CN111871319B

CN111871319B - Efficient mixing device for sewage treatment medicines

Info

Publication number: CN111871319B
Application number: CN202010835928.7A
Authority: CN
Inventors: 曾祥; 王光娜; 叶光明; 陈虎; 曾汉良; 黄思敏
Original assignee: Guangdong Meijing Environmental Technology Co Ltd
Current assignee: Guangdong Meijing Environmental Technology Co Ltd
Priority date: 2020-08-19
Filing date: 2020-08-19
Publication date: 2024-05-28
Anticipated expiration: 2040-08-19
Also published as: CN111871319A; WO2022036805A1

Abstract

The invention discloses a high-efficiency mixing device for sewage treatment medicines, which belongs to the technical field of sewage treatment equipment and comprises a medicine mixing box and a feeding mechanism, wherein the feeding mechanism is arranged on one side of the medicine mixing box, a medicine feeding port is arranged on the medicine mixing box, the feeding mechanism comprises a medicine containing component, a conveying component, a dumping component and a scattering component, the medicine containing component is arranged on one side of the medicine mixing box, the conveying component is fixedly arranged above the medicine mixing box, the dumping component is arranged on the conveying component, the scattering component is fixedly arranged on one side of the conveying component, the conveying component can drive the dumping component to carry out conveying operation to the scattering component, and the working end of the scattering component is correspondingly arranged with the medicine feeding port on the medicine mixing box.

Description

Efficient mixing device for sewage treatment medicines

Technical Field

The invention relates to the technical field of sewage treatment equipment, in particular to a high-efficiency sewage treatment medicine mixing device.

Background

Along with the rapid development of economy and science and technology, a large amount of sewage can be generated in the life and work of people, and along with the reduction of available water resources, the sewage is reused after being treated, so that the sewage becomes a necessary trend. In order to ensure that sewage is discharged up to standard or meets the water quality requirement of reuse, sewage is required to be treated, the treated sewage is widely used in various fields of construction, agriculture, traffic, energy, environmental protection, urban landscapes and the like, and sewage treatment medicines are chemical agents which are necessary to be used in the sewage treatment process. The sewage treatment process is to remove various substances in sewage through various devices, and sewage treatment medicines are reasonably used according to the condition of sewage quality when the substances are removed, so that the sewage treated sewage meets the national emission standard, and the common medicines for sewage comprise: flocculant, coagulant aid, dephosphorization agent, PH value regulator, disinfectant, defoamer and supplementary carbon source etc. these medicaments are generally solid powder, all need to use through fully fusing with water when carrying out sewage treatment, but the material nature of various medicaments is different, in order to avoid appearing fusing inhomogeneous, the condition of medicament layering and caking appears, cause the jam of pump, reduce the reaction effect, need fully fuse and various medicament attribute to add the medicament carries out the uniform velocity and puts in, the required medicament of current sewage treatment medicament mixes is put in the operation by the manual work generally, the effect that the mixed inhomogeneous medicament of putting in appears easily through the input of manual work is mixed problem relatively worse.

Disclosure of Invention

The invention aims to provide a high-efficiency mixing device for sewage treatment medicines, which aims to solve the technical problems that medicines required by sewage treatment medicine mixing in the prior art are generally put in manually, and uneven medicine mixing effect is poor easily caused by the manual medicine putting and mixing.

The invention provides a sewage treatment medicine efficient mixing device which comprises a medicine mixing box and a feeding mechanism, wherein the feeding mechanism is arranged on one side of the medicine mixing box, a medicine adding port is formed in the side of the medicine mixing box, the feeding end of the feeding mechanism corresponds to the medicine adding port, the feeding mechanism comprises a medicine containing component, a conveying component, a dumping component and a scattering component, the medicine containing component is fixedly arranged on one side of the medicine mixing box, the conveying component is fixedly arranged above the medicine mixing box, the dumping component is arranged on the conveying component, the medicine containing component corresponds to the working end of the dumping component, the scattering component is fixedly arranged on one side of the conveying component, the conveying component can drive the dumping component to carry out conveying operation towards the scattering component, and the working end of the scattering component corresponds to the medicine adding port on the medicine mixing box.

Further, the medicine subassembly that holds includes storage box, feed inlet, discharge gate, first electric putter, first push pedal, second electric putter and second push pedal, the fixed one side that sets up on the medicine mixing box of storage box, the feed inlet sets up one side on the storage box, the discharge gate sets up one side at storage box top, the discharge gate with it is corresponding to empty the subassembly, first electric putter sets up the bottom of storage box, first electric putter's output runs through storage box bottom, first push pedal sets up the work end at first electric putter, second electric putter set up on the storage box with the opposite one side of discharge gate, second electric putter work end runs through the lateral wall of storage box and extends to the inside of storage box, the second push pedal sets up the work end at second electric putter.

Further, the conveying assembly supports the base, carries the slide rail, carries the slip table, carries rack, carries platform, transport motor and carries the gear, support the fixed setting in medicine mixing box top of base, carry the fixed top that sets up of slide rail to support the base, carry the one end of slide rail with break up subassembly one side fixed connection, be equipped with the shifting chute in the transport slide rail, carry the rack setting on the top position of one side of carrying the slide rail, carry the slip table card to establish in the shifting chute of carrying the slide rail, carry the platform setting in the top of carrying the slip table, carry the bench fixed transport motor that is provided with, carry the gear fixed setting on the output shaft of transport motor, carry the gear and carry the rack to mesh.

Further, empty the subassembly and including empting the base, empty case, fixed block and electric putter, it is fixed to set up on carrying the bench to empty the base, it articulates the setting of case to empty on the base, the fixed block sets up in one side of empting the case, electric putter slope sets up empty on subassembly and the fixed block, switch cover subassembly sets up on empting the case.

Further, the same one side of breaking up the subassembly is provided with switch assembly on the pouring box, switch cover assembly includes switch cover, regulating spindle, mount pad and accommodate motor, the switch cover is established on the pouring box, the mount pad is equipped with two, two the mount pad symmetry is fixed to be set up on the pouring box, and two the mount pad is located respectively and pours the both sides on the box mouth, the regulating spindle rotates to install two on the mount pad, one side of switch cover with regulating spindle fixed connection, accommodate motor is fixed to be set up on the mount pad of one side.

Further, break up the subassembly including break up the outer box, the deflector, break up the motor, break up the gear, linkage gear, first break up the axle, the second break up the axle, first break up roller and second break up the roller, the deflector slope sets up the below position of break up the outer box, the fixed one side that sets up the outer box that breaks up of motor, break up the gear setting and break up the output shaft of motor, linkage gear with break up the gear and mesh, first break up the axle with the second break up the axle and rotate side by side and set up on break up the outer box, first break up the axle with the second break up the one end of axle and run through break up the lateral wall of outer box, the first one end of axle is connected with break up the gear, the second break up the one end of axle and be connected with the linkage gear, the first break up the roller is fixed to be set up on first break up the epaxial, the second break up the roller is fixed to be set up on the second break up epaxial, first break up the epaxial with the second break up the roller and set up in proper order.

Further, still be equipped with inlet tube, visual scale strip, aeration pipe, dosing tube and access hole on the medicine mixing box, the inlet tube sets up in one side of medicine mixing box, the work end of inlet tube runs through the inside that extends to the medicine mixing box, be provided with the inlet tube filter on the inlet tube, be provided with the visual scale strip of vertically on the medicine mixing box, the aeration pipe sets up on the below position of one side of medicine mixing box, the one end of aeration pipe runs through and extends to inside the medicine mixing box, be provided with aeration governing valve on the aeration pipe, dosing tube sets up on the below position of one side of medicine mixing box, dosing tube's front end is provided with Y shape filter, the access hole sets up in one side opening part of medicine mixing box.

Further, agitating unit includes agitator motor, (mixing) shaft and stirring vane, agitator motor sets up on the top position of medicine mixing box, the (mixing) shaft rotates and sets up on the medicine mixing box, the both ends of (mixing) shaft run through the medicine mixing box, the one end of (mixing) shaft with agitator motor's output shaft, stirring vane is provided with two sets of, two sets of stirring vane is fixed to be set up on the (mixing) shaft.

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

Firstly, the automatic quantitative feeding operation of the medicines in the medicine mixing box is carried out by arranging the feeding mechanism on the medicine mixing box, the manual feeding and mixing operation of the medicines in the medicine mixing box is not needed, the manpower is saved, the uniformity of medicine mixing is improved, the practicability is high, the medicine containing assembly in the feeding mechanism is used for placing the medicines, a certain amount of the medicines are pushed into the pouring assembly through the medicine containing assembly, the pouring assembly is automatically moved and conveyed through the conveying assembly, the medicines are conveyed to the scattering assembly, at the moment, the medicines are poured into the scattering assembly by the pouring assembly, and enter the medicine mixing box from the medicine inlet after being scattered and broken, and finally the medicine mixing box is used for mixing the medicines.

Secondly, the medicine is conveyed in the storage box through the feeding hole in the storage box, the medicine is contained in the storage box, the first push plate is driven to move up and down through the operation of the first electric push rod, the medicine is gradually lifted upwards according to the usage amount, and the second push plate is driven to push a certain amount of medicine into the dumping assembly from the discharging hole through the operation of the second electric push rod, so that medicine containing and quantitative pushing are completed.

Thirdly, the invention is used for supporting the conveying sliding rail through the supporting base, then the conveying sliding table and the conveying table slide to the front through the conveying sliding rail, the conveying motor operates to drive the conveying gear, the conveying gear meshed with the conveying gear is driven to rotate through the arrangement of the conveying rack, and the conveying gear rotates to drive the conveying sliding table and the conveying table to slide forwards, so that the conveying of medicines is completed.

Fourth, the invention puts the pouring box on the pouring base through the setting of the pouring base, the medicine falling from the medicine containing assembly is contained through the setting of the pouring box, the pouring box is pushed by the operation of the electric push rod, the pouring box is pushed to incline, the medicine is pushed to the inside of the scattering assembly, and the pouring of the medicine is completed.

Fifthly, the pouring box opening can be closed through the work of the switch cover assembly, so that the medicament is prevented from flowing out, and the medicament is better discharged.

The first scattering shaft, the second scattering shaft, the first scattering roller and the second scattering roller are arranged through the arrangement of the scattering outer box, the medicine falling from the dumping component is slid into the medicine feeding port through the arrangement of the guide plate, the scattering gear is driven to rotate through the arrangement of the scattering motor, the scattering gear is driven to rotate through the rotation of the scattering gear, the linkage gear meshed with the scattering gear is driven to rotate through the rotation of the scattering gear, and the first scattering roller on the first scattering shaft and the second scattering roller on the second scattering shaft are driven to rotate through the rotation of the two gears, so that scattering of the medicine is completed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view of the structure of the drug containing module of the present invention;

FIG. 3 is a schematic view of the transport assembly of the present invention;

FIG. 4 is a schematic view of a breaking assembly according to the present invention;

FIG. 5 is a schematic view of a part of the structure of the present invention 1;

FIG. 6 is a schematic view of a part of the structure of the present invention 2;

FIG. 7 is a schematic view of the structure of the medicine mixing tank of the present invention.

Reference numerals:

The medicine mixing box 1, the medicine inlet 11, the water inlet 12, the water inlet pipe filter 13, the visual scale bar 14, the aeration pipe 15, the aeration adjusting valve 16, the medicine inlet 17, the Y-shaped filter 18, the access hole 19, the feeding mechanism 2, the medicine containing assembly 21, the stock box 211, the feed inlet 212, the discharge hole 213, the first electric push rod 213, the first push plate 214, the second electric push rod 215, the second push plate 216, the conveying assembly 22, the supporting base 221, the conveying slide rail 222, the conveying slide table 223, the conveying rack 224, the conveying table 225, the conveying motor 226, the conveying gear 227, the pouring assembly 23, the pouring base 231, the pouring box 232, the fixed block 233, the electric push rod 234, the breaking assembly 24, the breaking outer box 241, the guide plate 242, the breaking motor 243, the breaking gear 244, the linkage gear 245, the first breaking shaft 247, the second breaking shaft 247, the first breaking roller 248, the second breaking roller 249, the switching cover assembly 25, the switching cover 251, the adjusting shaft 252, the mounting seat 253, the adjusting motor 254, the stirring device 3, the stirring motor 31, the stirring shaft 33, and the stirring blade 33.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown.

The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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

Referring to fig. 1 to 7, the embodiment of the invention provides a sewage treatment medicine efficient mixing device, which comprises a medicine mixing box 1 and a feeding mechanism 2, wherein the feeding mechanism 2 is arranged on one side of the medicine mixing box 1, a medicine adding port 11 is arranged on the medicine mixing box 1, a feeding end of the feeding mechanism 2 corresponds to the medicine adding port 11, the feeding mechanism 2 comprises a medicine containing component 21, a conveying component 22, a dumping component 23 and a scattering component 24, the medicine containing component 21 is fixedly arranged on one side of the medicine mixing box 1, the conveying component 22 is fixedly arranged above the medicine mixing box 1, the dumping component 23 is arranged on the conveying component 22, the medicine containing component 21 corresponds to a working end of the dumping component 23, the scattering component 24 is fixedly arranged on one side of the conveying component 22, the conveying component 22 can drive the dumping component 23 to carry out conveying operation to the scattering component 24, the working end of the scattering component 24 is correspondingly arranged with the medicine adding port 11 on the medicine mixing box 1, when medicines are required to be mixed, automatic quantitative feeding operation is carried out on the medicines in the medicine mixing box 1 through the arrangement of the feeding mechanism 2 on the medicine mixing box 1, the manual feeding and mixing operation is not required, the manpower is saved, the uniformity of medicine mixing is improved, the practicability is higher, the medicine containing component 21 in the feeding mechanism 2 is used for placing the medicines, a certain amount of medicines are pushed into the dumping component 23 through the medicine containing component 21, then the dumping component 23 is automatically moved and conveyed through the conveying component 22, the medicines are conveyed to the scattering component 24, at this time, the pouring component 23 is operated to pour the medicine into the scattering component 24, and then the medicine is scattered and broken and enters the medicine mixing box 1 from the medicine inlet, and finally the medicine mixing box 1 is used for mixing the medicine.

Specifically, the medicine containing assembly 21 includes a storage box 211, a feed inlet 212, a discharge outlet 213, a first electric push rod 213, a first push plate 214, a second electric push rod 215 and a second push plate 216, wherein the storage box 211 is fixedly arranged on one side of the medicine mixing box 1, the feed inlet 212 is arranged on one side of the storage box 211, the discharge outlet 213 is arranged on one side of the top of the storage box 211, the discharge outlet 213 corresponds to the pouring assembly 23, the first electric push rod 213 is arranged at the bottom of the storage box 211, the output end of the first electric push rod 213 penetrates through the bottom of the storage box 211, the first push plate 214 is arranged at the working end of the first electric push rod 213, the working end of the second electric push rod 215 is arranged on one side opposite to the discharge outlet 213 on the storage box 211, the working end of the second electric push rod 215 penetrates through the side wall of the storage box 211 and extends to the inside of the storage box 211, the second push plate 216 is arranged at the working end of the second electric push rod 215, the medicine is conveyed in the storage box 211 through the feed inlet 212 on the storage box 211, the first push rod 213 is gradually moved to the first push rod 213, and the first push rod 213 is gradually moves to the first push rod 213, and the medicine is gradually quantitatively pushed to the second push rod 213.

Specifically, the conveying assembly 22 supports the base 221, the conveying sliding rail 222, the conveying sliding table 223, the conveying rack 224, the conveying table 225, the conveying motor 226 and the conveying gear 227, the supporting base 221 is fixedly arranged above the medicine mixing box 1, the conveying sliding rail 222 is fixedly arranged above the supporting base 221, one end of the conveying sliding rail 222 is fixedly connected with one side of the scattering assembly 24, a moving groove is formed in the conveying sliding rail 222, the conveying sliding table 223 is clamped in the moving groove of the conveying sliding rail 222, the conveying table 225 is arranged above the conveying sliding table 223, the conveying motor 226 is fixedly arranged on the conveying table 225, the conveying gear 227 is fixedly arranged on an output shaft of the conveying motor 226, the conveying gear 227 is meshed with the conveying rack (224), the conveying sliding rail 222 is used for supporting the conveying sliding rail 222 through the supporting base 221, the conveying sliding table 223 slides the conveying sliding table 225 to the front side through the conveying sliding rail 222, the conveying motor 226 operates to drive the conveying gear 227, the conveying sliding table 227 is driven by the conveying motor 226 to rotate through the conveying sliding table 224, and the conveying gear 227 is driven by the conveying sliding table 225 to rotate forwards, and the conveying table 225 is meshed with the conveying table 225.

Specifically, the dumping assembly 23 comprises a dumping base 231, a dumping box 232, a fixed block 233 and an electric push rod 234, the dumping base 231 is fixedly arranged on the conveying table 225, the dumping box 232 is hinged to the dumping base 231, the fixed block 233 is arranged on one side of the dumping box 232, the electric push rod 234 is obliquely arranged on the dumping assembly 23 and the fixed block 233, the switch cover 251 assembly 25 is arranged on the dumping box 232, the dumping box 232 is arranged on the dumping base 231 through the arrangement of the dumping base 231, medicines falling from the medicine containing assembly 21 are contained through the arrangement of the dumping box 232, the dumping box 232 is pushed to incline through the operation of the electric push rod 234, and the medicines are pushed to the inside of the breaking assembly 24 to finish the dumping operation of the medicines.

Specifically, the same side of the dumping box 232 as the breaking assembly 24 is provided with a switch cover 251 assembly 25, the switch cover 251 assembly 25 includes a switch cover 251, an adjusting shaft 252, a mounting seat 253 and an adjusting motor 254, the switch cover 251 is disposed on the dumping box 232, the mounting seat 253 is provided with two mounting seats 253 which are symmetrically and fixedly disposed on the dumping box 232, the two mounting seats 253 are respectively disposed on two sides of a mouth of the dumping box 232, the adjusting shaft 252 is rotatably mounted on the two mounting seats 253, one side of the switch cover 251 is fixedly connected with the adjusting shaft 252, the adjusting motor 254 is fixedly disposed on the mounting seat 253 on one side, the mouth of the dumping box 232 can be closed through the operation of the switch cover 251 assembly 25, and the medicament is prevented from flowing out, and for better discharging the medicament, when the switch cover 251 assembly 25 works, the adjusting motor 254 works to drive the adjusting shaft 252 to synchronously rotate, and the adjusting shaft 252 rotates on the two mounting seats 253 to drive the switch cover 251 fixedly connected with the adjusting shaft 252 to carry out switch adjustment.

Specifically, the breaking assembly 24 includes a breaking out case 241, a guide plate 242, a breaking out motor 243, a breaking out gear 244, a linkage gear 245, a first breaking shaft 246, a second breaking shaft 247, a first breaking roller 248 and a second breaking roller 249, the guide plate 242 is obliquely disposed below the breaking out case 241, the dropped medicine can slide into the medicine inlet 11 through the setting of the guide plate 242, enter the medicine mixing case 1 through the medicine inlet 11, the breaking out motor 243 is fixedly disposed at one side of the breaking out case 241, the breaking out gear 244 is disposed on an output shaft of the breaking out motor 243, the linkage gear 245 is meshed with the breaking out gear 244, the first breaking shaft 246 and the second breaking shaft 247 are disposed on the breaking out case 241 in parallel rotation, one ends of the first breaking shaft 246 and the second breaking shaft 247 penetrate through a side wall of the breaking out case 241, one end of the first scattering shaft 246 is connected with the scattering gear 244, one end of the second scattering shaft 247 is connected with the linkage gear 245, the first scattering roller 248 is fixedly arranged on the first scattering shaft 246, the second scattering roller 249 is fixedly arranged on the second scattering shaft 247, the first scattering roller 248 on the first scattering shaft 246 and the second scattering roller 249 on the second scattering shaft 247 are sequentially staggered, the first scattering shaft 246, the second scattering shaft 247, the first scattering roller 248 and the second scattering roller 249 are installed through the arrangement of the scattering outer box 241, the medicine falling from the pouring assembly 23 is slid into the medicine adding port 11 through the arrangement of the guide plate 242, the scattering gear 244 is driven to rotate through the arrangement of the scattering motor 243, the linkage gear 245 meshed with the scattering gear 244 is driven to rotate, the rotation of the two gears drives the first scattering roller 248 on the first scattering shaft 246 and the second scattering roller 249 on the second scattering shaft 247 to rotate, thus completing the scattering operation of the medicine.

Specifically, still be equipped with inlet tube 12, visual scale strip 14, aeration pipe 15, charge pipe 17 and access hole 19 on the medicine blending box 1, inlet tube 12 sets up on one side of medicine blending box 1, the work end of inlet tube 12 runs through and extends to the inside of medicine blending box 1, be provided with inlet tube filter 13 on the inlet tube 12, add the filter at the front end of inlet tube 12 and can effectually prevent that the impurity that inlet tube 12 produced after the maintenance from getting into medicine blending box 1, be provided with visual scale strip 14 on the medicine blending box 1, the actual use volume of medicament can clearly be recorded to visual scale strip 14 to and the weight of medicament when dosing next time, aeration pipe 15 sets up on the below position of one side of medicine blending box 1, the one end of aeration pipe 15 runs through and extends to inside the medicine blending box 1, be provided with aeration adjusting valve 16 on the aeration pipe 15, aeration adjusting valve 16 can be according to the size that will get different attribute adjustment gas amount, charge pipe 17 sets up in the below position of medicine blending box 1, add the filter 17 and set up in the shape when the mouth is located in the opening of medicine blending box 1, the access hole is located in the access hole is provided with the position of the medicine blending box 19.

Specifically, agitating unit 3 includes agitator motor 31, (mixing) shaft 32 and stirring vane 33, agitator motor 31 sets up on the top position of medicine mixing box 1, the (mixing) shaft 32 rotates and sets up on medicine mixing box 1, the both ends of (mixing) shaft 32 are run through medicine mixing box 1, the one end of (mixing) shaft 32 with the output shaft of agitator motor 31, stirring vane 33 is provided with two sets of, two sets of stirring vane 33 is fixed to be set up on (mixing) shaft 32, and when agitating unit 3 during operation, drive epaxial (mixing) shaft 32 rotation through the setting of agitator motor 31, drive stirring vane 33 through the setting of (mixing) shaft 32 and stir, accomplish the stirring operation to the medicine.

The working principle of the invention is as follows: when the medicine box is used, medicine is conveyed in the material storage box 211 on the material inlet 212 on the material storage box 211, the medicine is contained through the material storage box 211, the first push plate 214 is driven to move up and down through the operation of the first electric push rod 213, the medicine is gradually lifted upwards according to the usage amount, the second push plate 216 is driven to push a certain amount of medicine into the dumping assembly 23 through the operation of the second electric push rod 215, the medicine containing and the quantitative pushing are completed, the conveying slide rail 222 is supported through the supporting base 221, the conveying slide rail 222 slides the conveying slide table 223 and the conveying table 225 to the front, the conveying motor 226 is driven to drive the conveying gear 227 through the operation of the conveying motor 226, the conveying gear 227 is driven to rotate through the arrangement of the conveying rack 224, the conveying gear 227 drives the conveying slide table 223 and the conveying table 225 to slide forward, the medicine is conveyed, the first dispersing shaft 246 is installed through the arrangement of the dispersing outer box 241, the second dispersing shaft 247, the first dispersing roller 248 and the second dispersing roller 249 are driven to rotate through the first dispersing motor 248 and the second dispersing shaft 248, the medicine dispersing shaft is driven by the first dispersing motor 248 and the second dispersing shaft 248 under the condition of the dispersing assembly 23, the medicine is driven by the stirring shaft 244 to rotate through the stirring shaft 32, and the stirring shaft is driven to rotate through the stirring shaft 243, and the stirring shaft is driven to rotate, and the stirring shaft 32 is driven to rotate and the stirring shaft is driven to dispersing the dispersing roller 248 is driven to rotate and the medicine is dispersed.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims

1. A sewage treatment medicine high-efficient mixing arrangement, its characterized in that: the medicine adding device comprises a medicine mixing box (1) and a feeding mechanism (2), wherein the feeding mechanism (2) is arranged on one side of the medicine mixing box (1), a medicine adding port (11) is formed in the direction of the medicine mixing box (1), a feeding end of the feeding mechanism (2) corresponds to the medicine adding port (11), the feeding mechanism (2) comprises a medicine containing component (21), a conveying component (22), a dumping component (23) and a scattering component (24), the medicine containing component (21) is fixedly arranged on one side of the medicine mixing box (1), the conveying component (22) is fixedly arranged above the medicine mixing box (1), the dumping component (23) is arranged on the conveying component (22), the medicine containing component (21) and the working end of the dumping component (23) are correspondingly arranged, the scattering component (24) is fixedly arranged on one side of the conveying component (22), the conveying component (22) can drive the dumping component (23) to carry out conveying operation to the scattering component (24), and the medicine adding component (24) corresponds to the medicine adding port (11) of the medicine mixing box (1);

The medicine containing assembly (21) comprises a storage box (211), a feed inlet (212), a discharge outlet (213), a first electric push rod (217), a first push plate (214), a second electric push rod (215) and a second push plate (216), wherein the storage box (211) is fixedly arranged on one side of the medicine mixing box (1), the feed inlet (212) is arranged on one side of the storage box (211), the discharge outlet (213) is arranged on one side of the top of the storage box (211), the discharge outlet (213) corresponds to the pouring assembly (23), the first electric push rod (217) is arranged at the bottom of the storage box (211), the output end of the first electric push rod (217) penetrates through the bottom of the storage box (211), the first push plate (214) is arranged at the working end of the first electric push rod (217), the second electric push rod (215) is arranged on one side of the storage box (211) opposite to the discharge outlet (213), and the working end of the second electric push rod (215) penetrates through the side wall of the storage box (211) and extends to the working end of the second push rod (216);

The conveying assembly (22) comprises a supporting base (221), a conveying sliding rail (222), a conveying sliding table (223), a conveying rack (224), a conveying table (225), a conveying motor (226) and a conveying gear (227), wherein the supporting base (221) is fixedly arranged above the medicine mixing box (1), the conveying sliding rail (222) is fixedly arranged above the supporting base (221), one end of the conveying sliding rail (222) is fixedly connected with one side of the scattering assembly (24), a moving groove is formed in the conveying sliding rail (222), the conveying rack (224) is arranged at the upper position of one side of the conveying sliding rail (222), the conveying sliding table (223) is clamped in the moving groove of the conveying sliding rail (222), the conveying table (225) is arranged above the conveying sliding table (223), the conveying motor (226) is fixedly arranged on the conveying table (225), the conveying gear (227) is fixedly arranged on an output shaft of the conveying motor (226), and the conveying gear (227) is meshed with the conveying rack (224);

the pouring assembly (23) comprises a pouring base (231), a pouring box (232), a fixed block (233) and an electric push rod (234), wherein the pouring base (231) is fixedly arranged on the conveying table (225), the pouring box (232) is hinged to the pouring base (231), the fixed block (233) is arranged on one side of the pouring box (232), the electric push rod (234) is obliquely arranged on the pouring assembly (23) and the fixed block (233), and the switch cover (251) assembly (25) is arranged on the pouring box (232);

The novel pouring box is characterized in that a switch cover (251) assembly (25) is arranged on the same side of the pouring box (232) as the scattering assembly (24), the switch cover (251) assembly comprises a switch cover (251), an adjusting shaft (252), mounting seats (253) and an adjusting motor (254), the switch cover (251) is arranged on the pouring box (232), the two mounting seats (253) are symmetrically and fixedly arranged on the pouring box (232), the two mounting seats (253) are respectively arranged on two sides of a mouth of the pouring box (232), the adjusting shaft (252) is rotatably arranged on the two mounting seats (253), one side of the switch cover (251) is fixedly connected with the adjusting shaft (252), and the adjusting motor (254) is fixedly arranged on the mounting seat (253) on one side;

The utility model discloses a break up subassembly (24) including break up outer container (241), deflector (242), break up motor (243), break up gear (244), linkage gear (245), first break up axle (246), second break up axle (247), first break up roller (248) and second break up roller (249), deflector (242) slope sets up in the below position of break up outer container (241), break up motor (243) fixed setting is in one side of break up outer container (241), break up gear (244) set up on the output shaft of break up motor (243), linkage gear (245) with break up gear (244) mesh, first break up axle (246) with second break up axle (247) rotate side by side and set up on break up outer container (241), first break up axle (246) with the one end of second break up axle (247) runs through the lateral wall of break up outer container (241), first break up axle (246) and second break up axle (247) are connected with first (247) break up gear (247) and are fixed to break up roller (247) and are connected, a first scattering roller (248) on the first scattering shaft (246) and a second scattering roller (249) on the second scattering shaft (247) are sequentially staggered;

still be equipped with inlet tube (12), visual scale strip (14), aeration pipe (15), charge pipe (17) and access hole (19) on medicine mixing box (1), inlet tube (12) set up in one side of medicine mixing box (1), the work end of inlet tube (12) runs through and extends to the inside of medicine mixing box (1), be provided with inlet tube filter (13) on inlet tube (12), be provided with visual scale strip (14) on medicine mixing box (1), aeration pipe (15) set up on the below position of one side of medicine mixing box (1), the one end of aeration pipe (15) runs through and extends to medicine mixing box (1) inside, be provided with aeration governing valve (16) on aeration pipe (15), charge pipe (17) set up in the below position of one side of medicine mixing box (1), the front end of charge pipe (17) is provided with Y shape filter (18), access hole (19) set up in one side opening part of medicine mixing box (1).

2. The efficient sewage treatment medicine mixing device according to claim 1, wherein: still include agitating unit, agitating unit includes (31) agitator motor, (32) and stirring vane (33), agitator motor (31) set up on the top position of medicine mixing box (1), agitator shaft (32) rotate and set up on medicine mixing box (1), the both ends of agitator shaft (32) are run through medicine mixing box (1), the one end of agitator shaft (32) with the output shaft of agitator motor (31), stirring vane (33) are provided with two sets of, two sets of stirring vane (33) are fixed to be set up on agitator shaft (32).