowel bar, a square hole bent arm, a discharge port, a connecting block I, a slide bar, a light hole seat, a pressing seat, a suction box, a connecting pipe I, a square column I, a reset spring, a square hole seat I, a wedge block, a triangular block, a flywheel, a friction wheel I, a belt pulley A, a friction wheel II, a hollow barrel with a shaft, an adsorption hole, a filter hole, an inclined platform, a gate limiting rod and a gate matching hole, wherein the bearing seat and the bearing seat I are connected with the suction box, the belt pulley with the shaft is rotatably connected with the bearing seat I, the connecting inlet pipe is connected with a sewage connecting inlet pipe, the gate is connected with the gate box in a sliding way, the gate box is connected and communicated with the hollow barrel with the shaft, the limiting plate is abutted against the gate box, the limiting plate is connected with the square column, the spring is sleeved on the square column, two ends of the spring are respectively connected with the limiting plate and the bent arm with the square hole, the bent arm with the square hole is symmetrically arranged at two sides of the gate box, the square column is connected with the bent arm with the square hole in a sliding way, the square column is connected with the connecting block, the connecting block is connected with the force transmission rod, the discharge port is connected with the gate box, the force transmission rod is connected with the connecting block I, the connecting block I is connected with the slide rod, the slide rod is connected with the seat with the unthreaded hole arranged on the gate box in a sliding way, the suction box is connected and communicated with the connecting pipe I, the pressing seat is connected with the square column I, the square column I is connected with the seat with the hole arranged on the gate box in a sliding way, the reset spring is sleeved, the voussoir contacts with three hornblocks, three hornblocks link to each other with the slide bar, the flywheel links to each other with cavity bucket in the band shaft, cavity bucket rotates with the suction box and is connected in the band shaft, the flywheel links to each other with friction pulley I, friction pulley I and friction pulley II frictional connection, friction pulley II links to each other with belt pulley A, belt pulley A and driving belt I frictional connection, be equipped with the absorption hole in the cavity bucket in the band shaft, filter the hole, the sloping platform sets up in the suction box, gate limiting lever and the gate mating holes sliding connection who sets up on the gate, the gate limiting lever links to each other with the limiting plate.
As a further optimization of the technical scheme, the sedimentation mechanism of the wastewater and waste gas comprehensive utilization treatment equipment comprises a base, a sedimentation tank, a sedimentation inlet, a belt shaft speed-reducing wheel, a transmission friction wheel I, a belt shaft speed-reducing wheel I and a clear water outlet, wherein the base is connected with the sedimentation tank, the sedimentation inlet is formed in the sedimentation tank, the sedimentation inlet is communicated with a connecting pipe I, the belt shaft speed-reducing wheel is rotatably connected with the sedimentation tank, the belt shaft speed-reducing wheel is connected with the transmission friction wheel, the transmission friction wheel is frictionally connected with the transmission friction wheel I, the transmission friction wheel I is connected with the speed-reducing wheel I, the belt shaft speed-reducing wheel I is rotatably connected with the sedimentation tank, the clear water outlet is connected with the sedimentation tank, and the base is connected with a sewage acceleration tank, an acceleration motor and.
As a further optimization of the technical scheme, the hollow barrel with the shaft of the comprehensive utilization and treatment equipment for the wastewater and the waste gas is filled with the activated carbon.
The comprehensive utilization and treatment equipment for wastewater and waste gas has the beneficial effects that:
according to the comprehensive utilization and treatment equipment for waste water and waste gas, the equipment can suck the waste gas and be integrated into water, the equipment can accelerate sewage and accelerate adsorption of impurities in the sewage, the equipment can conveniently replace activated carbon, and the equipment can accelerate sedimentation.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic structural diagram I of a comprehensive utilization treatment device for wastewater and waste gas.
FIG. 2 is a schematic structural diagram of a wastewater and waste gas comprehensive utilization treatment device of the present invention.
FIG. 3 is a third schematic structural view of a comprehensive utilization and treatment apparatus for wastewater and waste gas according to the present invention.
FIG. 4 is a fourth schematic structural diagram of a wastewater and waste gas comprehensive utilization treatment device of the present invention.
FIG. 5 is a schematic structural diagram of a comprehensive utilization treatment device for wastewater and waste gas according to the present invention.
Fig. 6 is a first structural schematic diagram of a water acceleration mechanism 1 of a wastewater and waste gas comprehensive utilization treatment device of the invention.
Fig. 7 is a schematic structural diagram of a water acceleration mechanism 1 of the wastewater and waste gas comprehensive utilization treatment equipment of the invention.
Fig. 8 is a third schematic structural diagram of a water acceleration mechanism 1 of the wastewater and waste gas comprehensive utilization treatment equipment of the invention.
Fig. 9 is a fourth schematic structural diagram of a water acceleration mechanism 1 of the wastewater and waste gas comprehensive utilization treatment equipment of the invention.
Fig. 10 is a first structural schematic diagram of a water impurity adsorbing mechanism 2 of the wastewater and waste gas comprehensive utilization treatment equipment of the invention.
Fig. 11 is a schematic structural diagram of a water impurity adsorbing mechanism 2 of the comprehensive wastewater and waste gas utilization treatment equipment.
Fig. 12 is a third schematic structural diagram of a water impurity adsorbing mechanism 2 of the comprehensive wastewater and waste gas utilization treatment equipment of the invention.
Fig. 13 is a fourth schematic structural diagram of a water impurity adsorbing mechanism 2 of the comprehensive wastewater and waste gas utilization treatment equipment of the invention.
Fig. 14 is a fifth schematic structural diagram of a water impurity adsorbing mechanism 2 of the comprehensive wastewater and waste gas utilization treatment equipment.
Fig. 15 is a sixth schematic structural view of a water impurity adsorbing mechanism 2 of the wastewater and waste gas comprehensive utilization treatment equipment of the invention.
Fig. 16 is a first structural schematic diagram of a settling mechanism 3 of the wastewater and waste gas comprehensive utilization treatment equipment.
Fig. 17 is a second structural schematic diagram of a settling mechanism 3 of the wastewater and waste gas comprehensive utilization treatment equipment.
In the figure: a water acceleration mechanism 1; sewage enters a pipe 1-1; 1-2 parts of a sewage acceleration box; 1-3 of a transmission belt; 1-4 of belt pulleys; 1-5 of a coupler; 1-6 of a support frame; 1-7 parts of a pressurizing pipe; 1-8 of a hydraulic cylinder; belt pulley 1-9 with shaft; a transmission belt I1-10; pulley I1-11; 1-12 sewage connecting pipes; 1-13 of an acceleration motor; hydraulic rods 1-14; connecting bent pipes 1-15; 1-16 parts of a high-temperature box; an exhaust gas inlet pipe 1-17; waste gas enters the pipe orifice 1-18; 1-19 parts of a supporting seat; 1-20 parts of an extrusion plug; 1-21 of a one-way valve; 1-22 impeller with shaft; hot plate 1-23; 1-24 of an air duct; 1-25 of a dispersing seat; 1-26 of heat dissipation holes; a water impurity adsorption mechanism 2; a bearing seat 2-1; bearing seat I2-2; connecting the inlet pipes 2-3; 2-4 of gates; 2-5 of a gate box; 2-6 parts of a limiting plate; 2-7 of square column; 2-8 parts of a spring; 2-9 parts of a connecting block; 2-10 of dowel bar; 2-11 parts of a bent arm with a square hole; 2-12 of a discharge port; connecting blocks I2-13; 2-14 slide bars; 2-15 parts of a base with a unthreaded hole; 2-16 parts of a pressing seat; suction boxes 2-17; connecting pipe I2-18; square columns I2-19; 2-20 parts of a return spring; a square hole seat I2-21; 2-22 parts of wedge blocks; 2-23 parts of triangular blocks; 2-24 parts of flywheel; friction wheels I2-25; pulley A2-26; friction wheels II 2-27; hollow barrel with shaft 2-28; 2-29 of adsorption holes; 2-30 parts of filtering holes; 2-31 parts of a sloping bench; gate restraint bars 2-32; 2-33 of gate matching holes; a sedimentation mechanism 3; a base 3-1; 3-2 of a settling tank; 3-3 of a sedimentation inlet; a belt shaft speed reducing wheel 3-4; 3-5 parts of a transmission friction wheel; a transmission friction wheel I3-6; a belt shaft speed reducing wheel I3-7; and a clear water outlet 3-8.
Detailed Description
The first embodiment is as follows:
the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present invention relates to a wastewater and exhaust gas treatment apparatus, and more specifically, to a wastewater and exhaust gas comprehensive utilization treatment apparatus, which includes a water acceleration mechanism 1, a water impurity adsorption mechanism 2, and a settling mechanism 3, and is capable of sucking and melting exhaust gas into water, accelerating and accelerating adsorption of impurities in wastewater, and capable of conveniently replacing activated carbon, and accelerating settling.
The water acceleration mechanism 1 is connected with the water impurity adsorption mechanism 2, the water impurity adsorption mechanism 2 is connected with the sedimentation mechanism 3, and the sedimentation mechanism 3 is connected with the water acceleration mechanism 1.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the embodiment further describes the embodiment, wherein the water acceleration mechanism 1 comprises a sewage inlet pipe 1-1, a sewage acceleration tank 1-2, a transmission belt 1-3, a belt pulley 1-4, a coupling 1-5, a support frame 1-6, a pressurization pipe 1-7, a hydraulic cylinder 1-8, a belt shaft belt pulley 1-9, a transmission belt I1-10, a belt pulley I1-11, a sewage connection pipe 1-12, an acceleration motor 1-13, a hydraulic rod 1-14, a connection elbow pipe 1-15, a high temperature tank 1-16, and an exhaust gas inlet pipe 1-17, Waste gas inlet pipe orifice 1-18, support seat 1-19, extrusion plug 1-20, one-way valve 1-21, impeller with shaft 1-22, hot plate 1-23, wind cylinder 1-24, dispersion seat 1-25, heat dissipation hole 1-26, sewage inlet pipe 1-1 is connected and communicated with sewage acceleration box 1-2, driving belt 1-3 is connected with belt pulley 1-4 by friction, belt pulley 1-4 is connected with acceleration motor 1-13 by coupling 1-5, sewage acceleration box 1-2 is connected with support frame 1-6, pressure pipe 1-7 is communicated with sewage acceleration box 1-2, hydraulic cylinder 1-8 is connected with support frame 1-6, hydraulic cylinder 1-8 is connected with hydraulic rod 1-14, hydraulic rod 1-14 is connected with pressure pipe 1-7 by sliding, belt shaft belt pulleys 1-9 are in friction connection with a transmission belt I1-10, belt shaft belt pulleys 1-9 are in friction connection with a belt pulley I1-11, belt pulleys I1-11 are in friction connection with a transmission belt 1-3, a sewage acceleration box 1-2 is connected and communicated with a sewage connecting pipe 1-12, a connecting bent pipe 1-15 is used for communicating a pressure pipe 1-7 with a high temperature box 1-16, the high temperature box 1-16 is connected with the sewage acceleration box 1-2, an exhaust gas inlet pipe 1-17 penetrates through the high temperature box 1-16 to be connected with a dispersion seat 1-25, an exhaust gas inlet pipe 1-17 is connected with an exhaust gas inlet pipe orifice 1-18, the exhaust gas inlet pipe 1-17 is connected with a support seat 1-19, an extrusion plug 1-20 is connected with a hydraulic rod 1-14, the extrusion plug 1-20 is in sliding connection with the pressure pipe 1-7, the one-way valve 1-21 is arranged in the pressurizing pipe 1-7, the impeller 1-22 with the shaft is rotatably connected with the sewage acceleration box 1-2, one end of the impeller 1-22 with the shaft is connected with the belt pulley 1-4, the other end is connected with the air duct 1-24, the air duct 1-24 is connected with the hot plate 1-23, the air duct 1-24 is rotatably connected with the dispersing seat 1-25, and the air duct 1-24 is provided with heat dissipation holes 1-26.
The third concrete implementation mode:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the present embodiment, where the water impurity adsorbing mechanism 2 includes a bearing seat 2-1, a bearing seat I2-2, a connection inlet pipe 2-3, a gate 2-4, a gate box 2-5, a limit plate 2-6, a square column 2-7, a spring 2-8, a connection block 2-9, a transmission rod 2-10, a square hole bent arm 2-11, a discharge port 2-12, a connection block I2-13, a slide rod 2-14, a light hole seat 2-15, a pressing seat 2-16, a suction box 2-17, a connection pipe I2-18, a square column I2-19, a connection block I2-13, 2-20 parts of reset spring, I2-21 parts of square hole seat, 2-22 parts of wedge block, 2-23 parts of triangle block, 2-24 parts of flywheel, I2-25 parts of friction wheel, A2-26 parts of belt pulley, II2-27 parts of friction wheel, 2-28 parts of hollow barrel with shaft, 2-29 parts of adsorption hole, 2-30 parts of filter hole, 2-31 parts of ramp, 2-32 parts of gate limiting rod and 2-33 parts of gate matching hole, 2-1 parts of bearing seat and I2-2 parts of bearing seat are connected with 2-17 parts of suction box, 1-9 parts of belt pulley with shaft is rotationally connected with 2-1 parts of bearing seat, 1-9 parts of belt pulley with shaft is rotationally connected with I2-2 parts of bearing seat, 2-3 parts of inlet pipe is connected with 1-12 parts of sewage connecting pipe, 2-3 parts of inlet pipe is connected and communicated with, the gate 2-4 is connected with the gate box 2-5 in a sliding way, the gate box 2-5 is connected and communicated with the hollow barrel 2-28 with a shaft, the limit plate 2-6 is abutted against the gate box 2-5, the limit plate 2-6 is connected with the square column 2-7, the spring 2-8 is sleeved on the square column 2-7, two ends of the spring 2-8 are respectively connected with the limit plate 2-6 and the square hole bent arm 2-11, the square hole bent arm 2-11 is symmetrically arranged at two sides of the gate box 2-5, the square column 2-7 is connected with the square hole bent arm 2-11 in a sliding way, the square column 2-7 is connected with the connecting block 2-9, the connecting block 2-9 is connected with the dowel bar 2-10, the discharge port 2-12 is connected with the gate box 2-5, the dowel bar 2-10 is connected with the connecting block I2-13, the connecting block I2-13 is connected with the sliding rod 2-14, the sliding rod 2-14 is connected with the seat with the smooth hole 2-15 arranged on the gate box 2-5 in a sliding way, the suction box 2-17 is connected and communicated with the connecting pipe I2-18, the pressing seat 2-16 is connected with the square column I2-19, the square column I2-19 is connected with the seat with the square hole I2-21 arranged on the gate box 2-5 in a sliding way, the return spring 2-20 is sleeved on the square column I2-19, two ends of the return spring 2-20 are respectively connected with the seat with the square hole I2-21 and the pressing seat 2-16, the square column I2-19 is connected with the wedge block 2-22, the wedge block 2-22 is contacted with the triangular block 2-23, the triangular block 2-23 is connected with the sliding rod 2-14, the flywheel 2-24 is connected with the hollow barrel 2-28 with the shaft, hollow barrel 2-28 with shaft is rotationally connected with suction box 2-17, flywheel 2-24 is connected with friction wheel I2-25, friction wheel I2-25 is frictionally connected with friction wheel II2-27, friction wheel II2-27 is connected with belt pulley A2-26, belt pulley A2-26 is frictionally connected with transmission belt I1-10, hollow barrel 2-28 with shaft is equipped with adsorption hole 2-29 and filter hole 2-30, ramp 2-31 is arranged in suction box 2-17, gate limiting rod 2-32 is slidingly connected with gate matching hole 2-33 arranged on gate 2-4, gate limiting rod 2-32 is connected with limiting plate 2-6, accelerating motor 1-13 is used to drive coupling 1-5 to rotate, coupling 1-5 can drive belt pulley 1-4 to rotate, the belt pulley 1-4 can drive the shaft-carrying impeller 1-22 to rotate, the shaft-carrying impeller 1-22 can drive the wind cylinder 1-24 and the hot plate 1-23 to synchronously rotate, negative pressure wind power can be formed when the hot plate 1-23 rotates, waste gas externally connected in a pipeline of a waste gas inlet pipe orifice 1-18 is sucked into the wind cylinder 1-24, the hot plate 1-23 heats the air flow simultaneously, the air flow has ascending power, the air flow leaks into the high-temperature box 1-16 from the heat dissipation holes 1-26 and then enters the pressurization pipe 1-7 along the connection elbow pipe 1-15, the one-way valve 1-21 is opened when the pressure reaches the threshold value of the one-way valve 1-21 and enters the sewage acceleration box 1-2, the waste water in the sewage acceleration box 1-2 is accelerated due to the rotation of the shaft-carrying impeller 1-22, after entering from the sewage inlet pipe 1-1, the sewage enters into the sewage connecting pipe 1-12 in an accelerated way, high-pressure and high-heat waste gas can be directly blended into water, and then only the wastewater needs to be filtered, the water enters into the suction box 2-17 from the connecting inlet pipe 2-3 after being accelerated, the belt pulley 1-4 can drive the belt pulley I1-11 to rotate through the transmission belt 1-3 when rotating, the belt pulley I1-11 can drive the belt pulley 1-9 to rotate, the belt pulley 1-9 can drive the belt pulley A2-26 to rotate through the transmission belt I1-10, the belt pulley A2-26 can drive the friction pulley II2-27 to rotate, the friction pulley II2-27 can drive the friction pulley I2-25 to rotate, the friction pulley I2-25 can drive the flywheel 2-24 to rotate, The hollow barrel 2-28 with the shaft rotates, the hollow barrel 2-28 with the shaft rotates to enable the activated carbon to rotate, so that water flow is better contacted with the activated carbon, the adsorption efficiency is improved, the flywheel 2-24 plays a role in balancing weight and storing kinetic energy, the adsorption holes 2-29 are convenient for water to enter the hollow barrel 2-28 with the shaft and to be discharged from the hollow barrel 2-28 with the shaft, the filter holes 2-30 play a role in filtering, meanwhile, the water can fly upwards in an oblique direction when passing through the ramp 2-31, the hollow barrel 2-28 with the shaft plays a role in impact acceleration, the rotation of the hollow barrel 2-28 with the shaft plays a role in assisting, when the activated carbon in the hollow barrel 2-28 with the shaft needs to be replaced, the pressing seat 2-16 can be pushed, the pressing seat 2-16 can drive the wedge block 2-22 to move through the square column I2-19, the wedge blocks 2-22 push the triangular blocks 2-23 towards two sides, the triangular blocks 2-23 drive the sliding rods 2-14 to move, the sliding rods 2-14 drive the gate limiting rods 2-32 to be drawn out of the gate matching holes 2-33 through the transmission of the connecting blocks I2-13, the force transfer rods 2-10, the connecting blocks 2-9, the square columns 2-7 and the limiting plates 2-6, and therefore the gate 2-4 can be drawn out, and then the activated carbon is cleaned out and replaced.
The fourth concrete implementation mode:
referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, the present embodiment further illustrates the present embodiment, in which the settling mechanism 3 includes a base 3-1, a settling tank 3-2, a settling inlet 3-3, a shaft-equipped reduction gear 3-4, a driving friction gear 3-5, a driving friction gear I3-6, a shaft-equipped reduction gear I3-7, a clear water outlet 3-8, the base 3-1 is connected with the settling tank 3-2, the settling tank 3-2 is provided with the settling inlet 3-3, the settling inlet 3-3 is communicated with a connecting pipe I2-18, the shaft-equipped reduction gear 3-4 is rotatably connected with the settling tank 3-2, the belt shaft speed reducing wheel 3-4 is connected with the transmission friction wheel 3-5, the transmission friction wheel 3-5 is connected with the transmission friction wheel I3-6 in a friction mode, the transmission friction wheel I3-6 is connected with the speed reducing wheel I3-7, the belt shaft speed reducing wheel I3-7 is connected with the settling tank 3-2 in a rotating mode, the clear water outlet 3-8 is connected with the settling tank 3-2, the base 3-1 is connected with the sewage acceleration tank 1-2, the acceleration motor 1-13 and the suction tank 2-17, water flows into the settling tank 3-2 from the suction tank 2-17 through the connecting pipe I2-18 and impacts the belt shaft speed reducing wheel 3-4, the belt shaft speed reducing wheel 3-4 drives the belt shaft speed reducing wheel I3-7 to rotate through the transmission of the transmission friction wheel 3-5 and the transmission friction wheel I3-6, the rotation direction is opposite to that of the shaft-mounted speed reducing wheels 3-4, and the rotation direction of each shaft-mounted speed reducing wheel I3-7 is opposite, so that the water flows are agitated mutually, the water flow speed is reduced, and the sedimentation is facilitated.
The fifth concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the present embodiment further describes the first embodiment in which activated carbon is contained in the hollow barrel 2 to 28 with a shaft.
The working principle of the device is as follows: the device can suck waste gas and be merged into water, the device can accelerate sewage and accelerate adsorption of impurities in the sewage, the accelerating motor 1-13 is operated to drive the coupler 1-5 to rotate, the coupler 1-5 can drive the belt pulley 1-4 to rotate, the belt pulley 1-4 can drive the belt shaft impeller 1-22 to rotate, the belt shaft impeller 1-22 can drive the air duct 1-24 and the hot plate 1-23 to synchronously rotate, the hot plate 1-23 can form negative pressure wind power when rotating, the waste gas externally connected in the pipeline of the waste gas inlet pipe orifice 1-18 is sucked into the air duct 1-24, the hot plate 1-23 heats the air flow at the same time, the air flow has ascending power, the air flow leaks into the high temperature box 1-16 from the heat dissipation holes 1-26 and then enters into the pressurizing pipe 1-7 along the connecting bent pipe 1-15, when the pressure reaches the threshold value of the one-way valve 1-21, the one-way valve 1-21 is flushed to enter the sewage acceleration box 1-2, the wastewater in the sewage acceleration box 1-2 is accelerated due to the rotation of the impeller with the shaft 1-22, the wastewater enters from the sewage inlet pipe 1-1 and then flows in the direction of the sewage connecting pipe 1-12, the high-pressure and high-heat waste gas can be directly blended into the water, the wastewater is only required to be filtered subsequently, the water enters into the suction box 2-17 from the connecting inlet pipe 2-3 after being accelerated, the belt pulley 1-4 can drive the belt pulley I1-11 to rotate through the transmission belt 1-3 when rotating, the belt pulley I1-11 can drive the belt pulley with the shaft 1-9 to rotate, the belt pulley with the shaft 1-9 can drive the belt pulley A2-26 to rotate through the transmission belt I1-10, the belt pulley A2-26 can drive the friction wheel II2-27 to rotate, the friction wheel II2-27 can drive the friction wheel I2-25 to rotate, the friction wheel I2-25 can drive the flywheel 2-24 and the hollow barrel 2-28 with the shaft to rotate, the hollow barrel 2-28 with the shaft can rotate to enable the activated carbon to rotate, so that water flow can be better contacted with the activated carbon, the adsorption efficiency is improved, the flywheel 2-24 has the functions of balancing weight and storing kinetic energy, the adsorption holes 2-29 are convenient for water to enter the hollow barrel 2-28 with the shaft and to be discharged from the hollow barrel 2-28 with the shaft, the filter holes 2-30 have the function of filtering, meanwhile, the water can obliquely upwards fly out when passing through the inclined platform 2-31, the impact acceleration function is realized on the hollow barrel 2-28 with the shaft, and the function of assisting the rotation of the hollow barrel 2-28 with the shaft, when necessary, the hydraulic cylinder 1-8 can drive the hydraulic rod 1-14 to push the extrusion plug 1-20 downwards for pressurization, so that waste gas is more favorably dissolved into waste water; the equipment can conveniently replace the activated carbon, when the activated carbon in the hollow barrel 2-28 with the shaft needs to be replaced, the pressing seat 2-16 can be pushed, the pressing seat 2-16 can drive the wedge block 2-22 to move through the square column I2-19, the wedge block 2-22 can push the triangular block 2-23 to two sides, the triangular block 2-23 can drive the sliding rod 2-14 to move, the sliding rod 2-14 can drive the gate limiting rod 2-32 to be pulled out from the gate matching hole 2-33 through the transmission of the connecting block I2-13, the force transmission rod 2-10, the connecting block 2-9, the square column 2-7 and the limiting plate 2-6, so that the gate 2-4 can be pulled out, and then the activated carbon is cleaned out for replacement; the equipment can accelerate sedimentation, water flows into the sedimentation tank 3-2 from the suction tank 2-17 through the connecting pipe I2-18 and can impact the belt shaft speed reducing wheel 3-4, the belt shaft speed reducing wheel 3-4 can drive the belt shaft speed reducing wheel I3-7 to rotate through the transmission of the transmission friction wheel 3-5 and the transmission friction wheel I3-6, the rotating direction is opposite to that of the belt shaft speed reducing wheel 3-4, and the rotating directions of the belt shaft speed reducing wheels I3-7 are opposite, so that water flows can be mutually stirred, the speed of the water flows is reduced, and sedimentation is facilitated.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.
Claims (5)
1. The utility model provides a waste water waste gas comprehensive utilization treatment facility, includes that water accelerates mechanism (1), adsorbs water impurity mechanism (2), subsides mechanism (3), its characterized in that: the water acceleration mechanism (1) is connected with the water impurity adsorption mechanism (2), the water impurity adsorption mechanism (2) is connected with the sedimentation mechanism (3), and the sedimentation mechanism (3) is connected with the water acceleration mechanism (1).
2. The comprehensive utilization and treatment equipment for wastewater and waste gas according to claim 1, characterized in that: the water acceleration mechanism (1) comprises a sewage inlet pipe (1-1), a sewage acceleration box (1-2), a transmission belt (1-3), belt pulleys (1-4), a coupler (1-5), a support frame (1-6), a pressurization pipe (1-7), a hydraulic cylinder (1-8), a belt pulley with a shaft (1-9), a transmission belt I (1-10), a belt pulley I (1-11), a sewage connecting pipe (1-12), an acceleration motor (1-13), a hydraulic rod (1-14), a connecting bent pipe (1-15), a high temperature box (1-16), a waste gas inlet pipe (1-17), a waste gas inlet pipe orifice (1-18), a support seat (1-19), an extrusion plug (1-20), a one-way valve (1-21), Impeller (1-22) with shaft, hot plate (1-23), wind cylinder (1-24), dispersing seat (1-25), heat dissipation hole (1-26), sewage inlet pipe (1-1) is connected and communicated with sewage acceleration box (1-2), driving belt (1-3) is connected with belt pulley (1-4) by friction, belt pulley (1-4) is connected with acceleration motor (1-13) by shaft coupling (1-5), sewage acceleration box (1-2) is connected with support frame (1-6), pressure pipe (1-7) is connected with sewage acceleration box (1-2), hydraulic cylinder (1-8) is connected with support frame (1-6), hydraulic cylinder (1-8) is connected with hydraulic rod (1-14), hydraulic rod (1-14) is connected with pressure pipe (1-7) by sliding, belt pulley (1-9) with shaft is connected with driving belt I (1-10) by friction, belt pulley (1-9) with shaft is connected with belt pulley I (1-11) by friction, belt pulley I (1-11) is connected with driving belt (1-3) by friction, sewage acceleration box (1-2) is connected and communicated with sewage connecting pipe (1-12), connecting bent pipe (1-15) connects pressure pipe (1-7) with high temperature box (1-16), high temperature box (1-16) is connected with sewage acceleration box (1-2), waste gas inlet pipe (1-17) penetrates high temperature box (1-16) and is connected with dispersion seat (1-25), waste gas inlet pipe (1-17) is connected with waste gas inlet pipe orifice (1-18), waste gas inlet pipe (1-17) is connected with supporting seat (1-19), the extrusion plug (1-20) is connected with the hydraulic rod (1-14), the extrusion plug (1-20) is connected with the pressure pipe (1-7) in a sliding manner, the one-way valve (1-21) is arranged in the pressure pipe (1-7), the impeller (1-22) with the shaft is rotationally connected with the sewage acceleration box (1-2), one end of the impeller (1-22) with the shaft is connected with the belt pulley (1-4), the other end of the impeller is connected with the air duct (1-24), the air duct (1-24) is connected with the hot plate (1-23), the air duct (1-24) is rotationally connected with the dispersion seat (1-25), and the air duct (1-24) is provided with heat dissipation holes (1-26).
3. The comprehensive utilization and treatment equipment for wastewater and waste gas according to claim 1, characterized in that: the water impurity adsorption mechanism (2) comprises a bearing seat (2-1), a bearing seat I (2-2), a connecting inlet pipe (2-3), a gate (2-4), a gate box (2-5), a limiting plate (2-6), a square column (2-7), a spring (2-8), a connecting block (2-9), a dowel bar (2-10), a bent arm with a square hole (2-11), a discharge hole (2-12), a connecting block I (2-13), a sliding rod (2-14), a seat with a smooth hole (2-15), a pressing seat (2-16), a suction box (2-17), a connecting pipe I (2-18), a square column I (2-19), a reset spring (2-20), a seat with a square hole I (2-21), a wedge block (2-22), A triangular block (2-23), a flywheel (2-24), a friction wheel I (2-25), a belt pulley A (2-26), a friction wheel II (2-27), a belt shaft hollow barrel (2-28), an adsorption hole (2-29), a filter hole (2-30), an inclined platform (2-31), a gate limiting rod (2-32) and a gate matching hole (2-33), wherein the bearing seat (2-1) and the bearing seat I (2-2) are connected with a suction box (2-17), the belt shaft belt pulley (1-9) is rotationally connected with the bearing seat (2-1), the belt shaft belt pulley (1-9) is rotationally connected with the bearing seat I (2-2), a connection inlet pipe (2-3) is connected with a sewage connecting pipe (1-12), the connection inlet pipe (2-3) is connected and communicated with the suction box (2-17), the gate (2-4) is connected with the gate box (2-5) in a sliding way, the gate box (2-5) is connected and communicated with the hollow barrel (2-28) with the shaft, the limiting plate (2-6) is pressed against the gate box (2-5), the limiting plate (2-6) is connected with the square column (2-7), the spring (2-8) is sleeved on the square column (2-7), two ends of the spring (2-8) are respectively connected with the limiting plate (2-6) and the square hole bent arm (2-11), the square hole bent arm (2-11) is symmetrically arranged at two sides of the gate box (2-5), the square column (2-7) is connected with the square hole bent arm (2-11) in a sliding way, the square column (2-7) is connected with the connecting block (2-9), the connecting block (2-9) is connected with the dowel bar (2-10), the discharge port (2-12) is connected with the gate box (2-5), the dowel bar (2-10) is connected with the connecting block I (2-13), the connecting block I (2-13) is connected with the slide bar (2-14), the slide bar (2-14) is connected with the seat (2-15) with the light hole arranged on the gate box (2-5) in a sliding way, the suction box (2-17) is connected and communicated with the connecting pipe I (2-18), the pressing seat (2-16) is connected with the square column I (2-19), the square column I (2-19) is connected with the seat I (2-21) with the square hole arranged on the gate box (2-5) in a sliding way, the reset spring (2-20) is sleeved on the square column I (2-19), and two ends of the reset spring (2-20) are respectively connected with the seat I (2-21) with the square hole, On a pressing seat (2-16), a square column I (2-19) is connected with a wedge block (2-22), the wedge block (2-22) is contacted with a triangular block (2-23), the triangular block (2-23) is connected with a sliding rod (2-14), a flywheel (2-24) is connected with a hollow barrel (2-28) with a shaft, the hollow barrel (2-28) with the shaft is rotationally connected with a suction box (2-17), the flywheel (2-24) is connected with a friction wheel I (2-25), the friction wheel I (2-25) is in friction connection with a friction wheel II (2-27), the friction wheel II (2-27) is connected with a belt pulley A (2-26), the belt pulley A (2-26) is in friction connection with a transmission belt I (1-10), and the hollow barrel (2-28) with the shaft is provided with an adsorption hole (2-29), The filter device comprises filter holes (2-30), an inclined table (2-31) is arranged in a suction box (2-17), a gate limiting rod (2-32) is connected with a gate matching hole (2-33) arranged on a gate (2-4) in a sliding mode, and the gate limiting rod (2-32) is connected with a limiting plate (2-6).
4. The comprehensive utilization and treatment equipment for wastewater and waste gas according to claim 1, characterized in that: the sedimentation mechanism (3) comprises a base (3-1), a sedimentation box (3-2), a sedimentation inlet (3-3), a shaft-mounted speed-reducing wheel (3-4), a transmission friction wheel (3-5), a transmission friction wheel I (3-6), a shaft-mounted speed-reducing wheel I (3-7) and a clear water outlet (3-8), wherein the base (3-1) is connected with the sedimentation box (3-2), the sedimentation box (3-2) is provided with the sedimentation inlet (3-3), the sedimentation inlet (3-3) is communicated with a connecting pipe I (2-18), the shaft-mounted speed-reducing wheel (3-4) is rotationally connected with the sedimentation box (3-2), the shaft-mounted speed-reducing wheel (3-4) is connected with the transmission friction wheel (3-5), the transmission friction wheel (3-5) is frictionally connected with the transmission friction wheel I (3-6), the transmission friction wheel I (3-6) is connected with the speed reducing wheel I (3-7), the speed reducing wheel I (3-7) with a shaft is rotatably connected with the settling tank (3-2), the clear water outlet (3-8) is connected with the settling tank (3-2), and the base (3-1) is connected with the sewage acceleration tank (1-2), the acceleration motor (1-13) and the suction tank (2-17).
5. The comprehensive utilization and treatment equipment for wastewater and waste gas according to claim 3, characterized in that: the hollow barrel (2-28) with the shaft is filled with active carbon.
Priority Applications (1)
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CN202011514566.8A CN112619373A (en) | 2020-12-21 | 2020-12-21 | Comprehensive utilization and treatment equipment for waste water and waste gas |
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CN202011514566.8A CN112619373A (en) | 2020-12-21 | 2020-12-21 | Comprehensive utilization and treatment equipment for waste water and waste gas |
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CN202011514566.8A Withdrawn CN112619373A (en) | 2020-12-21 | 2020-12-21 | Comprehensive utilization and treatment equipment for waste water and waste gas |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113351095A (en) * | 2021-06-11 | 2021-09-07 | 姜丽萍 | Industrial liquid raw material anti-settling stirring equipment |
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2020
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113351095A (en) * | 2021-06-11 | 2021-09-07 | 姜丽萍 | Industrial liquid raw material anti-settling stirring equipment |
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Application publication date: 20210409 |