CN116002932A - Pharmaceutical wastewater treatment equipment with impurity collection function for pharmaceutical pharmacy - Google Patents

Abstract

The invention discloses medical wastewater treatment equipment with an impurity collection function for medical pharmacy, and relates to the technical field of medical wastewater treatment. Including the supporting seat, the supporting seat rigid coupling has first jar body, the upside rigid coupling of first jar body has the second jar body, the second jar body rigid coupling has the top cap, first jar body is connected with the feed liquor pipe in a run-through manner, the top cap is passed to the upper end of feed liquor pipe, the top cap rotates to be connected with and rotates the cover, the top cap rigid coupling has first electric putter, the internal wall sliding connection of second jar has the first filtration shell that is used for carrying out filterable to solid impurity, the flexible end and the first filtration shell rigid coupling of first electric putter, the second jar body is provided with the sediment hole. According to the invention, the lower side of the first filter shell moves to the lower edge of the slag discharging hole of the second tank body to be flush, and the large-volume impurities on the upper side of the first filter shell move outwards and are discharged from the slag discharging hole of the second tank body, so that the problem that the filtration efficiency of the first filter shell on medical wastewater is reduced due to long-time accumulation of the large-volume impurities on the upper side of the first filter shell is avoided.

Description

Pharmaceutical wastewater treatment equipment with impurity collection function for pharmaceutical pharmacy

Technical Field

The invention relates to the technical field of medical wastewater treatment, in particular to medical wastewater treatment equipment with an impurity collection function for medical pharmacy.

Background

The medical industrial wastewater is wastewater discharged from factories for producing antibiotics, antisera, organic and inorganic medicines, and the like. The pollutant in the medical intermediate wastewater has complex, toxic and harmful structure, belongs to typical organic pollutants which are difficult to biodegrade, can be discharged into the environment without treating the medical wastewater, can cause serious harm to the surrounding environment, and simultaneously, viruses and bacteria in the medical wastewater can also cause various diseases which are harmful to human health.

When current equipment is handling medicine waste water, filter the bulky impurity in the medicine waste water earlier through filter equipment, then handle medicine waste water through adding the medicament to treatment facility in, if the impurity after the clearance can not in time discharge, can lead to piling up a large amount of impurity on the filter equipment, cause impurity to block up filter equipment's filtration pore, seriously reduce filter equipment to follow-up medicine waste water's filtration efficiency, if frequent clear up filter equipment, not only increased staff's intensity of labour, but also reduced the treatment effeciency to medicine waste water.

Disclosure of Invention

In order to overcome the defects of the prior equipment in the technical background, the invention provides medical wastewater treatment equipment with an impurity collection function for medical pharmacy.

The technical scheme provided by the invention is as follows: the medical wastewater treatment equipment with the impurity collecting function for the pharmaceutical pharmacy comprises a supporting seat, wherein the supporting seat is fixedly connected with a control panel, the supporting seat is fixedly connected with a first tank body, the upper side of the first tank body is fixedly connected with a second tank body, the second tank body is fixedly connected with a top cover, the first tank body, the second tank body and the top cover are combined into a sealed tank, the first tank body is connected with a liquid inlet pipe in a penetrating way, the upper end of the liquid inlet pipe penetrates through the top cover, the top cover is rotationally connected with a rotating sleeve, the liquid inlet pipe penetrates through the rotating sleeve and is rotationally connected with the rotating sleeve, the top cover is fixedly connected with a first electric push rod electrically connected with the control panel, the inner wall of the second tank body is slidably connected with a first filter shell for filtering solid impurities, the telescopic end of the first electric push rod is fixedly connected with the first filter shell, the upper part of the liquid inlet pipe is provided with circumferentially equidistant through holes, the upper part of the rotating sleeve is provided with circumferentially equidistant through holes, the through-hole intercommunication and the side that is located first filtration shell each other of feed liquor pipe and rotation cover, the second jar body is provided with the sediment hole, the sediment hole of the second jar body is located the upside of first filtration shell, after the preliminary filtration to medical waste water, the sediment hole department that the first filtration shell moved the second jar body, in time discharge bulky impurity, sediment hole department rigid coupling of the second jar body has the hang plate, be provided with the stirring charge mechanism that is used for even dosing in the second jar body, the lower part of the second jar body is provided with the mud filtering mechanism that is used for filtering the precipitate, the inside of the first jar body is provided with the clearance sediment mechanism that is used for quick mud, the inner wall of the first jar body and the second jar body all is provided with the disinfection subassembly that is used for to sewage disinfection, stirring charge mechanism, mud filtering mechanism, clearance sediment mechanism and disinfection subassembly are all connected with control panel electricity.

Further, stirring charge mechanism is including first ring gear, first ring gear rigid coupling is in the upper portion of rotating the cover, the top cap rigid coupling has the first driving motor who is connected with the control panel electricity, the output shaft rigid coupling of first driving motor has the gear with first ring gear meshing, the lower part rigid coupling of rotating the cover has symmetrical stirring board, the upper portion of rotating the cover has first elastic component through the mounting panel rigid coupling, first elastic component is located the upside of first filtration shell, first elastic component rigid coupling has the first clearance board with first filtration shell sliding fit, first clearance board is used for the remaining impurity of clearance first filtration shell, first filtration shell is provided with the layering charge subassembly of even dosing.

Further, the stirring plate is arranged in an L shape, and the outer side of the stirring plate is made of soft materials and is used for cleaning the disinfection assembly.

Further, the layering dosing assembly comprises a fixed sleeve, the fixed sleeve is fixedly connected to a first filtering shell, the first filtering shell is in sealing fit with the fixed sleeve, a first guide plate for dispersing sewage is fixedly connected to the fixed sleeve, a sealing plate is fixedly connected to the first guide plate, a closed cavity is formed by the sealing plate and the first guide plate in sealing fit, a symmetrical medicine feeding pipe is rotationally connected to the sealing plate, a second toothed ring is rotationally connected to the fixed sleeve, a gear meshed with the second toothed ring is fixedly connected to the medicine feeding pipe, a second driving motor electrically connected with a control panel is fixedly connected to the first guide plate and the sealing plate, a gear meshed with the second toothed ring is fixedly connected to an output shaft of the second driving motor, a medicine conveying pipe is connected to the second tank in a penetrating mode, and the medicine conveying pipe is made of elastic materials and is communicated with the symmetrical medicine feeding pipe.

Further, the medicine inlet pipes are arranged in a diamond shape, jet nozzles are arranged at equal intervals in the symmetrical medicine inlet pipes, and the medicine inlet pipes are used for enabling medicines to be rapidly and uniformly dispersed in sewage.

Further, mud filtering mechanism is including the fixed plate, the fixed plate rigid coupling is in the lower part of the second jar body, the feed liquor pipe passes the fixed plate and sealing fit, the fixed plate sets up equidistant through-hole in circumference, the fixed plate rotates and is connected with the sealing ring, the sealing ring is provided with equidistant through-hole in circumference, the sealing ring is used for sealing the through-hole of fixed plate, the sealing ring rigid coupling has the third ring gear, the downside rigid coupling of fixed plate has the third driving motor who is connected with the control panel electricity, the output shaft rigid coupling of third driving motor has the gear with the meshing of third ring gear, the downside rigid coupling of sealing ring has the second guide plate, the fixed plate rigid coupling has the second electric putter who is connected with the control panel electricity, the inner wall sliding connection of the first jar body has the second to filter the shell, the flexible end and the second filtering shell rigid coupling of second electric putter.

Further, the second guide plate is arranged in a frustum shape, the radius of the second guide plate is sequentially reduced from bottom to top, the second guide plate is positioned on the lower side of the sealing ring, and the second guide plate is used for distributing the precipitated sewage.

Further, slag discharging mechanism is including rotating the shell, rotate the shell and rotate and connect in the lower part of feed liquor pipe, rotate the bottom that the shell runs through first jar body, rotate the shell and rotate with first jar body and be connected and seal the cooperation, be provided with the flood dragon between shell and the feed liquor pipe, flood dragon and rotate shell rigid coupling and with feed liquor pipe sliding fit, it has the second elastic component to rotate the shell through the mounting panel rigid coupling, the second elastic component rigid coupling has with second filter shell sliding fit's second clearance board, first clearance board and second clearance board are the elastic material, the lower part rigid coupling of rotating the shell has the fourth ring gear, the lower part rigid coupling of first jar body has the fourth driving motor who is connected with the control panel electricity, the output shaft rigid coupling of fourth driving motor has the gear with the fourth ring gear meshing.

Further, the upper end of the liquid inlet pipe is sealed, and the liquid inlet pipe, the rotating shell and the dragon are all made of transparent materials and are used for prolonging the flow path of sewage and improving the sewage disinfection time.

Further, the disinfection subassembly is including symmetrical seal shell, and symmetrical seal shell rigid coupling is in the inner wall of first jar body and second jar body respectively, and the outer ring face of seal shell is provided with equidistant bactericidal lamp of circumference, and bactericidal lamp is connected with the control panel electricity, and stirring board and the interior ring face sliding fit of upside seal shell, stirring board are used for the dirt of clearance seal shell adhesion.

In summary, the beneficial effects of the invention are as follows:

1. the downside of first filtration shell removes to the sediment mouth lower edge parallel and level of the second jar body, and first clearance board circumferential direction stirs the bulky impurity of first filtration shell upside and moves to the outside to discharge from the sediment mouth of the second jar body, avoid bulky impurity long-time to pile up in first filtration shell upside, bulky impurity blocks up the filtration pore of first filtration shell, leads to the filtration efficiency reduction of first filtration shell to medical waste water.

2. Through setting up feed liquor pipe, rotation shell and flood dragon into transparent material to prolonged the irradiation time of medicine waste water, avoided medicine waste water disinfection not to reach emission standard completely, improved this equipment to the disinfection effect of medicine waste water, medicine waste water flows down along sealed shell simultaneously, avoids containing a large amount of pigment in the medicine waste water, leads to the transmittance of medicine waste water to reduce, and the medicine waste water that is located the mid portion obtains not fully shining, and then improves the disinfection effect of bactericidal lamp to medicine waste water.

3. Two medicine feeding pipes are used for carrying out detouring on the medical wastewater, and two stirring plates are matched for stirring the medical wastewater simultaneously, so that the medical wastewater mixed with the medicine flows irregularly in the second tank body, the mixing speed of the medicine and the medical wastewater is improved, the medicine and the medical wastewater are prevented from being slowly mixed, and the treatment speed of the medical wastewater is reduced.

4. The telescopic link of first electric putter drives first filtration shell and upwards removes, makes the downside of first filtration shell remove to the sediment mouth lower edge parallel and level of second jar body, and the massive impurity of exhaust rolls downwards along the hang plate and collects, avoids massive impurity long-time to pile up in first filtration shell upside, leads to first filtration shell to medical waste water's filtration efficiency reduction.

5. The stirring board circumferential rotation's in-process is cleared up the sealed shell inner wall on upper portion, avoids sealed shell inner wall adhesion to have impurity, leads to sealed shell's light transmissivity to reduce.

6. The rotation shell drives the flood dragon circumference to rotate, will enter into the feed liquor pipe and rotate the downward discharge of precipitate between the shell, avoid rotating the adhesion between shell and the feed liquor pipe and have the precipitate, lead to the feed liquor pipe and rotate the light transmissivity of shell and reduce to improve the disinfection effect to medical waste water, timely precipitate after will filtering goes out and collects, avoids the precipitate to pile up in the second filtration shell upside, leads to the second to filter the filtration efficiency of shell to medical waste water and reduces.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional perspective view of a first tank and a second tank according to the present invention.

Fig. 3 is a schematic cross-sectional perspective view of the rotating sleeve of the present invention.

Fig. 4 is a schematic perspective view of the stirring and dosing mechanism of the present invention.

Fig. 5 is a schematic perspective view of a layered dosing assembly of the present invention.

Fig. 6 is a schematic perspective view of the slag discharging mechanism of the present invention.

Fig. 7 is a schematic cross-sectional perspective view of the fixing plate of the present invention.

FIG. 8 is a schematic perspective view of the slag discharging mechanism of the present invention.

Marked in the figure as: 101-supporting seat, 102-control panel, 103-first tank, 104-second tank, 105-top cover, 106-liquid inlet pipe, 107-rotating sleeve, 108-first electric push rod, 109-first filter shell, 110-inclined plate, 201-first toothed ring, 202-first driving motor, 203-stirring plate, 204-first elastic piece, 205-first cleaning plate, 206-fixed sleeve, 207-first guide plate, 208-sealing plate, 209-liquid inlet pipe, 210-second toothed ring, 211-second driving motor, 212-liquid delivery pipe, 301-fixed plate, 302-sealing ring, 303-third toothed ring, 304-third driving motor, 305-second guide plate, 306-second electric push rod, 307-second filter shell, 401-rotating shell, 402-dragon, 403-second elastic piece, 404-second cleaning plate, 405-fourth toothed ring, 406-fourth driving motor, 210-second toothed ring, 211-second driving motor, 212-third driving motor, 212-second guide plate, 306-second cleaning plate, 306-second electric guide plate, 306-second filter shell, and second cleaning plate.

Detailed Description

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship 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 apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. It will be understood by those skilled in the art that the specific meaning of the terms above in the present invention refers to the figures in a specific case.

1-3, the medical wastewater treatment equipment with impurity collecting function for pharmaceutical pharmacy comprises a supporting seat 101, wherein the supporting seat 101 is connected with a control panel 102 through bolts, the supporting seat 101 is welded with a first tank body 103, the upper side of the first tank body 103 is connected with a second tank body 104 through bolts, the second tank body 104 is connected with a top cover 105 through bolts, the first tank body 103, the second tank body 104 and the top cover 105 are combined into a sealed tank, the first tank body 103 is connected with a liquid inlet pipe 106 in a penetrating way, the upper end of the liquid inlet pipe 106 penetrates through the top cover 105, the top cover 105 is connected with a rotating sleeve 107 through the rotating sleeve 107 in a rotating way, the liquid inlet pipe 106 is connected with the rotating sleeve 107 in a rotating way, the top cover 105 is connected with a first electric push rod 108 electrically connected with the control panel 102 through bolts, the inner wall of the second tank body 104 is connected with a first filter shell 109 for filtering solid impurities in a sliding way, the telescopic end of the first electric push rod 108 is welded with the first filter shell 109, the upper part of the liquid inlet pipe 106 is provided with circumferentially equidistant through holes, the upper part of the rotating sleeve 107 is provided with circumferentially equidistant through holes, the through holes of the liquid inlet pipe 106 and the rotating sleeve 107 are mutually communicated and positioned on the upper side of the first filtering shell 109, the second tank 104 is provided with a slag discharging hole, the slag discharging hole of the second tank 104 is positioned on the upper side of the first filtering shell 109, after the medical wastewater is primarily filtered, the first filtering shell 109 moves to the slag discharging hole of the second tank 104 to timely discharge large-volume impurities, the large-volume impurities are prevented from accumulating on the upper side of the first filtering shell 109 for a long time, the filtering efficiency of the first filtering shell 109 on the medical wastewater is reduced, the slag discharging hole of the second tank 104 is welded with an inclined plate 110, the second tank 104 is internally provided with a stirring and dosing mechanism for uniformly dosing, the lower part of the second tank 104 is provided with a mud filtering mechanism for filtering sediment, the inside of the first tank 103 is provided with a cleaning and deslagging mechanism for rapidly discharging mud, the inner walls of the first tank 103 and the second tank 104 are provided with a disinfection component for disinfecting sewage, and the stirring and dosing mechanism, the mud filtering mechanism, the cleaning and deslagging mechanism and the disinfection component are all electrically connected with the control panel 102.

As shown in fig. 3-5, the stirring and dosing mechanism comprises a first toothed ring 201, the first toothed ring 201 is welded on the upper portion of a rotating sleeve 107, a first driving motor 202 electrically connected with a control panel 102 is connected to a top cover 105 through bolts, a gear meshed with the first toothed ring 201 is connected to an output shaft key of the first driving motor 202, a symmetrical stirring plate 203 is welded on the lower portion of the rotating sleeve 107, the stirring plate 203 is in an L shape, a first elastic piece 204 is welded on the upper portion of the rotating sleeve 107 through a mounting plate, the first elastic piece 204 is located on the upper side of the first filtering shell 109, a first cleaning plate 205 in sliding fit with the first filtering shell 109 is welded on the first elastic piece 204, the first cleaning plate 205 is used for cleaning impurities remained in the first filtering shell 109, the first filtering shell 109 is cleaned through circumferential rotation of the first cleaning plate 205, filtering holes of the first filtering shell 109 are prevented from being blocked by large-volume impurities, and further the filtering assembly of the first filtering shell 109 is evenly coated with medicine.

As shown in fig. 5, the layered dosing assembly comprises a fixed sleeve 206, the fixed sleeve 206 is welded on a first filtering shell 109, the first filtering shell 109 is in sealing fit with the fixed sleeve 206, the fixed sleeve 206 is welded with a first guide plate 207 for dispersing sewage, the first guide plate 207 is connected with a sealing plate 208 by bolts, the first guide plate 207 and the sealing plate 208 are in sealing fit to form a closed cavity, the sealing plate 208 is rotationally connected with symmetrical medicine feeding pipes 209, the medicine waste water circumferentially flows under the drive of a stirring plate 203, the medicine waste water impact area of the medicine feeding pipes 209 in the initial state is smaller, the medicine waste water resistance of the medicine feeding pipes 209 is smaller, the medicine waste water impact area of the medicine feeding pipes 209 is increased after the medicine feeding pipes 209 rotate by 90 degrees, the medicine waste water resistance of the medicine waste water is increased, the medicine waste water is disturbed by the two medicine feeding pipes 209, and the medicine waste water is stirred by the two stirring plates 203, the medicine wastewater mixed with the medicine is enabled to flow in the second tank 104 irregularly, the mixing speed of the medicine and the medicine wastewater is improved, the fixed sleeve 206 is connected with the second toothed ring 210 in a rotating way, the medicine feeding pipe 209 is connected with a gear meshed with the second toothed ring 210 in a key way, a second driving motor 211 electrically connected with the control panel 102 is connected in a sealed cavity formed by the first guide plate 207 and the sealing plate 208 in a bolt way, the output shaft key of the second driving motor 211 is connected with the gear meshed with the second toothed ring 210, the second tank 104 is connected with a medicine feeding pipe 212 in a penetrating way, the medicine feeding pipe 212 is made of elastic materials and is communicated with the symmetrical medicine feeding pipe 209, the medicine feeding pipe 209 is arranged into a diamond shape, jet nozzles are arranged at equal intervals of the symmetrical medicine feeding pipe 209, the medicine feeding pipe 209 is used for enabling the medicine to be dispersed in the sewage rapidly and evenly, the medicine is ejected from the jet nozzles of the medicine feeding pipe 209 and enters the medicine wastewater, meanwhile, the medicine wastewater flowing along with the circumferential direction enables the medicine to be added into the medicine wastewater in a layered manner, so that the mixing time of the medicine and the medicine water is shortened.

As shown in fig. 6 and 7, the slurry filtering mechanism comprises a fixing plate 301, the fixing plate 301 is welded at the lower part of the second tank 104, the liquid inlet pipe 106 passes through the fixing plate 301 and is in sealing fit, the fixing plate 301 is provided with circumferentially equidistant through holes, the fixing plate 301 is rotationally connected with a sealing ring 302, the sealing ring 302 is provided with circumferentially equidistant through holes, the sealing ring 302 is used for sealing the through holes of the fixing plate 301, the sealing ring 302 is matched with the fixing plate 301 to separate unreacted medical wastewater from the medical wastewater after reaction precipitation, so that the device can continuously treat the medical wastewater, the treatment efficiency of the device on the medical wastewater is improved, a third toothed ring 303 is welded on the sealing ring 302, a third driving motor 304 electrically connected with the control panel 102 is connected with the lower side bolt of the fixing plate 301, the output shaft key of the third driving motor 304 is connected with a gear meshed with the third toothed ring 303, the lower side of the sealing ring 302 is welded with a second guide plate 305, the second guide plate 305 is arranged in a frustum shape, the second guide plate 305 is sequentially reduced from bottom to top, the second guide plate 305 is positioned at the lower side of the sealing ring 302, the second guide plate 305 is used for shunting precipitated sewage, the precipitated sewage flows downwards along the inclined surface of the second guide plate 305, the medical wastewater then flows downwards along the inner wall of the first tank 103, so that the medical wastewater is fully irradiated by a disinfection assembly, the fixed plate 301 is connected with a second electric push rod 306 electrically connected with the control panel 102 in a bolt manner, the inner wall of the first tank 103 is connected with a second filter shell 307 in a sliding manner, and the telescopic end of the second electric push rod 306 is welded with the second filter shell 307.

As shown in fig. 8, the slag discharging mechanism comprises a rotating shell 401, the rotating shell 401 is rotationally connected to the lower part of the liquid inlet pipe 106, the rotating shell 401 penetrates through the bottom of the first tank body 103, the rotating shell 401 is rotationally connected with the first tank body 103 and is in sealing fit, a dragon 402 is arranged between the rotating shell 401 and the liquid inlet pipe 106, the rotating shell 401 drives the dragon 402 to circumferentially rotate, sediment entering between the liquid inlet pipe 106 and the rotating shell 401 is downwards discharged, sediment is prevented from adhering between the rotating shell 401 and the liquid inlet pipe 106, the upper end of the liquid inlet pipe 106 is sealed, the flowing path of sewage is prolonged, the liquid inlet pipe 106, the rotating shell 401 and the dragon 402 are made of transparent materials, the sewage disinfection time is improved, the incomplete disinfection of medical waste water is avoided, the disinfection effect of the equipment on medical waste water is reduced, the flood dragon 402 is fixedly connected with the rotating shell 401 and is in sliding fit with the liquid inlet pipe 106, the rotating shell 401 is welded with a second elastic piece 403 through a mounting plate, the second elastic piece 403 is fixedly connected with a second cleaning plate 404 which is in sliding fit with the second filtering shell 307, the first cleaning plate 205 and the second cleaning plate 404 are made of elastic materials, the rotating shell 401 drives the second cleaning plate 404 to circumferentially rotate through the second elastic piece 403 to clean the second filtering shell 307, the second cleaning plate 404 drives the bottom sediment on the upper side of the second filtering shell 307 to the middle, a fourth toothed ring 405 is welded on the lower portion of the rotating shell 401, a fourth driving motor 406 which is electrically connected with the control panel 102 is connected with a lower portion bolt of the first tank 103, and an output shaft of the fourth driving motor 406 is connected with a gear meshed with the fourth toothed ring 405 in a key manner.

As shown in fig. 2 and 6, the disinfection assembly comprises a symmetrical sealing shell 501, the symmetrical sealing shell 501 is fixedly connected to the inner walls of the first tank 103 and the second tank 104 respectively, the sealing shell 501 is made of transparent materials and is in sealing fit with the first tank 103 and the second tank 104, a circumferentially equidistant bactericidal lamp 502 is connected to the outer ring surface of the sealing shell 501 through bolts, the bactericidal lamp 502 is electrically connected with the control panel 102, the bactericidal lamp 502 disinfects medical wastewater flowing upwards along the liquid inlet pipe 106, bacteria and microorganisms in the medical wastewater are removed, the stirring plate 203 is in sliding fit with the inner ring surface of the upper sealing shell 501, the stirring plate 203 is used for cleaning dirt adhered to the sealing shell 501, and the inner wall of the sealing shell 501 on the upper part is cleaned in the circumferential rotation process of the stirring plate 203, so that impurities are adhered to the inner wall of the sealing shell 501 are avoided, and the light transmittance of the sealing shell 501 is reduced.

The staff communicates the lower end of the liquid inlet pipe 106 with the conveying pipeline of the medical wastewater, pumps quantitative medical wastewater into the liquid inlet pipe 106 through a water pump, the staff presses a start button of the control panel 102, the control panel 102 starts all the bactericidal lamps 502, in the process that the medical wastewater flows upwards along the liquid inlet pipe 106, the lamplight generated by the bactericidal lamps 502 at the lower part firstly penetrates through the rotating shell 401 and the liquid inlet pipe 106, the lamplight generated by the bactericidal lamps 502 at the upper part penetrates through the liquid inlet pipe 106, all the bactericidal lamps 502 disinfect the medical wastewater flowing upwards along the liquid inlet pipe 106 at the same time, the control panel 102 then starts the first driving motor 202, the output shaft of the first driving motor 202 is matched with the first toothed ring 201 through a gear to drive the rotating sleeve 107 and parts on the rotating sleeve to rotate circumferentially, after the medical wastewater flows to the upper part along the liquid inlet pipe 106, the through hole of the rotating sleeve 107 is always communicated with the through hole of the liquid inlet pipe 106, the medical wastewater flows out from the through hole of the liquid inlet pipe 106, passes through the through hole of the rotating sleeve 107 and flows downwards, when the medical wastewater passes through the first filter shell 109, the first filter shell 109 filters large-volume impurities in the medical wastewater, the filtered large-volume impurities can move outwards along the first filter shell 109 under the impact of the medical wastewater as shown in fig. 3, and meanwhile, the rotating sleeve 107 drives the first cleaning plate 205 to circumferentially rotate through the first elastic piece 204 so as to clean the first filter shell 109, so that the filtering holes of the first filter shell 109 are prevented from being blocked by the large-volume impurities, and the filtering speed of the medical wastewater by the first filter shell 109 is improved.

The medical waste water after filtering flows downwards to the upside of the first guide plate 207 through the first filtering shell 109, the medical waste water after filtering flows along the inclined plane of the first guide plate 207, the medical waste water after filtering flows downwards along the inner wall of the upper sealing shell 501 through the guide of the first guide plate 207, the medical waste water is fully irradiated by the sterilizing lamp 502, bacteria and microorganisms in the medical waste water are removed, the irradiation time of the medical waste water is prolonged by setting the liquid inlet pipe 106, the rotating shell 401 and the dragon 402 to be transparent materials, the medical waste water is prevented from incompletely reaching the emission standard, the medical waste water sterilizing effect of the device is improved, meanwhile, the medical waste water flows downwards along the sealing shell 501, a large amount of pigments are prevented from being contained in the medical waste water, the transmittance of the medical waste water is reduced, the medical waste water positioned in the middle part is not fully irradiated, and the sterilizing effect of the sterilizing lamp 502 on the medical waste water is further improved.

After adding appointed volume's medical waste water to second jar body 104 in, close the water pump and stop carrying medical waste water, rotate the cover 107 and drive two stirring boards 203 and stir medical waste water, make medical waste water produce the vortex at second jar body 104, the staff later adds quantitative medicament to the conveying intraductal 212, medicament pressure increases in the medicine pipe 209, the medicament is followed in the efflux spout of medicine pipe 209 and is gone into medical waste water, simultaneously follow the medical waste water of circumference flow, make the medicament layering add into medical waste water, the mixed time of medicament and medicine division, control panel 102 starts second driving motor 211 afterwards, the output shaft of second driving motor 211 passes through the gear and drives second toothed ring 210 circumferential direction, second toothed ring 210 passes through the gear cooperation with medicine pipe 209, make two medicine pipe 209 circumference rotation 90, medicine waste water is at stirring board 203's under the drive, the area that medicine pipe 209 received the waste water is less, medicine pipe 209 is very little to medicine resistance, after medicine pipe 209 rotates 90, medicine pipe 209 is followed in the medicine pipe 209, make medicine pipe 209 layering add into medicine waste water, medicine waste water mixing time with medicine division, the mixed speed is improved to medicine pipe 209 is advanced to medicine waste water through two medicine pipe 209, the mixed speed is improved to medicine pipe 209 is advanced to medicine waste water, the medicine is mixed to medicine waste water is mixed to two more than two medicine pipe 209, and medicine is mixed to medicine pipe 209, the speed is changed, and medicine is mixed to medicine waste water is passed through the medicine is not mixed to medicine pipe is mixed to medicine pipe 209, the speed is changed, medicine is mixed to medicine is passed through two medicine to medicine pipe 209, and is mixed to medicine, medicine is used to medicine is mixed to medicine.

In the process of adding medicine into the medical wastewater, the control panel 102 starts the first electric push rod 108, the telescopic rod of the first electric push rod 108 drives the first filter shell 109 to move upwards, the lower side of the first filter shell 109 moves to be flush with the lower edge of the slag discharge port of the second tank 104, the first elastic piece 204 is compressed when the first filter shell 109 moves upwards, the first cleaning plate 205 is always in extrusion contact with the first filter shell 109, the first cleaning plate 205 rotates circumferentially, the large-volume impurities on the upper side of the first filter shell 109 are stirred to move outwards and are discharged from the slag discharge port of the second tank 104, the discharged large-volume impurities roll downwards along the inclined plate 110 and are collected, after the medical wastewater is filtered, the impurities are discharged in time each time, the large-volume impurities are prevented from being accumulated on the upper side of the first filter shell 109, the filtering holes of the first filter shell 109 are blocked, the filtering efficiency of the medical wastewater is reduced by the first filter shell 109, and after a period of time, the control panel 102 subsequently controls the telescopic end of the first electric push rod 108 to drive the first filter shell 109 to reset.

After the medicine wastewater and the medicine are mixed, the control panel 102 turns off the first driving motor 202, the rotating sleeve 107 stops rotating, the medicine reacts with the medicine water and stands still, after a period of standing, the impurities in the medicine wastewater become sediment and are accumulated on the upper side of the fixed plate 301, the control panel 102 then starts the third driving motor 304, the output shaft of the third driving motor 304 drives the third toothed ring 303 to rotate through the gear, the third toothed ring 303 drives the sealing ring 302 to rotate until the sealing ring 302 is communicated with the through hole of the fixed plate 301, the third driving motor 304 is turned off, the medicine wastewater on the upper side of the fixed plate 301 and the settled impurities flow downwards through the sealing ring 302 and the through hole of the fixed plate 301, then the medicine wastewater flows downwards along the inclined surface of the second guide plate 305, the medicine wastewater flows downwards along the inner wall of the first tank 103 and then flows to the second filter housing 307, the second filtering shell 307 filters the impurities precipitated in the medical waste water, along with the impact of the medical waste water, the filtered impurities are collected in the middle of the second filtering shell 307, the filtered medical waste water flows into the first tank 103, the control panel 102 restarts the first driving motor 202 in the process of downwards flowing the medical waste water in the second tank 104, the output shaft of the first driving motor 202 slowly rotates, the inner wall of the upper sealing shell 501 is cleaned in the circumferential rotation process of the stirring plate 203, the impurities are prevented from adhering to the inner wall of the sealing shell 501, the light transmittance of the sealing shell 501 is reduced, the medical waste water entering the first tank 103 is sterilized by the sterilizing lamp 502, the control panel 102 restarts the third driving motor 304 after the medical waste water in the second tank 104 is completely discharged, the output shaft of the third driving motor 304 drives the sealing ring 302 to reset through the third toothed ring 303 to seal the through hole of the fixing plate 301 again, and then the steps are repeated, so that the untreated medical wastewater is continuously conveyed into the liquid inlet pipe 106.

The control panel 102 starts the fourth driving motor 406, the output shaft of the fourth driving motor 406 drives the fourth toothed ring 405 to rotate circumferentially through the gear, the fourth toothed ring 405 drives the rotating shell 401 to rotate circumferentially along the liquid inlet pipe 106 and the first tank 103, the control panel 102 simultaneously starts the second electric push rod 306, the telescopic end of the second electric push rod 306 drives the second filter shell 307 to move upwards, the second elastic piece 403 is compressed in the process of moving the second filter shell 307 upwards, the second cleaning plate 404 is always in contact with the second filter shell 307, when the lower part of the second filter shell 307 is flush with the lower edge of the through hole of the rotating shell 401, the rotating shell 401 drives the second cleaning plate 404 to rotate circumferentially through the second elastic piece 403 to clean the second filter shell 307, the second cleaning plate 404 drives the sediment on the upper side of the second filter shell 307 to the middle, the filtered sediment moves towards the middle along the inclined surface of the second filtering shell 307 and passes through the through hole of the rotating shell 401, the rotating shell 401 drives the dragon 402 to circumferentially rotate, the sediment entering between the liquid inlet pipe 106 and the rotating shell 401 is discharged downwards, the sediment is prevented from being adhered between the rotating shell 401 and the liquid inlet pipe 106, the light transmittance of the liquid inlet pipe 106 and the rotating shell 401 is reduced, the disinfection effect on medical wastewater is improved, the filtered sediment is timely discharged and collected, the sediment is prevented from being accumulated on the upper side of the second filtering shell 307, the filtering efficiency of the second filtering shell 307 on the medical wastewater is reduced, the discharged impurities and the sediment are collected and then are subjected to subsequent treatment, the control panel 102 controls the telescopic rod of the second electric push rod 306 to downwardly move, the second filtering shell 307 and the second elastic piece 403 are reset, and the control panel 102 subsequently closes the fourth driving motor 406.

In the process of discharging the sediment on the upper side of the second filter housing 307, the medical wastewater in the first tank 103 is always irradiated by the sterilizing lamp 502, after a certain period of time, a worker opens a valve at the lower part of the first tank 103 to discharge the sterilized medical wastewater, after the medical wastewater in the first tank 103 is completely discharged, the worker closes the valve of the first tank 103, and simultaneously, the medical wastewater refilled in the second tank 104 reacts with the medicament and is precipitated, and then the steps are repeated to continuously treat the medical wastewater, and the medical wastewater is continuously treated by the parts in the first tank 103 and the second tank 104, so that the treatment efficiency of the medical wastewater is improved.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims. Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a medicine pharmacy is with medicine effluent disposal equipment that has impurity collection function, including supporting seat (101), supporting seat (101) rigid coupling has control panel (102), supporting seat (101) rigid coupling has first jar body (103), the upside rigid coupling of first jar body (103) has second jar body (104), second jar body (104) rigid coupling has top cap (105), first jar body (103), second jar body (104) and top cap (105) make up into the seal pot, first jar body (103) run-through is connected with feed liquor pipe (106), the upper end of feed liquor pipe (106) passes top cap (105), characterized by, still including rotating sleeve (107), rotating sleeve (107) rotationally connect in top cap (105), feed liquor pipe (106) pass rotating sleeve (107) and rather than swivelling joint, top cap (105) rigid coupling has first electric putter (108) that are connected with control panel (102) electricity, second jar body (104) inner wall sliding connection has first filter shell (109) that are used for carrying out filtering solid impurity, first electric putter (108) and first filter shell (106) and first filter liquor (106) and first filter shell (106) and the upper end are located the equidistant through-hole (107) of mutual circumference portion that sets up on the top cap (106) and the equidistant through-hole (107) that sets up on the top tube, the second jar body (104) is provided with the sediment hole, the sediment hole of the second jar body (104) is located the upside of first filtration shell (109), after to medical waste water preliminary filtration, first filtration shell (109) remove sediment hole department to the second jar body (104), in time discharge bulky impurity, sediment hole department rigid coupling of the second jar body (104) has inclined plate (110), be provided with in the second jar body (104) and be used for even the stirring charge mechanism of dosing, the lower part of the second jar body (104) is provided with and is used for the filterable mud filtering mechanism of precipitate, the inside of first jar body (103) is provided with the clearance sediment mechanism that is used for quick mud, the inner wall of first jar body (103) and second jar body (104) all is provided with the disinfection subassembly that is used for to sewage disinfection, stirring charge mechanism, mud filtering mechanism, clearance sediment mechanism and disinfection subassembly all are connected with control panel (102) electricity.

2. The medical wastewater treatment device with the impurity collecting function for the pharmaceutical pharmacy according to claim 1, wherein the stirring and dosing mechanism comprises a first toothed ring (201), the first toothed ring (201) is fixedly connected to the upper portion of a rotating sleeve (107), a first driving motor (202) electrically connected with a control panel (102) is fixedly connected to a top cover (105), a gear meshed with the first toothed ring (201) is fixedly connected to an output shaft of the first driving motor (202), a symmetrical stirring plate (203) is fixedly connected to the lower portion of the rotating sleeve (107), a first elastic piece (204) is fixedly connected to the upper portion of the rotating sleeve (107) through a mounting plate, the first elastic piece (204) is located on the upper side of a first filtering shell (109), a first cleaning plate (205) in sliding fit with the first filtering shell (109) is fixedly connected to the first elastic piece (204), the first cleaning plate (205) is used for cleaning impurities remained in the first filtering shell (109), and the first filtering shell (109) is provided with a layered dosing component for uniform dosing.

3. A medical wastewater treatment apparatus with impurity collecting function for pharmaceutical use according to claim 2, wherein the stirring plate (203) is provided in an L-shape, and the outer side of the stirring plate (203) is provided in a soft material for cleaning the sterilizing unit.

4. The medical wastewater treatment device with the impurity collecting function for the pharmaceutical pharmacy according to claim 2, wherein the layered dosing assembly comprises a fixed sleeve (206), the fixed sleeve (206) is fixedly connected to a first filtering shell (109), the first filtering shell (109) is in sealing fit with the fixed sleeve (206), a first guide plate (207) for dispersing sewage is fixedly connected to the fixed sleeve (206), a sealing plate (208) is fixedly connected to the first guide plate (207) and is in sealing fit with the sealing plate (208) to form a closed cavity, a symmetrical medicine inlet pipe (209) is rotationally connected to the sealing plate (208), a second toothed ring (210) is rotationally connected to the fixed sleeve (206), a gear meshed with the second toothed ring (210) is fixedly connected to the medicine inlet pipe (209), a second driving motor (211) electrically connected to the control panel (102) is fixedly connected to the inside of the closed cavity formed by the first guide plate (207), a gear meshed with the second toothed ring (210) is fixedly connected to the output shaft of the second driving motor (211), and a symmetrical medicine inlet pipe (212) is connected to the second tank (104), and the medicine inlet pipe (212) is connected to the medicine inlet pipe (209).

5. The medical wastewater treatment device with the impurity collecting function for medical pharmacy according to claim 4, wherein the medicine feeding pipes (209) are arranged in a diamond shape, jet nozzles are arranged at equal intervals of the symmetrical medicine feeding pipes (209), and the medicine feeding pipes (209) are used for enabling medicines to be rapidly and uniformly dispersed in sewage.

6. The medical wastewater treatment device with the impurity collecting function for the pharmaceutical pharmacy according to claim 1, wherein the slurry filtering mechanism comprises a fixed plate (301), the fixed plate (301) is fixedly connected to the lower portion of the second tank body (104), the liquid inlet pipe (106) penetrates through the fixed plate (301) and is in sealing fit, circumferentially equidistant through holes are formed in the fixed plate (301), the fixed plate (301) is rotationally connected with a sealing ring (302), the sealing ring (302) is provided with circumferentially equidistant through holes, the sealing ring (302) is used for sealing the through holes of the fixed plate (301), the sealing ring (302) is fixedly connected with a third toothed ring (303), a third driving motor (304) electrically connected with the control panel (102) is fixedly connected to the lower side of the fixed plate (301), a gear meshed with the third toothed ring (303) is fixedly connected to the output shaft of the third driving motor (304), a second guide plate (305) is fixedly connected to the lower side of the sealing ring (302), a second electric push rod (306) electrically connected with the control panel (102) is fixedly connected to the inner wall of the first tank body (103), and the second electric push rod (307) is fixedly connected to the second push rod (307).

7. The medical wastewater treatment device with the impurity collecting function for the pharmaceutical use according to claim 6, wherein the second deflector (305) is arranged in a frustum shape, the second deflector (305) is sequentially reduced in radius from bottom to top, the second deflector (305) is positioned at the lower side of the sealing ring (302), and the second deflector (305) is used for diverting the precipitated wastewater.

8. The medical wastewater treatment device with the impurity collecting function for the pharmaceutical pharmacy according to claim 2, wherein the slag discharging mechanism comprises a rotating shell (401), the rotating shell (401) is rotationally connected to the lower portion of the liquid inlet pipe (106), the rotating shell (401) penetrates through the bottom of the first tank body (103), the rotating shell (401) is rotationally connected with the first tank body (103) and is in sealing fit, a dragon (402) is arranged between the rotating shell (401) and the liquid inlet pipe (106), the dragon (402) is fixedly connected with the rotating shell (401) and is in sliding fit with the liquid inlet pipe (106), the rotating shell (401) is fixedly connected with a second elastic piece (403) through a mounting plate, a second cleaning plate (404) which is in sliding fit with the second filtering shell (307) is fixedly connected with the second elastic piece, the first cleaning plate (205) and the second cleaning plate (404) are both made of elastic materials, a fourth toothed ring (405) is fixedly connected to the lower portion of the rotating shell (401), a fourth toothed ring (405) is fixedly connected with a fourth toothed ring (406) which is electrically connected with a control panel (102), and a fourth toothed ring (405) is fixedly connected with a fourth driving gear (406).

9. The medical wastewater treatment device with the impurity collecting function for pharmaceutical use according to claim 8, wherein the upper end of the liquid inlet pipe (106) is sealed, and the liquid inlet pipe (106), the rotary shell (401) and the dragon (402) are all made of transparent materials, so that the flow path of the sewage is prolonged, and the sewage disinfection time is prolonged.

10. The medical wastewater treatment device with the impurity collecting function for the pharmaceutical pharmacy according to claim 2, wherein the disinfection assembly comprises symmetrical sealing shells (501), the symmetrical sealing shells (501) are fixedly connected to the inner walls of the first tank body (103) and the second tank body (104) respectively, circumferentially equidistant sterilizing lamps (502) are arranged on the outer annular surface of the sealing shells (501), the sterilizing lamps (502) are electrically connected with the control panel (102), the stirring plate (203) is in sliding fit with the inner annular surface of the upper sealing shell (501), and the stirring plate (203) is used for cleaning dirt adhered to the sealing shells (501).

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