CN112174364B - Industrial sewage treatment device and use method - Google Patents

Abstract

The invention discloses an industrial sewage treatment device, in particular to the field of sewage treatment, which comprises the following steps: the separating mechanism, the cleaning mechanism, the rabbling mechanism, the water purification mechanism separates the metal rubbish in the industrial sewage, the industrial sewage that waits to handle gets into splitter, splitter filters the metal rubbish in the industrial sewage, get rid of water, send into cleaning equipment with metal rubbish again, wash, the rivers that will wash with the rivers after the separation import agitated vessel, the agitated vessel is imported chemical reagent again, fully effect with chemical reagent and the industrial sewage after the separation through mixing stirring, after standing for a team of time, discharge the industrial sewage into water purifier, separate again in water purifier, separate precipitate and the industrial sewage after the purification.

Description

Industrial sewage treatment device and use method

Technical Field

The invention relates to industrial sewage treatment, in particular to an industrial sewage treatment device and a use method thereof.

Background

The sewage treatment equipment is industrial equipment capable of effectively treating domestic sewage, industrial sewage and the like in urban areas, and has important significance in improving ecological environment, improving urban grade and promoting economic development, and sewage and pollutants are prevented from directly flowing into water areas.

In the using process of the existing industrial sewage treatment equipment, the metal impurity separation quality is poor, the chemical agent and the industrial sewage are not fully mixed, and the chemical agent and the industrial sewage are required to act for a long time, so that the industrial sewage treatment speed is greatly reduced, and the treatment effect is poor.

Disclosure of Invention

The invention aims to solve the problems of poor cleaning quality and long time when separating and cleaning metal impurities in industrial sewage.

The second object of the invention is to provide a method for using the industrial sewage treatment device.

In order to achieve one of the above purposes, the present invention adopts the following scheme: an industrial wastewater treatment device, comprising:

separating mechanism, this separating mechanism sets up subaerial, and this rabbling mechanism includes: the separation main part, this separation main part sets up subaerial, this separation main part is located this separation mechanism bottom, conditioning equipment, this conditioning equipment connects in the inside of this separation main part, this conditioning equipment is located the inside upper strata of this separation main part, separation equipment is connected in the inside of this separation main part, this separation equipment is located the inside lower floor of this separation main part, wiper mechanism, this wiper mechanism connects on the surface of this separation main part, this wiper mechanism is located the left side of this separation main part, this wiper mechanism includes: the cleaning device comprises a cleaning main body, a cleaning device and a cleaning device, wherein the cleaning main body is connected to the surface of the separating main body, the cleaning main body is positioned on the left side of the separating main body, the cleaning device is connected inside the cleaning main body, and the cleaning device is positioned on the right side of the cleaning main body. The rabbling mechanism, this rabbling mechanism sets up subaerial, and this rabbling mechanism is located the right side of this separating mechanism, and this rabbling mechanism includes: stirring main part, this stirring main part sets up subaerial, and this stirring main part is located the right side of this separation main part, and water purification mechanism, this water purification mechanism connect in the below of this stirring main part, and this water purification mechanism includes: the water purifying device is connected to the lower part of the stirring device, and is positioned below the stirring mechanism.

Preferably, the stirring device is connected inside the stirring body.

Preferably, the separation base is arranged on the ground, two mounting platforms are arranged on the upper surface of the separation base, a cleaning hole is formed below the mounting platform on the right side of the separation main body, a separation shell is connected to the counter platform on the right side, the upper end face of the separation shell is provided with a hole, a sewage inlet hole is formed above the left end face, a rectangular hole is formed below the left end face, a sewage inlet pipeline is connected to the sewage inlet hole above the left end face of the separation shell, a cleaning pipeline is connected to the cleaning hole formed below the mounting platform on the right side of the separation main body, a separation water purifying box is connected to the lower end inside the separation shell, a rectangular hole is formed in the front of the separation water purifying box, a filter screen is connected to the inside of the separation water purifying box, the filter screen is inclined towards the direction of the hole, and the separation pipeline is connected to the separation base.

Preferably, the pressing shaft is connected in a hole formed above the separation shell, a through hole is formed in the middle of the pressing shaft, the rotary chassis is connected in the through hole in the middle of the pressing shaft, the rotary chassis is provided with a screening chassis, the fixing column is connected to the inner wall of the separation shell, the front surface of the fixing column is provided with a mounting groove, the adjusting column is connected in the mounting groove of the fixing column, the telescopic column is connected to the left end of the adjusting column, the clamping column is connected to the pressing shaft, telescopic inner rods are arranged around the clamping column, and the spring is connected to the surfaces of the telescopic column and the adjusting column.

Preferably, the separating plate is connected in the separating shell, the inner wall of the separating plate is provided with a plurality of sections of arc-shaped tracks, the separating disc is connected on the surface of the pressing shaft, the lower parts of six supports of the separating disc are provided with mounting grooves, the rotating disc is connected on the inner wall of the separating plate, 4 bosses are arranged on the periphery of the rotating disc, the separating box is connected in the clamping groove of the clamping jaw, the separating box is positioned under the rotating disc, the clamping jaw is connected in the mounting groove arranged under the separating disc, and the clamping jaw is internally provided with the clamping groove.

Preferably, the cleaning shell is connected to the mounting platform on the right side of the separation shell, a notch is formed in the back of the cleaning shell, a hole is formed below the notch of the cleaning shell, a cleaning upper cover is connected to the cleaning shell, a hole is formed in the upper end of the cleaning upper cover, a water storage box is connected to the water storage box in the hole of the cleaning upper cover, a filter plate is connected to the inside of the cleaning shell, and the filter plate is located above the hole below the notch of the cleaning shell.

Preferably, the first cleaning column is connected at two sides of the cleaning shell, an arrow top block is arranged at the lower end of the first cleaning column, the second cleaning column is connected below the first cleaning column, a groove matched with the arrow at the lower end of the first cleaning column is arranged at the upper end of the second cleaning column, a circular top block is arranged at the right side of the second cleaning tank, the cleaning tank is connected at the lower end of the second cleaning column, an air pump is connected inside the cleaning shell, and the air pump is located under the circular top block arranged at the right side of the second cleaning tank.

Preferably, the stirring shell is arranged on the ground, a hole is formed in the surface of the stirring shell, a multiterminal arc-shaped track is arranged on the inner side of the stirring shell, a hole is formed in the lower end of the stirring shell, a stirring upper cover is connected to the upper end of the stirring shell, a mounting groove is formed in the lower end of the stirring upper cover, and a dosing pipeline is connected to the hole formed in the surface of the stirring shell.

Preferably, the stirring main shaft is connected in a mounting groove arranged at the lower end of the stirring upper cover, the stirring main body is positioned in the stirring shell, the stirring pipe is connected at the lower end of the stirring upper cover, the stirring pipe is positioned around the stirring main shaft, the stirring auxiliary shaft is connected in the stirring pipe, the stirring auxiliary shaft is positioned around the stirring main shaft, the sliding rod is connected in a multi-section arc-shaped track at the inner side of the stirring shell, the upper end of the auxiliary stirring blade is connected at the lower end of the stirring auxiliary shaft, the lower end of the auxiliary stirring blade is connected at the upper end of the sliding rod, the main stirring blade is connected below the upper stirring main shaft.

Preferably, the water purifying sealing cover is positioned in a hole arranged below the stirring shell, the water purifying pipeline is connected below the water purifying sealing cover, the water purifying pipeline is positioned at the lower end of the stirring shell, the water purifying valve is connected at the lower end of the water purifying pipeline, the water purifying separating pipe is connected at the lower end of the water purifying valve, the middle end inside the water purifying separating pipe is provided with a filter plate, the sewage storing box is connected at the lower end of the water purifying separating pipe.

A method of using a food testing package comprising the steps of:

preferably, the separating mechanism is started, industrial sewage enters the separating box inside the separating main body from the sewage inlet pipeline, at this moment, the regulating equipment starts to start, the pressing shaft and the rotating chassis are pressed downwards once, the pressing shaft drives the clamping column to move downwards, the clamping column is opened when moving downwards, simultaneously, the regulating column at the rear end of the telescopic column rotates downwards, when the rotating disk is pressed downwards by the pressing shaft, the bosses arranged around the rotating disk rotate downwards along the multistage arc-shaped tracks arranged on the inner wall of the separating plate when being pressed, when the rotating disk rotates, the six supports on the separating disk rotate along the rotating disk due to being fixed on the rotating disk, so as to drive the separating disk to rotate, the clamping jaw is arranged below the supports of the separating disk, the clamping jaw fixes the separating box, and meanwhile, the rotating chassis rotates together with the separating box.

Preferably, after the pressing shaft is pressed once, the pressing shaft does not provide pressure any more, the spring resets the clamping column, the clamping column resets the pressing shaft and the rotary chassis, the separating equipment integrally ascends, when ascending, the boss arranged around the rotary disk can upwards float along the multi-section arc-shaped track arranged on the inner wall of the separating plate when ascending, and when the pressing shaft repeatedly ascends and descends, the separating box and the rotary chassis simultaneously rotate with up-down floating.

Preferably, after the industrial sewage enters the separation box, the liquid sewage firstly leaks out of the separation box and the grid of the rotary chassis, and then enters the separation water purifying box from the filter screen.

After the separating box and the rotating chassis work for a period of time, larger metal impurities in industrial sewage can be intercepted by grids on the separating box and the rotating chassis, smaller metal impurities can be intercepted by the filter screen, at the moment, the pressing shaft stops moving and is reset by the spring, the rotating chassis continues to rotate, and the larger metal impurities are thrown off, so that the larger metal impurities and the smaller metal impurities can roll into the cleaning equipment.

Preferably, the metal impurities firstly enter the cleaning tank, after the garbage in the cleaning tank reaches a certain weight, the groove of the second cleaning column is separated from the arrow head block of the first cleaning column, the second cleaning column and the cleaning tank lose fixation, the cleaning tank can move downwards, the triangular baffle plate arranged on the inner wall of the cleaning shell body is used for laterally turning over the cleaning tank, the metal impurities shake off to the filter plate, the water storage box sprays water on the metal impurities for cleaning, and the water used for cleaning flows into the separation water purification box from the cleaning pipeline.

Preferably, sewage after preliminary separation enters the stirring mechanism from the separation pipeline, meanwhile, chemical agents are added from the dosing pipeline, stirring equipment is started, the stirring main shaft starts to rotate, the upper end of the stirring main shaft rotates to drive the stirring auxiliary shaft, the lower end of the stirring main shaft rotates to drive the main stirring blade, the lower end gear of the stirring auxiliary shaft rotates to drive the auxiliary stirring blade to rotate, the auxiliary stirring blade drives the sliding rod to rotate, the lower end of the sliding rod moves up and down along a multi-section arc-shaped track of the inner wall of the stirring shell, and the sliding rod drives the auxiliary stirring blade to move up and down, so that industrial sewage and the chemical agents are fully acted.

Preferably, after a period of time of precipitation, the action of the chemical agent and the industrial sewage is finished, the water purification cover is opened, the industrial sewage enters the water purification device, the industrial sewage passes through the water purification valve from the water purification pipeline, purified sewage flows into the lower layer in the water purification separation pipe, sediment generated by the action of the industrial sewage and the chemical agent remains on the upper layer until entering the sewage storage box, the purified sewage flows out from the lower port, a part of the purified sewage is sprayed with consumed water by the cleaning device, and the other part of the purified sewage is used for industrial production.

The beneficial effects are that: this application utilizes splitter to carry out preliminary separation with industrial sewage for the metal impurity who falls in the separation box inside is got rid of water by the rotation, quality and efficiency that metal impurity separated in the industrial sewage have been improved, the multistage arc design of separation tray and separation tray makes metal impurity when separating, through upper and lower swing cooperation rotation, avoided making metal rubbish adhere to together because greasy dirt or other liquid, separation efficiency has been improved, simultaneously, after the industrial sewage after the separation got into rabbling mechanism, add the chemical agent, along with the rotation of main stirring leaf, make industrial sewage and chemical agent fully function, time when having accelerated the industrial sewage deposit, finally, arrange the industrial sewage after the deposit into the water purification separating tube, separate the industrial sewage after deposit and the purification, the deposit automatically flow to the dirt storage box, the convenience is collected.

Drawings

Fig. 1 is a schematic diagram of a front structure of an industrial sewage treatment apparatus according to an embodiment of the present invention.

FIG. 2 is a schematic view showing a back structure of an industrial sewage treatment apparatus according to an embodiment of the present invention.

Fig. 3 is a schematic front perspective view of a separating mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic internal perspective view of a separation mechanism according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of an adjusting apparatus according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of an adjusting apparatus according to an embodiment of the present invention.

Fig. 7 is a schematic perspective view of an adjusting device and a separating device according to an embodiment of the present invention.

Fig. 8 is a schematic perspective view of a separating apparatus according to an embodiment of the present invention.

Fig. 9 is a schematic front view of an embodiment of the conditioning apparatus and separation apparatus of the present invention.

Fig. 10 is a schematic perspective view of a cleaning mechanism according to an embodiment of the present invention.

FIG. 11 is a schematic view showing the internal structure of a cleaning mechanism according to an embodiment of the present invention.

Fig. 12 is a schematic perspective view of a cleaning apparatus according to an embodiment of the present invention.

Fig. 13 is a schematic perspective view of a stirring mechanism according to an embodiment of the present invention.

FIG. 14 is a schematic cross-sectional view of a stirring mechanism according to an embodiment of the present invention.

FIG. 15 is a schematic perspective view of a stirring device according to an embodiment of the present invention.

FIG. 16 is a schematic front view of a stirring device according to an embodiment of the present invention.

FIG. 17 is a schematic diagram of the structure of a secondary stirrer She Liti according to an embodiment of the invention.

Fig. 18 is a schematic perspective view of a water purifying apparatus according to an embodiment of the present invention.

1. Separating mechanism 2, cleaning mechanism 3 and stirring mechanism

4. Water purifying mechanism

11. Separating body 111, separating housing 112, and sewage inlet pipe

113. Cleaning pipeline 114, separating base 115 and filter screen

116. Separation water purification box 117 and separation pipeline

12. Adjusting device 121, rotary chassis 122, press shaft

123. Fixed column 124, adjusting column 125, telescopic column

126. Clamping column 127 and spring

13. Separating apparatus 131, separating plate 132, separating disk

133. Rotating disc 134, separating cassette 135, jaws

21. Cleaning main body 211, water storage box 212 and cleaning upper cover

213. Cleaning housing 214, filter plate

22. Cleaning apparatus 221, first cleaning column 222, second cleaning column

223. Cleaning tank 224 and air pump

31. Stirring main body 311, stirring upper cover 312 and dosing pipeline

313. Stirring shell

32. Stirring device 321, stirring main shaft 322 and stirring auxiliary shaft

323. Auxiliary stirring blade 324, sliding rod 325 and main stirring blade

326. Stirring pipe

41. Water purification equipment 411, water purification sealing cover 412 and water purification pipeline

413. Water purifying valve 414, water purifying separating pipe 415 and dirt storage box

In order to make the objects, technical solutions, and advantages of the present invention more apparent, the embodiments of the present invention will be further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are some, but not all, embodiments of the present invention, are intended to be illustrative only and not limiting of the embodiments of the present invention, and that all other embodiments obtained by persons of ordinary skill in the art without making any inventive effort are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "center," "middle," "upper," "lower," "left," "right," "inner," "outer," "top," "bottom," "side," "vertical," "horizontal," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present invention and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "a," an, "" the first, "" the second, "" the third, "" the fourth, "" the fifth, "and the sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

For purposes of brevity and description, the principles of the embodiments are described primarily by reference to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one of ordinary skill in the art that the embodiments may be practiced without limitation to these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

Embodiment one:

as shown in fig. 1, 2 and 3, an industrial sewage treatment apparatus is characterized by comprising:

separating mechanism 1, separating mechanism 1 sets up subaerial, and rabbling mechanism 3 includes: separating body 11, separating body 11 sets up subaerial, separating body 11 is located separating mechanism 1 bottom, adjusting device 12 connects in separating body 11's inside, adjusting device 12 is located separating body 11 inside upper strata, separating device 13 connects in separating body 11's inside, separating device 13 is located separating body 11 inside lower floor, wiper mechanism 2 connects on separating body 11's surface, wiper mechanism 2 is located separating body 11's left side, wiper mechanism 2 includes: a cleaning main body 21, the cleaning main body 21 is connected on the surface of the separating main body 11, the cleaning main body 21 is positioned at the left side of the separating main body 11, the cleaning device 22 is connected inside the cleaning main body 21, and the cleaning device 22 is positioned at the right side of the cleaning main body 21. Rabbling mechanism 3, rabbling mechanism 3 set up subaerial, and rabbling mechanism 3 are located the right side of separating mechanism 1, and rabbling mechanism 3 includes: stirring main part 31, stirring main part 31 setting are subaerial, and stirring main part 31 is located the right side of separating main part 11, and water purification mechanism 4 connects in the below of stirring main part 31, and water purification mechanism 4 includes: and a water purifying device 41, wherein the water purifying device 41 is connected below the stirring device 32, and the water purifying device 41 is positioned below the stirring mechanism 3.

As shown in fig. 15, a stirring device 32, the stirring device 32 is connected inside the stirring body 31.

As shown in fig. 3, 4, 5, 6, 7, 8 and 9, the separation base 114 is disposed on the ground, two mounting platforms are disposed on the upper surface of the separation base 114, a cleaning hole is disposed below the mounting platform on the right side of the separation main body 11, the separation housing 111 is connected to the upper surface of the separation base 114 and disposed on the counter platform on the right side, a hole is disposed on the upper end surface of the separation housing 111, a dirt inlet hole is disposed above the left end surface, a rectangular hole is disposed below the left end surface, a sewage inlet pipe 112, the sewage inlet pipe 112 is connected in the dirt inlet hole above the left end surface of the separation housing 111, a cleaning pipe 113, the cleaning pipe 113 is connected in the cleaning hole disposed below the mounting platform on the right side of the separation main body 11, the separation water purifying box 116 is connected to the lower end inside the separation housing 111, the rectangular hole is disposed on the front of the separation water purifying box 116, the filter screen 115 and 115 is connected inside the separation water purifying box 116, the filter screen 115 is inclined toward the front surface of the separation hole 117, and the separation pipe 117 is connected to the separation base 114.

The pressing shaft 122, the pressing shaft 122 is connected in a hole arranged above the separation shell 111, a through hole is arranged in the middle of the pressing shaft 122, the rotary chassis 121 is connected in the through hole in the middle of the pressing shaft 122, the rotary chassis 121 is provided with a screening chassis, the fixing column 123 is connected on the inner wall of the separation shell 111, the front of fixed column 123 is provided with a mounting groove, adjusts post 124 and connects in the mounting groove of fixed column 123, flexible post 125, and flexible post 125 connects the left end at adjusting post 124, and card post 126, card post 126 connect on press shaft 122, and card post 126 is provided with flexible interior pole all around, spring 127, and spring 127 connects at flexible post 125 and adjusting post 124 surface.

The separation board 131, the inside at separation casing 111 is connected to separation board 131, set up multistage arc track around the separation board 131 inner wall, separation dish 132 connects the surface at pressure axle 122, six support below of separation dish 132 set up the mounting groove, rotary disk 133, the inner wall at separation board 131 is connected to rotary disk 133, rotary disk 133 is provided with 4 bosss all around, separation box 134 connects in the draw-in groove of jack catch 135, separation box 134 is located under the rotary disk 133, jack catch 135 connects in the mounting groove that separation dish 132 below set up, be provided with the draw-in groove in the jack catch 135.

As shown in fig. 11 and 12, the cleaning housing 213 is connected to the mounting platform on the right side of the separation housing 111, a notch is provided on the back of the cleaning housing 213, a hole is provided below the notch of the cleaning housing 213, a cleaning upper cover 212 is connected to the cleaning housing 213, a hole is provided at the upper end of the cleaning upper cover 212, a water storage box 211 is connected to the water storage box 211 in the hole of the cleaning upper cover 212, a filter plate 214 is connected to the inside of the cleaning housing 213, and the filter plate 214 is located above the hole below the notch of the cleaning housing 213.

The first washing column 221, first washing column 221 connects in the both sides of wasing casing 213, first washing column 221 lower extreme is provided with the arrow kicking block, second washing column 222 connects in the below of first washing column 221, second washing column 222 upper end is provided with the recess that matches with first washing column 221 lower extreme arrow, second washing tank 223 right side is provided with circular kicking block, washing tank 223 connects in the lower extreme of connecting at second washing column 222, air pump 224 connects in the inside of wasing casing 213, air pump 224 is located the circular kicking block that the second washing tank 223 right side set up under. The cleaning device 22 cleans the separated metal impurities again, so that secondary pollution is avoided, and the metal impurity components are controlled to be put into the filter plate 214 through weight control, so that blockage of the metal impurities is avoided, and the cleaning is not clean during cleaning.

As shown in fig. 13, 14, 15, 16 and 17, stirring shell 313 sets up subaerial, stirring shell 313 surface is provided with the hole, and stirring shell 313 inboard is provided with multiterminal arc track, and stirring shell 313 lower extreme sets up the hole, and stirring upper cover 311, stirring upper cover 311 connect in stirring shell 313's upper end, and stirring upper cover 311 lower extreme is provided with the mounting groove, and dosing pipeline 312, dosing pipeline 312 connect in stirring shell 313 surface sets up the hole.

A stirring main shaft 321, wherein the stirring main shaft 321 is connected in a mounting groove arranged at the lower end of the stirring upper cover 311, the stirring main body 31 is positioned in the stirring shell 313, a stirring pipe 326 is connected at the lower end of the stirring upper cover 311, the stirring pipe 326 is positioned around the stirring main shaft 321,

the stirring auxiliary shaft 322, stirring auxiliary shaft 322 is connected in stirring pipe 326, stirring auxiliary shaft 322 is located around stirring main shaft 321, slide bar 324 is connected in the multistage arc track of stirring casing 313 inboard, vice stirring leaf 323, the upper end of vice stirring leaf 323 is connected in stirring auxiliary shaft 322's lower extreme, the lower extreme of vice stirring leaf 323 is connected in the upper end of slide bar 324, stirring main shaft 321 drives stirring auxiliary shaft 322 when rotatory, the gear and the cooperation of vice stirring leaf 323 of stirring auxiliary shaft 322 below, vice stirring leaf 323 rotate, simultaneously, the slide bar 324 of vice stirring leaf 323 below fixed slides from top to bottom in the multistage arc track in stirring casing 313 inner wall, thereby drive vice stirring leaf 323 and reciprocate, the design of vice stirring leaf 323 makes the rivers of lower floor can not flow along main stirring leaf 325 direction, change in height and change of direction of rotation, chemical and industrial sewage effect have been improved, the time of having shortened the sediment, main stirring leaf 325 is connected in the below of last stirring main shaft 321.

As shown in fig. 18, the water purifying cover 411 is located in a hole provided below the stirring housing 313, the water purifying pipe 412 is connected below the water purifying cover 411, the water purifying pipe 412 is located at the lower end of the stirring housing 313, the water purifying valve 413 is connected at the lower end of the water purifying pipe 412, the water purifying separating pipe 414 is connected at the lower end of the water purifying valve 413, the filter plate 214 is provided at the middle end inside the water purifying separating pipe 414, the dirt storing box 415 is connected at the lower end of the water purifying separating pipe 414.

Finally, a use method of the food detection package is provided, which comprises the following steps:

when the separating mechanism 1 is started, industrial sewage enters the separating box 134 in the separating main body 11 from the sewage inlet pipeline 112, at this time, the regulating device 12 starts to start, the pressing shaft 122 and the rotating chassis 121 are pressed down once, the pressing shaft 122 drives the clamping column 126 to move downwards, the clamping column 126 opens the telescopic column 125 when moving downwards, meanwhile, the regulating column 124 at the rear end of the telescopic column 125 rotates downwards, when the pressing shaft 122 presses the rotating disc 133 downwards, the boss arranged around the rotating disc 133 performs downward floating rotation along a plurality of arc-shaped tracks arranged on the inner wall of the separating plate 131 when being pressed, when the rotating disc 133 rotates, six supports on the separating disc 132 rotate along the rotating disc 133 due to being fixed on the rotating disc 133, thereby driving the separating disc 132 to rotate, the clamping jaw 135 is arranged below the support of the separating disc 132, the clamping jaw 135 fixes the separating box 134, and simultaneously the rotating chassis 121 rotates together with the separating box 134.

After the pressing shaft 122 is pressed once, the pressing shaft 122 does not provide pressure any more, the spring 127 resets the clamping column 126, the clamping column 126 resets the pressing shaft 122 and the rotary chassis 121, the separating device 13 integrally ascends, when ascending, the bosses arranged around the rotary disk 133 can upwards float along the multi-section arc-shaped tracks arranged on the inner wall of the separating plate 131 when ascending, and when the pressing shaft 122 repeatedly ascends and descends, the separating box 134 and the rotary chassis 121 simultaneously rotate with upwards and downwards floating.

After entering the separation box 134, the liquid sewage first leaks out of the mesh of the separation box 134 and the rotary chassis 121, and then enters the separation water purification box 116 from the filter screen 115.

After the separating box 134 and the rotary chassis 121 work for a period of time, larger metal impurities in industrial sewage can be trapped by grids on the separating box 134 and the rotary chassis 121, smaller metal impurities can be trapped by the filter screen 115, at the moment, the pressing shaft 122 stops moving and is reset by the spring 127, the rotary chassis 121 keeps in place, the pressing shaft 122 continues to ascend after reset, the pressing shaft 122 drives the separating plate 132 to ascend, the separating plate 132 drives the clamping jaw 135, the clamping jaw 135 drives the separating box 134 to ascend, the rotary chassis 121 rotates, and the larger metal impurities are thrown off, and the larger metal impurities and the smaller metal impurities can roll into the cleaning equipment 22.

The metal impurities firstly enter the cleaning tank 223, after the garbage in the cleaning tank 223 reaches a certain weight, the grooves of the second cleaning column 222 are separated from the arrow top blocks of the first cleaning column 221, the second cleaning column 222 and the cleaning tank 223 lose fixation, the cleaning tank 223 can move downwards, the triangular baffle plate arranged on the inner wall of the cleaning shell 213 enables the cleaning tank 223 to turn over, the metal impurities shake down to the filter plate 214, the water storage box 211 sprays water on the metal impurities for cleaning, and the water used for cleaning flows into the separation water purification box 116 from the cleaning pipeline 113.

The sewage after preliminary separation enters the stirring mechanism 3 from the separation pipeline 117, meanwhile, chemical agents are added from the dosing pipeline 312, the stirring equipment 32 is started, the stirring main shaft 321 starts to rotate, the upper end of the stirring main shaft 321 rotates to drive the stirring auxiliary shaft 322, the lower end of the stirring main shaft 321 rotates to drive the main stirring blade 325, the lower end gear of the stirring auxiliary shaft 322 rotates to drive the auxiliary stirring blade 323 to rotate, the auxiliary stirring blade 323 drives the sliding rod 324 to rotate, the lower end of the sliding rod 324 moves up and down along the multi-section arc-shaped track of the inner wall of the stirring shell 313, and the sliding rod 324 drives the auxiliary stirring blade 323 to move up and down, so that the industrial sewage and the chemical agents fully act.

After a period of time has elapsed, the action of the chemical agent and the industrial sewage is completed, the water purification sealing cover 411 is opened, the industrial sewage enters the water purification device 41, the industrial sewage passes through the water purification valve 413 from the water purification pipeline 412, purified sewage flows into the lower layer in the water purification separation pipe 414, the sediment generated by the action of the industrial sewage and the chemical agent remains on the upper layer until the sediment enters the sewage storage box 415, the sewage box 415 is opened, the sediment is taken out, the two purified sewage flows out from the lower port, a part of the purified sewage is sprayed into consumed water by the cleaning device, and the other part of the purified sewage is produced by the industry.

While the foregoing describes the illustrative embodiments of the present invention so that those skilled in the art may understand the present invention, the present invention is not limited to the specific embodiments, and all inventive innovations utilizing the inventive concepts are herein within the scope of the present invention as defined and defined by the appended claims, as long as the various changes are within the spirit and scope of the present invention.

Claims (7)

1. An industrial wastewater treatment device, comprising:

separating mechanism, separating mechanism sets up subaerial, rabbling mechanism includes:

the separating main body is arranged on the ground and is positioned at the bottom of the separating mechanism;

the adjusting device is connected to the inside of the separation main body and is positioned at the upper layer inside the separation main body;

the separation device is connected to the inside of the separation main body and is positioned at the lower layer inside the separation main body;

the wiper mechanism, wiper mechanism connects on the surface of separation main part, wiper mechanism is located the left side of separation main part, wiper mechanism includes:

a cleaning body coupled to a surface of the separation body, the cleaning body being positioned at a left side of the separation body;

the rabbling mechanism, rabbling mechanism sets up subaerial, rabbling mechanism is located separating mechanism's right side, rabbling mechanism includes:

the stirring main body is arranged on the ground and is positioned on the right side of the separation main body;

the water purification mechanism, the water purification mechanism is connected the below of stirring main part, the water purification mechanism includes:

the water purifying device is connected below the stirring device and is positioned below the stirring mechanism;

the cleaning main body further comprises:

the cleaning shell is connected to the mounting platform on the right side of the separation shell, a notch is formed in the back of the cleaning shell, and a hole is formed below the notch of the cleaning shell;

the cleaning upper cover is connected to the cleaning shell, and a hole is formed in the upper end of the cleaning upper cover;

the water storage box is connected in the hole of the cleaning upper cover;

the filter plate is connected to the inside of the cleaning shell and is positioned above the holes below the notch of the cleaning shell;

the first cleaning column is connected to two sides of the cleaning shell, and an arrow jacking block is arranged at the lower end of the first cleaning column;

the second cleaning column is connected below the first cleaning column, a groove matched with an arrow at the lower end of the first cleaning column is formed in the upper end of the second cleaning column, and a round top block is arranged on the right side of the second cleaning tank;

the cleaning tank is connected to the lower end of the second cleaning column;

the air pump is connected to the inside of the cleaning shell and is positioned right below the round top block arranged on the right side of the second cleaning tank;

the separation main body further comprises:

the separating base is arranged on the ground, two mounting platforms are arranged on the upper surface of the separating base, and cleaning holes are formed below the mounting platform on the right side of the separating main body;

the separating shell is connected to the chopping platform, the upper surface of the separating base is arranged on the right side, a hole is formed in the upper end face of the separating shell, a dirt inlet hole is formed in the upper portion of the left end face, and a rectangular hole is formed in the lower portion of the left end face;

the sewage inlet pipeline is connected in the sewage inlet hole above the left end face of the separation shell;

the cleaning pipeline is connected in a cleaning hole arranged below the mounting platform on the right side of the separation main body;

the separation water purifying box is connected to the lower end of the inside of the separation shell, and rectangular holes are formed in the front of the separation water purifying box;

the filter screen is connected inside the separation water purifying box and is inclined towards the direction of the holes arranged on the front surface of the separation water purifying box;

the separation pipeline is connected to the separation base;

the adjusting device further comprises:

the pressing shaft is connected in a hole arranged above the separation shell, and a through hole is arranged in the middle of the pressing shaft;

the rotary chassis is connected in the through hole in the middle of the pressing shaft and is provided with a screening chassis;

the fixing column is connected to the inner wall of the separation shell, and the front surface of the fixing column is provided with a mounting groove;

the adjusting column is connected in the mounting groove of the fixing column;

the telescopic column is connected to the left end of the adjusting column;

the clamping column is connected to the pressing shaft, and telescopic inner rods are arranged around the clamping column;

the spring is connected to the surfaces of the telescopic column and the adjusting column;

the separation device further comprises:

the separating plate is connected to the inside of the separating shell, and a plurality of sections of arc-shaped tracks are arranged on the periphery of the inner wall of the separating plate;

the separation disc is connected to the surface of the pressing shaft, and mounting grooves are formed below the six supports of the separation disc;

the rotating disc is connected to the inner wall of the separating plate, and 4 bosses are arranged around the rotating disc;

the separation box is connected in the clamping groove of the clamping jaw and is positioned right below the rotating disc;

the clamping claw is connected in a mounting groove arranged below the separation disc, and a clamping groove is formed in the clamping claw;

the application method of the industrial sewage treatment device comprises the following steps:

starting a separating mechanism, wherein industrial sewage enters a separating box in a separating main body from a sewage inlet pipeline, at the moment, an adjusting device starts to start, a pressing shaft and a rotating chassis are pressed downwards once, the pressing shaft drives a clamping column to move downwards, the clamping column is opened when moving downwards, meanwhile, the adjusting column at the rear end of the telescopic column rotates downwards, when the pressing shaft presses a rotating disc downwards, bosses arranged around the rotating disc rotate downwards along a plurality of sections of arc-shaped tracks arranged on the inner wall of the separating plate when being pressed, six brackets on the separating disc rotate along the rotating disc due to being fixed on the rotating disc when the rotating disc rotates, a claw is arranged below the bracket of the separating disc, the claw fixes the separating box, and the rotating chassis rotates together with the separating box;

after the pressing shaft is pressed once, the pressing shaft does not provide pressure, the spring resets the clamping column, the clamping column resets the pressing shaft and the rotary chassis, the separating equipment integrally ascends, when ascending, the bosses arranged on the periphery of the rotary disk can rotate upwards in a floating manner along the multi-section arc-shaped tracks arranged on the inner wall of the separating plate when ascending, and when repeatedly ascending and descending, the separating box and the rotary chassis simultaneously rotate with upwards and downwards floating;

after the industrial sewage enters the separation box, the liquid sewage leaks from grids of the separation box and the rotary chassis, then enters the separation water purifying box from the filter screen, after the separation box and the rotary chassis work for a period of time, larger metal impurities in the industrial sewage are trapped by the grids on the separation box and the rotary chassis, smaller metal impurities are trapped by the filter screen, at the moment, the pressing shaft stops moving and is reset by the spring, the rotary chassis is kept in place, the pressing shaft continues to ascend after reset, the pressing shaft drives the separation disc to ascend, the separation disc drives the clamping jaw, the clamping jaw drives the separation box to ascend, the rotary chassis rotates, and the larger metal impurities are thrown off, and the larger metal impurities and the smaller metal impurities roll into the cleaning equipment;

after the separated industrial sewage enters the stirring mechanism, chemical agents are added, and the industrial sewage and the chemical agents fully act along with the rotation of the main stirring blades, so that the time for precipitating the industrial sewage is shortened, and finally, the industrial sewage after precipitation is discharged into a water purification separation pipe, the precipitate is separated from the purified industrial sewage, and the precipitate automatically flows to a sewage storage box to be conveniently collected.

2. The industrial wastewater treatment device of claim 1 wherein the stirring mechanism further comprises:

and the stirring equipment is connected inside the stirring main body.

3. The industrial sewage treatment apparatus of claim 1, wherein the stirring body further comprises:

the stirring shell is arranged on the ground, holes are formed in the surface of the stirring shell, and holes are formed in the lower end of the stirring shell;

the stirring upper cover is connected to the upper end of the stirring shell, and the lower end of the stirring upper cover is provided with a mounting groove;

and the dosing pipeline is connected in a hole arranged on the surface of the stirring shell.

4. An industrial wastewater treatment plant according to claim 2 wherein said agitating means further comprises:

the stirring main shaft is connected in a mounting groove arranged at the lower end of the stirring upper cover, and the stirring main body is positioned in the stirring shell;

the stirring pipe is connected to the lower end of the stirring upper cover, and the stirring pipe is positioned around the stirring main shaft;

and a main stirring blade, wherein the main stirring She Lianjie is arranged below the upper stirring main shaft.

5. The industrial sewage treatment apparatus of claim 1, wherein the water purifying device further comprises:

the water purifying sealing cover is positioned in a hole arranged below the stirring shell;

the water purifying pipeline is connected below the water purifying sealing cover and is positioned at the lower end of the stirring shell;

the water purifying valve is connected to the lower end of the water purifying pipeline;

the water purifying and separating pipe is connected to the lower end of the water purifying valve, and a filter plate is arranged at the middle end inside the water purifying and separating pipe;

the sewage storage box is connected to the lower end of the water purification separation pipe.

6. The industrial sewage treatment apparatus of claim 4, wherein said method of use further comprises the steps of:

the sewage after preliminary separation gets into rabbling mechanism from the separation pipeline, and chemical agent is added from the dosing pipeline simultaneously, starts agitated vessel, and the stirring main shaft begins to rotate, and the upper end rotation of stirring main shaft drives the stirring countershaft, and the lower extreme rotation of stirring main shaft drives main stirring leaf, and the rotation of stirring countershaft lower extreme gear drives vice stirring leaf, and vice stirring leaf drives the slide bar rotation, and the slide bar lower extreme reciprocates along the multistage arc track of stirring shells inner wall, and the slide bar drives vice stirring leaf and reciprocates, fully acts on industrial sewage and chemical agent.

7. The industrial sewage treatment apparatus of claim 5, wherein said method of use further comprises the steps of:

after a period of precipitation, the chemical agent and the industrial sewage are acted, the water purifying cover is opened, the industrial sewage enters the water purifying device, the industrial sewage passes through the water purifying valve from the water purifying pipeline, purified sewage flows out from the lower port in the water purifying separating pipe, and part of the purified water is sprayed by the cleaning device to be consumed water, and the other part of the purified water is used for industrial production.

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