CN113198239A - Automatic filtering equipment for industrial wastewater - Google Patents

Abstract

For solving above-mentioned technical problem, a be used for industrial waste water automatic filtration equipment, including controlling means that intakes, filter decontamination plant, transmission, through the passing through of the controlling means control waste water of intaking, filter decontamination plant and filter waste water and collect filterable impurity in the waste water and according to how much control intake controlling means drainage of impurity volume the condition and the condition that impurity got rid of, transmission provides functions such as the power of during operation, its characterized in that: the water inlet control device is fixedly arranged on the filtering decontamination device, and the transmission device is fixedly arranged on the filtering decontamination device.

Description

Automatic filtering equipment for industrial wastewater

Technical Field

The invention relates to automatic wastewater filtering equipment, in particular to automatic industrial wastewater filtering equipment.

Background

The industrial production is to recombine the materials or perform careful treatment, the processes can not be carried out with water, a large amount of waste water can be generated in the industrial production, if the waste water is not subjected to the careful treatment, not only the material waste can be caused, but also the environment can be polluted, and therefore, the automatic filtering equipment for the industrial waste water is invented.

Disclosure of Invention

The invention relates to an automatic filtering device for industrial wastewater, in particular to an automatic filtering device for industrial wastewater, which controls the wastewater to pass through a water inlet control device, a filtering decontamination device filters the wastewater and collects filterable impurities in the wastewater, controls the water discharging condition of the water inlet control device according to the amount of the impurities and the impurity removal condition, and a transmission device provides power during working.

For solving above-mentioned technical problem, a be used for industrial waste water automatic filtration equipment, including controlling means that intakes, filter decontamination plant, transmission, through the passing through of the controlling means control waste water of intaking, filter decontamination plant and filter waste water and collect filterable impurity in the waste water and according to how much control intake controlling means drainage of impurity volume the condition and the condition that impurity got rid of, transmission provides functions such as the power of during operation, its characterized in that: the water inlet control device is fixedly arranged on the filtering decontamination device, and the transmission device is fixedly arranged on the filtering decontamination device.

As a further optimization of the technical scheme, the invention discloses an automatic filtering device for industrial wastewater, which comprises a mounting plate, a water inlet hole, a control shaft, a receiving belt wheel I, a transmission belt I, a pushing gear I, a pushing rack I, a control discharge plate, a notch, a spring I and a connecting sliding bolt, wherein the water inlet hole is formed in the mounting plate, the control shaft is rotatably mounted on the mounting plate, the receiving belt wheel I is mounted on the control shaft, the friction force between the receiving belt wheel I and the control shaft drives the receiving belt wheel I and the control shaft to rotate relatively when the output force is larger than the friction force, the transmission belt I is mounted on the receiving belt wheel I, the pushing gear I is fixedly mounted on the control shaft, the pushing rack I is fixedly mounted on the control discharge plate, the control discharge plate is slidably mounted in the mounting plate, the control discharge plate is slidably mounted on the connecting sliding bolt, the notch is arranged on the control discharge plate, the first spring is arranged inside the control discharge plate, and the connecting sliding bolt is fixedly arranged inside the mounting plate.

As a further optimization of the technical scheme, the invention relates to automatic filtering equipment for industrial wastewater, which comprises a filtering box, an impurity removing box, a mounting frame, a sliding column, a pushing shaft with a receiving belt wheel, a pushing slide way plate, a pushing column, a pushing mounting frame, an impurity pushing plate, a limiting hole, an adjusting shaft, an adjusting disc, a limiting rod, a bevel gear I, an adjusting threaded cylinder, a bevel gear II, an adjusting screw rod, a control toothed plate, a spring pushing plate, a spring II, a mounting rod, a control belt wheel mounting seat, a control belt wheel, a half-tooth rotating column, a drainage control baffle, a drainage hole, a driving shaft, an output belt wheel I, a filtering hole cylinder, an attached impurity removing cylinder, a removing knife, an inlet port, a reinforcing block and an impurity scraping block, wherein the mounting plate is fixedly installed on the filtering box, the impurity removing box is fixedly installed on the filtering box, the mounting frame is fixedly installed on the impurity removing box, the sliding column is slidably mounted on the mounting frame, the belt receiving belt wheel pushing shaft is rotatably mounted on the mounting frame, the pushing slideway plate is fixedly mounted on the belt receiving belt wheel pushing shaft, the pushing column is fixedly mounted on the sliding column, the pushing mounting frame is fixedly mounted on the sliding column, the impurity pushing plate is fixedly mounted on the pushing mounting frame, the limiting hole is arranged on the filter box, the adjusting shaft is rotatably mounted on the filter box, the adjusting disc is fixedly mounted on the adjusting shaft, the limiting rod is slidably mounted on the adjusting disc, the first bevel gear is fixedly mounted on the adjusting shaft, the adjusting threaded cylinder is rotatably mounted inside the filter box, the second bevel gear is fixedly mounted on the adjusting threaded cylinder, the first bevel gear is meshed with the second bevel gear, the adjusting screw is mounted on the adjusting threaded cylinder, the adjusting screw is in threaded fit with the adjusting threaded cylinder, the adjusting screw is rotatably mounted on the spring pushing plate, and the control toothed plate is slidably mounted inside the filter box, the toothed plate is slidably mounted on the mounting rod, the spring pushing plate is slidably mounted inside the control toothed plate, the spring II is mounted inside the control toothed plate, the mounting rod is fixedly mounted inside the filter box, the control belt wheel mounting seat is fixedly mounted on the toothed plate, the control belt wheel is rotatably mounted on the control belt wheel mounting seat, the half-tooth rotating column is rotatably mounted inside the filter box and meshed with the control toothed plate, the drainage control baffle is fixedly mounted on the half-tooth rotating column, the drain hole is formed inside the filter box, the driving shaft is rotatably mounted on the filter box, the output belt wheel I is fixedly mounted on the driving shaft, the filter hole cylinder is rotatably mounted inside the filter box, the attached impurity removing cylinder is slidably mounted inside the filter box, the attached impurity removing cylinder is rotatably mounted inside the filter hole cylinder, and the removing knife is arranged on the attached impurity removing cylinder, the inlet port sets up on adhering to impurity and getting rid of a section of thick bamboo, and the reinforcing block installation is fixed on adhering to impurity and getting rid of a section of thick bamboo, and impurity strikes off the piece installation and fixes inside the rose box.

As a further optimization of the technical scheme, the invention relates to an automatic filtering device for industrial wastewater, wherein a transmission device comprises a second mounting frame, a second transmission shaft, a second receiving belt wheel, a second transmission belt, a third bevel gear, a third mounting frame, a third transmission shaft, a fourth bevel gear, a first transmission belt wheel, a transmission belt, a fourth mounting frame, a fourth transmission shaft, a second transmission belt wheel, a fourth output belt wheel, an output belt and a fifth output belt wheel, the second mounting frame is fixedly arranged on a filtering box, the second transmission shaft is rotatably arranged on the second mounting frame, the second receiving belt wheel is fixedly arranged on the second transmission shaft, the second transmission belt is arranged on the second receiving belt wheel and the first output belt wheel, the third bevel gear is fixedly arranged on the second transmission shaft, the third mounting frame is fixedly arranged on the filtering box, the third transmission shaft is rotatably arranged on the third mounting frame, the fourth bevel gear is fixedly arranged on the third transmission shaft, and the fourth bevel gear is meshed with the third bevel gear, the first transmission belt wheel is fixedly arranged on the third transmission shaft, the transmission belt is arranged on the first transmission belt wheel and the second transmission belt wheel, the fourth mounting frame is fixedly arranged on the filter box, the fourth transmission shaft is rotatably arranged on the fourth mounting frame, the second transmission belt wheel is fixedly arranged on the fourth transmission shaft, the fourth output belt wheel is fixedly arranged on the fourth transmission shaft, the output belt is arranged on the fourth output belt wheel and the belt receiving belt wheel pushing shaft, the fifth output belt wheel is fixedly arranged on the fourth transmission shaft, and the first transmission belt wheel is arranged on the fifth output belt wheel.

As further optimization of the technical scheme, the automatic filtering equipment for the industrial wastewater is provided with five impurity pushing plates, two mounting rods and a driving shaft provided with a matched motor.

The automatic filtering equipment for industrial wastewater has the beneficial effects that:

the invention relates to an automatic filtering device for industrial wastewater, in particular to an automatic filtering device for industrial wastewater, which realizes the functions of controlling the passage of wastewater through a water inlet control device, filtering and decontaminating the wastewater by a filtering and decontaminating device, collecting filterable impurities in the wastewater, controlling the drainage condition of the water inlet control device according to the amount of the impurities, removing the impurities, providing power for a transmission device during working and the like.

Drawings

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

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

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

Fig. 4 is a first structural schematic diagram of the water inlet control device of the present invention.

Fig. 5 is a schematic structural diagram of a water inlet control device according to the present invention.

Fig. 6 is a third schematic structural diagram of the water inlet control device of the present invention.

Fig. 7 is a fourth schematic structural diagram of the water inlet control device of the present invention.

Fig. 8 is a first structural schematic diagram of the filtering decontamination device of the invention.

Fig. 9 is a schematic structural diagram of a filtration decontamination device of the invention.

Fig. 10 is a third schematic structural view of the filtration decontamination device of the present invention.

Fig. 11 is a fourth schematic structural view of the filtering decontamination device of the invention.

Fig. 12 is a schematic structural diagram of a filtering decontamination device of the invention.

Fig. 13 is a schematic structural diagram of the transmission device of the present invention.

In the figure: a water inlet control device 1; a mounting plate 1-1; a water inlet hole 1-2; a control shaft 1-3; receiving belt wheels 1-4; 1-5 parts of a first transmission belt; pushing a gear I1-6; pushing the rack I1-7; controlling the drain boards 1-8; 1-9 of a gap; 1-10 parts of a first spring; connecting sliding bolts 1-11; a filtering decontamination device 2; 2-1 of a filter box; 2-2 of impurity removal box; mounting frames 2-3; 2-4 of a sliding column; a belt receiving pulley pushing shaft 2-5; pushing the slide way plate 2-6; 2-7 of a pushing column; pushing the mounting frame 2-8; the impurity pushing plate is 2-9; 2-10 parts of limiting holes; 2-11 parts of an adjusting shaft; 2-12 of an adjusting disk; 2-13 parts of a limiting rod; bevel gears one 2-14; adjusting the threaded cylinder by 2-15; bevel gears two 2-16; adjusting the screw rod 2-17; control toothed plates 2-18; the spring pushes the board 2-19; 2-20 parts of a second spring; mounting rods 2-21; control belt wheel mounting seats 2-22; control pulleys 2-23; 2-24 parts of a half-tooth rotating column; 2-25 parts of a drainage control baffle; 2-26 parts of drain holes; 2-27 parts of a driving shaft; the output belt wheel I is 2-28; 2-29 parts of filter hole cylinder; 2-30 of an attached impurity removal cylinder; removing the cutter 2-31; inlet ports 2-32; 2-33 parts of reinforcing blocks; impurity scraping blocks 2-34; a transmission device 3; a second mounting frame 3-1; a second transmission shaft 3-2; a second receiving belt wheel 3-3; 3-4 parts of a second transmission belt; bevel gears III 3-5; mounting frame III 3-6; 3-7 parts of a transmission shaft III; bevel gears four 3-8; a first transmission belt wheel 3-9; 3-10 parts of a transmission belt; mounting frame IV 3-11; a transmission shaft IV is 3-12; a second transmission belt wheel 3-13; an output belt wheel four 3-14; 3-15 parts of an output belt; and the output belt wheels five 3-16.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the present embodiment further describes the first embodiment, in order to solve the above technical problems, an automatic filtering apparatus for industrial wastewater includes a water inlet control device 1, a filtering and decontaminating device 2, and a transmission device 3, wherein the water inlet control device controls the passage of wastewater, the filtering and decontaminating device filters wastewater and collects filterable impurities in wastewater, and controls the drainage condition of the water inlet control device and the removal condition of impurities according to the amount of impurities, and the transmission device provides power during operation, and the automatic filtering apparatus is characterized in that: the water inlet control device 1 is installed and fixed on the filtering decontamination device 2, and the transmission device 3 is installed and fixed on the filtering decontamination device 2. The second embodiment is as follows:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 for further explanation of the embodiment, the water inlet control device 1 comprises a mounting plate 1-1, a water inlet 1-2, a control shaft 1-3, a receiving pulley 1-4, a transmission belt 1-5, a pushing gear 1-6, a pushing rack 1-7, a control discharge plate 1-8, a notch 1-9, a spring 1-10, and a connecting sliding bolt 1-11, so that the spring 1-10 pushes the control discharge plate 1-8 to move through the connecting sliding bolt 1-11 to make the notch 1-9 and the water inlet 1-2 coincide with each other so as to enable water to pass through the water inlet 1-2, and the filtering residue increases to limit the filtering water speed of the filtering hole cylinder 2-29, the water inlet hole 1-2 is arranged on the mounting plate 1-1, the control shaft 1-3 is rotatably arranged on the mounting plate 1-1, the receiving belt wheel 1-4 is arranged on the control shaft 1-3, the receiving belt wheel 1-4 and the control shaft 1-3 are driven by friction force to rotate relatively when the output force is larger than the friction force, the transmission belt 1-5 is arranged on the receiving belt wheel 1-4, the pushing gear 1-6 is fixedly arranged on the control shaft 1-3, the pushing rack 1-7 is fixedly arranged on the control discharge plate 1-8, the control discharge plate 1-8 is slidably arranged in the mounting plate 1-1, the control discharge plate 1-8 is slidably arranged on the connecting sliding bolt 1-11, the gap 1-9 is arranged on the control discharge plate 1-8, the springs I1-10 are arranged inside the control discharge plates 1-8, and the connecting sliding bolts 1-11 are fixedly arranged inside the mounting plates 1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the embodiment further describes the embodiment, where the filtering and decontaminating apparatus 2 includes a filtering tank 2-1, an impurity removing tank 2-2, a mounting rack 2-3, a sliding column 2-4, a belt receiving pulley pushing shaft 2-5, a pushing slide way plate 2-6, a pushing column 2-7, a pushing mounting rack 2-8, an impurity pushing plate 2-9, a limiting hole 2-10, an adjusting shaft 2-11, an adjusting disk 2-12, a limiting rod 2-13, a bevel gear I2-14, an adjusting threaded cylinder 2-15, a bevel gear II 2-16, an adjusting screw rod 2-17, a control toothed plate 2-18, a spring pushing plate 2-19, and a spring pushing plate 2-13, 2-20 parts of a second spring, 2-21 parts of a mounting rod, 2-22 parts of a control belt wheel mounting seat, 2-23 parts of a control belt wheel, 2-24 parts of a half-tooth rotating column, 2-25 parts of a drainage control baffle, 2-26 parts of a drain hole, 2-27 parts of a driving shaft, 2-28 parts of an output belt wheel, 2-29 parts of a filter hole cylinder, 2-30 parts of an attached impurity removing cylinder, 2-31 parts of a removing knife, 2-32 parts of an inlet port, 2-33 parts of a reinforcing block and 2-34 parts of an impurity scraping block, wastewater to be treated enters a filter box 2-1 of a filtering and decontamination device 2 through the inlet hole 1-2 part of an inlet water control device 1, when the filter box 2-1 is filled with wastewater, the wastewater is filtered through the filter hole cylinder 2-29, then filterable impurities stay at the outer side of the filter hole cylinder 2-29 and are attached to the surface of the filter hole cylinder 2-29, then the driving shaft 2-27 rotates under the action of a matched motor, the driving shaft 2-27 drives the filtering hole cylinder 2-29 and the output belt wheel I2-28 to rotate, the filter residue on the rotating filtering hole cylinder 2-29 can be scraped under the action of the impurity scraping block 2-34, meanwhile, the filtering hole cylinder 2-29 can also rotate relative to the internal attached impurity removing cylinder 2-30, then the removing knife 2-31 can hang down the attached impurities in the filtering hole cylinder 2-29 and then enter the attached impurity removing cylinder 2-30 from the inlet port 2-32 for collection, the filtered water can be discharged outwards through the drain hole 2-26, the pressure of the water in the discharging process can push the drainage control baffle plate 2-25 to rotate around the half-tooth rotating column 2-24, so that the half-tooth rotating columns 2-24 rotate, the rotating half-tooth rotating columns 2-24 can push the control toothed plates 2-18 upwards to move, the control toothed plates 2-18 and the spring push plates 2-19 compress the springs 2-20 in the moving process, the control toothed plates 2-18 moving upwards drive the control belt wheel mounting seats 2-22 to move, the control belt wheel mounting seats 2-22 drive the control belt wheels 2-23 to move, so that the control belt wheels 2-23 do not push the transmission belts 3-10 of the transmission device 3 downwards any more, the water amount at the upper ends of the drainage control baffle plates 2-25 is reduced, when the water amount is reduced to the moving amount, the drainage control baffle plates 2-25 cannot be pushed to rotate, then the springs 2-20 push the control toothed plates 2-18 to move downwards, so that the control belt wheel mounting seats 2-22 drive the control belt wheels 2-23 to drive the drainage control belt wheels 2-23 to move the water amount to the water amount is reduced to the movement amount The transmission belt 3-10 is tightly pressed, the first receiving belt wheel 1-4 drives the first pushing gear 1-6 to rotate through the control shaft 1-3, the first pushing gear 1-6 can push the first control discharge plate 1-8 to block the water inlet hole 1-2 through the first pushing rack 1-7 without water inlet into the filter box 2-1, meanwhile, the pushing shaft 2-5 with the receiving belt wheel can drive the second pushing slide plate 2-6 to rotate, the second pushing slide plate 2-6 can push the second sliding column 2-4 to move on the mounting rack 2-3 in a reciprocating mode through the second pushing column 2-7, the second sliding column 2-4 can push the second impurity pushing plate 2-9 to move in a reciprocating mode through the second pushing mounting rack 2-8 and stop for a period of time at two ends, and the second impurity pushing plate 2-9 moving in a reciprocating mode can hang impurities in the second impurity discharge box 2-2 to discharge the impurities, as the water flow which is not blocked by impurities is recovered as before, the belt wheels 2-23 are controlled and the transmission belt 3-10 can not be extruded any more, the mounting plate 1-1 is fixedly arranged on the filter box 2-1, the impurity removing box 2-2 is fixedly arranged on the filter box 2-1, the mounting frame 2-3 is fixedly arranged on the impurity removing box 2-2, the sliding column 2-4 is slidably arranged on the mounting frame 2-3, the belt receiving belt wheel pushing shaft 2-5 is rotatably arranged on the mounting frame 2-3, the pushing slide way plate 2-6 is fixedly arranged on the belt receiving belt wheel pushing shaft 2-5, the pushing column 2-7 is fixedly arranged on the sliding column 2-4, the pushing mounting frame 2-8 is fixedly arranged on the sliding column 2-4, and the impurity pushing plate 2-9 is fixedly arranged on the pushing mounting frame 2-8, the limiting holes 2-10 are arranged on the filter box 2-1, the adjusting shaft 2-11 is rotatably arranged on the filter box 2-1, the adjusting disc 2-12 is fixedly arranged on the adjusting shaft 2-11, the limiting rods 2-13 are slidably arranged on the adjusting disc 2-12, the bevel gear I2-14 is fixedly arranged on the adjusting shaft 2-11, the adjusting threaded cylinder 2-15 is rotatably arranged in the filter box 2-1, the bevel gear II 2-16 is fixedly arranged on the adjusting threaded cylinder 2-15, the bevel gear I2-14 is meshed with the bevel gear II 2-16, the adjusting screw rod 2-17 is arranged on the adjusting threaded cylinder 2-15, the adjusting screw rod 2-17 is in threaded fit with the adjusting threaded cylinder 2-15, and the adjusting screw rod 2-17 is rotatably arranged on the spring pushing plate 2-19, the control toothed plate 2-18 is slidably mounted inside the filter box 2-1, the toothed plate 2-18 is slidably mounted on a mounting rod 2-21, the spring push plate 2-19 is slidably mounted inside the control toothed plate 2-18, the spring II 2-20 is mounted inside the control toothed plate 2-18, the mounting rod 2-21 is fixedly mounted inside the filter box 2-1, the control pulley mounting seat 2-22 is fixedly mounted on the toothed plate 2-18, the control pulley 2-23 is rotatably mounted on the control pulley mounting seat 2-22, the half-tooth rotating column 2-24 is rotatably mounted inside the filter box 2-1, the half-tooth rotating column 2-24 is meshed with the control toothed plate 2-18, the drainage control baffle 2-25 is fixedly mounted on the half-tooth rotating column 2-24, and the drainage hole 2-26 is arranged inside the filter box 2-1, the driving shaft 2-27 is rotatably installed on the filter box 2-1, the output belt wheel I2-28 is fixedly installed on the driving shaft 2-27, the filter hole cylinder 2-29 is rotatably installed inside the filter box 2-1, the attached impurity removing cylinder 2-30 is slidably installed inside the filter box 2-1, the attached impurity removing cylinder 2-30 is rotatably installed inside the filter hole cylinder 2-29, the removing knife 2-31 is arranged on the attached impurity removing cylinder 2-30, the inlet port 2-32 is arranged on the attached impurity removing cylinder 2-30, the reinforcing block 2-33 is fixedly installed on the attached impurity removing cylinder 2-30, and the impurity scraping block 2-34 is fixedly installed inside the filter box 2-1.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, and the embodiment is further described, where the transmission device 3 includes a second mounting bracket 3-1, a second transmission shaft 3-2, a second receiving pulley 3-3, a second transmission belt 3-4, a third bevel gear 3-5, a third mounting bracket 3-6, a third transmission shaft 3-7, a fourth bevel gear 3-8, a first transmission pulley 3-9, a transmission belt 3-10, a fourth mounting bracket 3-11, a fourth transmission shaft 3-12, a second transmission pulley 3-13, a fourth output pulley 3-14, an output belt 3-15 and a fifth output pulley 3-16, the first rotating output pulley 2-28 drives the second receiving pulley 3-3 to rotate via the second transmission belt 3-4, the second receiving belt wheel 3-3 drives the third bevel gear 3-5 to rotate through the second transmission shaft 3-2, the third bevel gear 3-5 drives the third transmission shaft 3-7 to rotate through the fourth bevel gear 3-8, the third transmission shaft 3-7 drives the first transmission belt wheel 3-9 to rotate, the second transmission belt wheel 3-10 cannot drive the second transmission belt wheel 3-13 to rotate because the control belt wheel 2-23 does not extrude the transmission belt 3-10, then the first transmission belt wheel 3-9 drives the second transmission belt wheel 3-13 to rotate through the transmission belt 3-10, the second transmission belt wheel 3-13 drives the fourth output belt wheel 3-14 and the fifth output belt wheel 3-16 to rotate through the fourth transmission shaft 3-12, the fourth output belt wheel 3-14 drives the receiving belt wheel through the output belt 3-15 to drive the shaft 2-5 to rotate, an output belt wheel five 3-16 drives a receiving belt wheel one 1-4 to rotate through a transmission belt one 1-5, a mounting frame two 3-1 is fixedly arranged on a filter box 2-1, a transmission shaft two 3-2 is rotatably arranged on the mounting frame two 3-1, a receiving belt wheel two 3-3 is fixedly arranged on the transmission shaft two 3-2, a transmission belt two 3-4 is arranged on the receiving belt wheel two 3-3 and the output belt wheel one 2-28, a bevel gear three 3-5 is fixedly arranged on the transmission shaft two 3-2, a mounting frame three 3-6 is fixedly arranged on the filter box 2-1, a transmission shaft three 3-7 is rotatably arranged on the mounting frame three 3-6, a bevel gear four 3-8 is fixedly arranged on the transmission shaft three 3-7, and the bevel gear four 3-8 is meshed with the bevel gear three 3-5, the first transmission belt wheel 3-9 is fixedly arranged on the third transmission shaft 3-7, the transmission belt 3-10 is arranged on the first transmission belt wheel 3-9 and the second transmission belt wheel 3-13, the fourth installation frame 3-11 is fixedly arranged on the filter box 2-1, the fourth transmission shaft 3-12 is rotatably arranged on the fourth installation frame 3-11, the second transmission belt wheel 3-13 is fixedly arranged on the fourth transmission shaft 3-12, the fourth output belt wheel 3-14 is fixedly arranged on the fourth transmission shaft 3-12, the output belt 3-15 is arranged on the fourth output belt wheel 3-14 and the belt receiving belt wheel pushing shaft 2-5, the fifth output belt wheel 3-16 is fixedly arranged on the fourth transmission shaft 3-12, and the first transmission belt 1-5 is arranged on the fifth output belt wheel 3-16.

The fifth concrete implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, where the number of impurity pushing plates 2-9 of the filtering and decontaminating apparatus 2 is five, the number of mounting rods 2-21 is two, and the driving shafts 2-27 are provided with a matching motor.

The working principle of the invention is as follows:

a working principle for industrial wastewater automatic filtering equipment is that before use, whether the connection condition between the devices meets requirements is checked, firstly, wastewater to be treated enters a filtering box 2-1 of a filtering decontamination device 2 through a water inlet 1-2 of a water inlet control device 1, when the wastewater is in the filtering box 2-1, sewage is filtered through a filtering hole cylinder 2-29, then filterable impurities stay at the outer side of the filtering hole cylinder 2-29 and are attached to the surface of the filtering hole cylinder 2-29, then a driving shaft 2-27 rotates under the action of a matched motor, the driving shaft 2-27 drives the filtering hole cylinder 2-29 and an output belt wheel 2-28 to rotate, the rotating filtering hole cylinder 2-29 scrapes filter residues on the device under the action of an impurity scraping block 2-34, meanwhile, the filtering hole cylinders 2-29 and the internal attached impurity removing cylinders 2-30 rotate relatively, then the removing knives 2-31 can hang off the attached impurities in the filtering hole cylinders 2-29 and then enter the attached impurity removing cylinders 2-30 from the inlet ports 2-32 for collection, the filtered water can be discharged outwards through the water discharge holes 2-26, the pressure of the water in the discharging process can push the water discharge control baffle plates 2-25 to rotate around the half-tooth rotating columns 2-24, so that the half-tooth rotating columns 2-24 rotate, the rotating half-tooth rotating columns 2-24 can push the control toothed plates 2-18 upwards to move, and the control toothed plates 2-18 and the spring pushing plates 2-19 can compress the springs 2-20 in the moving process, the control toothed plate 2-18 moving upwards drives the control belt wheel mounting seat 2-22 to move, the control belt wheel mounting seat 2-22 drives the control belt wheel 2-23 to move so that the control belt wheel 2-23 does not push the transmission belt 3-10 of the transmission device 3 downwards any more, the rotating output belt wheel I2-28 drives the receiving belt wheel II 3-3 to rotate through the transmission belt II 3-4, the receiving belt wheel II 3-3 drives the bevel gear III 3-5 to rotate through the transmission shaft II 3-2, the bevel gear III 3-5 drives the transmission shaft III 3-7 to rotate through the bevel gear IV 3-8, the transmission shaft III 3-7 drives the transmission belt wheel I3-9 to rotate, and the transmission belt 3-10 cannot drive the transmission belt wheel II 3-13 to rotate because the control belt wheel 2-23 is not extruding the transmission belt 3-10, therefore, the first spring 1-10 pushes the control discharge plate 1-8 to move through the connecting sliding bolt 1-11 so that the gap 1-9 and the water inlet 1-2 are superposed, water can pass through the water inlet 1-2, the speed of filtering water by the filter hole barrel 2-29 is limited along with the increase of filter residues, the water amount at the upper end of the drainage control baffle 2-25 is reduced, the drainage control baffle 2-25 cannot be pushed to rotate when the water amount is reduced to the movement amount, then the second spring 2-20 pushes the push control toothed plate 2-18 to move downwards so that the control belt wheel mounting seat 2-22 drives the control belt wheel 2-23 to press and tighten the transmission belt 3-10, and then the first transmission belt wheel 3-9 drives the second transmission belt wheel 3-13 to rotate through the transmission belt 3-10, the second transmission belt wheel 3-13 drives the fourth output belt wheel 3-14 and the fifth output belt wheel 3-16 to rotate through the fourth transmission shaft 3-12, the fourth output belt wheel 3-14 drives the belt receiving belt wheel pushing shaft 2-5 to rotate through the fourth output belt 3-15, the fifth output belt wheel 3-16 drives the first receiving belt wheel 1-4 to rotate through the first transmission belt 1-5, the first receiving belt wheel 1-4 drives the first pushing gear 1-6 to rotate through the first control shaft 1-3, the first pushing gear 1-6 pushes the control discharge plate 1-8 through the first pushing rack 1-7 to block the water inlet hole 1-2 without introducing water into the filter box 2-1, meanwhile, the second belt receiving belt wheel pushing shaft 2-5 drives the pushing slide track plate 2-6 to rotate, and the pushing slide track plate 2-6 pushes the slide column 2-4 through the push column 2-7 to install the slide column 2-4 on the filter box The sliding column 2-4 can push the impurity pushing plate 2-9 to move back and forth by pushing the mounting frame 2-8 and stay at two ends for a period of time by the reciprocating movement of the frame 2-3, the impurity pushing plate 2-9 moving back and forth can hang impurities in the impurity removing box 2-2 to be discharged, and the driving belt 3-10 can not be extruded again after the water flow is recovered as before by controlling the belt wheels 2-23 due to the fact that the water flow is blocked without the impurities.

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 be used for industrial waste water automatic filtration equipment, includes into water controlling means (1), filters decontamination plant (2), transmission (3), its characterized in that: the water inlet control device (1) is fixedly arranged on the filtering decontamination device (2), and the transmission device (3) is fixedly arranged on the filtering decontamination device (2).

2. The automatic filtering equipment for industrial wastewater according to claim 1, characterized in that: the water inlet control device (1) comprises a mounting plate (1-1), a water inlet hole (1-2), a control shaft (1-3), a receiving belt wheel (1-4), a transmission belt (1-5), a pushing gear (1-6), a pushing rack (1-7), a control discharge plate (1-8), a notch (1-9), a spring (1-10) and a connecting sliding bolt (1-11), wherein the water inlet hole (1-2) is formed in the mounting plate (1-1), the control shaft (1-3) is rotatably mounted on the mounting plate (1-1), the receiving belt wheel (1-4) is mounted on the control shaft (1-3), and the friction force between the receiving belt wheel (1-4) and the control shaft (1-3) drives the receiving belt wheel (1-4) and the control shaft (1-3) to drive the relative rotation when the output force is larger than the friction force, the transmission belt I (1-5) is installed on the receiving belt wheel I (1-4), the pushing gear I (1-6) is installed and fixed on the control shaft (1-3), the pushing rack I (1-7) is installed and fixed on the control discharge plate (1-8), the control discharge plate (1-8) is installed inside the installation plate (1-1) in a sliding mode, the control discharge plate (1-8) is installed on the connecting sliding bolt (1-11) in a sliding mode, the notch (1-9) is formed in the control discharge plate (1-8), the spring I (1-10) is installed inside the control discharge plate (1-8), and the connecting sliding bolt (1-11) is installed and fixed inside the installation plate (1-1).

3. The automatic filtering equipment for industrial wastewater according to claim 1, characterized in that: the filtering and decontaminating device (2) comprises a filter box (2-1), an impurity removing box (2-2), a mounting rack (2-3), a sliding column (2-4), a belt receiving belt wheel pushing shaft (2-5), a pushing slideway plate (2-6), a pushing column (2-7), a pushing mounting rack (2-8), an impurity pushing plate (2-9), a limiting hole (2-10), an adjusting shaft (2-11), an adjusting disc (2-12), a limiting rod (2-13), a bevel gear I (2-14), an adjusting threaded cylinder (2-15), a bevel gear II (2-16), an adjusting screw rod (2-17), a control toothed plate (2-18), a spring pushing plate (2-19), a spring II (2-20), a mounting rod (2-21), A control belt wheel mounting seat (2-22), a control belt wheel (2-23), a half-tooth rotating column (2-24), a drainage control baffle plate (2-25), a drain hole (2-26), a driving shaft (2-27), an output belt wheel I (2-28), a filtering hole cylinder (2-29), an attached impurity removing cylinder (2-30), a removing knife (2-31), an inlet port (2-32), a reinforcing block (2-33) and an impurity scraping block (2-34), a mounting plate (1-1) is fixedly arranged on a filtering box (2-1), an impurity removing box (2-2) is fixedly arranged on the filtering box (2-1), a mounting frame (2-3) is fixedly arranged on the impurity removing box (2-2), a sliding column (2-4) is slidably arranged on the mounting frame (2-3), a pushing shaft (2-5) with a receiving belt wheel is rotatably arranged on a mounting frame (2-3), a pushing slide plate (2-6) is fixedly arranged on the pushing shaft (2-5) with the receiving belt wheel, a pushing column (2-7) is fixedly arranged on a sliding column (2-4), a pushing mounting frame (2-8) is fixedly arranged on the sliding column (2-4), an impurity pushing plate (2-9) is fixedly arranged on the pushing mounting frame (2-8), a limiting hole (2-10) is arranged on a filter box (2-1), an adjusting shaft (2-11) is rotatably arranged on the filter box (2-1), an adjusting disc (2-12) is fixedly arranged on the adjusting shaft (2-11), a limiting rod (2-13) is slidably arranged on the adjusting disc (2-12), the first bevel gear (2-14) is fixedly arranged on the adjusting shaft (2-11), the adjusting threaded cylinder (2-15) is rotatably arranged inside the filter box (2-1), the second bevel gear (2-16) is fixedly arranged on the adjusting threaded cylinder (2-15), the first bevel gear (2-14) is meshed with the second bevel gear (2-16), the adjusting screw rod (2-17) is arranged on the adjusting threaded cylinder (2-15), the adjusting screw rod (2-17) is in threaded fit with the adjusting threaded cylinder (2-15), the adjusting screw rod (2-17) is rotatably arranged on the spring pushing plate (2-19), the control toothed plate (2-18) is slidably arranged inside the filter box (2-1), and the toothed plate (2-18) is slidably arranged on the mounting rod (2-21), the spring push plate (2-19) is slidably arranged inside the control toothed plate (2-18), the second spring (2-20) is arranged inside the control toothed plate (2-18), the installation rod (2-21) is fixedly arranged inside the filter box (2-1), the control belt wheel installation seat (2-22) is fixedly arranged on the control toothed plate (2-18), the control belt wheel (2-23) is rotatably arranged on the control belt wheel installation seat (2-22), the half-tooth rotating column (2-24) is rotatably arranged inside the filter box (2-1), the half-tooth rotating column (2-24) is meshed with the control toothed plate (2-18), the drainage control baffle plate (2-25) is fixedly arranged on the half-tooth rotating column (2-24), and the drainage hole (2-26) is arranged inside the filter box (2-1), a driving shaft (2-27) is rotatably arranged on a filter box (2-1), an output belt wheel I (2-28) is fixedly arranged on the driving shaft (2-27), a filter hole cylinder (2-29) is fixedly arranged on the driving shaft (2-27), the filter hole cylinder (2-29) is rotatably arranged inside the filter box (2-1), an attached impurity removing cylinder (2-30) is slidably arranged inside the filter box (2-1), an attached impurity removing cylinder (2-30) is rotatably arranged inside the filter hole cylinder (2-29), a removing knife (2-31) is arranged on the attached impurity removing cylinder (2-30), an inlet port (2-32) is arranged on the attached impurity removing cylinder (2-30), a reinforcing block (2-33) is fixedly arranged on the attached impurity removing cylinder (2-30), the impurity scraping block (2-34) is fixedly arranged in the filter box (2-1).

4. The automatic filtering equipment for industrial wastewater according to claim 1, characterized in that: the transmission device (3) comprises a second mounting frame (3-1), a second transmission shaft (3-2), a second receiving belt wheel (3-3), a second transmission belt (3-4), a third bevel gear (3-5), a third mounting frame (3-6), a third transmission shaft (3-7), a fourth bevel gear (3-8), a first transmission belt wheel (3-9), a transmission belt (3-10), a fourth mounting frame (3-11), a fourth transmission shaft (3-12), a second transmission belt wheel (3-13), a fourth output belt wheel (3-14), an output belt (3-15) and a fifth output belt wheel (3-16), the second mounting frame (3-1) is fixedly arranged on the filter box (2-1), and the second transmission shaft (3-2) is rotatably arranged on the second mounting frame (3-1), a second receiving belt wheel (3-3) is fixedly arranged on a second transmission shaft (3-2), a second transmission belt (3-4) is arranged on the second receiving belt wheel (3-3) and a first output belt wheel (2-28), a third bevel gear (3-5) is fixedly arranged on the second transmission shaft (3-2), a third mounting frame (3-6) is fixedly arranged on a filter box (2-1), a third transmission shaft (3-7) is rotatably arranged on the third mounting frame (3-6), a fourth bevel gear (3-8) is fixedly arranged on the third transmission shaft (3-7), the fourth bevel gear (3-8) is meshed with the third bevel gear (3-5), the first transmission belt wheel (3-9) is fixedly arranged on the third transmission shaft (3-7), and a transmission belt (3-10) is arranged on the first transmission belt wheel (3-9) and the second transmission belt wheel (3-13), the fourth mounting frame (3-11) is fixedly installed on the filter box (2-1), the fourth transmission shaft (3-12) is rotatably installed on the fourth mounting frame (3-11), the second transmission belt wheel (3-13) is fixedly installed on the fourth transmission shaft (3-12), the fourth output belt wheel (3-14) is fixedly installed on the fourth transmission shaft (3-12), the output belt (3-15) is installed on the fourth output belt wheel (3-14) and the belt receiving belt wheel pushing shaft (2-5), the fifth output belt wheel (3-16) is fixedly installed on the fourth transmission shaft (3-12), and the first transmission belt (1-5) is installed on the fifth output belt wheel (3-16).

5. The automatic filtering equipment for industrial wastewater according to claim 3, characterized in that: the impurity pushing plates (2-9) of the filtering decontamination device (2) are five in number, the mounting rods (2-21) are two in number, and the driving shafts (2-27) are provided with matched motors.

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