CN113698019B - Environmental protection and energy saving industrial waste water treatment device - Google Patents

Abstract

The invention discloses an environment-friendly and energy-saving industrial waste water treatment device which comprises a floating impurity box, an impurity removing box, a settling box and a sterilizing box, wherein the sterilizing box is arranged on one side of the settling box, the floating impurity box and the impurity removing box are arranged above the settling box, one end of the impurity removing box is connected with a pipeline of the floating impurity box, the lower end of the impurity removing box is connected with a pipeline of the settling box, the floating impurity box separates light garbage on the surface of waste water from the waste water through buoyancy, the impurity removing box separates small industrial garbage from the waste water through centrifugal force, and the sterilizing box utilizes the magnetocaloric effect to sterilize the waste water at high temperature. The floating impurity box separates light impurities from the wastewater under the lifting of water through the change of an internal pipeline and buoyancy, and the impurity removing box separates small broken impurities in the wastewater from the wastewater through centrifugal force, so that solid impurities in the wastewater are removed, and the garbage removing actions of the floating impurity box and the impurity removing box are performed simultaneously.

Description

Environmental protection and energy saving industrial waste water treatment device

Technical Field

The invention relates to the technical field of industrial waste water treatment, in particular to an environment-friendly and energy-saving industrial waste water treatment device.

Background

With the continuous development of society, people can generate a lot of garbage in the processes of life, work and production, whether industrial garbage or household garbage, if the garbage is not treated in time, the garbage can generate a lot of garbage penetrating fluid, the penetrating fluid contains a lot of acid-base substances, bacteria and the like, and the improper treatment of garbage wastewater can pollute the limited water resource.

For example, in industrial production, with the production operations, factories produce large amounts of industrial waste, which together accumulate to produce off-flavors, grow bacteria, often with heavy metals and some harmful substances, and if not treated timely and correctly, can cause significant environmental hazards.

For such current situation, most of the current garbage treatment equipment has complex structure, residues are easy to accumulate in the garbage treatment equipment, the residues cannot be removed in time during the crushing work, and the equipment is blocked after long-time use.

Therefore, there is a need for a simple and energy-saving device for treating waste and wastewater generated in industrial production, and there is a need for an environment-friendly and energy-saving industrial waste water treatment device for solving the above problems.

Disclosure of Invention

The invention aims to provide an environment-friendly and energy-saving industrial waste water treatment device, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an environmental protection and energy saving's industrial waste effluent treatment plant, this effluent treatment plant includes and floats miscellaneous case, edulcoration case, deposit box, sterilization case, deposit box one side is provided with sterilization case, and the deposit box top is provided with and floats miscellaneous case and edulcoration case, edulcoration case one end and floats miscellaneous case pipe connection, edulcoration case lower extreme and deposit box pipe connection, it makes the light rubbish on waste water surface separate with waste water to float miscellaneous case through buoyancy, the edulcoration case makes garrulous little industrial rubbish and waste water separation through centrifugal force, sterilization case utilizes the magnetocaloric effect to carry out high temperature sterilization to waste water. The invention realizes the effect of quickly removing solid garbage through the floating impurity box and the impurity removing box, precipitates impurities in the wastewater at the bottom of the precipitation box through a flocculating agent, simultaneously discharges water without impurities into the sterilization box for high-temperature sterilization, obtains the power for friction heating through the impact force of the water, and performs friction heating through the magnetocaloric effect, and the sterilization box performs high-temperature sterilization on microorganisms such as bacteria in the water through the mutual cooperation of the precipitation box and the sterilization box.

As the preferable technical scheme, a contraction plate is arranged in the floating impurity box, a impurity removing shell is arranged on one side, far away from the contraction plate, of the outer side of the floating impurity box, and a garbage disposal device is arranged on one side, far away from the floating impurity box, of the impurity removing shell; the novel garbage disposal device is characterized in that a impurity removal shaft is arranged inside the impurity removal box, a transmission pipe is arranged at one end of the impurity removal box, the other end of the transmission pipe is connected with a floating impurity box pipeline, a impurity removal shell is arranged at the other side of the impurity removal box, the impurity removal shell is connected with a garbage disposal device pipeline, a sedimentation pipe is arranged at the lower end of the impurity removal box, and the other end of the sedimentation pipe is connected with a sedimentation box pipeline. The shrink board separates the inner space of floating miscellaneous case, restrict the flow space of rubbish in the waste water simultaneously, clear miscellaneous shell clear up the rubbish that floats out of floating miscellaneous case, and in transmitting to garbage treatment device, garbage treatment device is a device to rubbish, the edulcoration axle rotates in the edulcoration case under the drive of external force, and provide power for the rotation of centrifugal board, the transmission tube will not contain the waste water of light rubbish from floating miscellaneous case and transmit the edulcoration incasement, the garrulous little rubbish of edulcoration case exhaust is collected and is transmitted to the edulcoration shell, make rubbish be transmitted to garbage treatment device, the sedimentation pipe is with the waste water that does not contain solid rubbish in the edulcoration case in the sedimentation line.

As the preferred technical scheme, the outside that the miscellaneous case of superficial is close to shrink board one end is provided with the inlet tube, and the inside position just to the inlet tube of miscellaneous case of superficial is the arc terminal surface, and the inside position that lies in shrink board below of miscellaneous case of superficial is provided with the backup pad, and the position of miscellaneous case of superficial above the backup pad and shrink board below is provided with the transmission mouth, transmission mouth and transmission pipe piping connection, the shrink board is the arc, and the shrink board is provided with a plurality of edulcoration holes of group on the vertical direction. The inlet tube is connected with the drain pipe of mill, the arc terminal surface makes the waste water that enters into the float miscellaneous case flow according to certain flow direction, make the waste water that has rubbish upwards flow under the guide of arc terminal surface, the backup pad supports the shrink board, simultaneously form transmission space in float miscellaneous case with shrink board mutually supporting, the transmission mouth is arranged in transmission space, the shrink board is the arc, the sunken part makes float miscellaneous incasement portion formation expansion portion in the middle of the shrink board, make the light rubbish in the water float to the surface of water, shrink board upper end makes float miscellaneous incasement portion formation contraction portion, make rubbish gather together under the shrink of buoyancy of water and space, and under the support of waste water and rubbish that continuously gushes into float miscellaneous case, the rubbish in contraction portion position is ejecting float miscellaneous case through clear miscellaneous mouthful, the edulcoration hole provides the passageway for waste water carries out transmission space, the perpendicular setting of edulcoration hole makes light rubbish be difficult for blocking up the edulcoration hole.

As a preferable technical scheme, the upper end of the impurity floating box, which is close to one end of the impurity removing shell, is provided with an impurity removing opening, the inside of the impurity removing shell is provided with an impurity removing shaft, the impurity removing shaft is provided with at least two groups of cleaning plates, and the at least two groups of cleaning plates are rotationally connected with the impurity floating box; at least two groups of centrifugal plates are arranged on the impurity removal shaft, one ends of the at least two groups of centrifugal plates, which are close to the impurity removal box, are arc-shaped, and the at least two groups of centrifugal plates are rotationally connected with the impurity removal box. The impurity removing port provides a channel for light garbage to leave the impurity floating box, the impurity removing shaft is driven by the motor to clean garbage from the impurity floating box through the cleaning plate, the impurity removing shaft provides support for the installation of the centrifugal plate and drives the centrifugal plate to rotate, one end of the centrifugal plate, which is close to the impurity removing box, is arc-shaped, so that garbage falling from the upper group of centrifugal plates is concentrated at one end which is arc-shaped, and the garbage is conveniently discharged.

As the preferable technical scheme, at least two sets of centrifugal plates are trapezoidal near the one end of edulcoration axle, are provided with a plurality of groups of drainage holes on at least two sets of centrifugal plates, and at least two sets of centrifugal plates include centrifugal face and water storage surface, the centrifugal face is the convex surface, the water storage surface is the concave surface, at least two sets of centrifugal plates all are provided with the centrifugation piece near the one end of edulcoration case at the water storage surface. The centrifugal plate is close to the one end of edulcoration axle and is trapezoidal for the rubbish that falls near the edulcoration axle can not store in the junction of edulcoration axle and centrifugal plate, the drainage hole provides the passageway for waste water through centrifugal plate and enter into the sedimentation tube, the convex surface is the windward side that carries out centrifugal clearance to rubbish promptly, the concave surface stores the waste water that has rubbish, waste water enters into the sedimentation tube through the filtration water hole, rubbish falls on the concave surface of next group centrifugal plate when centrifugal plate rotates, centrifugal piece and centrifugal plate mutually support and store waste water, and centrifugal piece and centrifugal plate's junction can store a small amount of waste water, and make garrulous little rubbish adhesion together through a small amount of waste water, make things convenient for the centrifugal plate to discharge rubbish on next group centrifugal plate when rotating.

As a preferable technical scheme, at least two groups of centrifugal blocks are provided with a plurality of groups of water filtering holes, and one end of each group of centrifugal blocks, which is close to the water storage surface, is provided with a concave arc-shaped end face; the impurity removing box is provided with an impurity removing opening at the contact position of the impurity removing box and the impurity removing shell, and an impurity removing through groove is arranged in the impurity removing shell. The trash discharging opening is a through opening for enabling the small trash to enter the trash discharging shell, and the trash discharging through groove provides a channel for enabling the trash to enter the trash treatment device.

As the preferred technical scheme, the setting tank upper end is provided with the deposit mouth, sedimentation tube and deposit mouth pipe connection, the position that the setting tank is close to the deposit mouth is provided with the riser, one side that the deposit mouth was kept away from to the riser is provided with the division board, the position that setting tank one end is located the deposit mouth below is provided with the power wheel, and the setting tank is located the power wheel outside and is provided with the feeder hopper, the power wheel rotates with the feeder hopper to be connected. The settling port provides the entry for the waste water carries out the setting tank for waste water, the riser is controlled the waste water that gets into the setting tank, make waste water flow according to certain flow direction, prevent that waste water from mixing with the water that has carried out the deposit in the setting tank, the division board separates the space in the setting tank once more, make setting tank inside form drainage space, sediment when setting tank bottom's sediment floats in setting tank inside under the impact of waste water, the division board carries out certain blocking to the sediment, prevent that the sediment from entering into the sterilization line case along with rivers, the power pulley rotates under the impact of waste water, and the other end of power pulley installation axle is located the setting tank outside and installs the gear, still be provided with the flocculant bin on the setting tank, the bin carries out the input of flocculant through the screw rod, and the screw rod rotates through the installation axle of gear and be connected, the bin is put in the feeder hopper through the pipeline with the flocculant, the flocculant in the feeder hopper is put in the waste water to the power pulley when rotating, make flocculant and waste water fuse, the power pulley pivoted speed is controlled by the velocity of waste water, by the power pulley pivoted, when the waste water is controlled by the power pulley pivoted, the volume is also, the waste is prevented to the external world when the volume is greatly reduced, the volume is discharged to the outside is greatly reduced, the volume is prevented from running the outside.

As a preferable technical scheme, a sterilizing port is arranged at the position of the sedimentation tank above the partition plate; the sterilizing box is connected with the sterilizing port pipeline and comprises a casing and an inner casing, the casing is rotationally connected with the inner casing, a heating space is formed between the casing and the inner casing, and a plurality of groups of bearing plates are arranged inside the inner casing. The sterilization mouth provides the passageway for waste water enters into the sterilization case in, and the cover shell provides the support for the installation of inner shell, provides the basis for sterilization case high temperature sterilization simultaneously, and the inner shell provides the support for the installation of loading board, and the loading board drives the inner shell and rotates in the cover shell under the impact of rivers.

As the preferable technical scheme, a plurality of groups of bearing plates are obliquely arranged on the inner shell, at least three groups of heating shells are arranged on the outer side of the inner shell and are rotationally connected with the outer shell, at least three groups of heating shells are C-shaped shells, a plurality of groups of bearing plates are hollow, and a plurality of groups of bearing plates are communicated with a heating space. The loading board slope is provided with on the inner shell, when rivers strike the loading board, makes the loading board can obtain and drives inner shell pivoted power, and the heating shell rubs with the cover shell under the drive of inner shell and generates heat, and the setting of C type casing is used for alleviateing the weight of heating shell, increases the proportion of air simultaneously, and the loading board is inside to be cavity, and when the heating shell rubs with the cover shell and generates heat, the loading board is inside to be heated to make the loading board heat waste water, and carry out high temperature sterilization.

As the preferable technical scheme, a plurality of groups of end faces, which are contacted with the shell, of the heating shell are magnetic-embedded end faces, the inner end faces of the shell are magnetic-embedded end faces, and a plurality of groups of heating shells and the shell generate heat through friction.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the light impurities are separated from the wastewater under the lifting of water through the change of the internal pipeline and the buoyancy of the floating impurity box, the broken small impurities in the wastewater are separated from the wastewater through the impurity removing box through the centrifugal force, the solid impurities in the wastewater are removed, and the garbage removing actions of the floating impurity box and the impurity removing box are performed simultaneously.

2. According to the invention, impurities in the wastewater are precipitated at the bottom of the precipitation tank through the flocculant, meanwhile, the precipitation tank discharges water without impurities into the sterilization tank for high-temperature sterilization, the sterilization tank obtains power for friction heat generation through the impact force of the water and uses the magnetocaloric effect for friction heat generation, and the sterilization tank performs high-temperature sterilization on microorganisms such as bacteria in the water through a plurality of groups of bearing plates in the sterilization tank.

3. In the invention, the rotation speed of the power wheel is controlled by the flow speed of the wastewater, the throwing of the flocculant is controlled by the rotation speed of the power wheel, when the wastewater amount is small, the rotation speed of the power wheel is low, the throwing amount of the flocculant is reduced, when the wastewater amount is large, the power wheel rotates fast, the throwing amount of the flocculant is more, and the control of the throwing amount of the flocculant is realized through the flowing amount of the wastewater, so that the waste caused by the excessive throwing amount of the flocculant is prevented, and the influence on the external environment caused by the fact that the excessive flocculant is discharged into the external water flow is also prevented.

4. The invention realizes the treatment of industrial waste water by two motors, realizes the removal of waste and the filtration of waste water, realizes the release of flocculant by the impact force of water, realizes the high-temperature sterilization of water by the impact force of water, and realizes the treatment effects of low energy consumption and energy conservation.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a schematic view of the internal structure of the buoyancy tank according to the present invention;

FIG. 3 is a schematic view of the internal structure of the impurity removal box of the present invention;

FIG. 4 is a schematic view of the internal structure of the settling tank of the present invention;

FIG. 5 is a schematic view showing the internal structure of the sterilization case of the present invention;

fig. 6 is a top view of the sterilization case of the present invention.

In the figure: 1. a floating impurity box; 2. a impurity removing box; 3. a sedimentation tank; 4. a sterilization box; 1-1, shrink plate; 1-2, removing impurity shells; 1-3, a supporting plate; 1-4, clearing the impurity shaft; 2-1, removing impurities; 2-2, a transmission pipe; 2-3, removing impurity shells; 2-4, a sedimentation tube; 2-5, centrifuging the plate; 2-6, centrifuging blocks; 3-1, a vertical plate; 3-2, separating plate; 3-3, a power wheel; 3-4, feeding hopper; 4-1, a casing; 4-2, an inner shell; 4-3, a bearing plate; 4-4, heating the shell.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: the utility model provides an environmental protection and energy saving's industrial waste effluent treatment plant, this effluent treatment plant includes the miscellaneous case 1 floats, edulcoration case 2, the sedimentation tank 3, sterilization case 4, the sterilization case 4 of fixed mounting in the left side of sedimentation tank 3, the edulcoration case 1 is installed in the left side of sedimentation tank 3 up end, edulcoration case 2 is installed on the right side, edulcoration case 2 left end and the miscellaneous case 1 pipe connection of superficial, edulcoration case 2 lower extreme and sedimentation case 3 pipe connection, the light rubbish on the surface of the conflagration case 1 makes waste water separates with waste water through buoyancy, the little industrial rubbish of edulcoration case 2 makes through centrifugal force separation with waste water, sterilization case 4 utilizes the magnetocaloric effect to carry out the high temperature sterilization to waste water.

The left side of the floating impurity box 1 is welded with a water inlet pipe, the positions of the water inlet pipe and the inside of the floating impurity box 1, which are opposite to the water inlet pipe, are arc-shaped end surfaces, a shrinkage plate 1-1 is fixed on the left side of the inside of the floating impurity box 1 in the vertical direction, a supporting plate 1-3 is welded below the shrinkage plate 1-1, the floating impurity box 1 is provided with a transmission port at the position above the supporting plate 1-3 and below the shrinkage plate 1-1, the shrinkage plate 1-1 is arc-shaped, a guide plate is welded above the shrinkage plate 1-1, the guide plate is welded with the shrinkage plate 1-1, a plurality of groups of impurity removing holes are processed on the shrinkage plate 1-1 in the vertical direction, a impurity removing shell 1-2 is arranged on the right side of the floating impurity box 1, and a garbage disposal device is connected on the right side of the impurity removing shell 1-2;

the right side of the impurity floating box 1 is welded with an impurity removing shell 1-2, an impurity removing opening is processed at the position of the impurity floating box 1 corresponding to the impurity removing box 1-2, an impurity removing shaft 1-4 is rotatably arranged in the impurity removing shell 1-2, a first motor is arranged at the position of the outer side of the impurity removing shell 1-2 corresponding to the impurity removing shaft 1-4, the first motor provides rotating power for the impurity removing shaft 1-4, three groups of cleaning plates are welded on the impurity removing shaft 1-4 and are rotatably connected with the impurity floating box 1, and an outlet of the impurity removing shell 1-2 is communicated with a garbage treatment device.

The inside rotation of edulcoration case 2 installs edulcoration axle 2-1, and the second motor is installed to the position that the edulcoration case 2 outside corresponds edulcoration axle 2-1, the second motor provides rotation power for edulcoration axle 2-1, transmission pipe 2-2 has been welded on edulcoration case 2 left side, the other end and the transmission mouth pipe connection of transmission pipe 2-2, the right side welding of edulcoration case 2 has trash can 2-3, the processing of edulcoration case 2 and trash can 2-3 contact have the trash outlet, the processing trash can pass through the groove in trash can 2-3, trash can 2-3's export and garbage disposal device pipe connection.

Six groups of centrifugal plates 2-5 are welded on the impurity removal shaft 2-1, one end of each six groups of centrifugal plates 2-5, which is close to the impurity removal box 2, is arc-shaped, one end of each six groups of centrifugal plates 2-5, which is close to the impurity removal shaft 2-1, is trapezoid, a plurality of groups of water filtering holes are processed on each six groups of centrifugal plates 2-5, each six groups of centrifugal plates 2-5 comprises a centrifugal surface and a water storage surface, the centrifugal surface is a convex surface, the water storage surface is a concave surface, and centrifugal blocks 2-6 are welded on one end of each six groups of centrifugal plates 2-5, which is close to the impurity removal box 2, on the water storage surface.

The six groups of centrifugal blocks 2-6 are provided with a concave arc-shaped end face at one end close to the water storage surface, and a plurality of groups of water filtering holes are processed on the six groups of centrifugal blocks 2-6.

The lower extreme welding of edulcoration case 2 has sedimentation tube 2-4, the left end processing of sedimentation tank 3 up end has the deposit mouth, the other end and the deposit mouth welding of sedimentation tube 2-4, the right side that is located the deposit mouth inside sedimentation tank 3 has riser 3-1 to riser 3-1 right side welding division board 3-2, division board 3-2 and the inner wall welding of edulcoration case 2, the position rotation that sedimentation tank 3 left end is located the deposit mouth below installs power wheel 3-3, and sedimentation tank 3 is located the power wheel 3-3 outside and is fixed with feeder hopper 3-4, power wheel 3-3 and feeder hopper 3-4 rotate and are connected, power wheel 3-3 is installed on edulcoration case 2 through the installation axle, and the other end protrusion edulcoration case 2 of installation axle installs the gear.

Further optimizing scheme, the sedimentation tank 3 top still is provided with the flocculant bin, and the bin passes through the screw rod release flocculant, and the lower extreme of screw rod passes through the gear and rotates with the installation axle to be connected, installs the discharge gate on the bin, and the discharge gate is located feeder hopper 3-4 top.

A sterilizing port is processed at the position of the sedimentation tank 3 above the partition plate 3-2; the sterilization box 4 is connected with the sterilization port through a pipeline, the sterilization box 4 comprises a casing 4-1 and an inner casing 4-2, the inner casing 4-2 is rotatably arranged in the casing 4-1, a heating space is formed between the casing 4-1 and the inner casing 4-2, a plurality of groups of bearing plates 4-3 are welded inside the inner casing 4-2, the inside of the plurality of groups of bearing plates 4-3 is hollow, and the plurality of groups of bearing plates 4-3 are communicated with the heating space.

The bearing plates 4-3 are obliquely arranged on the inner shell 4-2, three groups of heating shells 4-4 are welded on the outer side of the inner shell 4-2, the three groups of heating shells 4-4 are rotationally connected with the outer shell 4-1, the three groups of heating shells 4-4 are C-shaped shells, the end faces of the groups of heating shells 4-4, which are in contact with the outer shell 4-1, are magnetic embedding end faces, the inner end faces of the outer shell 4-1 are magnetic embedding end faces, and the groups of heating shells 4-4 and the outer shell 4-1 generate heat through friction.

The working principle of the invention is as follows:

waste water with garbage discharged from a factory enters the floating trash box 1 through a water inlet pipe, the waste water entering the floating trash box 1 contacts with an arc-shaped end face at the bottom of the floating trash box 1, and rushes into the floating trash box 1 under the flow guide of the arc-shaped section, the waste water with garbage moves to an expanding part, due to expansion of space, the waste water slowly rises in the floating trash box 1, garbage in the waste water floats to the surface of the waste water, along with continuous rising of the water level of the waste water, the garbage is extruded by a shrinkage plate 1-1 of a shrinkage part and is continuously piled up, finally enters a trash cleaning shell 1-2 through a trash cleaning opening under the buoyancy of the waste water, and a first motor drives a trash cleaning shaft 1-4 to rotate in the trash cleaning shell 1-2 and conveys the garbage, so that the garbage enters a garbage treatment device.

The waste water of the middle expansion part of the floating impurity box 1 enters the impurity removing box 2 through the impurity removing holes and the conveying pipes 2-2, the impurity removing shaft 2-1 is driven by the second motor to rotate in the impurity removing box 2, the centrifugal plate 2-5 rotates in the impurity removing box 2 under the driving of the impurity removing shaft 2-1, the centrifugal plate 2-5 blocks the waste water conveyed by the conveying pipes, the centrifugal plate 2-5 blocks the waste in the waste water, the waste water enters the settling box 3 through the filtering water holes and the settling pipes 2-4, the waste stored by the centrifugal plate 2-5 through the centrifugal block 2-6 falls on the centrifugal surface of the next group of centrifugal plate 2-5 when the impurity removing shaft 2-1 rotates, the waste is thrown into the impurity removing shell 2-3 under the action of centrifugal force when passing through the position of the impurity removing port under the driving of the centrifugal plate 2-5, and the waste enters the waste treatment device through the impurity removing through groove.

When wastewater enters the settling tank 3, the wastewater impacts the power wheel 3-3, so that the power wheel 3-3 rotates under the impact of water, flocculant in the flocculant storage tank enters the feed hopper 3-4 through a screw rod, the power wheel 3-3 transmits the flocculant in the feed hopper 3-4, so that the flocculant contacts with the wastewater, impurities in the wastewater are settled in the settling tank 3, and purified water enters the sterilization tank 4 through a sterilization opening and a pipeline.

After water enters the sterilization box 4, the water impacts the bearing plate 4-3, the bearing plate 4-3 drives the inner shell 4-2 to rotate in the shell 4-1 under the impact of the water, the heating shell 4-4 is driven by the inner shell 4-2 to generate friction heat with the shell 4-1, heated air in the heating space enters the bearing plate 4-3, the bearing plate 4-3 heats the wastewater, bacteria in the water are killed through high temperature, and the sterilized water is discharged out of the sterilization box 4.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. An environmental protection and energy saving's industrial waste water treatment device which characterized in that: the waste water treatment device comprises a floating impurity box (1), a impurity removing box (2), a settling box (3) and a sterilizing box (4), wherein the sterilizing box (4) is arranged on one side of the settling box (3), the floating impurity box (1) and the impurity removing box (2) are arranged above the settling box (3), one end of the impurity removing box (2) is connected with the floating impurity box (1) through a pipeline, the lower end of the impurity removing box (2) is connected with the settling box (3) through a pipeline, the light garbage on the surface of waste water is separated from the waste water through buoyancy by the floating impurity box (1), the small industrial garbage is separated from the waste water through centrifugal force by the impurity removing box (2), and the sterilizing box (4) performs high-temperature sterilization on the waste water through a magnetocaloric effect;

the garbage collection device is characterized in that a shrinkage plate (1-1) is arranged inside the impurity floating box (1), a impurity removing shell (1-2) is arranged on one side, away from the shrinkage plate (1-1), of the outer side of the impurity floating box (1), and a garbage treatment device is arranged on one side, away from the impurity floating box (1), of the impurity removing shell (1-2); the novel garbage disposal device is characterized in that a impurity removal shaft (2-1) is arranged inside the impurity removal box (2), one end of the impurity removal box (2) is provided with a transmission pipe (2-2), the other end of the transmission pipe (2-2) is connected with the floating impurity box (1) through a pipeline, the other side of the impurity removal box (2) is provided with an impurity removal shell (2-3), the impurity removal shell (2-3) is connected with a garbage disposal device through a pipeline, the lower end of the impurity removal box (2) is provided with a sedimentation pipe (2-4), and the other end of the sedimentation pipe (2-4) is connected with the sedimentation box (3) through a pipeline;

the device is characterized in that a water inlet pipe is arranged on the outer side of one end, close to the shrinkage plate (1-1), of the floating impurity box (1), the position, opposite to the water inlet pipe, of the inside of the floating impurity box (1) is an arc-shaped end face, a supporting plate (1-3) is arranged below the shrinkage plate (1-1) in the floating impurity box (1), transmission ports are formed in the positions, above the supporting plate (1-3) and below the shrinkage plate (1-1), of the floating impurity box (1), the transmission ports are connected with a transmission pipe (2-2) in a pipeline mode, the shrinkage plate (1-1) is arc-shaped, and a plurality of groups of impurity removing holes are formed in the shrinkage plate (1-1) in the vertical direction;

the impurity removing device is characterized in that an impurity removing opening is formed in the upper end, close to one end of the impurity removing shell (1-2), of the impurity removing box (1), an impurity removing shaft (1-4) is arranged in the impurity removing shell (1-2), at least two groups of cleaning plates are arranged on the impurity removing shaft (1-4), and at least two groups of cleaning plates are rotationally connected with the impurity removing box (1); at least two groups of centrifugal plates (2-5) are arranged on the impurity removal shaft (2-1), one end, close to the impurity removal box (2), of each centrifugal plate (2-5) is arc-shaped, and at least two groups of centrifugal plates (2-5) are rotationally connected with the impurity removal box (2);

the sedimentation tank is characterized in that a sedimentation port is formed in the upper end of the sedimentation tank (3), the sedimentation pipe (2-4) is connected with the sedimentation port through a pipeline, a vertical plate (3-1) is arranged at the position, close to the sedimentation port, of the sedimentation tank (3), a partition plate (3-2) is arranged on one side, far away from the sedimentation port, of the vertical plate (3-1), a power wheel (3-3) is arranged at the position, located below the sedimentation port, of one end of the sedimentation tank (3), a feed hopper (3-4) is arranged on the outer side of the power wheel (3-3), and the power wheel (3-3) is connected with the feed hopper (3-4) in a rotating mode.

A sterilizing port is arranged at the position of the sedimentation tank (3) above the partition plate (3-2); the sterilizing box (4) is connected with the sterilizing port pipeline, the sterilizing box (4) comprises a casing (4-1) and an inner casing (4-2), the casing (4-1) is rotationally connected with the inner casing (4-2), a heating space is formed between the casing (4-1) and the inner casing (4-2), and a plurality of groups of bearing plates (4-3) are arranged inside the inner casing (4-2);

at least two groups of centrifugal plates (2-5) are trapezoidal at one end close to the impurity removal shaft (2-1), a plurality of groups of water filtering holes are formed in the at least two groups of centrifugal plates (2-5), the at least two groups of centrifugal plates (2-5) comprise a centrifugal surface and a water storage surface, the centrifugal surface is a convex surface, the water storage surface is a concave surface, and centrifugal blocks (2-6) are arranged at one end, close to the impurity removal box (2), of the water storage surface, of the at least two groups of centrifugal plates (2-5);

at least two groups of centrifugal blocks (2-6) are provided with a plurality of groups of water filtering holes on the arc-shaped end face of the recess at one end of the centrifugal blocks (2-6) close to the water storage surface; a impurity removing port is arranged at the contact position of the impurity removing box (2) and the impurity removing shell (2-3), and an impurity removing through groove is arranged in the impurity removing shell (2-3);

a flocculating agent storage box is further arranged above the sedimentation box (3), the flocculating agent is released by the storage box through a screw, the lower end of the screw is rotationally connected with the installation shaft through a gear, a discharge hole is arranged on the storage box, and the discharge hole is positioned above the feed hopper (3-4); the speed of the rotation of the power wheel is controlled by the flow speed of the wastewater, the throwing of the flocculant is controlled by the rotation speed of the power wheel, when the wastewater amount is small, the power wheel rotates slowly, the throwing amount of the flocculant is reduced, and when the wastewater amount is large, the power wheel rotates quickly, and the flocculant is thrown more.

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