CN116000041A - Empty bottle washs weathers all-in-one - Google Patents

Empty bottle washs weathers all-in-one Download PDF

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Publication number
CN116000041A
CN116000041A CN202310047953.2A CN202310047953A CN116000041A CN 116000041 A CN116000041 A CN 116000041A CN 202310047953 A CN202310047953 A CN 202310047953A CN 116000041 A CN116000041 A CN 116000041A
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China
Prior art keywords
cleaning
pipe
drying
bottle
fixedly connected
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CN202310047953.2A
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CN116000041B (en
Inventor
关锋
杜起锐
古茵茵
关晓龙
严雪梅
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Guangdong Yitong Agricultural Development Co ltd
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Guangdong Yitong Agricultural Development Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

Abstract

The invention relates to the field of empty bottle cleaning, in particular to an empty bottle cleaning and drying integrated machine. Technical problems: for a reagent bottle with a plurality of feed supplementing openings, namely a feed supplementing bottle, the effective cleaning effect of the feed supplementing bottle cannot be achieved at all only by simple clear water flushing, and the drying effect can be achieved only by long-time airing, so that the experimental effect is affected to a certain extent. The technical scheme is as follows: an empty bottle cleaning and drying integrated machine comprises a mounting rack, a conveying system, a drying system, a cleaning system and the like; a transport system is arranged at the left side of the mounting frame; the transport system and the hot air box are connected with a drying system together; the transportation system and the water tank are connected with a cleaning system. According to the invention, when the feeding bottle is dried, a large amount of water vapor generated by drying rises, the water vapor is collected and condensed into water through the drying system and then heated, so that the feeding bottle has an effect of dissolving experimental residues, the collection and the utilization of the water vapor are realized, the use of thermal energy is reduced, and a large amount of resources are effectively saved.

Description

Empty bottle washs weathers all-in-one
Technical Field
The invention relates to the field of empty bottle cleaning, in particular to an empty bottle cleaning and drying integrated machine.
Background
At present, some laboratory aims at the mode of cleaning the feed supplement bottle generally to achieve the aim of cleaning by using a spray head to spray water to the interior of the reagent bottle by experimenters, but the aim of thoroughly cleaning can not be achieved by directly spraying water to the interior of the reagent bottle, for example, if the reagent bottle is placed for too long, stains can be left on the inner wall and the inner bottom of the reagent bottle by liquid in the original reagent bottle, and the stains are difficult to thoroughly clean by washing only with clear water;
for a reagent bottle with a plurality of feed inlets, namely a feed bottle, an effective cleaning effect cannot be achieved at all only by simple clean water flushing, a large amount of experimental residual liquid is needed to exist in a feed pipe with a smaller pipe diameter, and the clean water flushing cannot have an actual effect at all, so that the feed bottle with residual stains still after cleaning cannot be put into a chemical experiment, and can only be repeatedly cleaned to put into the experiment, and the experimental process is seriously influenced;
and, to the feed supplement bottle that has a plurality of feed inlets, effective washing has been difficult, and the stoving of feed supplement bottle is more difficult to add, and a large amount of drop of water remain in the feed supplement pipe that the pipe diameter is less after the washing, only can rely on long-time drying to reach dry effect, if the experiment is urgent, after the feed supplement bottle that does not reach complete drying put into use, the experiment effect is influenced to a certain extent to some extent, causes experimental error.
Disclosure of Invention
In order to overcome the defects that for a reagent bottle with a plurality of feed inlets, namely a feed bottle, the effective cleaning effect of the feed bottle cannot be achieved at all only by simple clean water flushing, a large amount of water drops remain in a feed pipe with a smaller pipe diameter after cleaning, and the drying effect can be achieved only by long-time airing, so that the experimental effect is affected to a certain extent, the invention provides an empty bottle cleaning and drying integrated machine.
The technical scheme is as follows: an empty bottle cleaning and drying integrated machine comprises a mounting frame, a water tank, a hot air box, a conveying system, a drying system and a cleaning system; the mounting frame is provided with a water tank and a hot air tank; a transport system is arranged at the left side of the mounting frame; the transport system and the hot air box are connected with a drying system together; the transportation system and the water tank are connected with a cleaning system together; the conveying system is used for conveying the feeding bottle; the drying system is used for drying the feeding bottle; the cleaning system is used for cleaning the feeding bottle.
Optionally, the transportation system comprises a transportation assembly and a bearing rotation assembly; a transport assembly is arranged at the left side of the mounting frame; the transport assembly is connected with a bearing rotation assembly; the conveying assembly and the bearing rotating assembly are used for conveying the feeding bottle.
Optionally, the transportation assembly comprises a bearing seat, a rotating shaft, a conveyor belt and a first motor; four bearing seats which are distributed in a rectangular shape are arranged on the left side of the mounting frame; the two bearing seats at the front part are connected with a rotating shaft in a common rotating way; the two bearing seats at the rear part are connected with another rotating shaft in a common rotating way; the two rotating shafts are connected with a conveyor belt in a common transmission way; the left side of the bearing seat at the left side of the rear part is provided with a first motor, and an output shaft of the first motor is fixedly connected with a rotating shaft at the rear part.
Optionally, the bearing rotation assembly comprises a first mounting plate, a first electric push rod, a mounting seat, a second motor, a first gear, a placement ring and a first toothed ring; the two bearing seats at the left side are fixedly connected with a first mounting plate; the two bearing seats on the right are fixedly connected with another first mounting plate; four first electric push rods which are linearly distributed in the front-back direction are arranged on the first mounting plate at the left side; the two first electric push rod telescopic parts at the rear are fixedly connected with a mounting seat; the two first electric push rod telescopic parts in front are fixedly connected with another mounting seat; the two mounting seats are respectively provided with a second motor; the output shafts of the two second motors are fixedly connected with a first gear respectively; the outer ring surface of the conveyor belt is rotatably connected with a plurality of placing rings; each placement ring is fixedly connected with a first toothed ring, and the first toothed rings are matched with the first gears; the placing ring is used for placing the feeding bottle.
Optionally, the drying system comprises an in-bottle drying component, an out-bottle drying component and a steam condensing component; the hot air box is connected with an in-bottle drying assembly; the two first mounting plates are connected with an out-bottle drying assembly; the two first mounting plates are connected with a steam condensing assembly together; the in-bottle drying component is used for drying the inside of the feeding bottle; the external drying component is used for drying the outside of the feeding bottle; the steam condensing assembly is used for collecting and condensing water steam generated during drying.
Optionally, the in-bottle drying assembly comprises a second mounting plate, a second electric push rod, a first connecting ring, a first vent pipe, a first rotating ring, a second toothed ring, a third motor, a second gear, a connecting plate, an electric guide rail, a first air guiding disc, a second vent pipe and a second air guiding disc; the hot air box is fixedly connected with a second mounting plate; the second mounting plate is provided with a second electric push rod; the second electric push rod telescopic part is fixedly connected with a first connecting ring; the hot air box is communicated with a first vent pipe which is fixedly connected with the first connecting ring and is a telescopic pipe; the first vent pipe is rotationally connected with a first rotating ring; the first rotating ring is fixedly connected with a second gear ring; the first vent pipe is provided with a third motor; the output shaft of the third motor is fixedly connected with a second gear which is meshed with the second toothed ring; the first rotating ring is fixedly connected with four connecting plates which are distributed in a cross manner; the four connecting plates are fixedly connected with an electric guide rail; the lower end of the electric guide rail is fixedly connected with a first air guide disc, and the first air guide disc is provided with a plurality of inclined downward bristles; the electric guide rail is connected with a second vent pipe in a sliding manner, and the second vent pipe is a telescopic pipe; the lower part of the second ventilation pipe is fixedly connected with a second air guide disc which is in sliding connection with the electric guide rail; the first air guide disc and the second air guide disc are used for changing the trend of hot air.
Optionally, the out-bottle drying assembly comprises a third mounting plate, a third electric push rod, a drying cover, a first air guide block, a second air guide block, a fourth electric push rod and a blocking block; the two first mounting plates are fixedly connected with a third mounting plate respectively; the two third mounting plates are respectively provided with a third electric push rod; the two third electric push rod telescopic parts are fixedly connected with a drying cover respectively; the inner walls of the two drying hoods are fixedly connected with two first air guide blocks which are distributed in the front-back direction respectively, and the two first air guide blocks fixedly connected on the right drying hood are matched with the two first air guide blocks fixedly connected on the left drying hood; the inner walls of the two drying hoods are fixedly connected with two second air guide blocks which are distributed in the front-back direction respectively, and the two second air guide blocks fixedly connected on the right drying hood are matched with the two second air guide blocks fixedly connected on the left drying hood; four fourth electric push rods are arranged on the right drying cover; each fourth electric putter expansion and contraction part is fixedly connected with a blocking block.
Optionally, the steam condensing assembly comprises a first mounting ring, a flow director, a first flow guiding pipe, a condensing ball, a circular pipe, a second flow guiding pipe, a fan, a water receiver and a water injection pipe; the two first mounting plates are fixedly connected with a first mounting ring; the first mounting ring is fixedly connected with a deflector; the fluid director is communicated with a first fluid director, and the other end of the first fluid director passes through the fluid director and is fixedly connected with the fluid director; the first guide pipe is provided with a condensation ball which is positioned in the guide pipe; the first guide pipe is communicated with a circular pipe, and the first vent pipe is positioned in the middle of the circular pipe; the round pipe is communicated with a second guide pipe; the second guide pipe is provided with a fan; the second guide pipe is communicated with a water receiver; the water reservoir is provided with a water injection pipe; the deflector and the condensation ball are used for collecting and condensing the water vapor generated during drying.
Optionally, the cleaning system comprises an in-bottle cleaning assembly and a bottle opening cleaning assembly; the water tank is connected with a cleaning component in the bottle; the two first mounting plates are connected with a bottle opening cleaning assembly; the in-bottle cleaning component is used for cleaning the inside of the material supplementing bottle; the bottleneck cleaning component is used for cleaning a feed supplementing opening of the feed supplementing bottle.
Optionally, the cleaning component in the bottle comprises a fourth mounting plate, a fifth electric push rod, a second mounting ring, a second connecting ring, a second rotating ring, a first cleaning pipe, a fourth motor, a third gear, a disc, a water suction pipe, a water suction disc, a water pipe and a third toothed ring; the water tank is fixedly connected with a fourth mounting plate; the fourth mounting plate is provided with a fifth electric push rod; the fifth electric push rod telescopic part is fixedly connected with a second mounting ring; the second mounting ring is fixedly connected with a second connecting ring; the second connecting ring is rotationally connected with a second rotating ring; the second rotating ring is fixedly connected with a first cleaning pipe; the second rotating ring is fixedly connected with a third toothed ring; the first cleaning pipe is provided with a plurality of first water outlet holes; the first cleaning tube is provided with a plurality of bristles; the second mounting ring is provided with a fourth motor; a third gear is fixedly connected with the output shaft of the fourth motor and meshed with the third toothed ring; the second connecting ring is fixedly connected with a disc; the disc is fixedly connected with a water suction pipe; the water suction pipe is communicated with a water suction disc; the second connecting ring is communicated with two water pipes which are distributed back and forth, the other ends of the two water pipes are communicated with the water tank, and the water pipes are telescopic pipes; the first cleaning pipe is used for cleaning the inside of the feeding bottle; the bottle opening cleaning assembly consists of a fifth mounting plate, a sixth electric push rod, a second cleaning pipe, a water inlet pipe and a water spraying pipe; the two first mounting plates are fixedly connected with a fifth mounting plate respectively; two sixth electric push rods which are distributed up and down are respectively arranged on the two fifth mounting plates, and the upper sixth electric push rods are obliquely arranged downwards; each sixth electric push rod telescopic part is fixedly connected with a second cleaning pipe; each second cleaning pipe is provided with a plurality of second water outlet holes; each second cleaning tube is provided with a plurality of bristles; each second cleaning pipe is communicated with a water inlet pipe; the water spraying pipe is arranged on the right fifth mounting plate, and the other end of the water spraying pipe is communicated with the water tank; the second cleaning tube is used for cleaning a feed supplementing opening of the feed supplementing bottle.
The beneficial effects of the invention are as follows: according to the invention, the cleaning system is used for continuously scrubbing the feeding bottle, and simultaneously sucking and removing the dirty liquid, so that the inside, the outside and the feeding pipe of the feeding bottle achieve a good cleaning effect, then the drying system is used for drying the inside of the feeding bottle, so that the inside of the feeding bottle achieves a good drying effect, after the inside is dried, the internal hot wind is blown out of the feeding pipe, so that the feeding pipe achieves a good drying effect, and meanwhile, the outside of the feeding bottle is dried through hot wind blown out of the feeding pipe, so that the outside of the feeding bottle is not stained with the dirty liquid in the subsequent moving process, and thus, the overall good drying effect of the feeding bottle is realized, and the accuracy of an experiment is ensured;
meanwhile, when the feeding bottle is dried, a large amount of water vapor generated by drying rises, the water vapor is collected and condensed into water through the drying system and then heated, so that the feeding bottle has the effect of dissolving experimental residues, the water vapor is collected and utilized, the use of thermal energy is reduced, and a large amount of resources are effectively saved.
Drawings
FIG. 1 is a schematic diagram of a structure disclosed by an empty bottle cleaning and blow-drying integrated machine;
FIG. 2 is a schematic diagram of a transport system disclosed by the empty bottle cleaning and blow-drying integrated machine;
FIG. 3 is a schematic view of a structure of a carrying and rotating assembly in a transport system disclosed by an empty bottle cleaning and drying integrated machine;
FIG. 4 is a schematic diagram of a drying system of the empty bottle cleaning and drying integrated machine;
FIG. 5 is a schematic view of the structure of a drying assembly in a bottle in the drying system disclosed by the empty bottle cleaning and drying integrated machine;
FIG. 6 is a first partial cross-sectional view of an in-bottle drying assembly of the drying system disclosed by the empty bottle cleaning and blow-drying integrated machine of the present invention;
FIG. 7 is a second partial cross-sectional view of the in-bottle drying assembly of the drying system disclosed by the empty bottle cleaning and blow-drying integrated machine of the present invention;
FIG. 8 is a schematic view of the structure of an outer bottle drying assembly in the drying system disclosed by the empty bottle cleaning and drying integrated machine;
FIG. 9 is a schematic view of a portion of an outer drying assembly of a drying system of the empty bottle cleaning and drying integrated machine according to the present invention;
FIG. 10 is a schematic view of a vapor condensing assembly in a drying system of an empty bottle cleaning and blow drying integrated machine according to the present invention;
FIG. 11 is a cross-sectional view of a vapor condensing assembly in a drying system disclosed in the empty bottle cleaning and blow drying all-in-one machine of the present invention;
FIG. 12 is a schematic view of a cleaning system disclosed by the empty bottle cleaning and blow-drying integrated machine;
FIG. 13 is a schematic view of the cleaning assembly in the bottle in the cleaning system disclosed by the empty bottle cleaning and blow drying integrated machine;
FIG. 14 is an exploded view of the cleaning assembly within the bottle of the cleaning system disclosed by the empty bottle cleaning and blow-drying integrated machine of the present invention;
FIG. 15 is a schematic view of a portion of a bottle opening cleaning assembly of the cleaning system disclosed by the empty bottle cleaning and blow-drying integrated machine;
fig. 16 is a state diagram of an in-bottle drying assembly and an out-bottle drying assembly in a drying system disclosed by an empty bottle cleaning and drying integrated machine.
The reference symbols in the drawings: 1-mounting rack, 2-water tank, 3-hot bellows, 101-bearing housing, 102-spindle, 103-conveyor belt, 104-first motor, 111-first mounting plate, 112-first electric push rod, 113-mounting seat, 114-second motor, 115-first gear, 116-placement ring, 117-first toothed ring, 201-second mounting plate, 202-second electric push rod, 203-first connecting ring, 204-first vent pipe, 205-first rotating ring, 206-second toothed ring, 207-third motor, 208-second gear, 209-connecting plate, 2010-electric guide rail, 2011-first air guide plate, 2012-second vent pipe, 2013-second air guide plate, 211-third mounting plate, 212-third electric push rod, 213-drying hood, 214-first air guide block, 215-second air guide block, 216-fourth electric push rod, 217-blocking block, 221-first mounting ring, 222-deflector, 223-first guide pipe, 224-condensing ball, 225-guide pipe, 226-second electric guide ring, 301307-second fan, 301307-second rotary ring, 3013-second air guide plate, 301308-third water guide plate, 3010-third water guide plate, 3013-third electric guide plate, 301308-third rotary ring, 3013-fourth electric guide plate, 301308-fourth water guide plate, 3010-fourth electric guide plate, 3010-third electric guide plate, 3010-fourth electric drive plate, 3010-electric motor, 312-sixth electric push rod, 313-second cleaning pipe, 314-water inlet pipe, 315-water spraying pipe, 306 a-first water outlet hole, 313 a-second water outlet hole.
Detailed Description
Embodiments of the present invention will be described below with reference to the drawings.
Examples
An empty bottle cleaning and drying integrated machine, as shown in figures 1-16, comprises a mounting frame 1, a water tank 2, a hot air box 3, a transportation system, a drying system and a cleaning system; the mounting frame 1 is provided with a water tank 2 and a hot air tank 3; a transport system is arranged at the left side of the mounting frame 1; the transportation system and the hot air box 3 are connected with a drying system together; the transportation system and the water tank 2 are connected with a cleaning system together; firstly, the feeding bottle is transported forward through the transportation system, then the cleaning system is used for continuously brushing the feeding bottle, and finally the drying system is used for drying the feeding bottle, so that the feeding bottle achieves a good cleaning and drying effect.
For a reagent bottle with a plurality of feed supplementing openings, namely a feed supplementing bottle, the effective cleaning effect of the feed supplementing bottle cannot be achieved at all only by simple clear water flushing, a large amount of water drops after cleaning are remained in a feed supplementing pipe with a smaller pipe diameter, and the drying effect can be achieved only by long-time airing, so that the experimental effect is influenced to a certain extent; firstly, an experimenter places a feeding bottle on a conveying system, and conveys the feeding bottle forwards through the conveying system; then, continuously scrubbing the feed supplement bottle through the cleaning system, sucking and removing the dirty liquid at the same time, so that the inside, the outside and the feed supplement bottle of the feed supplement bottle reach a better cleaning effect, then, drying the inside of the feed supplement bottle through the drying system, so that the inside of the feed supplement bottle reaches a better drying effect, after the inside is dried, the inside hot wind is blown out of the feed supplement bottle, so that the feed supplement bottle reaches a better drying effect, and meanwhile, the outside of the feed supplement bottle is dried through hot wind blown out of the feed supplement bottle, so that the outside of the feed supplement bottle is not stained with stains in the subsequent moving process, the overall better drying effect of the feed supplement bottle is realized, and the accuracy of experiments is ensured; meanwhile, when the feeding bottle is dried, a large amount of water vapor generated by drying rises, the water vapor is collected and condensed into water through the drying system and then heated, so that the feeding bottle has the effect of dissolving experimental residues, the water vapor is collected and utilized, the use of thermal energy is reduced, and a large amount of resources are effectively saved.
The transport system comprises a transport assembly and a bearing rotation assembly; a transport assembly is arranged at the left side of the mounting frame 1; the transportation assembly is connected with a bearing rotation assembly.
The transportation assembly comprises a bearing seat 101, a rotating shaft 102, a conveyor belt 103 and a first motor 104; four bearing seats 101 which are distributed in a rectangular shape are arranged on the left side of the mounting frame 1; the two bearing seats 101 at the front are connected with a rotating shaft 102 in a common rotating way; the two bearing seats 101 at the rear part are connected with another rotating shaft 102 in a common rotating way; the two rotating shafts 102 are connected with a conveyor belt 103 in a common transmission way; the left side of the bearing seat 101 at the rear left side is provided with a first motor 104, and an output shaft of the first motor 104 is fixedly connected with the rotating shaft 102 at the rear.
The bearing and rotating assembly comprises a first mounting plate 111, a first electric push rod 112, a mounting seat 113, a second motor 114, a first gear 115, a placing ring 116 and a first toothed ring 117; the two bearing seats 101 at the left side are fixedly connected with a first mounting plate 111; the two bearing seats 101 on the right are fixedly connected with another first mounting plate 111; the first mounting plate 111 on the left is provided with four first electric push rods 112 which are linearly distributed in the front-rear direction; the telescopic parts of the two first electric push rods 112 at the rear are fixedly connected with a mounting seat 113; the telescopic parts of the two first electric push rods 112 in front are fixedly connected with another mounting seat 113; two mounting seats 113 are respectively provided with a second motor 114; the output shafts of the two second motors 114 are fixedly connected with a first gear 115 respectively; the outer ring surface of the conveyor belt 103 is rotatably connected with a plurality of placing rings 116; each placement ring 116 is fixedly connected with a first toothed ring 117, and the first toothed rings 117 are matched with the first gears 115.
The drying system comprises an in-bottle drying assembly, an out-bottle drying assembly and a steam condensing assembly; the hot air box 3 is connected with an in-bottle drying component; the two first mounting plates 111 are commonly connected with an out-bottle drying assembly; the two first mounting plates 111 are commonly connected with a steam condensing assembly.
The in-bottle drying assembly comprises a second mounting plate 201, a second electric push rod 202, a first connecting ring 203, a first ventilation pipe 204, a first rotating ring 205, a second toothed ring 206, a third motor 207, a second gear 208, a connecting plate 209, an electric guide rail 2010, a first air guiding disk 2011, a second ventilation pipe 2012 and a second air guiding disk 2013; the hot air box 3 is connected with a second mounting plate 201 through bolts; the second mounting plate 201 is provided with a second electric push rod 202; the telescopic part of the second electric push rod 202 is fixedly connected with a first connecting ring 203; the hot air box 3 is communicated with a first air pipe 204, the first air pipe 204 is fixedly connected with the first connecting ring 203, and the first air pipe 204 is a telescopic pipe; the first vent pipe 204 is rotatably connected with a first rotating ring 205; the first rotating ring 205 is fixedly connected with a second toothed ring 206; the first vent pipe 204 is provided with a third motor 207; the output shaft of the third motor 207 is fixedly connected with a second gear 208, and the second gear 208 is meshed with the second toothed ring 206; the first rotating ring 205 is fixedly connected with four connecting plates 209 which are distributed in a cross shape; the four connecting plates 209 are fixedly connected with an electric guide rail 2010; the lower end of the electric guide rail 2010 is fixedly connected with a first air guide disk 2011, and the first air guide disk 2011 is provided with a plurality of inclined downward bristles; the electric guide rail 2010 is slidably connected with a second vent pipe 2012, and the second vent pipe 2012 is a telescopic pipe; a second air guiding disc 2013 is fixedly connected to the lower portion of the second air passing pipe 2012, and the second air guiding disc 2013 is slidably connected to the electric guide rail 2010.
The bottle outside drying assembly comprises a third mounting plate 211, a third electric push rod 212, a drying cover 213, a first air guide block 214, a second air guide block 215, a fourth electric push rod 216 and a blocking block 217; each of the two first mounting plates 111 is bolted to a third mounting plate 211; each of the two third mounting plates 211 is provided with a third electric push rod 212; the telescopic parts of the two third electric push rods 212 are fixedly connected with a drying cover 213 respectively; the inner walls of the two drying hoods 213 are fixedly connected with two first air guide blocks 214 which are distributed in front and back respectively, and the two first air guide blocks 214 fixedly connected on the right drying hood 213 are mutually matched with the two first air guide blocks 214 fixedly connected on the left drying hood 213; two second air guide blocks 215 which are distributed front and back are fixedly connected on the inner walls of the two drying hoods 213 respectively, and the two second air guide blocks 215 fixedly connected on the right drying hood 213 are mutually matched with the two second air guide blocks 215 fixedly connected on the left drying hood 213; four fourth electric push rods 216 are arranged on the right drying cover 213; and a blocking block 217 is fixedly connected to the telescopic part of each fourth electric push rod 216.
The steam condensing assembly comprises a first mounting ring 221, a flow director 222, a first flow director 223, a condensing bulb 224, a circular tube 225, a second flow director 226, a fan 227, a water reservoir 228 and a water injection tube 229; a first mounting ring 221 is fixedly connected to the two first mounting plates 111; the first mounting ring 221 is fixedly connected with a deflector 222; the deflector 222 is communicated with a first deflector 223, and the other end of the first deflector 223 passes through the deflector 222 and is fixedly connected with the deflector 222; the first flow guiding pipe 223 is provided with a condensation ball 224, and the condensation ball 224 is positioned inside the flow guiding device 222; the first guide pipe 223 is communicated with a circular pipe 225, and the first ventilation pipe 204 is positioned in the middle of the circular pipe 225; the round pipe 225 is communicated with a second flow guide pipe 226; the second flow guide pipe 226 is provided with a fan 227; the second flow guide pipe 226 is communicated with a water reservoir 228; the reservoir 228 is provided with a water injection tube 229.
The cleaning system comprises an in-bottle cleaning assembly and a bottle opening cleaning assembly; the water tank 2 is connected with a cleaning component in the bottle; the two first mounting plates 111 are commonly connected with a bottleneck cleaning assembly.
The cleaning assembly in the bottle comprises a fourth mounting plate 301, a fifth electric push rod 302, a second mounting ring 303, a second connecting ring 304, a second rotating ring 305, a first cleaning tube 306, a fourth motor 307, a third gear 308, a disc 309, a water suction tube 3010, a water suction disc 3011, a water passage tube 3012 and a third toothed ring 3013; the water tank 2 is connected with a fourth mounting plate 301 through bolts; the fourth mounting plate 301 is mounted with a fifth electric push rod 302; a second mounting ring 303 is fixedly connected to the telescopic part of the fifth electric push rod 302; the second mounting ring 303 is fixedly connected with a second connecting ring 304; the second connecting ring 304 is rotatably connected with a second rotating ring 305; the second rotating ring 305 is fixedly connected with a first cleaning pipe 306; the second rotating ring 305 is fixedly connected with a third toothed ring 3013; the first cleaning pipe 306 is provided with a plurality of first water outlet holes 306a; the first cleaning tube 306 is provided with a plurality of bristles; the second mounting ring 303 mounts a fourth motor 307; a third gear 308 is fixedly connected to the output shaft of the fourth motor 307, and the third gear 308 is meshed with a third toothed ring 3013; the second connecting ring 304 is fixedly connected with a circular disc 309; the disc 309 is fixedly connected with a water suction pipe 3010; the water suction pipe 3010 is communicated with a water suction disc 3011; the second connecting ring 304 is communicated with two water pipes 3012 which are distributed back and forth, the other ends of the two water pipes 3012 are communicated with the water tank 2, and the water pipes 3012 are telescopic pipes; the bottle mouth cleaning assembly consists of a fifth mounting plate 311, a sixth electric push rod 312, a second cleaning pipe 313, a water inlet pipe 314 and a water spraying pipe 315; each of the two first mounting plates 111 is connected with a fifth mounting plate 311 through bolts; two sixth electric push rods 312 which are distributed up and down are respectively arranged on the two fifth mounting plates 311, and the upper sixth electric push rods 312 are obliquely arranged downwards; a second cleaning pipe 313 is fixedly connected to the telescopic part of each sixth electric push rod 312; each second cleaning pipe 313 is provided with a plurality of second water outlet holes 313a; each second cleaning tube 313 is provided with a plurality of bristles; each second cleaning pipe 313 is communicated with a water inlet pipe 314; the fifth mounting plate 311 on the right is provided with a water spray pipe 315, and the other end of the water spray pipe 315 communicates with the water tank 2.
The second air guiding disc 2013 is made of rubber, so that the second air guiding disc 2013 is prevented from damaging the feeding bottle when contacting with the opening of the feeding bottle.
The circular tube 225 is circular, and can retain hot water therein for a longer time than a straight tube, thereby achieving a longer heating effect.
The water absorbing disc 3011 is conical, so that the water absorbing disc 3011 can be contacted with the groove of the feed supplementing bottle, and a good water absorbing effect is achieved.
In particular, in order to ensure that the experimental residues in the first feeding bottle can be soaked and dissolved by hot water, a certain amount of hot water is pre-stored in the water reservoir 228;
firstly, an experimenter places a feeding bottle on a placement ring 116 positioned at the rear, and clamps the feeding bottle through a notch on the placement ring 116 so that the feeding bottle cannot deflect and topple in the subsequent moving process; then, the output shaft of the first motor 104 is controlled to drive the rear rotating shaft 102 to rotate clockwise from the left-to-right view, so that the front rotating shaft 102 is driven by the conveyor belt 103 to rotate clockwise from the left-to-right view, and the conveyor belt 103 operates normally, and the placing ring 116 and the feeding bottle can be driven by the conveyor belt 103 to move forwards;
when the placement ring 116 and the feeding bottle move to the first gear 115 at the rear, the telescopic part of the first electric push rod 112 at the rear is controlled to drive the mounting seat 113, the second motor 114 and the first gear 115 to move downwards, so that the first gear 115 is meshed with the first toothed ring 117, and then, the output shaft of the second motor 114 is controlled to drive the first gear 115 to rotate 90 degrees clockwise from the top to the bottom, so that the first gear 115 drives the first toothed ring 117, the placement ring 116 and the feeding bottle to rotate 90 degrees clockwise from the top to the bottom, and the feeding pipe of the feeding bottle is changed from front-back direction to left-right direction, so that the feeding bottle and the feeding pipe can be cleaned later;
When the placing ring 116 and the feeding bottle move to the lower part of the first cleaning pipe 306, a certain amount of hot water is injected into the feeding bottle through the water injection pipe 229, and experimental residues at the bottom of the feeding bottle are soaked through the hot water, so that the experimental residues can be smoothly dropped off during cleaning, and the cleaning effect of the feeding bottle is effectively ensured;
then, the water spray pipe 315 is controlled to spray water to the feeding bottle, and the outer surface of the feeding bottle is washed clean through the water spray pipe 315;
meanwhile, the telescopic parts of the sixth electric push rods 312 are controlled to drive the second cleaning pipes 313 and the water inlet pipes 314 on the corresponding sides to move towards the corresponding material supplementing pipes, so that the second cleaning pipes 313 are inserted into the material supplementing pipes, and when the sixth electric push rods 312 are controlled to drive bristles arranged on the second cleaning pipes 313 and the second cleaning pipes 313 to repeatedly move, a certain amount of water is injected into the material supplementing pipes sequentially through the external water storage container, the water inlet pipes 314, the second cleaning pipes 313 and the second water outlet holes 313a, so that the brushing purpose of the material supplementing pipes is realized, and the material supplementing pipes achieve a better cleaning effect;
meanwhile, the telescopic part of the fifth electric push rod 302 is controlled to drive the second mounting ring 303, the second connecting ring 304, the second rotating ring 305, the first cleaning tube 306, the fourth motor 307, the third gear 308, the disc 309, the water suction tube 3010, the water suction disc 3011, the water passage tube 3012 and the third toothed ring 3013 to move downwards, so that the first cleaning tube 306 is inserted into the interior of the feeding bottle from above the feeding bottle; then, the output shaft of the fourth motor 307 is controlled to drive the third gear 308 to rotate, so that the third gear 308 drives the third toothed ring 3013, the second rotating ring 305, the first cleaning tube 306 and bristles arranged on the first cleaning tube 306 to rotate, and at the same time, the water tank 2 is controlled to sequentially inject water required for cleaning into the feeding bottle through the water pipe 3012, the second connecting ring 304, the second rotating ring 305, the first cleaning tube 306 and the first water outlet hole 306a, so that the brushing operation on the inside of the feeding bottle is realized; when the cleaning is finished, most of sewage flows out from two material supplementing pipes at the lower part of the material supplementing bottle, and a small part of sewage is lower than the height of the material supplementing pipes, so that the sewage cannot flow out from the material supplementing pipes, at the moment, the peripheral sewage sucking equipment is controlled, and the sewage at the inner bottom of the material supplementing bottle is sucked out through the water sucking disc 3011 and the water sucking pipe 3010 in sequence, so that the cleaning operation of the material supplementing bottle is finished, the integral cleaning effect of the material supplementing bottle is better, repeated cleaning is not needed, and the smooth performance of the experimental process is ensured;
Then, the placing ring 116 and the feeding bottle are controlled to continuously move forwards, when the placing ring 116 and the feeding bottle move to the first gear 115 in front, the telescopic part of the first electric push rod 112 in front is controlled to drive the mounting seat 113, the second motor 114 and the first gear 115 to move downwards, so that the first gear 115 is meshed with the first toothed ring 117, and then, the output shaft of the second motor 114 is controlled to drive the first gear 115 to rotate clockwise for 90 degrees from the top to the bottom, so that the first gear 115 drives the first toothed ring 117, the placing ring 116 and the feeding bottle to rotate clockwise for 90 degrees from the top to the bottom, and the feeding pipe of the feeding bottle is changed from left to right to front to back, so that the feeding bottle and the feeding pipe are dried subsequently;
when the feeding bottle moves to the lower part of the first air guide disc 2011, the telescopic parts of the two third electric push rods 212 are controlled to respectively drive the drying covers 213, the first air guide blocks 214 and the second air guide blocks 215 at the corresponding sides to move towards the feeding bottle, and the feeding bottle is covered by the two drying covers 213, so that each first air guide block 214 and each second air guide block 215 are mutually attached to the first air guide block 214 and the second air guide block 215 at the corresponding sides, and hot air can be concentrated and is not easy to flow during subsequent drying;
Then, the telescopic part of the second electric push rod 202 is controlled to drive the first connecting ring 203, the first vent pipe 204, the first rotating ring 205, the second toothed ring 206, the third motor 207, the second gear 208, the connecting plate 209, the electric guide rail 2010, the first air guiding disc 2011, the second vent pipe 2012 and the second air guiding disc 2013 to move downwards, so that the first air guiding disc 2011 is inserted into the feeding bottle; meanwhile, the second air guide disc 2013 is controlled to drive the lower part of the second vent pipe 2012 to move downwards on the electric guide rail 2010, the upper part of the second vent pipe 2012 is kept motionless, the bottle mouth of the feed supplement bottle is blocked by the second air guide disc 2013, and the fact that hot air can only be downwards conveyed through the second vent pipe 2012 is ensured; meanwhile, the telescopic part of the fourth electric push rod 216 is controlled to drive the blocking block 217 to move towards the material supplementing pipe of the material supplementing bottle, the material supplementing pipe is blocked through the blocking block 217, hot air is prevented from being scattered outwards when the inside of the material supplementing bottle is dried, the drying effect is affected, and the drying time is prolonged;
subsequently, the hot air box 3 is controlled to sequentially convey hot air into the feeding bottle through the first ventilating pipe 204, the first rotating ring 205, the second ventilating pipe 2012 and the second air guiding disc 2013, so that the drying operation of the inside of the feeding bottle is realized, and as the second air guiding disc 2013 blocks the bottle mouth of the feeding bottle and the blocking block 217 blocks the feeding pipe, the hot air can only flow in the feeding bottle, and the drying time required by the inside of the feeding bottle is greatly shortened;
Subsequently, the control blocking block 217 is restored to the initial state, and the second air vent pipe 2012, the second air guide disc 2013 and the first air guide disc 2011 are controlled to move to the state shown in fig. 16, so that the first rotating ring 205 is positioned at the bottle mouth of the feeding bottle, and at this time, hot air can be delivered to the inside of the feeding bottle through the second air vent pipe 2012, and also can be delivered to the inside of the feeding bottle through the outer side of the second air vent pipe 2012; at this time, the hot air box 3 is controlled to sequentially convey hot air into the feeding bottle through the first vent pipe 204 and the first rotating ring 205, and the hot air input from the outer side of the second vent pipe 2012 is guided to the directions of the two feeding pipes at the upper part through the second air guiding disc 2013, so that the hot air can flow out through the two feeding pipes at the upper part; the hot air input into the second ventilation pipe 2012 is guided to the directions of the two lower material supplementing pipes through the first air guiding disc 2011, so that the hot air can flow out through the two lower material supplementing pipes, and the flow direction of the hot air is shown in fig. 16; thus, the drying operation of the material supplementing pipe of the material supplementing bottle is realized;
because of the shape of the groove at the bottom of the feed supplementing bottle, when the previous water absorbing disc 3011 absorbs sewage, the moisture in the groove cannot be absorbed completely, so that a small amount of moisture still exists in the groove, and the hot air drying cannot completely dry the moisture in the groove; therefore, the output shaft of the third motor 207 can be controlled to drive the second gear 208 to rotate 360 degrees, so that the second gear 208 drives the second toothed ring 206, the first rotating ring 205, the connecting plate 209, the electric guide rail 2010, the first air guiding disc 2011, the second air ventilation tube 2012 and the second air guiding disc 2013 to rotate 360 degrees, and as a result, the moisture in the groove can be stirred through the rotation of the inclined lower bristles arranged on the first air guiding disc 2011, so that the moisture can be quickly evaporated in the air, and the drying operation in the feeding bottle is completed;
Meanwhile, the hot air flowing out through the two upper feed supplement pipes flows out of the feed supplement bottle and then flows to the upper part of the drying cover 213, then the hot air is turned by the upper part of the drying cover 213, and the hot air flowing out through the two lower feed supplement pipes flows out of the feed supplement bottle and then flows to the lower part of the drying cover 213, so that the hot air can blow to the outer surface of the feed supplement bottle after flowing out of the inside of the feed supplement bottle, and meanwhile, the hot air can break the hot air after contacting with the first air guide block 214 and the second air guide block 215, so that the hot air can circularly flow along the inner wall of the drying cover 213, and the hot air flows to the outside of the drying cover 213, so that the hot air flows in the drying cover 213, thereby achieving the purpose of drying the outside of the feed supplement bottle;
when the feeding bottle is dried, a large amount of water vapor generated by drying rises to the front of the fan 227, and the water vapor is blown into the deflector 222 by the fan 227, and as the water vapor generated by drying has a certain temperature, the water vapor is continuously contacted with the first guide pipe 223 when being blown into the deflector 222 by the fan 227, the water vapor can have a certain heating effect on the first guide pipe 223, so that water flowing through the first guide pipe 223 can be heated; when the water vapor continues to reach the position of the condensation ball 224 backwards, the water vapor contacts with the condensation ball 224, and the temperature of the condensation ball 224 is lower than that of the water vapor, so that the water vapor starts to be condensed into water at the moment, and then flows downwards into the first guide pipe 223 along the condensation ball 224, and then flows towards the second guide pipe 226 through the first guide pipe 223, and when the water vapor flows through the rear part of the first guide pipe 223, the water vapor is heated, so that the water vapor can have a certain temperature; meanwhile, when the water flows through the circular tube 225, the first air tube 204 is positioned in the middle of the circular tube 225, and the first air tube 204 continuously radiates heat due to long-time drying operation, and at the moment, the circular tube 225 can be heated by the heat radiated by the first air tube 204, so that the temperature of the water flowing through the circular tube 225 is further increased, and the water flowing through the circular tube 225 has the effect of dissolving experimental residues; subsequently, hot water is flowed into the reservoir 228 for subsequent dissolution of the residual test water in the feed bottle;
And then, controlling the drying system to restore to an initial state so that the dried feeding bottle can smoothly move backwards, and finally, manually taking down the dried feeding bottle.
While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims (10)

1. An empty bottle cleaning and drying integrated machine comprises a mounting frame (1), a water tank (2) and a hot air tank (3); the mounting frame (1) is provided with a water tank (2) and a hot air tank (3); the method is characterized in that: the system also comprises a transportation system, a drying system and a cleaning system; a transportation system is arranged at the left side of the mounting frame (1); the transportation system and the hot air box (3) are connected with a drying system together; the transportation system and the water tank (2) are connected with a cleaning system together; the conveying system is used for conveying the feeding bottle; the drying system is used for drying the feeding bottle; the cleaning system is used for cleaning the feeding bottle.
2. The empty bottle cleaning and blow-drying integrated machine according to claim 1, wherein: the transport system comprises a transport assembly and a bearing rotation assembly; a transport assembly is arranged at the left side of the mounting frame (1); the transport assembly is connected with a bearing rotation assembly; the conveying assembly and the bearing rotating assembly are used for conveying the feeding bottle.
3. The empty bottle cleaning and blow-drying integrated machine according to claim 2, wherein: the conveying assembly comprises a bearing seat (101), a rotating shaft (102), a conveying belt (103) and a first motor (104); four bearing seats (101) which are distributed in a rectangular shape are arranged on the left side of the mounting frame (1); the two bearing seats (101) at the front part are connected with a rotating shaft (102) in a common rotating way; the two bearing seats (101) at the rear part are connected with another rotating shaft (102) in a common rotating way; the two rotating shafts (102) are connected with a conveyor belt (103) in a common transmission way; a first motor (104) is arranged on the left side of the bearing seat (101) at the left side of the rear, and an output shaft of the first motor (104) is fixedly connected with a rotating shaft (102) at the rear.
4. The empty bottle cleaning and blow-drying integrated machine according to claim 3, wherein: the bearing rotating assembly comprises a first mounting plate (111), a first electric push rod (112), a mounting seat (113), a second motor (114), a first gear (115), a placing ring (116) and a first toothed ring (117); the two bearing seats (101) at the left are fixedly connected with a first mounting plate (111) together; the two bearing seats (101) on the right are fixedly connected with another first mounting plate (111) together; four first electric push rods (112) which are linearly distributed in the front-rear direction are arranged on the left first mounting plate (111); the telescopic parts of the two first electric push rods (112) at the rear are fixedly connected with a mounting seat (113) together; the telescopic parts of the two first electric push rods (112) in front are fixedly connected with another mounting seat (113) together; the two mounting seats (113) are respectively provided with a second motor (114); the output shafts of the two second motors (114) are fixedly connected with a first gear (115) respectively; the outer ring surface of the conveyor belt (103) is rotatably connected with a plurality of placing rings (116); each placement ring (116) is fixedly connected with a first toothed ring (117), and the first toothed rings (117) are matched with the first gears (115); the placement ring (116) is used for placing the feeding bottle.
5. The empty bottle cleaning and blow-drying integrated machine according to claim 4, wherein: the drying system comprises an in-bottle drying assembly, an out-bottle drying assembly and a steam condensing assembly; the hot air box (3) is connected with an in-bottle drying component; the two first mounting plates (111) are commonly connected with an out-bottle drying assembly; the two first mounting plates (111) are commonly connected with a steam condensing assembly; the in-bottle drying component is used for drying the inside of the feeding bottle; the external drying component is used for drying the outside of the feeding bottle; the steam condensing assembly is used for collecting and condensing water steam generated during drying.
6. The empty bottle cleaning and blow-drying integrated machine according to claim 5, wherein: the in-bottle drying assembly comprises a second mounting plate (201), a second electric push rod (202), a first connecting ring (203), a first ventilation pipe (204), a first rotating ring (205), a second gear ring (206), a third motor (207), a second gear (208), a connecting plate (209), an electric guide rail (2010), a first air guide disc (2011), a second ventilation pipe (2012) and a second air guide disc (2013); the hot air box (3) is fixedly connected with a second mounting plate (201); the second mounting plate (201) is provided with a second electric push rod (202); a first connecting ring (203) is fixedly connected with the telescopic part of the second electric push rod (202); the hot air box (3) is communicated with a first air pipe (204), the first air pipe (204) is fixedly connected with the first connecting ring (203), and the first air pipe (204) is a telescopic pipe; the first vent pipe (204) is rotatably connected with a first rotating ring (205); the first rotating ring (205) is fixedly connected with a second toothed ring (206); the first vent pipe (204) is provided with a third motor (207); the output shaft of the third motor (207) is fixedly connected with a second gear (208), and the second gear (208) is meshed with the second toothed ring (206); the first rotating ring (205) is fixedly connected with four connecting plates (209) which are distributed in a cross shape; the four connecting plates (209) are fixedly connected with an electric guide rail (2010) together; the lower end of the electric guide rail (2010) is fixedly connected with a first air guide disc (2011), and the first air guide disc (2011) is provided with a plurality of inclined downward bristles; the electric guide rail (2010) is connected with a second vent pipe (2012) in a sliding manner, and the second vent pipe (2012) is a telescopic pipe; a second air guide disc (2013) is fixedly connected to the lower part of the second ventilation tube (2012), and the second air guide disc (2013) is in sliding connection with the electric guide rail (2010); the first air guiding disc (2011) and the second air guiding disc (2013) are used for changing the trend of hot air.
7. The empty bottle cleaning and blow-drying integrated machine according to claim 6, wherein: the bottle outside drying assembly comprises a third mounting plate (211), a third electric push rod (212), a drying cover (213), a first air guide block (214), a second air guide block (215), a fourth electric push rod (216) and a blocking block (217); a third mounting plate (211) is fixedly connected with each of the two first mounting plates (111); each of the two third mounting plates (211) is provided with a third electric push rod (212); the telescopic parts of the two third electric push rods (212) are fixedly connected with a drying cover (213) respectively; the inner walls of the two drying hoods (213) are fixedly connected with two first air guide blocks (214) which are distributed in front and back, and the two first air guide blocks (214) fixedly connected on the right drying hood (213) are mutually matched with the two first air guide blocks (214) fixedly connected on the left drying hood (213); two second air guide blocks (215) which are distributed front and back are fixedly connected on the inner walls of the two drying hoods (213), and the two second air guide blocks (215) fixedly connected on the right drying hood (213) are mutually matched with the two second air guide blocks (215) fixedly connected on the left drying hood (213); four fourth electric push rods (216) are arranged on the right drying cover (213); and a blocking block (217) is fixedly connected to the telescopic part of each fourth electric push rod (216).
8. The empty bottle cleaning and blow-drying integrated machine according to claim 7, wherein: the steam condensing assembly comprises a first mounting ring (221), a flow director (222), a first flow guiding pipe (223), a condensing ball (224), a circular pipe (225), a second flow guiding pipe (226), a fan (227), a water receiver (228) and a water injection pipe (229); the two first mounting plates (111) are fixedly connected with a first mounting ring (221) together; the first mounting ring (221) is fixedly connected with a deflector (222); the flow guide device (222) is communicated with a first flow guide tube (223), and the other end of the first flow guide tube (223) passes through the flow guide device (222) and is fixedly connected with the flow guide device (222); the first guide pipe (223) is provided with a condensation ball (224), and the condensation ball (224) is positioned inside the guide pipe (222); the first guide pipe (223) is communicated with a circular pipe (225), and the first ventilation pipe (204) is positioned in the middle of the circular pipe (225); the round pipe (225) is communicated with a second flow guide pipe (226); the second flow guide pipe (226) is provided with a fan (227); the second flow guide pipe (226) is communicated with a water receiver (228); the water reservoir (228) is provided with a water injection pipe (229); the deflector (222) and the condensing ball (224) are used for collecting and condensing the water vapor generated during drying.
9. The empty bottle cleaning and blow-drying integrated machine according to claim 8, wherein: the cleaning system comprises an in-bottle cleaning assembly and a bottle opening cleaning assembly; the water tank (2) is connected with a cleaning component in the bottle; the two first mounting plates (111) are commonly connected with a bottle opening cleaning assembly; the in-bottle cleaning component is used for cleaning the inside of the material supplementing bottle; the bottleneck cleaning component is used for cleaning a feed supplementing opening of the feed supplementing bottle.
10. The empty bottle cleaning and blow-drying integrated machine according to claim 9, wherein: the bottle cleaning assembly comprises a fourth mounting plate (301), a fifth electric push rod (302), a second mounting ring (303), a second connecting ring (304), a second rotating ring (305), a first cleaning pipe (306), a fourth motor (307), a third gear (308), a disc (309), a water suction pipe (3010), a water suction disc (3011), a water pipe (3012) and a third toothed ring (3013); the water tank (2) is fixedly connected with a fourth mounting plate (301); the fourth mounting plate (301) is provided with a fifth electric push rod (302); a second mounting ring (303) is fixedly connected to the telescopic part of the fifth electric push rod (302); the second mounting ring (303) is fixedly connected with a second connecting ring (304); the second connecting ring (304) is rotatably connected with a second rotating ring (305); the second rotating ring (305) is fixedly connected with a first cleaning pipe (306); the second rotating ring (305) is fixedly connected with a third toothed ring (3013); the first cleaning pipe (306) is provided with a plurality of first water outlet holes (306 a); the first cleaning tube (306) is provided with a plurality of bristles; the second mounting ring (303) is provided with a fourth motor (307); a third gear (308) is fixedly connected with the output shaft of the fourth motor (307), and the third gear (308) is meshed with the third toothed ring (3013); the second connecting ring (304) is fixedly connected with a disc (309); the disc (309) is fixedly connected with a water suction pipe (3010); the water suction pipe (3010) is communicated with a water suction disc (3011); the second connecting ring (304) is communicated with two water pipes (3012) which are distributed in the front-back direction, the other ends of the two water pipes (3012) are communicated with the water tank (2), and the water pipes (3012) are telescopic pipes; the first cleaning pipe (306) is used for cleaning the inside of the feeding bottle; the bottle opening cleaning assembly consists of a fifth mounting plate (311), a sixth electric push rod (312), a second cleaning pipe (313), a water inlet pipe (314) and a water spraying pipe (315); the two first mounting plates (111) are fixedly connected with a fifth mounting plate (311) respectively; two sixth electric push rods (312) which are distributed up and down are respectively arranged on the two fifth mounting plates (311), and the upper sixth electric push rods (312) are obliquely arranged downwards; a second cleaning pipe (313) is fixedly connected to the telescopic part of each sixth electric push rod (312); each second cleaning pipe (313) is provided with a plurality of second water outlet holes (313 a); each second cleaning tube (313) is provided with a plurality of bristles; each second cleaning pipe (313) is communicated with a water inlet pipe (314); the right fifth mounting plate (311) is provided with a water spray pipe (315), and the other end of the water spray pipe (315) is communicated with the water tank (2); the second cleaning pipe (313) is used for cleaning a feed supplement port of the feed supplement bottle.
CN202310047953.2A 2023-01-31 2023-01-31 Empty bottle washs weathers all-in-one Active CN116000041B (en)

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KR100954691B1 (en) * 2010-02-04 2010-04-27 이성주 Box cleaning device
CN103658134A (en) * 2013-12-03 2014-03-26 青岛金龙一食品有限公司 Washing machine using method capable of remarkably improving canned bottle cleaning efficiency
CN105855256A (en) * 2016-04-07 2016-08-17 羊丁 Automatic bottle washing and drying machine
CN106824945A (en) * 2017-04-01 2017-06-13 无锡市第五人民医院 A kind of laboratory glass container automatic washing and drying unit
CN109500033A (en) * 2018-11-30 2019-03-22 文林涛 A kind of injection of the annular cleaning system of cosmetics vial and its drying mechanism
CN213001685U (en) * 2020-08-31 2021-04-20 河北烁宇豪环保科技有限公司 Degassing unit is used in production of polymer modified plastics cutlery box
CN214638858U (en) * 2021-01-27 2021-11-09 重庆工业职业技术学院 Chemical corrosion-resistant cleaning equipment for chemical experiments
CN115026091A (en) * 2022-06-09 2022-09-09 杨乐 Automatic cleaning device for chemical reagent bottles
CN115591843A (en) * 2022-10-28 2023-01-13 衡阳凯新特种材料科技有限公司(Cn) Belt cleaning device is used in silicon nitride ceramic material production

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100954691B1 (en) * 2010-02-04 2010-04-27 이성주 Box cleaning device
CN103658134A (en) * 2013-12-03 2014-03-26 青岛金龙一食品有限公司 Washing machine using method capable of remarkably improving canned bottle cleaning efficiency
CN105855256A (en) * 2016-04-07 2016-08-17 羊丁 Automatic bottle washing and drying machine
CN106824945A (en) * 2017-04-01 2017-06-13 无锡市第五人民医院 A kind of laboratory glass container automatic washing and drying unit
CN109500033A (en) * 2018-11-30 2019-03-22 文林涛 A kind of injection of the annular cleaning system of cosmetics vial and its drying mechanism
CN213001685U (en) * 2020-08-31 2021-04-20 河北烁宇豪环保科技有限公司 Degassing unit is used in production of polymer modified plastics cutlery box
CN214638858U (en) * 2021-01-27 2021-11-09 重庆工业职业技术学院 Chemical corrosion-resistant cleaning equipment for chemical experiments
CN115026091A (en) * 2022-06-09 2022-09-09 杨乐 Automatic cleaning device for chemical reagent bottles
CN115591843A (en) * 2022-10-28 2023-01-13 衡阳凯新特种材料科技有限公司(Cn) Belt cleaning device is used in silicon nitride ceramic material production

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