CN115159695A - Method for treating sucralose mother liquor wastewater after biodegradation pretreatment - Google Patents

Abstract

The invention discloses a method for treating sucralose mother liquor wastewater after biodegradation pretreatment, which relates to the technical field of chemical production waste treatment, and is realized by using equipment for treating the sucralose mother liquor wastewater after biodegradation pretreatment. The invention can better mix the bacillus flora powder into the domestication water body, can avoid the phenomenon of coating and agglomeration, can prevent the bacillus flora powder from attaching to the inner wall of the reaction kettle, and effectively ensures the wastewater treatment effect.

Description

Method for treating sucralose mother liquor wastewater after biodegradation pretreatment

Technical Field

The invention relates to the technical field of chemical production waste treatment, in particular to a method for treating sucralose mother liquor wastewater after biodegradation pretreatment.

Background

The sucralose mother liquor wastewater is generated by a sucralose process in industrial production, the water quality and components are complex, and the treatment problem of the sucralose mother liquor wastewater becomes important resistance for the production and development of the product due to factors such as stable performance and difficult degradation of pollutants.

The invention patent of patent application publication No. CN 106745805B discloses a treatment method of sucralose mother liquor wastewater after biodegradation pretreatment, which is characterized in that high-density bacillus flora is obtained by separating, purifying and cultivating from soil, and the pretreated sucralose mother liquor wastewater is added for gradual domestication, so that organic pollutants and ammonia nitrogen in the wastewater are effectively decomposed, the water quality is purified, and the discharge water with qualified indexes is obtained.

However, after the practical application of the above treatment method by those skilled in the art, some disadvantages still exist, and it is obvious that when the treatment method is applied to industrial treatment, because the single wastewater treatment capacity is large, the total amount of the bacillus flora powder used at a single time is also large, when wastewater is added into the bacillus flora powder for gradual acclimation, the bacillus flora powder and a small amount of wastewater are mixed to form a coating agglomeration phenomenon easily at the initial stage of wastewater addition, and further to generate agglomerates with different sizes, the agglomerates with smaller particles can be dissolved in the wastewater oscillation process, but the time required for dissolving the agglomerates with larger particles is longer, and the wastewater treatment effect is obviously influenced.

In view of the above problems, the skilled in the art will think of feeding the bacillus flora powder in a dispersed feeding manner, i.e. firstly adding the waste water required for acclimation into the reaction kettle, and then continuously conveying the bacillus flora powder by warm air, so as to gradually dissolve the bacillus flora powder into the waste water body.

But after the secondary application, the phenomenon of coating and clustering of the bacillus flora powder can be avoided, but the bacillus flora powder is directly attached to the inner wall of the reaction kettle due to the driving of warm air, so that the bacillus flora powder cannot be dissolved in the water body and the wastewater treatment effect is influenced.

Therefore, it is necessary to invent a method for treating sucralose mother liquor wastewater after biodegradation pretreatment to solve the above problems.

Disclosure of Invention

The invention aims to provide a method for treating sucralose mother liquor wastewater after biodegradation pretreatment, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a method for treating sucralose mother liquor waste water after biodegradable pretreatment, the method for treating sucralose mother liquor waste water after biodegradable pretreatment is realized using the treatment facility of sucralose mother liquor waste water after biodegradable pretreatment, the treatment facility of sucralose mother liquor waste water after biodegradable pretreatment includes reation kettle, reation kettle inside and reation kettle top are provided with first actuating mechanism jointly, the first actuating mechanism outside is provided with lifting and drop rotating mechanism, first actuating mechanism drives lifting and drop rotating mechanism rotatory, the lifting and drop rotating mechanism outside is provided with the oscillation output mechanism, be provided with warm air feed mechanism jointly on first actuating mechanism and the lifting and drop rotating mechanism, first actuating mechanism bottom is provided with second actuating mechanism, first actuating mechanism drives the reciprocal lift of second actuating mechanism, lifting and drop rotating mechanism and second actuating mechanism drive the rotatory lift of oscillation output mechanism, be provided with two stirring mechanism on the second actuating mechanism.

Preferably, the first driving mechanism comprises a hollow rotating rod, a first gear, a driving motor and a second gear;

hollow bull stick top runs through reation kettle inner chamber top and rotates with hollow bull stick through the bearing to be connected, the fixed cover of first gear connects to be established in hollow bull stick outside top, driving motor is fixed to be set up in reation kettle top right side, the second gear is connected with the driving motor transmission and is engaged with first gear.

Preferably, the lifting and rotating mechanism comprises a sliding chute, a sliding column, a lifting sleeve, a first spring and a fixed lantern ring;

the spout runs through to set up on hollow bull stick, the traveller slides and sets up in the spout inboard, the lift sleeve slides to cup joint and sets up in the spout outside, the traveller both ends all with lift sleeve fixed connection, first spring one end and lift sleeve fixed connection and the other end and fixed lantern ring fixed connection, first spring all slides with the fixed lantern ring and cup joints and set up in the hollow bull stick outside.

Preferably, the second driving mechanism comprises a lifting plate, a connecting rod and a gear ring;

the hollow rotating rod is characterized in that reciprocating threads are arranged at the bottom of the outer side of the hollow rotating rod, the lifting plate is connected with the hollow rotating rod through the reciprocating threads, two connecting rods are arranged and are respectively fixedly arranged on two sides of the top of the lifting plate, and the gear ring is fixedly arranged on the top ends of the two connecting rods.

Preferably, the stirring and uniformly mixing mechanism comprises a threaded sleeve, a threaded shaft, a first stirring plate, a second spring and a second stirring plate;

the fixed nestification of screw sleeve sets up in the lifter plate top, the screw sleeve cup joints to set up in the screw shaft outside and with screw shaft threaded connection, the screw shaft bottom is passed through the bearing and is connected with the reation kettle inner wall rotation, first stirring board, second spring and second stirring board from top to bottom cup joint in proper order and set up in the screw shaft outside, first stirring board and screw shaft fixed connection, second spring and second stirring board all with screw shaft sliding connection, second spring one end and first stirring board fixed connection and the other end and second stirring board fixed connection.

Preferably, the oscillation output mechanism comprises a mounting sleeve ring, a lower trigger block and two groups of output assemblies, each output assembly comprises a rotating column, a third gear and two groups of oscillation assemblies, and each oscillation assembly comprises an oscillation plate, a sliding column, an end plate, an upper trigger block and a third spring;

the installation lantern ring is fixed cup joint and is set up in lifting sleeve outside bottom, the trigger block is provided with two, two down trigger block difference fixed setting in installation lantern ring top both sides, the column spinner passes through the bearing and rotates nested the setting in the lifting sleeve side, the fixed cup joint of third gear is set up in column spinner outside end portion and with the gear ring meshing, the vibration plate is fixed to be set up in the column spinner outside, the slip post is provided with a plurality ofly, and is a plurality of the even slip of slip post is nested to be set up on the vibration plate, and is a plurality of T shape passageway has all been seted up to slip post inboard, the end plate is fixed to be set up in a plurality of slip post tip, on trigger block slip nested set up on the column spinner, and its tip and end plate fixed connection, the third spring is provided with two, third spring one end and column spinner inner wall fixed connection and the other end and end plate fixed connection.

Preferably, the warm air supply mechanism comprises a supply pipe and an L-shaped output pipe;

the feed pipe passes through rotary joint and is connected with hollow bull stick top, L shape output tube is provided with two, two L shape output tube is fixed respectively to run through and sets up in hollow bull stick both sides, and inside its bottom runs through the column spinner top and extends to the column spinner.

Preferably, the method for treating sucralose mother liquor wastewater after biodegradation pretreatment specifically comprises the following steps:

s1, inputting quantitative sucralose mother liquor wastewater into a reaction kettle for domestication, then driving a hollow rotating rod to rotate by a driving motor through a second gear and a first gear, driving two rotating columns to revolve around the hollow rotating rod by a sliding column and a lifting sleeve when the hollow rotating rod rotates, and continuously rotating under the driving of a third gear and a gear ring when the rotating columns revolve around, thereby driving two oscillating plates to revolve around the rotating columns;

s2, driving a lifting plate to repeatedly lift when the hollow rotating rod rotates, driving a gear ring to synchronously lift through a connecting rod when the lifting plate lifts, pushing a rotating column upwards through a third gear when the gear ring lifts, pulling a lifting sleeve downwards through a first spring when the gear ring descends, further enabling the rotating column to slide downwards, revolving two groups of output assemblies taking the hollow rotating rod as an axis, and simultaneously lifting in a reciprocating manner, wherein two groups of oscillating assemblies in any one group of output assemblies continuously revolve taking the rotating column as the axis;

s3, the supply pipe inputs warm air mixed with bacillus flora powder into the hollow rotating rod, then the warm air is input into the rotating column through the L-shaped output pipe, in the continuous rotation process of the rotating column, when any upper trigger block is in contact with the lower trigger block under the driving of the rotating column, the lower trigger block pushes the upper trigger block, the upper trigger block further drives the sliding columns to slide towards the inside of the rotating column through the end plates, at the moment, the warm air in the rotating column enters through the T-shaped channel to drive the bacillus flora powder to enter a wastewater water body, and the wastewater water body is heated;

and S4, continuously oscillating the wastewater water body by the oscillating plate in the subsequent process of being driven to rotate by the rotating column, continuously injecting the bacillus colony powder into the water body, and inputting the sucralose mother liquor wastewater again after the bacillus colony powder is completely injected, so that the sucralose mother liquor wastewater which is subjected to degradation treatment and meets the discharge standard is finally obtained.

The invention has the technical effects and advantages that:

the invention is provided with the first driving mechanism, the lifting and rotating mechanism, the second driving mechanism, the oscillation output mechanism and the warm air supply mechanism, so that the lifting and rotating mechanism and the second driving mechanism are driven by the first driving mechanism, the lifting and rotating mechanism and the second driving mechanism drive the oscillation output mechanism to repeatedly lift and rotate, in addition, warm air mixed with spore bacillus flora powder is continuously input into the oscillation output mechanism through the warm air supply mechanism, and the oscillation output mechanism continuously oscillates the water body while injecting the warm air mixed with the spore bacillus flora powder into the waste water body.

Drawings

Fig. 1 is an overall front sectional structural view of the present invention.

Fig. 2 is a front sectional structural schematic diagram of the first driving mechanism of the present invention.

Fig. 3 is a schematic cross-sectional front view of the lifting/rotating mechanism of the present invention.

FIG. 4 is a schematic front sectional structural view of the second driving mechanism and the stirring and mixing mechanism of the present invention.

Fig. 5 is a front cross-sectional structural schematic diagram of the oscillation output mechanism of the present invention.

In the figure: 1. a reaction kettle; 2. a first drive mechanism; 21. a hollow rotating rod; 22. a first gear; 23. a drive motor; 24. a second gear; 3. a lifting and rotating mechanism; 31. a chute; 32. a traveler; 33. lifting the casing; 34. a first spring; 35. a fixed collar; 4. a second drive mechanism; 41. a lifting plate; 42. a connecting rod; 43. a gear ring; 5. a stirring and uniformly mixing mechanism; 51. a threaded bushing; 52. a threaded shaft; 53. a first stirring plate; 54. a second spring; 55. a second stirring plate; 6. an oscillation output mechanism; 61. mounting a lantern ring; 62. a lower trigger block; 63. a spin column; 64. a third gear; 65. an oscillation plate; 66. a sliding post; 67. an end plate; 68. an upper trigger block; 69. a third spring; 7. a warm air supply mechanism; 71. a feed pipe; 72. an L-shaped output pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The invention provides a method for treating sucralose mother liquor wastewater after biodegradation pretreatment, which is shown in figures 1-5, and is realized by using equipment for treating the sucralose mother liquor wastewater after biodegradation pretreatment, wherein the equipment for treating the sucralose mother liquor wastewater after biodegradation pretreatment comprises a reaction kettle 1, a first driving mechanism 2 is arranged inside the reaction kettle 1 and at the top of the reaction kettle 1 together, a lifting and rotating mechanism 3 is arranged outside the first driving mechanism 2, the lifting and rotating mechanism 3 is driven by the first driving mechanism 2 to rotate, an oscillation output mechanism 6 is arranged outside the lifting and rotating mechanism 3, a warm air feeding mechanism 7 is arranged on the first driving mechanism 2 and the lifting and rotating mechanism 3 together, a second driving mechanism 4 is arranged at the bottom of the first driving mechanism 2, the first driving mechanism 2 drives the second driving mechanism 4 to reciprocate, the lifting and rotating mechanism 3 and the second driving mechanism 4 drive the oscillation output mechanism 6 to rotate and ascend, and descend, and two stirring mechanisms 5 are arranged on the second driving mechanism 4.

As shown in fig. 2, first actuating mechanism 2 includes hollow bull stick 21, first gear 22, driving motor 23 and second gear 24, wherein, hollow bull stick 21 top is run through 1 inner chamber top of reation kettle and is rotated with hollow bull stick 21 through the bearing and be connected, first gear 22 is fixed to be cup jointed and is set up in hollow bull stick 21 outside top, driving motor 23 is fixed to be set up in reation kettle 1 top right side, second gear 24 is connected with driving motor 23 transmission and meshes with first gear 22 to it is rotatory to be convenient for driving motor 23 to drive hollow bull stick 21 through first gear 22 and second gear 24.

As shown in fig. 3, the lifting and rotating mechanism 3 includes a sliding groove 31, a sliding column 32, a lifting sleeve 33, a first spring 34 and a fixing sleeve ring 35, wherein the sliding groove 31 is disposed on the hollow rotating rod 21 in a penetrating manner, the sliding column 32 is disposed inside the sliding groove 31 in a sliding manner, the lifting sleeve 33 is disposed outside the sliding groove 31 in a sliding and sleeving manner, two ends of the sliding column 32 are fixedly connected to the lifting sleeve 33, one end of the first spring 34 is fixedly connected to the lifting sleeve 33 and the other end is fixedly connected to the fixing sleeve ring 35, the first spring 34 and the fixing sleeve ring 35 are disposed outside the hollow rotating rod 21 in a sliding and sleeving manner, so that the lifting sleeve 33 is driven by the sliding column 32 to rotate synchronously when the hollow rotating rod 21 rotates, and the lifting sleeve 33 can lift along the hollow rotating rod 21 in a rotating process.

As shown in fig. 4, the second driving mechanism 4 includes a lifting plate 41, a connecting rod 42 and a gear ring 43, wherein, a reciprocating thread is provided at the bottom of the outer side of the hollow rotating rod 21, the lifting plate 41 is connected with the hollow rotating rod 21 through the reciprocating thread, the connecting rod 42 is provided with two, two connecting rods 42 are respectively fixedly provided at two sides of the top of the lifting plate 41, the gear ring 43 is fixedly provided at the top ends of the two connecting rods 42, so that the lifting plate 41 is driven to repeatedly lift when the hollow rotating rod 21 rotates, and the gear ring 43 is driven to repeatedly lift through the connecting rod 42 when the lifting plate 41 repeatedly lifts.

As shown in fig. 5, the oscillating output mechanism 6 comprises a mounting collar 61, a lower trigger block 62 and two sets of output assemblies, the output assembly comprises a rotating column 63, a third gear 64 and two sets of oscillating assemblies, which comprise an oscillating plate 65, a sliding column 66, an end plate 67, an upper trigger block 68 and a third spring 69, wherein the mounting sleeve ring 61 is fixedly sleeved at the bottom of the outer side of the lifting sleeve 33, two lower trigger blocks 62 are provided, the two lower trigger blocks 62 are respectively and fixedly arranged at two sides of the top of the mounting sleeve ring 61, the rotating column 63 is rotatably nested on the side surface of the lifting sleeve 33 through a bearing, the third gear 64 is fixedly sleeved and arranged at the outer end of the rotating column 63 and is meshed with the gear ring 43, the oscillating plate 65 is fixedly arranged at the outer side of the rotating column 63, a plurality of sliding columns 66 are arranged, a plurality of sliding columns 66 are uniformly nested on the oscillating plate 65 in a sliding manner, T-shaped channels are arranged at the inner sides of the sliding columns 66, the end plate 67 is fixedly arranged at the end of a plurality of sliding columns 66, the upper trigger block 68 is arranged on the rotating column 63 in a sliding nesting mode, and the end part of the third spring 69 is fixedly connected with the end plate 67, two third springs 69 are arranged, one end of each third spring 69 is fixedly connected with the inner wall of the rotating column 63, the other end of each third spring 69 is fixedly connected with the end plate 67, so that the third gear 64 drives the rotary column 63 to rotate under the driving of the gear ring 43, the rotary column 63 drives the two oscillating plates 65 to rotate continuously when rotating, and then the wastewater is oscillated, and simultaneously when the upper trigger block 68 is contacted with the lower trigger block 62, the upper trigger block 68 pulls the plurality of sliding columns 66 through the end plate 67, so that the warm air inside the rotating column 63 enters the wastewater body through the T-shaped channel.

As shown in fig. 2 and 3, the warm air supply mechanism 7 includes a supply pipe 71 and two L-shaped output pipes 72, wherein the supply pipe 71 is connected to the top end of the hollow rotating rod 21 through a rotating joint, the two L-shaped output pipes 72 are provided, the two L-shaped output pipes 72 are respectively and fixedly arranged on two sides of the hollow rotating rod 21, and the bottom ends of the two L-shaped output pipes 72 penetrate through the top of the rotating column 63 and extend into the rotating column 63, so that the supply pipe 71 inputs the warm air mixed with the bacillus flora powder into the hollow rotating rod 21, and then the warm air is input into the rotating column 63 through the L-shaped output pipes 72.

Example 2

Different from the above-mentioned embodiment, stirring mixing mechanism 5 includes threaded sleeve 51, threaded shaft 52, first stirring board 53, second spring 54 and second stirring board 55, wherein, threaded sleeve 51 is fixed nested to be set up at lifter plate 41 top, threaded sleeve 51 cup joints and sets up in the threaded shaft 52 outside and with threaded shaft 52 threaded connection, threaded shaft 52 bottom is passed through the bearing and is connected with reation kettle 1 inner wall rotation, first stirring board 53, second spring 54 and second stirring board 55 cup joint in proper order from top to bottom and set up in the threaded shaft 52 outside, first stirring board 53 and threaded shaft 52 fixed connection, second spring 54 and second stirring board 55 all with threaded shaft 52 sliding connection, second spring 54 one end and first stirring board 53 fixed connection and the other end and second stirring board 55 fixed connection.

Through setting up above-mentioned structure to when the lifter plate 41 reciprocates, drive the reciprocal rotation of threaded shaft 52 through threaded sleeve 51, when second stirring board 55 led to the fact threaded sleeve 51 to block, threaded sleeve 51 promotes second stirring board 55, and then compresses second spring 54 when making second stirring board 55 upwards gliding, and then further stirs the water, makes the more even distribution of bacillus flora powder in the water.

Example 3

The method for treating the sucralose mother liquor wastewater after the biodegradation pretreatment specifically comprises the following steps:

s1, inputting quantitative sucralose mother liquor wastewater into a reaction kettle 1 for domestication, then driving a hollow rotating rod 21 to rotate by a driving motor 23 through a second gear 24 and a first gear 22, driving two rotating columns 63 to revolve around the hollow rotating rod 21 as an axis through a sliding column 32 and a lifting sleeve 33 when the hollow rotating rod 21 rotates, and driving two oscillating plates 65 to revolve around the rotating column 63 as the axis under the driving of a third gear 64 and a gear ring 43 when the rotating columns 63 revolve around;

s2, the hollow rotating rod 21 drives the lifting plate 41 to repeatedly lift when rotating, the lifting plate 41 drives the gear ring 43 to synchronously lift through the connecting rod 42 when lifting, the gear ring 43 pushes the rotating column 63 upwards through the third gear 64 when lifting, the first spring 34 pulls the lifting sleeve 33 downwards when the gear ring 43 descends, and then the rotating column 63 slides downwards, at the moment, the two groups of output assemblies revolve around the hollow rotating rod 21 as an axis and simultaneously lift in a reciprocating manner, and two groups of oscillating assemblies in any one group of output assemblies continuously revolve around the rotating column 63 as an axis;

s3, the feed pipe 71 inputs the warm air mixed with the bacillus flora powder into the hollow rotating rod 21, then the warm air is input into the rotating column 63 through the L-shaped output pipe 72, in the continuous rotation process of the rotating column 63, when any upper trigger block 68 is driven by the rotating column 63 to be in contact with the lower trigger block 62, the lower trigger block 62 pushes the upper trigger block 68, the upper trigger block 68 further drives the sliding columns 66 to slide towards the inside of the rotating column 63 through the end plate 67, at the moment, the warm air in the rotating column 63 enters through the T-shaped channel to drive the bacillus flora powder to enter the wastewater water body, and the wastewater water body is heated;

and S4, continuously oscillating the wastewater water body by the oscillation plate 65 in the process of being driven to rotate by the rotating column 63, continuously injecting bacillus flora powder into the water body, and inputting the sucralose mother liquor wastewater again after the bacillus flora powder is completely injected, so that the sucralose mother liquor wastewater which is subjected to degradation treatment and meets the discharge standard is finally obtained.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. A method for treating sucralose mother liquor wastewater after biodegradation pretreatment is characterized by comprising the following steps: the treatment method of sucralose mother liquor wastewater after biodegradation pretreatment is realized by using treatment equipment of sucralose mother liquor wastewater after biodegradation pretreatment, the treatment equipment of sucralose mother liquor wastewater after biodegradation pretreatment comprises a reaction kettle (1), a first driving mechanism (2) is arranged inside the reaction kettle (1) and at the top of the reaction kettle (1) together, a lifting and rotating mechanism (3) is arranged outside the first driving mechanism (2), the first driving mechanism (2) drives the lifting and rotating mechanism (3) to rotate, an oscillation output mechanism (6) is arranged outside the lifting and rotating mechanism (3), a warm air feeding mechanism (7) is arranged on the first driving mechanism (2) and the lifting and rotating mechanism (3) together, a second driving mechanism (4) is arranged at the bottom of the first driving mechanism (2), the first driving mechanism (2) drives the second driving mechanism (4) to reciprocate, the lifting and rotating mechanism (3) and the second driving mechanism (4) drive the output mechanism (6) to rotate and lift, and two stirring mechanisms (5) are arranged on the second driving mechanism (4).

2. The method for treating sucralose mother liquor wastewater after biodegradation pretreatment according to claim 1, wherein the method comprises the following steps: the first driving mechanism (2) comprises a hollow rotating rod (21), a first gear (22), a driving motor (23) and a second gear (24);

hollow bull stick (21) top is run through reation kettle (1) inner chamber top and is rotated with hollow bull stick (21) through the bearing and be connected, first gear (22) are fixed to be cup jointed and are set up in hollow bull stick (21) outside top, driving motor (23) are fixed to be set up in reation kettle (1) top right side, second gear (24) are connected with driving motor (23) transmission and mesh with first gear (22).

3. The method for treating sucralose mother liquor wastewater after biodegradation pretreatment according to claim 2, wherein the method comprises the following steps: the lifting and rotating mechanism (3) comprises a sliding groove (31), a sliding column (32), a lifting sleeve (33), a first spring (34) and a fixed lantern ring (35);

spout (31) run through to set up on hollow bull stick (21), traveller (32) slide and set up in spout (31) inboardly, lifting sleeve (33) slide to cup joint and set up in spout (31) outside, traveller (32) both ends all with lifting sleeve (33) fixed connection, first spring (34) one end and lifting sleeve (33) fixed connection and the other end and fixed lantern ring (35) fixed connection, first spring (34) all slide with fixed lantern ring (35) and cup joint and set up in hollow bull stick (21) outside.

4. The method for treating sucralose mother liquor wastewater after biodegradation pretreatment according to claim 3, wherein the method comprises the following steps: the second driving mechanism (4) comprises a lifting plate (41), a connecting rod (42) and a gear ring (43);

the hollow rotating rod is characterized in that reciprocating threads are arranged at the bottom of the outer side of the hollow rotating rod (21), the lifting plate (41) is connected with the hollow rotating rod (21) through the reciprocating threads, two connecting rods (42) are arranged on the two sides of the top of the lifting plate (41), the connecting rods (42) are fixedly arranged on the two sides of the top of the lifting plate (41) respectively, and the gear ring (43) is fixedly arranged on the top ends of the two connecting rods (42).

5. The method for treating sucralose mother liquor wastewater after biodegradation pretreatment according to claim 4, wherein the method comprises the following steps: the stirring and uniformly mixing mechanism (5) comprises a threaded sleeve (51), a threaded shaft (52), a first stirring plate (53), a second spring (54) and a second stirring plate (55);

threaded sleeve (51) is fixed nested to be set up in lifter plate (41) top, threaded sleeve (51) cup joints to be set up in the threaded shaft (52) outside and with threaded shaft (52) threaded connection, threaded shaft (52) bottom is passed through the bearing and is connected with reation kettle (1) inner wall rotation, first stirring board (53), second spring (54) and second stirring board (55) cup joint in proper order from top to bottom and set up in the threaded shaft (52) outside, first stirring board (53) and threaded shaft (52) fixed connection, second spring (54) and second stirring board (55) all with threaded shaft (52) sliding connection, second spring (54) one end and first stirring board (53) fixed connection and the other end and second stirring board (55) fixed connection.

6. The method for treating sucralose mother liquor wastewater after biodegradation pretreatment according to claim 5, wherein the method comprises the following steps: the oscillation output mechanism (6) comprises a mounting collar (61), a lower trigger block (62) and two groups of output assemblies, each output assembly comprises a rotating column (63), a third gear (64) and two groups of oscillation assemblies, and each oscillation assembly comprises an oscillation plate (65), a sliding column (66), an end plate (67), an upper trigger block (68) and a third spring (69);

installation lantern ring (61) is fixed cup joints and sets up in lifting sleeve (33) outside bottom, trigger block (62) are provided with two down, two trigger block (62) are fixed respectively and set up in installation lantern ring (61) top both sides down, column spinner (63) rotate nested the setting in lifting sleeve (33) side through the bearing, third gear (64) are fixed cup joints and set up in column spinner (63) outside tip and with gear ring (43) meshing, oscillation plate (65) are fixed to be set up in column spinner (63) outside, sliding column (66) are provided with a plurality ofly, and are a plurality of sliding column (66) evenly slide nested the setting on oscillation plate (65), and are a plurality of T shape passageway has all been seted up to sliding column (66) inboard, end plate (67) are fixed to be set up in a plurality of sliding column (66) tip, it triggers block (68) to slide nested the setting on column spinner (63), and its tip and end plate (67) fixed connection, third spring (69) are provided with two, third spring (69) one end and column spinner inner wall (63) fixed connection and other end plate (67) fixed connection.

7. The method for treating sucralose mother liquor wastewater after biodegradation pretreatment according to claim 6, wherein the method comprises the following steps: the warm air supply mechanism (7) comprises a supply pipe (71) and an L-shaped output pipe (72);

the feeding pipe (71) is connected with the top end of the hollow rotating rod (21) through a rotating joint, two L-shaped output pipes (72) are arranged, the two L-shaped output pipes (72) are respectively and fixedly arranged on two sides of the hollow rotating rod (21) in a penetrating mode, and the bottom end of each L-shaped output pipe penetrates through the top of the rotating column (63) and extends to the inside of the rotating column (63).

8. The method for treating sucralose mother liquor wastewater after biodegradation pretreatment according to claim 7, wherein the method for treating sucralose mother liquor wastewater after biodegradation pretreatment comprises the following steps:

s1, inputting quantitative sucralose mother liquor wastewater into a reaction kettle (1) for domestication, driving a hollow rotating rod (21) to rotate by a driving motor (23) through a second gear (24) and a first gear (22), driving two rotating columns (63) to revolve around the hollow rotating rod (21) by a sliding column (32) and a lifting sleeve (33) when the hollow rotating rod (21) rotates, and driving two oscillating plates (65) to revolve around the rotating columns (63) by a third gear (64) and a gear ring (43) when the rotating columns (63) revolve around;

s2, the hollow rotating rod (21) drives the lifting plate (41) to repeatedly lift when rotating, the gear ring (43) is driven to synchronously lift through the connecting rod (42) when the lifting plate (41) lifts, the rotating column (63) is pushed upwards through the third gear (64) when the gear ring (43) lifts, the lifting sleeve (33) is pulled downwards through the first spring (34) when the gear ring (43) descends, the rotating column (63) is further made to slide downwards, at the moment, the two groups of output assemblies revolve around the hollow rotating rod (21) as an axis and simultaneously lift in a reciprocating mode, and the two groups of oscillating assemblies in any group of output assemblies continuously revolve around the rotating column (63) as the axis;

s3, the supply pipe (71) inputs warm air mixed with bacillus flora powder into the hollow rotating rod (21), then the warm air is input into the rotating column (63) through the L-shaped output pipe (72), in the continuous autorotation process of the rotating column (63), when any upper trigger block (68) is in contact with the lower trigger block (62) under the driving of the rotating column (63), the lower trigger block (62) pushes the upper trigger block (68), further the upper trigger block (68) drives the plurality of sliding columns (66) to slide towards the inside of the rotating column (63) through the end plate (67), at the moment, the warm air in the rotating column (63) enters through the T-shaped channel and drives the bacillus flora powder to enter a wastewater water body, and the wastewater water body is heated;

s4, continuously oscillating the wastewater water body by the oscillation plate (65) in the subsequent process of being driven to rotate by the rotating column (63), continuously injecting bacillus flora powder into the water body, and inputting the sucralose mother liquor wastewater again after the bacillus flora powder is completely injected, so that the sucralose mother liquor wastewater which is subjected to degradation treatment and meets the discharge standard is finally obtained.

Images