CN111204883A - Microbial strain feeding device for treating wastewater by biochemical method - Google Patents

Abstract

The invention discloses a microbial strain feeding device for wastewater treatment by a biochemical method, wherein one side of a wastewater tank is fixedly connected with a first mounting frame, a first servo motor is fixedly connected on the first mounting frame, a first belt pulley is fixedly arranged on an output shaft of the first servo motor, two sides of the first belt pulley are in transmission connection with a second belt pulley, a first lead screw is in key connection with the second belt pulley, a first moving block is in threaded transmission connection with the first lead screw, a second mounting frame is fixedly arranged between the two first moving blocks, two sides of the lower end surface of the second mounting frame are both fixedly provided with a first slide block, the lower side of the first slide block is in sliding connection with a first guide rail, the first guide rail is fixedly arranged on two sides of the top end of the wastewater tank, the upper end surface of the second mounting frame is provided with a translation mechanism, a storage barrel is arranged on the translation mechanism, the bottom end of the storage barrel is provided with a feeding, degree of automation is high, uses manpower sparingly, realizes quantitative input simultaneously, further assurance waste water treatment effect.

Description

Microbial strain feeding device for treating wastewater by biochemical method

Technical Field

The invention belongs to the technical field of wastewater treatment devices, and particularly relates to a microbial strain feeding device for treating wastewater by a biochemical method.

Background

A biochemical waste water treating process, called 'biochemical waste water process', is a process for purifying waste water by converting organic pollutants in the state of solution and colloid into harmless substances by using the metabolism of microbes. The method can be divided into an aerobic biological treatment method and an anaerobic biological treatment method, wherein the former method mainly comprises an activated sludge method, a biofilm method, an oxidation pond method, sewage irrigation and the like.

When the wastewater is treated by a biochemical method, microbial strains need to be uniformly thrown into a wastewater pool, at present, most of the microbial strains are thrown by using a manual tool, the raw materials are scooped from a storage device at the outer side by using the manual tool, and then the materials are forcibly scattered into the wastewater pool, so that the working strength of workers is high, the working efficiency is low, the feeding is not uniform, the wastewater treatment is not uniform, the treatment time is long, and the microbial strains are wasted;

meanwhile, in the process of putting the strains, a plurality of strains are required to be put in to improve the treatment effect of the wastewater, the amount of putting in is required to be controlled, the amount of putting in can not be controlled through manual putting in, and the variety of the strains is multiple, so that the putting effect of the strains is further reduced.

Therefore, a microbial strain feeding device for treating wastewater by a biochemical method is provided to solve the problems in the prior art.

Disclosure of Invention

The invention aims to provide a microbial strain feeding device for wastewater treatment by a biochemical method, which aims to solve the problems that the prior art mostly uses manual tools to feed materials, has low working efficiency and uneven feeding, causes uneven wastewater treatment, long treatment time and wastes microbial strains, realizes quantitative feeding and can further improve the wastewater treatment effect.

In order to achieve the purpose, the invention adopts the following technical scheme:

a microbial strain feeding device for wastewater treatment by a biochemical method comprises a wastewater tank, wherein two ends of the wastewater tank are respectively communicated with a water inlet pipe and a water outlet pipe, the outer end of one side, close to the water outlet pipe, of the wastewater tank is fixedly connected with a first mounting frame through a bolt, a first servo motor is fixedly connected in the middle of the upper end face of the first mounting frame through a bolt, a first belt pulley is fixedly arranged at the end part of an output shaft of the first servo motor, two sides of the first belt pulley are respectively connected with a second belt pulley through transmission driving, a first lead screw is connected to the center of each of the two second belt pulleys in a key connection mode, the first lead screw is rotatably connected with the first mounting frame through a bearing, the end part, far away from the second belt pulley, of the first lead screw is rotatably connected with a first supporting plate through a bearing, and the first supporting plate is, the two first lead screws are in threaded transmission connection with first moving blocks, a second mounting frame is fixed between the two first moving blocks, first sliding blocks are fixed on two sides of the lower end face of the second mounting frame, first guide rails are connected to the lower sides of the first sliding blocks in a sliding mode, the first guide rails are fixed on two sides of the top end of the wastewater tank, a translation mechanism is arranged on the upper end face of the second mounting frame, a storage barrel is arranged on the translation mechanism, and a blanking switch mechanism is arranged at the bottom end of the storage barrel;

a plurality of storage tanks are arranged in the storage barrel, a sliding third sliding block is arranged in each storage tank, a communication hole is formed in the central position of each storage barrel, and the storage tanks are correspondingly communicated with the communication holes;

the storage bin is characterized by further comprising a butt joint module corresponding to the storage bin, a butt joint port corresponding to the storage bin is arranged in the butt joint module, a rotating material distributing head is arranged in the butt joint module, the material distributing head controls the communication and the closing of the butt joint port respectively, and a conveying pipe is arranged on the butt joint module.

Preferably, the translation mechanism comprises a second servo motor, the second servo motor is fixed on one side of the second mounting frame through a bolt, a second lead screw is fixed at the end part of an output shaft of the second servo motor, two ends of the second lead screw are rotatably connected with the second mounting frame through bearings, a second moving block is connected to the second lead screw in a threaded transmission manner, and the upper end of the second moving block is welded with the storage barrel;

a connecting seat is welded on one side of the second moving block, a blanking pipeline is communicated with the middle of the connecting seat, the upper end of the blanking pipeline is correspondingly communicated with the communicating hole, a blanking groove is arranged below the connecting seat, and the blanking groove is formed in the bottom surface of the second mounting frame;

and second sliders are fixed on two sides of the lower end face of the connecting seat, second guide rails are connected to the lower sides of the second sliders in a sliding mode, and the second guide rails are fixed on the upper end face of the second mounting frame and are respectively arranged on two sides of the blanking groove.

Preferably, the blanking switch mechanism comprises a fixing plate, the fixing plate is fixed on one layer of the connecting seat through a bolt, an air cylinder is fixed in the middle of the fixing plate through a bolt, a material blocking block is fixed at the end part of a piston rod of the air cylinder, the material blocking block is inserted in the connecting seat, and a through hole is formed in the middle of the material blocking block.

Preferably, the end part of one end, far away from the cylinder, of the material blocking block is fixed with a limiting block, and the limiting block is located on the outer side of the connecting seat.

Preferably, the upper end of the storage barrel is hinged to a barrel cover, and a handle is fixed to the outer side of one end, far away from the hinged position, of the barrel cover through a bolt.

Preferably, an observation window is embedded in the wall of the storage barrel.

Preferably, the outer sides of the first servo motor, the first belt pulley and the second belt pulley are provided with protective covers, and the protective covers are fixed on the first mounting frame.

Preferably, a rib plate is fixed between the outer side of the lower end face of the first mounting frame and the wastewater tank.

Preferably, be provided with a third servo motor driven third lead screw in the holding tank respectively, be provided with on the third slider respectively with the screw hole that the corresponding meshing of third lead screw is connected, the third slider with the holding tank is the octagon setting respectively, the top of storage vat is provided with a bin outlet, the holding tank respectively with the corresponding intercommunication of bin outlet, the intercommunicating pore setting is in the bin outlet central point puts.

Preferably, a discharge port is arranged in the butt joint module, the butt joint ports are respectively communicated with the discharge port correspondingly, a fourth servo motor for driving the material distribution head to rotate is arranged in the butt joint module, a material distribution port communicated with the discharge port correspondingly is arranged on the material distribution head, the material distribution port corresponds to the butt joint ports, the conveying pipe is communicated with the discharge port correspondingly, a fixed base is arranged at the end part of the conveying pipe, a material feeding port is arranged on the conveying pipe, and a rotary spiral conveyor is arranged in the conveying pipe.

Compared with the prior art, the invention has the following advantages:

1. the invention drives the first belt pulley to rotate through the first servo motor, and then the first belt pulley drives the second belt pulleys on two sides to rotate through the conveyor belt, the second belt pulley drives the first screw rod to rotate, the rotation of the first screw rod drives the first moving block to move along the first screw rod, the two first moving blocks drive the second mounting frame to slide left and right on the wastewater tank, the second mounting frame drives the storage barrel to move left and right on the wastewater tank, the second servo motor drives the second lead screw to rotate, the second lead screw drives the second moving block to move back and forth on the second mounting rack along the second lead screw, the second moving block is welded with the storage barrel, the storage barrel can move back and forth on the wastewater tank, so that microbial strains in the storage barrel can be thrown to any position of the wastewater tank, manual throwing is not needed, labor is saved, and working efficiency is improved;

2. the invention pushes the material blocking block to slide in the connecting seat through the air cylinder, when the feeding is needed, the air cylinder pushes the material blocking block to slide backwards, the material blocking block drives the through hole to move backwards until a limiting block on the material blocking block is contacted with the outer side wall of the connecting seat, the material blocking block stops sliding backwards, the through hole on the material blocking block is aligned with the feeding pipeline at the moment, microbial strains in the material storage barrel enter the connecting seat through the feeding pipeline, then the microbial strains penetrate through the through hole and fall into the lower part of the connecting seat, finally the microbial strains in the feeding pipeline can not be discharged from a feeding groove formed in the second mounting frame and fall into a waste water pool, when the feeding is not needed, the air cylinder pushes the material blocking block forwards, the material blocking block drives the through hole to move forwards until the through hole is staggered with the feeding pipeline, the material blocking block blocks the outlet of the feeding pipeline, the microbial strains in, the structure is simple, the operation is convenient, and the automation degree is high;

3. simultaneously can carry different bacterial respectively in the holding tank of difference through the butt joint module to carry out the storage respectively to different bacterial, simultaneously through the slip of the slip difference promotion bacterial of third slider, thereby realize carrying out quantitative input to different bacterial, the further treatment effect that improves waste water.

Drawings

The invention is further described below with reference to the accompanying drawings.

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

FIG. 2 is an enlarged view of the invention at A;

FIG. 3 is a first perspective view of the present invention;

FIG. 4 is an enlarged view of the invention at B;

FIG. 5 is a second perspective view of the present invention;

FIG. 6 is a first view of the translation mechanism of the present invention;

FIG. 7 is a second embodiment of the present invention;

FIG. 8 is an enlarged view of the invention at C;

FIG. 9 is a view showing the closing state of the discharging switch mechanism according to the present invention;

FIG. 10 is an open state view of the feed switch mechanism of the present invention;

fig. 11 is a schematic view of the overall structure of the docking module and the storage vat of the present invention.

Reference numerals: 1. a wastewater tank; 2. a water inlet pipe; 3. a water outlet pipe; 4. a first mounting bracket; 5. a first servo motor; 6. a first pulley; 7. a second pulley; 8. a first lead screw; 9. a first support plate; 10. a first moving block; 11. a second mounting bracket; 12. a first slider; 13. a first guide rail; 14. a translation mechanism; 141. a second servo motor; 142. a second lead screw; 143. a second moving block; 144. a connecting seat; 145. a blanking pipeline; 146. a discharging groove; 147. a second slider; 148. a second guide rail; 15. a storage barrel; 151. a discharge outlet; 152. a communicating hole; 153. a storage tank; 154. a third screw rod; 155. a third slider; 156. a third servo motor; 16. a blanking switch mechanism; 161. a fixing plate; 162. a cylinder; 163. a material blocking block; 164. a through hole; 165. a limiting block; 17. a barrel cover; 18. a handle; 19. an observation window; 20. a protective cover; 21. a rib plate; 22. a docking module; 221. a material distributing head; 222. a material distributing port; 223. a fourth servo motor; 224. a discharge port; 225. a butt joint port; 226. a delivery pipe; 227. and fixing the base.

Detailed Description

As shown in figures 1-11, the invention provides a microbial strain feeding device for wastewater treatment by a biochemical method, which comprises a wastewater tank 1, wherein two ends of the wastewater tank 1 are respectively communicated with a water inlet pipe 2 and a water outlet pipe 3, so that wastewater can be conveniently discharged and treated water can be conveniently discharged, the outer end of one side, close to the water outlet pipe 3, of the wastewater tank 1 is fixedly connected with a first mounting frame 4 through a bolt, a first servo motor 5 is fixedly connected in the middle of the upper end face of the first mounting frame 4 through a bolt, a first belt pulley 6 is fixedly arranged at the end part of an output shaft of the first servo motor 5, two sides of the first belt pulley 6 are respectively connected with a second belt pulley 7 through transmission driving transmission, and in order to prevent external foreign matters from contacting with the first servo motor 5, the first belt pulley 6 and the second belt pulley 7 during working and damaging parts, the first servo motor 5, the first belt pulley 6, A protective cover 20 is arranged on the outer sides of the first belt pulley 6 and the second belt pulley 7, the protective cover 20 is fixed on the first mounting frame 4 to play a role in isolation and protection, and a rib plate 21 is fixed between the outer side of the lower end face of the first mounting frame 4 and the wastewater tank 1 to improve the stability in order to enhance the firmness and stability of connection between the first mounting frame 4 and the wastewater tank 1;

the centers of the two second belt pulleys 7 are connected with first lead screws 8 in a key connection mode, the first lead screws 8 are rotatably connected with the first mounting frame 4 through bearings, the end parts, far away from the second belt pulleys 7, of the first lead screws 8 are rotatably connected with first supporting plates 9 through bearings, the first supporting plates 9 are welded at one ends, close to the water inlet pipe 2, of the wastewater tank 1, first moving blocks 10 are connected to the two first lead screws 8 in a threaded transmission mode, a second mounting frame 11 is fixed between the two first moving blocks 10, first sliding blocks 12 are fixed to two sides of the lower end face of the second mounting frame 11, first guide rails 13 are connected to the lower sides of the first sliding blocks 12 in a sliding mode, and the first guide rails 13 are fixed to two sides of the top end of the wastewater tank 1;

a translation mechanism 14 is arranged on the upper end surface of the second mounting frame 11, the translation mechanism 14 includes a second servo motor 141, the second servo motor 141 is fixed on one side of the second mounting frame 11 through a bolt, a second lead screw 142 is fixed on the end portion of an output shaft of the second servo motor 141, two ends of the second lead screw 142 are rotatably connected with the second mounting frame 11 through a bearing, a second moving block 143 is connected to the second lead screw 142 in a threaded transmission manner, the upper end of the second moving block 143 is welded with the storage barrel 15, a connecting seat 144 is welded on one side of the second moving block 143, a blanking pipeline 145 is communicated with the middle of the connecting seat 144, the upper end of the blanking pipeline 145 is correspondingly communicated with the communicating hole 152, a blanking groove 146 is arranged below the connecting seat 144, the blanking groove 146 is arranged on the bottom surface of the second mounting frame 11, and second sliders 147 are fixed on two sides of the lower end surface of the connecting seat 144, the lower side of the second slider 147 is slidably connected with a second guide rail 148, the second guide rail 148 is fixed on the upper end surface of the second mounting frame 11 and is respectively arranged on two sides of the blanking groove 146, so that the connecting seat 144 can slide left and right on the second mounting frame 11, and further the storage barrel 15 can be driven to slide left and right, feeding in the left and right direction can be realized, the structure is simple, the operation is convenient, and the automation degree is high;

the horizontal moving mechanism 14 is provided with a storage barrel 15, the upper end of the storage barrel 15 is hinged to a barrel cover 17, a handle 18 is fixed on the outer side of one end, away from the hinged position, of the barrel cover 17 through a bolt, the barrel cover 17 is conveniently opened through the handle 18, then raw materials are added into the storage barrel 15, an observation window 19 is embedded in the barrel wall of the storage barrel 15, the number of microbial strains in the storage barrel 15 can be observed outside conveniently, so that the microbial strains can be added in time and work conveniently, the bottom end of the storage barrel 15 is provided with a blanking switch mechanism 16, the blanking switch mechanism 16 comprises a fixing plate 161, the fixing plate 161 is fixed on one layer of the connecting seat 144 through a bolt, an air cylinder 162 is fixed in the middle of the fixing plate 161 through a bolt, a material blocking block 163 is fixed on the end of a piston rod of the air cylinder 162, the material blocking block 163 is inserted into the connecting, a limiting block 165 is fixed at one end of the material blocking block 163 far away from the air cylinder 162, and the limiting block 165 is positioned at the outer side of the connecting seat 144;

when the material needs to be fed, the air cylinder 162 pushes the material blocking block 163 to slide backwards, so that the material blocking block 163 drives the through hole 164 to move backwards until the limiting block 165 on the material blocking block 163 contacts with the outer side wall of the connecting seat 144, the material blocking block 163 stops sliding backwards, at the moment, the through hole 164 on the material blocking block 163 is aligned with the discharging pipeline 145, so that the microbial strains in the storage barrel 15 enter the connecting seat 144 through the discharging pipeline 145 under the action of gravity, then pass through the through hole 164 and fall below the connecting seat 144, finally fall into the wastewater tank 1 from the discharging tank 146 arranged on the second mounting frame 11, the material feeding is realized, after the material feeding is finished, the air cylinder 162 pushes the material blocking block 163 forwards, so that the material blocking block 163 drives the through hole 164 to move forwards until the through hole 164 is completely staggered with the discharging pipeline 145, and the material blocking block 163 blocks the outlet of the discharging pipeline 145, so that the microbial strains in the discharging, and then the feeding is stopped.

A plurality of storage grooves 153 are arranged in the storage bucket 15, a sliding third slider 155 is respectively arranged in each storage groove 153, a communication hole 152 is arranged at the center of the storage bucket 15, and the storage grooves 153 are respectively communicated with the communication holes 152 correspondingly;

the material storage barrel is characterized by further comprising a butt joint module 22 corresponding to the material storage barrel 15, a butt joint port 225 corresponding to the storage tank 153 is arranged in the butt joint module 22, a rotating material distributing head 221 is arranged in the butt joint module 22, the material distributing head 221 controls the connection and the closing of the butt joint port 225 respectively, and a conveying pipe 226 is arranged on the butt joint module 22.

A plurality of storage grooves 153 are arranged in the storage vat 15, different strains can be stored in the storage grooves 153, a sliding third slide block 155 is arranged in each storage groove 153, the third slide block 155 can further push the strains to slide, so that the strains can be pushed out, the strains can be pushed into the communication hole 152, and the strains can be discharged through the communication hole 152;

can carry the bacterial through conveyer pipe 226 at the in-process of carrying the bacterial, further carry in the butt joint module 22, can be with the respective transport of bacterial in to interface 225 through the rotation of branch stub bar 221 to can drop into different holding tanks 153 with different bacterial, thereby avoid the confusion of bacterial to deposit.

Be provided with the third lead screw 154 of a third servo motor 156 driven in the holding tank 153 respectively, be provided with respectively on the third slider 155 with the corresponding screw hole that the meshing is connected of third lead screw 154, third slider 155 with the holding tank 153 is the octagon setting respectively, the top of storage vat 15 is provided with a bin outlet 151, the holding tank 153 respectively with the corresponding intercommunication of bin outlet 151, the intercommunicating pore 152 sets up bin outlet 151 central point puts.

The rotation that can further drive third lead screw 154 through the rotation of third servo motor 154 is provided with the screw hole on third slider 155, connects through the corresponding meshing of screw hole and third lead screw 154 to can promote the upper and lower slip of third slider 155, the slip of further promotion third slider 155, thereby can push the bacterial in the bin outlet 151, further push in the intercommunicating pore 152, thereby accomplish the emission of bacterial.

A discharge port 224 is arranged in the butt joint module 22, the butt joint ports 225 are respectively communicated with the discharge port 224 correspondingly, a fourth servo motor 223 for driving the material distribution head 221 to rotate is arranged in the butt joint module 22, a material distribution port 222 correspondingly communicated with the discharge port 224 is arranged on the material distribution head 221, the material distribution port 22 corresponds to the butt joint ports 225, the conveying pipe 226 is correspondingly communicated with the discharge port 224, a fixed base 227 is arranged at the end part of the conveying pipe 226, a material feeding port is arranged on the conveying pipe 226, and a rotary screw conveyor is arranged in the conveying pipe.

In the feeding process, strains are put into the feeding port, the strains can be further conveyed into the discharging port 224 through the rotation of the screw conveyor, the material distributing port 222 can be communicated with different discharging ports 224 through the rotation of the fourth private server motor 223, so that the strains are further conveyed into different butt-joint ports 225 and conveyed into different storage tanks 153, and different strains can be respectively conveyed into different storage tanks 153.

The working principle is as follows: the electric parts of the device are powered by an external power supply, sewage is discharged into a wastewater tank 1 through a water inlet pipe 2, then a barrel cover 17 of a storage barrel 15 is opened by a hand through a handle 18, microbial strains are fully added into the storage barrel 15, and then the barrel cover 17 is closed through the handle 18 to finish charging;

then, the first servo motor 5 is started, the first servo motor 5 drives the first belt pulley 6 to rotate, the first belt pulley 6 drives the second belt pulleys 7 on two sides to rotate through the conveying belt, the second belt pulley 7 drives the first lead screw 8 to rotate, the first lead screw 8 drives the first moving blocks 10 to move along the first lead screw 8 through rotation, the two first moving blocks 10 drive the second mounting frame 11 to move to the left side on the wastewater disposal basin 1, the second mounting frame 11 drives the storage barrel 15 to move to the left side on the wastewater disposal basin 1, and the first servo motor 5 stops working after reaching a preset position;

then the air cylinder 162 pushes the material blocking block 163 to slide backwards, so that the material blocking block 163 drives the through hole 164 to move backwards until the limiting block 165 on the material blocking block 163 is in contact with the outer side wall of the connecting seat 144, the material blocking block 163 stops sliding backwards, at the moment, the through hole 164 on the material blocking block 163 is aligned with the blanking pipeline 145, and then the microbial strains in the storage barrel 15 enter the connecting seat 144 through the blanking pipeline 145 under the action of gravity, then pass through the through hole 164 to fall below the connecting seat 144, and finally fall into the wastewater tank 1 from the blanking groove 146 formed in the second mounting frame 11, so that feeding is realized;

then, the second servo motor 141 is started, the second servo motor 141 drives the second lead screw 142 to rotate, the second lead screw 142 drives the second moving block 143 to move back and forth on the second mounting frame 11 along the second lead screw 142, the second moving block 143 is welded with the storage barrel 15 and the connecting seat 144, the storage barrel 15 and the connecting seat 144 move back and forth on the wastewater disposal basin 1, microbial strains in the storage barrel 15 are thrown to any position in the left-right direction of the wastewater disposal basin, the first servo motor 5 is started again after the microbial strains are thrown to the left-right position, meanwhile, the storage barrel 15 continues to move forward for a preset distance, feeding of any position in the front-back direction of the wastewater disposal basin is achieved, and feeding of any position of the wastewater disposal basin 1 is achieved in cooperation;

after the feeding is finished, the air cylinder 162 pushes the material blocking block 163 forwards, the material blocking block 163 drives the through hole 164 to move forwards until the through hole 164 and the blanking pipeline 145 are completely staggered, the material blocking block 163 blocks an outlet of the blanking pipeline 145, microbial strains in the blanking pipeline 145 cannot be discharged, the feeding is stopped, the automatic opening and closing of the feeding are realized, the structure is simple, the operation is convenient, the automation degree is high, and the wastewater in the wastewater tank 1 is discharged out of the wastewater tank 1 through the water outlet pipe 3 after the wastewater is treated;

in the feeding process, strains can be conveyed through the conveying pipe 226 and further conveyed into the docking module 22, the strains can be further conveyed into different docking ports 225 through the discharge port 222 and further conveyed into different storage grooves 153 through the rotation of the distributing head 221, and thus different strains can be stored respectively;

meanwhile, the sliding of the strains can be further promoted through the sliding of the third slide block 155, so that the strains are pushed out and discharged from the communication hole 152, the strain input amount is further controlled, and the wastewater treatment effect is improved.

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 described above, or equivalents may be substituted for elements thereof without departing from the scope of the invention.

Claims (10)

1. A microbial strain feeding device for treating wastewater by a biochemical method comprises a wastewater pool (1), the two ends of the wastewater tank (1) are respectively communicated with a water inlet pipe (2) and a water outlet pipe (3), the outer end of one side of the wastewater tank (1) close to the water outlet pipe (3) is fixedly connected with a first mounting rack (4) through bolts, a first servo motor (5) is fixedly connected in the middle of the upper end surface of the first mounting frame (4) through a bolt, a first belt pulley (6) is fixed at the end part of an output shaft of the first servo motor (5), two sides of the first belt pulley (6) are respectively connected with a second belt pulley (7) through transmission drive, the centers of the two second belt pulleys (7) are respectively connected with a first screw rod (8) through keys, first lead screw (8) pass through the bearing rotation with first mounting bracket (4) and are connected its characterized in that: the end part of one end of the first screw rod (8) far away from the second belt pulley (7) is rotationally connected with a first supporting plate (9) through a bearing, the first supporting plate (9) is welded at one end of the wastewater tank (1) close to the water inlet pipe (2), the two first screw rods (8) are in threaded transmission connection with first moving blocks (10), a second mounting frame (11) is fixed between the two first moving blocks (10), two sides of the lower end surface of the second mounting rack (11) are respectively fixed with a first sliding block (12), a first guide rail (13) is connected to the lower side of the first sliding block (12) in a sliding manner, the first guide rail (13) is fixed on two sides of the top end of the wastewater tank (1), the upper end surface of the second mounting rack (11) is provided with a translation mechanism (14), a storage barrel (15) is arranged on the translation mechanism (14), and a blanking switch mechanism (16) is arranged at the bottom end of the storage barrel (15);

a plurality of storage grooves (153) are arranged in the storage barrel (15), a sliding third sliding block (155) is arranged in each storage groove (153), a communication hole (152) is formed in the center of the storage barrel (15), and the storage grooves (153) are correspondingly communicated with the communication holes (152);

the storage tank is characterized by further comprising a butt joint module (22) corresponding to the storage barrel (15), a butt joint port (225) corresponding to the storage tank (153) is arranged in the butt joint module (22), a rotating material distributing head (221) is arranged in the butt joint module (22), the material distributing head (221) controls the communication and the closing of the butt joint port (225) respectively, and a conveying pipe (226) is arranged on the butt joint module (22).

2. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 1, characterized in that: the translation mechanism (14) comprises a second servo motor (141), the second servo motor (141) is fixed on one side of the second mounting frame (11) through a bolt, a second lead screw (142) is fixed at the end part of an output shaft of the second servo motor (141), two ends of the second lead screw (142) are rotatably connected with the second mounting frame (11) through a bearing, a second moving block (143) is connected to the second lead screw (142) in a threaded transmission manner, and the upper end of the second moving block (143) is welded with the storage barrel (15);

a connecting seat (144) is welded on one side of the second moving block (143), a blanking pipeline (145) is communicated with the middle of the connecting seat (144), the upper end of the blanking pipeline (145) is correspondingly communicated with the communicating hole (152), a blanking groove (146) is arranged below the connecting seat (144), and the blanking groove (146) is arranged on the bottom surface of the second mounting frame (11);

second sliding blocks (147) are fixed to two sides of the lower end face of the connecting seat (144), second guide rails (148) are connected to the lower sides of the second sliding blocks (147) in a sliding mode, and the second guide rails (148) are fixed to the upper end face of the second mounting frame (11) and are respectively arranged on two sides of the lower trough (146).

3. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 2, characterized in that: the blanking switch mechanism (16) comprises a fixing plate (161), the fixing plate (161) is fixed on one layer of the connecting seat (144) through bolts, an air cylinder (162) is fixed in the middle of the fixing plate (161) through bolts, a material blocking block (163) is fixed at the end part of a piston rod of the air cylinder (162), the material blocking block (163) is inserted in the connecting seat (144), and a through hole (164) is formed in the middle of the material blocking block (163).

4. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 3, characterized in that: one end part of the material blocking block (163) far away from the air cylinder (162) is fixedly provided with a limiting block (165), and the limiting block (165) is positioned on the outer side of the connecting seat (144).

5. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 1, characterized in that: the upper end of the storage barrel (15) is hinged to a barrel cover (17), and a handle (18) is fixed to the outer side of one end, away from the hinged position, of the barrel cover (17) through bolts.

6. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 1, characterized in that: an observation window (19) is embedded in the wall of the storage barrel (15).

7. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 1, characterized in that: the outer sides of the first servo motor (5), the first belt pulley (6) and the second belt pulley (7) are provided with a protective cover (20), and the protective cover (20) is fixed on the first mounting frame (4).

8. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 1, characterized in that: and a ribbed plate (21) is fixed between the outer side of the lower end face of the first mounting frame (4) and the wastewater tank (1).

9. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 1, characterized in that: be provided with a third servo motor (156) driven third lead screw (154) in holding tank (153) respectively, be provided with on third slider (155) respectively with the corresponding screw hole that meshes the connection of third lead screw (154), third slider (155) with holding tank (153) are octagon type setting respectively, the top of storage vat (15) is provided with one bin outlet (151), holding tank (153) respectively with the corresponding intercommunication of bin outlet (151), intercommunicating hole (152) set up bin outlet (151) central point puts.

10. The microbial strain feeding device for wastewater treatment by a biochemical method according to claim 1, characterized in that: the automatic feeding device is characterized in that a discharge port (224) is formed in the butt joint module (22), the butt joint ports (225) are respectively communicated with the discharge port (224) correspondingly, a fourth servo motor (223) for driving the material distribution head (221) to rotate is arranged in the butt joint module (22), a material distribution port (222) correspondingly communicated with the discharge port (224) is formed in the material distribution head (221), the material distribution port (22) corresponds to the butt joint ports (225), the conveying pipe (226) is communicated with the discharge port (224) correspondingly, a fixing base (227) is arranged at the end of the conveying pipe (226), a material feeding port is formed in the conveying pipe (226), and a rotary screw conveyor is arranged in the conveying pipe.

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