CN111330484A

CN111330484A - Industrial wastewater purification treatment process

Info

Publication number: CN111330484A
Application number: CN202010171047.XA
Authority: CN
Inventors: 丁佐琳
Original assignee: Individual
Current assignee: Shandong Benyuan Environmental Technology Co ltd
Priority date: 2020-03-12
Filing date: 2020-03-12
Publication date: 2020-06-26
Anticipated expiration: 2040-03-12
Also published as: CN111330484B

Abstract

The invention provides an industrial wastewater purification treatment process, which is implemented by matching a frame body group, a sealing cover, a pushing device, a stirring device, a storage frame, a pushing cavity and an extrusion annular groove.

Description

Industrial wastewater purification treatment process

Technical Field

The invention relates to the field of industrial wastewater treatment, in particular to an industrial wastewater purification treatment process.

Background

With the development, more and more industries are started to be developed, but in industrial production, certain waste materials are generated, wherein industrial waste water is the most discharged one, the industrial waste water can cause the damage of soil and water sources, and food obtained by planting on polluted soil and water sources can cause certain harm to human bodies, so that the industrial waste water needs to be treated to be discharged to the outside.

Conventional sewage treatment usually sprays the agent from above the sewage in stirring the sewage, however, this approach suffers from some problems:

because the medicament is spilled from the sewage top, the area of spilling is comparatively concentrated, and it needs certain time to sink, and current agitated vessel adopts ordinary (mixing) shaft to stir sewage, medicament more and mixes for the homogeneous mixing of medicament and each position of sewage needs certain time, leads to whole reaction time longer, and then has reduced the purification efficiency of waste water.

Disclosure of Invention

In order to solve the problems, the invention provides an industrial wastewater purification treatment process, which can solve the problems that a certain time is needed for the reagent to be sprayed into a concentrated area and sink due to the fact that the reagent is sprayed from the upper side of the sewage, and the existing stirring equipment mostly adopts a common stirring shaft to stir and mix the sewage and the reagent, so that the reagent and each position of the sewage need a certain time for uniform mixing, the whole reaction time is longer, and the wastewater purification efficiency is further reduced.

In order to achieve the above object, the present invention adopts the following technical solution, and a process for purifying industrial wastewater uses a mixing and stirring device, the mixing and stirring device includes a frame body group, a sealing cover, a pushing and jetting device, a stirring device, a storage frame, a pushing and jetting cavity, and an extrusion annular groove, and the process for purifying industrial wastewater using the above mixing and stirring device comprises:

s1, feeding: after the medicament is conveyed into the storage frame, injecting sewage into the frame body from the feed inlet;

s2, stirring: the rotating cover is driven to rotate by the motor, so that the stirring paddle is driven to stir the sewage, the medicament in the storage frame is extruded from the working tank and injected into the sewage in an extrusion injection mode while stirring, and then is mixed and stirred with the sewage, and meanwhile, the circulating air blowing mechanism is in extrusion fit with the extrusion annular groove to circularly blow the mixed liquid;

s3, conveying: after stirring treatment, connecting the conveying frame with an external conveying pipe, driving the blocking plate to descend through the blocking cylinder, conveying the treated sewage to the next link through the external conveying pipe after passing through the conveying frame, and screening and retaining the screened impurities at the bottom end of the frame body;

s4, cleaning: after all the sewage is treated, the inside of the frame body is washed by clean water.

The upper end of the frame body group is provided with a sealing cover, ejection cavities are uniformly formed in the sealing cover along the circumferential direction of the sealing cover, each ejection cavity is internally provided with an ejection device, the middle part of the sealing cover is provided with a stirring device, the upper end of the sealing cover is uniformly provided with a storage frame along the circumferential direction of the sealing cover, the lower end of the sealing cover is provided with an extrusion annular groove, and the extrusion annular groove is of an annular wave structure;

the framework group including the framework, the work groove, jam mechanism, carry the frame, block up the cylinder, jam plate and feed inlet, evenly seted up the work groove along its circumference in the framework, work the upper end in groove and push away and penetrate for the relation of intercommunication between the chamber, the medicament can be left in the work groove, every work inslot all is equipped with a jam mechanism, carry the frame is installed to the lower extreme of framework, the middle part lower extreme of framework is installed and is blockked up the cylinder, the jam plate is installed to the ejecting end that blocks up the cylinder, the jam plate is located carries the frame, the feed inlet has been seted up to the rear end upper side of framework, block up the sealing member in the feed inlet, the setting of framework group plays the effect of placing to the sewage in the stirring, can filter and arrange the delivery to the sewage after handling simultaneously.

The push-shooting device comprises a push-shooting block, a built-in spring, a telescopic pipe and an extrusion block, the push-shooting block is located in a push-shooting cavity, the built-in spring is connected between the push-shooting block and the push-shooting cavity, the telescopic pipe wraps the outside of the built-in spring, the extrusion block is installed on the inner end face of the push-shooting block, and the inner end face of the extrusion block is of a concave arc structure.

Agitating unit include the motor, rotate the lid, the air current chamber, circulation air compressing mechanism, the rotary column, the cavity, the stirring rake, extrusion post and semicircle piece, the motor passes through pedestal mounting and covers at sealed, install the rotation lid on the output shaft of motor, it is connected with sealed lid through sliding fit's mode to rotate the lid, the air current chamber has been seted up to the inside of rotating the lid, the left end and the circulation air compressing mechanism in air current chamber are connected, the middle part of rotating the lid is connected with the rotary column, the lower extreme of rotary column passes through the bearing and is connected with the framework, the cavity has been seted up to the inside of rotary column, the cavity is the intercommunication relation with the air current chamber, the stirring rake is evenly installed to the outer end of rotary column, the edge of rotating the lid evenly is equipped with the semicircle piece along its circumference, the lower.

During specific work, it rotates to drive through the motor and rotate the lid, thereby it stirs sewage to drive the stirring rake, in the time of stirring, it drives the extrusion post to rotate the lid, semicircle piece synchronous rotation, when the extrusion post will extrude the frame inwards when extruding, make the separation of jam head and spheroid inslot end, at this moment, the semicircle piece of pivoted state will push away the outside extrusion of shooting piece in step, thereby the syringe principle has been simulated and medicament is poured into the sewage of stirring from the export of spheroid inslot end, the extrusion post, semicircle piece continues atress and rotates the back, thereby the extrusion frame resets jam inslot end, it resets to push away the shooting piece, the medicament will work the inslot and fill again.

The bottom of framework the embedding have two screening boards, the upper end of jam board evenly is equipped with the jam post, and blocks up the post and be located the aperture of screening board.

The working groove comprises a ball body groove, a connecting groove, a screening plate, a blocking block and a screening net, the ball body groove and the connecting groove are connected in series in a staggered mode, the outer end of the ball body groove is connected with the blocking block in a matched mode through threads, the inner end of the ball body groove is provided with the screening net, and the upper end and the lower end of the connecting groove are provided with the screening plate.

Wherein, the jam mechanism include extrusion frame, choke plug, telescopic link and protective sheath, the choke plug is installed to the outer end of extrusion frame, and the choke plug is located the inner in spheroid groove, and the two is connected for the embedding, even has the telescopic link between extrusion frame and the framework inner wall, and the outside parcel of telescopic link has the protective sheath.

The circulating air compressing mechanism comprises an air compressing sleeve, a sliding plate and a sliding block, the sliding plate is connected with the left end of the air flow cavity through the air compressing sleeve, the lower end of the sliding plate is connected with the rotating cover in a sliding fit mode, the sliding block is installed at the upper end of the moving plate, and the sliding block is connected with the extrusion annular groove in a sliding fit mode.

The lower end of the cavity is of a cross-shaped multi-through hole structure, and the whole stirring paddle is spirally arranged.

The storage frame comprises a liquid storage frame, a gravity plate and a pull rope, the lower end of the liquid storage frame is communicated with the upper end of the injection cavity, the gravity plate is arranged inside the liquid storage frame, and the gravity plate is connected with the pull rope.

The invention has the beneficial effects that:

according to the industrial wastewater purification treatment process, the dissolution rate of the medicament and the wastewater is accelerated by intermittently extruding and injecting the interior of the wastewater, the injected medicament is dissolved from the periphery to the middle part by adopting the spiral stirring shaft, and the fluidity of the wastewater is accelerated by adopting a circular blowing mode, so that the stirring is facilitated;

the invention provides a process for purifying and treating industrial wastewater, wherein a pushing and injecting device injects a medicament into the wastewater intermittently in a linkage type extrusion mode, and the internal direct injection mode accelerates the fusion rate;

thirdly, according to the industrial wastewater purification treatment process provided by the invention, the stirring device provided by the invention adopts a spiral stirring paddle to enable the injected medicament to flow from the periphery to the middle part, and meanwhile, the annular groove is extruded to drive the sliding plate to move inside and outside, so that air is compressed, and then air is blown into the sewage, and the flow rate of the sewage is accelerated.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of industrial wastewater purification treatment;

FIG. 2 is an overall cross-sectional view of the present invention;

FIG. 3 is a top plan view of the frame assembly of the present invention;

FIG. 4 is a schematic view of the seal cap, the ejection chamber and the annular extrusion groove of the present invention;

FIG. 5 is a schematic view of the structure of the stirring apparatus of the present invention (except for the motor);

FIG. 6 is an enlarged view of the invention in section X of FIG. 2;

fig. 7 is a Y-direction partial enlarged view of fig. 2 of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 7, a process for purifying industrial wastewater uses a mixing and stirring apparatus, which includes a frame assembly 1, a sealing cover 2, a injecting device 3, a stirring device 4, a storage frame 5, an injecting cavity 6 and an extruding annular groove 7, and the process for purifying industrial wastewater using the mixing and stirring apparatus is as follows:

s1, feeding: after the medicament is conveyed into the storage frame 5, sewage is injected into the frame body 11 from the feed inlet 17;

s2, stirring: the motor 41 drives the rotating cover 42 to rotate, so that the stirring paddle 47 is driven to stir the sewage, the medicament in the storage frame 5 is extruded from the working tank 12 and injected into the sewage in an extrusion injection mode while stirring, and then is mixed and stirred with the sewage, and meanwhile, the mixed liquid is subjected to circulating air blowing through the extrusion matching of the circulating air compressing mechanism 44 and the extrusion annular groove 7;

s3, conveying: after stirring treatment, the conveying frame 14 is connected with an external conveying pipe, the blocking cylinder 15 drives the blocking plate 16 to descend, the treated sewage passes through the conveying frame 14 and then is conveyed to the next link through the external conveying pipe, and the screened impurities are screened and retained at the bottom end of the frame body 11;

s4, cleaning: after all the sewage is treated, the inside of the frame body 11 is washed by clean water.

The upper end of the frame body group 1 is provided with a sealing cover 2, ejection cavities 6 are uniformly formed in the sealing cover 2 along the circumferential direction of the sealing cover, each ejection cavity 6 is internally provided with an ejection device 3, the middle part of the sealing cover 2 is provided with a stirring device 4, the upper end of the sealing cover 2 is uniformly provided with a storage frame 5 along the circumferential direction of the sealing cover, the lower end of the sealing cover 2 is provided with an extrusion annular groove 7, and the extrusion annular groove 7 is of an annular wave structure;

frame group 1 include frame 11, work groove 12, blocking mechanism 13, carry frame 14, block up cylinder 15, jam plate 16 and feed inlet 17, work groove 12 has evenly been seted up along its circumference on the frame 11, be the intercommunication relation between the upper end of work groove 12 and the propelling movement chamber 6, the medicament can be left in the work groove 12, every work inslot 12 all is equipped with a blocking mechanism 13, carry frame 14 is installed to the lower extreme of frame 11, block up cylinder 15 is installed to the middle part lower extreme of frame 11, block up the ejecting end of cylinder 15 and install jam plate 16, jam plate 16 is located carries frame 14, feed inlet 17 has been seted up to the rear end upside of frame 11, block up the sealing member in feed inlet 17, frame group 1's setting plays the effect of placing to the sewage in the stirring, can filter and arrange the sewage after handling simultaneously.

The injection device 3 comprises an injection block 31, a built-in spring 32, an extension tube 33 and an extrusion block 34, the injection block 31 is located in the injection cavity 6, the built-in spring 32 is connected between the injection block 31 and the injection cavity 6, the extension tube 33 is wrapped outside the built-in spring 32, the extrusion block 34 is installed on the inner end surface of the injection block 31, and the inner end surface of the extrusion block 34 is of a concave arc structure.

The stirring device 4 comprises a motor 41, a rotating cover 42, an airflow cavity 43, a circulating air-compressing mechanism 44, a rotating column 45, a cavity 46, a stirring paddle 47, an extrusion column 48 and a semicircular block 49, motor 41 passes through the pedestal mounting on sealed lid 2, install on motor 41's the output shaft and rotate lid 42, it is connected with sealed lid 2 through sliding fit's mode to rotate lid 42, airflow chamber 43 has been seted up to the inside of rotating lid 42, airflow chamber 43's left end and circulation air compressor mechanism 44 are connected, the middle part of rotating lid 42 is connected with rotary column 45, rotary column 45's lower extreme passes through the bearing and is connected with framework 11, cavity 46 has been seted up to rotary column 45's inside, cavity 46 and airflow chamber 43 are the intercommunication relation, stirring rake 47 is evenly installed to rotary column 45's outer end, the edge of rotating lid 42 evenly is equipped with semicircle piece 49 along its circumference, the lower extreme outside of rotating lid 42 evenly is equipped with extrusion column 48 along its circumference.

During specific work, it rotates to drive through motor 41 and rotates lid 42, thereby drive stirring rake 47 and stir sewage, in the stirring, it drives extrusion post 48 to rotate lid 42, semicircle piece 49 rotates in step, when extrusion post 48 extrudees the frame 131 inwards, make the inner separation of plugging head 132 and spheroid groove 121, at this moment, the semicircle piece 49 of pivoted state is synchronous will push away and penetrate piece 31 outwards extrusion, thereby the syringe principle has been simulated and medicament is injected into the sewage of stirring from the inner export of spheroid groove 121, extrusion post 48, semicircle piece 49 continues the atress and rotates the back, thereby it is inner that extrusion frame 131 resets plugging body groove 121, it resets to push away and penetrates piece 31, the medicament is refilled in with work groove 12.

The bottom embedding of framework 11 have two screening boards, the upper end of jam board 16 evenly is equipped with the jam post, and blocks up the post and be located the aperture of screening board, the setting of jam post plays the effect of jam to the aperture of screening board, during concrete work, drives jam board 16 through blockking up cylinder 15 and descends, sewage after the processing flows away from the screening board, impurity is detained by the screening board screening, takes out the whole clearance with impurity of screening board again.

Work groove 12 include spheroid groove 121, the connecting groove 122, the screening plate 123, block up piece 124 and screening net 125, be the alternating expression series connection between spheroid groove 121 and the connecting groove 122, the outer end of spheroid groove 121 is connected with stifled jam 124 through screw-thread fit, the inner of spheroid groove 121 is equipped with screening net 125, (soluble filter particle can have been placed in spheroid groove 121, personnel's accessible is opened stifled jam 124 and is put into spheroid groove 121 with soluble filter particle), the upper and lower both ends of connecting groove 122 are equipped with the screening plate 123, the setting of screening net 125 prevents that soluble filter particle from drunkenness at will.

Blocking mechanism 13 include extrusion frame 131, blocking head 132, telescopic link 133 and protective sheath 134, blocking head 132 is installed to the outer end of extrusion frame 131, blocking head 132 is located the inner of spheroid groove 121, and the two is connected for the embedding, even has telescopic link 133 between extrusion frame 131 and the framework 11 inner wall, and the outside parcel of telescopic link 133 has protective sheath 134, protective sheath 134 plays the effect of outside protection to telescopic link 133, prevents the sewage infiltration.

The circulating air-compressing mechanism 44 comprises an air-compressing sleeve 441, a sliding plate 442 and a sliding block 443, the sliding plate 442 is connected with the left end of the air flow cavity 43 through the air-compressing sleeve 441, the lower end of the sliding plate 442 is connected with the rotating cover 42 in a sliding fit manner, the sliding block 443 is installed at the upper end of the moving plate 442, the sliding block 443 is connected with the extrusion annular groove 7 in a sliding fit manner, during specific work, the rotating cover 42 in a rotating state drives the circulating air-compressing mechanism 44 to rotate, the sliding plate 442 irregularly moves inside and outside under the sliding extrusion of the extrusion annular groove 7, so that the air is pressed into sewage from the cavity 46, the air is injected into the sewage, the flow of water flow is facilitated, and the stirring efficiency of the medicament.

The lower end of the cavity 46 is of a cross-shaped multi-through hole structure, the multi-port arrangement ensures the blowing frequency of gas, and the stirring paddle 47 is integrally arranged in a spiral manner, so that the efficiency of flowing of peripheral medicaments to the middle is improved.

Storage frame 5 include stock solution frame 51, gravity board 52 and stay cord 53, the lower extreme of stock solution frame 51 with push away to penetrate the 6 upper ends in chamber and be the connectivity, the inside of stock solution frame 51 is equipped with gravity board 52, gravity board 52 is connected with stay cord 53, concrete during operation, through stay cord 53 with gravity board 52 upwards pull-up, pour into stock solution frame 51 with the medicament into, at this moment, the medicament is located the below of gravity board 52, there is pressure all the time above the medicament in the setting of gravity board 52, do benefit to the transport of medicament.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an industrial waste water purification treatment process, its used one kind and mixed agitated vessel, this mixed agitated vessel include framework group (1), sealed lid (2), push away and penetrate device (3), agitating unit (4), store frame (5), push away and penetrate chamber (6) and extrusion annular groove (7), its characterized in that: the treatment process for purifying the industrial wastewater by adopting the mixing and stirring equipment comprises the following steps:

s1, feeding: after the medicament is conveyed into the storage frame (5), sewage is injected into the frame body (11) from the feed inlet (17);

s2, stirring: the motor (41) drives the rotating cover (42) to rotate, so that the stirring paddle (47) is driven to stir the sewage, the medicament in the storage frame (5) is extruded from the working tank (12) and injected into the sewage in an extrusion injection mode while stirring, and then is mixed and stirred with the sewage, and meanwhile, the circulating air-compressing mechanism (44) is in extrusion fit with the extrusion annular groove (7) to circularly blow the mixed liquid;

s3, conveying: after stirring treatment, the conveying frame (14) is connected with an external conveying pipe, a blocking cylinder (15) drives a blocking plate (16) to descend, the treated sewage passes through the conveying frame (14) and then is conveyed to the next link through the external conveying pipe, and the screened impurities are screened and retained at the bottom end of the frame body (11);

s4, cleaning: after all the sewage is treated, the inside of the frame body (11) is washed by clear water;

the upper end of the frame body group (1) is provided with a sealing cover (2), ejection cavities (6) are uniformly formed in the sealing cover (2) along the circumferential direction of the sealing cover, each ejection cavity (6) is internally provided with an ejection device (3), the middle part of the sealing cover (2) is provided with a stirring device (4), the upper end of the sealing cover (2) is uniformly provided with a storage frame (5) along the circumferential direction of the sealing cover, the lower end of the sealing cover (2) is provided with an extrusion annular groove (7), and the extrusion annular groove (7) is of an annular wave structure;

the frame body group (1) comprises a frame body (11), working grooves (12), a blocking mechanism (13), a conveying frame (14), a blocking cylinder (15), a blocking plate (16) and a feeding hole (17), wherein the working grooves (12) are uniformly formed in the frame body (11) along the circumferential direction of the frame body, the upper end of each working groove (12) is communicated with the corresponding ejection cavity (6), each blocking mechanism (13) is arranged in each working groove (12), the conveying frame (14) is installed at the lower end of the frame body (11), the blocking cylinder (15) is installed at the lower end of the middle of the frame body (11), the blocking plate (16) is installed at the ejection end of each blocking cylinder (15), the blocking plate (16) is located in each conveying frame (14), the feeding hole (17) is formed in the upper side of the rear end of the frame body (11), and a sealing element is blocked in the feeding hole (;

the push-shooting device (3) comprises a push-shooting block (31), a built-in spring (32), a telescopic pipe (33) and an extrusion block (34), the push-shooting block (31) is located in a push-shooting cavity (6), the built-in spring (32) is connected between the push-shooting block (31) and the push-shooting cavity (6), the telescopic pipe (33) is wrapped outside the built-in spring (32), the extrusion block (34) is installed on the inner end face of the push-shooting block (31), and the inner end face of the extrusion block (34) is of a concave arc structure;

the stirring device (4) comprises a motor (41), a rotating cover (42), an airflow cavity (43), a circulating air compressing mechanism (44), a rotating column (45), a cavity (46), a stirring paddle (47), an extrusion column (48) and a semicircular block (49), wherein the motor (41) is installed on the sealing cover (2) through a base, the rotating cover (42) is installed on an output shaft of the motor (41), the rotating cover (42) is connected with the sealing cover (2) in a sliding fit mode, the airflow cavity (43) is formed in the rotating cover (42), the left end of the airflow cavity (43) is connected with the circulating air compressing mechanism (44), the rotating column (45) is connected to the middle of the rotating cover (42), the lower end of the rotating column (45) is connected with the frame body (11) through a bearing, the cavity (46) is formed in the rotating column (45), the cavity (46) is communicated with the airflow cavity (43), the stirring paddle (47) is uniformly installed on the rotating column (45), the edge of the rotating cover (42) is uniformly provided with semicircular blocks (49) along the circumferential direction, and the outer side of the lower end of the rotating cover (42) is uniformly provided with extrusion columns (48) along the circumferential direction.

2. The industrial wastewater purification treatment process according to claim 1, characterized in that: the bottom embedding of framework (11) have two screening boards, the upper end of jam board (16) evenly is equipped with the jam post, and blocks up the post and be located the aperture of screening board.

3. The industrial wastewater purification treatment process according to claim 1, characterized in that: work groove (12) including spheroid groove (121), spread groove (122), screening board (123), block up piece (124) and screening net (125), be staggered formula series connection between spheroid groove (121) and spread groove (122), the outer end in spheroid groove (121) is connected with through screw-thread fit and blocks up piece (124), the inner in spheroid groove (121) is equipped with screening net (125), the upper and lower both ends of spread groove (122) are equipped with screening board (123).

4. The industrial wastewater purification treatment process according to claim 1, characterized in that: jam mechanism (13) including extrusion frame (131), plug head (132), telescopic link (133) and protective sheath (134), plug head (132) are installed to the outer end of extrusion frame (131), plug head (132) are located the inner of spheroid groove (121), and the two is connected for the embedding, even have telescopic link (133) between extrusion frame (131) and frame (11) inner wall, and telescopic link (133) outside parcel has protective sheath (134).

5. The industrial wastewater purification treatment process according to claim 1, characterized in that: the circulating air compressing mechanism (44) comprises an air compressing sleeve (441), a sliding plate (442) and a sliding block (443), the sliding plate (442) is connected with the left end of the air flow cavity (43) through the air compressing sleeve (441), the lower end of the sliding plate (442) is connected with the rotating cover (42) in a sliding fit mode, the sliding block (443) is installed at the upper end of the moving plate (442), and the sliding block (443) is connected with the extrusion annular groove (7) in a sliding fit mode.

6. The industrial wastewater purification treatment process according to claim 1, characterized in that: the lower end of the cavity (46) is of a cross-shaped multi-through hole structure, and the whole stirring paddle (47) is spirally arranged.

7. The industrial wastewater purification treatment process according to claim 1, characterized in that: the storage frame (5) comprises a liquid storage frame (51), a gravity plate (52) and a pull rope (53), the lower end of the liquid storage frame (51) is communicated with the upper end of the ejection cavity (6), the gravity plate (52) is arranged inside the liquid storage frame (51), and the gravity plate (52) is connected with the pull rope (53).