CN114472414A - High-efficient type group banks up bottle self-cleaning machine with earth - Google Patents

Abstract

The invention discloses an efficient tissue culture bottle automatic cleaning machine, which comprises: cleaning the cooperating drum, the bottle brushing device and the middle washing component. The cleaning cooperation rotary drum comprises a rotary drum body and a plurality of bottle body loading portions, each bottle body loading portion is sequentially arranged along the circumferential direction of the rotary drum, and each bottle body loading portion comprises a plurality of bottle cages which are sequentially arranged along the axis direction of the cleaning cooperation rotary drum. The bottle brushing device comprises a plurality of telescopic bottle brushes. The middle part flushing assembly comprises a middle part flushing pipe and a plurality of spray heads, the middle part flushing pipe extends along the axis direction of the rotary cylinder body, each spray head is sequentially connected to the middle part flushing pipe along the length direction of the middle part flushing pipe, and the spray heads face the rotary cylinder body. Under the brushing state, each telescopic bottle brush respectively extends into the tissue culture bottle in the corresponding bottle cage, and each spray head respectively sprays water towards the corresponding tissue culture bottle. The utility model provides a high-efficient type group banks up bottle automatic cleaning machine with earth has been equipped with the bottle brushing device, can bank up the bottle with earth and brush the bottle simultaneously and wash the processing, can get rid of stubborn spot, has obviously improved the cleaning performance.

Description

High-efficient type group banks up bottle self-cleaning machine with earth

Technical Field

The invention relates to the technical field of container cleaning, in particular to an efficient automatic tissue culture bottle cleaning machine.

Background

In the industrial production process of the tissue culture seedlings, the bottles need to be replaced repeatedly, so that the glass tissue culture bottles are usually used for reducing the cost, and can be recycled after being cleaned. Currently, the large-scale tissue culture factories mostly adopt assembly line type semi-mechanized operation to clean tissue culture bottles so as to improve the cleaning efficiency. However, most of such cleaning devices occupy too large area and are not suitable for small and medium-sized tissue culture factories and laboratories. The small-size tissue culture bottle cleaning machine that has now only adopts bottle brush rotation type or carousel rivers to erode formula wiper mechanism, and it often only adopts a mode to clean, and the dead angle is often washed not in place in the bottle, and the cleaning performance is limited, uses and experiences not well.

In view of the above, the present invention is particularly proposed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an efficient tissue culture bottle automatic cleaning machine which can perform bottle brushing and washing treatment on a tissue culture bottle simultaneously, can remove stubborn stains and remarkably improves the cleaning effect.

In order to achieve the above purpose, the present application provides the following technical solutions:

an efficient tissue culture bottle automatic cleaning machine comprises:

the cleaning and matching rotary drum comprises a rotary drum body and a plurality of bottle body loading parts, wherein each bottle body loading part is sequentially arranged along the circumferential direction of the rotary drum, and each bottle body loading part comprises a plurality of bottle cages which are sequentially arranged along the axial direction of the cleaning and matching rotary drum;

the bottle brushing device comprises a plurality of telescopic bottle brushes, the telescopic bottle brushes are sequentially arranged along the axial direction of the rotary cylinder body, and the telescopic bottle brushes extend towards the rotary cylinder body;

the middle flushing assembly comprises a middle flushing pipe and a plurality of spray heads, the middle flushing pipe extends along the axial direction of the rotary cylinder body, each spray head is sequentially connected to the middle flushing pipe along the length direction of the middle flushing pipe, and the spray heads face the rotary cylinder body;

under the brushing state, each telescopic bottle brush respectively extends into the tissue culture bottle in the corresponding bottle cage, and each spray head respectively sprays water towards the corresponding tissue culture bottle.

Optionally, the bottle brushing device comprises a base, a telescopic member and a sliding block, the sliding block is slidably connected to the base, the telescopic member is connected to the base, and the telescopic member is in transmission connection with the sliding block;

each telescopic bottle brush is connected with the sliding block respectively;

the telescopic component moves telescopically to drive the telescopic bottle brushes to move telescopically.

Optionally, high-efficient type group banks up bottle self-cleaning machine with earth, its characterized in that still includes rotary drive device, rotary drive device respectively with each flexible bottle brush transmission is connected to the drive is each flexible bottle brush is rotatory.

Optionally, the rotary driving device includes a driving portion and a plurality of wearing sleeves, each wearing sleeve has a wearing groove and an outer gear ring, and the wearing groove has a convex portion or a concave portion extending along an axial direction thereof;

each telescopic bottle brush is respectively connected with the corresponding sleeve penetrating body and arranged through the sleeve penetrating groove, each telescopic bottle brush is provided with a concave part or a convex part along the length direction, and the concave part is in inserted fit with the convex part;

the outer gear rings of two adjacent penetrating sleeve bodies are meshed, and the driving part is in transmission connection with any one of the penetrating sleeve bodies so as to drive each telescopic bottle brush to rotate.

Optionally, an elastic smooth supporting body and a friction plate are arranged inside the bottle cage;

the tissue culture bottle is accommodated in the bottle cage;

under the state that the bottle brush stretches into corresponding group banks up in the bottle with earth, the smooth supporter of elasticity is compressed, friction plate and group banks up the bottle with earth and contact, group banks up the bottle with earth when the bottle brush rotates and can not rotate in step by the friction plate effect, and under the state that the bottle was banked up with earth to flexible bottle brush breaking away from, the smooth supporter elasticity of elasticity resets, friction plate and group bank up the bottle with earth and have the clearance, group banks up the bottle with earth and can easily slide in the bottle cage.

Optionally, the rotating cylinder is circumferentially provided with a plurality of partition plates, and each partition plate extends along the axial direction of the rotating cylinder;

the bottle body loading part is arranged between two adjacent isolation plates.

Optionally, high-efficient type group banks up bottle self-cleaning machine with earth includes:

the bottle placing and conveying track is provided with a plurality of feeding track grooves, and hollow grooves are formed in the bottoms of the feeding track grooves;

the front washing assembly is located at the bottom of the bottle swinging conveying track and comprises a plurality of spray heads, and the spray heads are arranged towards corresponding feeding track grooves respectively.

Optionally, the front flushing assembly comprises a first front flushing pipe and a second front flushing pipe;

a plurality of spray heads are arranged on the first front flushing pipe and the second front flushing pipe;

the first front flushing pipe and the second front flushing pipe are connected to the first main pipe through interlocking type electromagnetic water valves.

Optionally, the efficient tissue culture bottle automatic cleaning machine further comprises a bottle turning output track and a rear washing device, the bottle turning output track is arranged on one side, away from the bottle placing conveying track, of the cleaning matching rotary drum, the middle washing assembly is arranged between the bottle placing conveying track and the bottle turning output track, and the rear washing assembly is arranged between the middle washing assembly and the bottle turning output track;

the rear flushing component comprises an inner flushing pipe and two outer flushing pipes, the two outer flushing pipes are respectively arranged on two sides of the inner flushing pipe, a plurality of spray heads are respectively arranged on the inner flushing pipe and the two outer flushing pipes, the inner flushing pipe is used for flushing the inner wall of the tissue culture bottle, and the outer flushing pipe is used for flushing the outer wall of the tissue culture bottle;

the inner flushing pipe and the outer flushing pipe are connected to a second main pipe through an interlocking electromagnetic water valve.

Optionally, the efficient tissue culture bottle automatic cleaning machine further comprises an arc-shaped hollowed-out rail, the arc-shaped hollowed-out rail is attached to the bottom of the cleaning matching rotary drum and extends along the circumferential direction of the cleaning matching rotary drum, and the middle washing assembly is located on one side, away from the cleaning matching rotary drum, of the arc-shaped hollowed-out rail;

tissue culture bottle hold in under the state of bottle cage, tissue culture bottle's open end support in arc fretwork track.

By adopting the technical scheme, the invention has the following beneficial effects:

the utility model provides a high-efficient type group banks up bottle automatic cleaning machine with earth has been equipped with and has scrubbed and secondary washing unit, can organize the bottle with earth to brush the bottle simultaneously and wash the processing, can get rid of stubborn spot, has obviously improved the cleaning performance.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention to its proper form. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a schematic perspective view of an efficient tissue culture bottle automatic cleaning machine provided by an embodiment of the present application;

FIG. 2 is a schematic view showing another three-dimensional structure of the high-efficiency tissue culture bottle automatic cleaning machine provided by the embodiment of the application;

FIG. 3 is a top view of the automatic cleaning machine for tissue culture bottles provided by the embodiment of the present application;

FIG. 4 shows an explosion diagram of a local structure of the automatic cleaning machine for the high-efficiency tissue culture bottle provided by the embodiment of the application;

FIG. 5 is a schematic structural diagram of a feeding bottle turner provided by an embodiment of the application;

FIG. 6 is a schematic view showing a matching structure of a cleaning matching rotary drum and a positioning mechanism of the automatic cleaning machine for the high-efficiency tissue culture bottle provided by the embodiment of the application;

FIG. 7 is a side view showing a partial structure of an automatic cleaning machine for high-efficiency tissue culture bottles provided by the embodiment of the application;

FIG. 8 is a schematic structural diagram of a bottle brushing device of the high-efficiency automatic tissue culture bottle cleaning machine provided by the embodiment of the application;

FIG. 9 shows an exploded view of a crushing device of the automatic efficient tissue culture bottle cleaning machine provided by the embodiment of the application;

FIG. 10 is a schematic structural diagram of a liquid collecting box, a confluence box and a reclaimed water storage box of the automatic cleaning machine for the high-efficiency tissue culture bottles provided by the embodiment of the application;

FIG. 11 is a schematic structural diagram of a reclaimed water storage tank of the high-efficiency automatic tissue culture bottle cleaning machine provided by the embodiment of the application;

FIG. 12 is a schematic view showing a matching structure of a confluence box and a filter screen of the automatic cleaning machine for the high-efficiency tissue culture bottle provided by the embodiment of the application;

fig. 13 is a schematic structural view illustrating a bottle loading portion of the automatic high-efficiency tissue culture bottle cleaning machine according to the embodiment of the present application.

In the figure, 0010, cleaning the matching rotating drum; 0011. a bottle cage; 0011a, an elastic smooth support body; 0011b, a friction plate; 0012. a separator plate; 0013. a drive plate; 0013a, a mating groove; 0020. a bottle placing conveying track; 0021. a feeding track groove; 0022. a baffle plate; 0022a, a straight conveying section; 0022b, arc-shaped turning section; 0023. a baffle plate; 0030. a feeding bottle turning device; 0031. a first shaft body; 0032. a first plectrum; 0032a, a first edge; 0032b, a second edge; 0032c, arcuate edges; 0033. a positioning trigger part; 0040. inclining the vibration table; 0050. a bottle turning output track; 0051. a table top; 0052. a discharge rail groove; 0060. a discharging bottle turning device; 0070. a positioning mechanism; 0071. a transmission wheel train; 0072. a drive body; 0073. a drive rod; 0074. a locking lever; 0080. an arc-shaped hollow track; 0090. a bottle brushing device; 0091. a telescopic bottle brush; 0091a, brush head; 0092. a base; 0093. a telescopic member; 0094. a slider; 0095. threading the sleeve body; 0095a, an outer gear ring; 0100. A front flushing assembly; 0101. a first front wash pipe; 0102. a second front wash pipe; 0110. a middle flushing assembly; 0120. a rear flushing assembly; 0121. an internal flushing pipe; 0122. an external flushing pipe; 0130. a reclaimed water storage tank; 0131. filtering with a screen; 0132. a stock solution chamber; 0133. a filter chamber; 0134. a first recess groove; 0135. a second recess groove; 0136. a water pump; 0137. an overflow box; 0140. a junction box; 0141. a first baffle; 0142. a second baffle; 0150. a first protective cover plate; 0160. a second protective cover; 0170. a liquid collecting box; 0180. a crushing device; 0181. a barrel; 0182. fixing the grinding disc; 0183. a movable abrasive disk; 0184. a motor; 0185. a drive shaft; 0190. tissue culture bottle.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or assembly must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

Referring to fig. 1 to 13, an embodiment of the present application provides a high-efficient type group banks up bottle self-cleaning machine with earth, includes: cleaning matching rotary drum 0010, bottle swinging conveying track 0020, inclined vibration table 0040, bottle turning output track 0050 and tissue culture bottle cleaning mechanism. The cleaning matching rotary drum 0010 comprises a rotary drum body and a plurality of bottle body loading portions, each bottle body loading portion is sequentially arranged along the circumferential direction of the rotary drum body, and each bottle body loading portion comprises a plurality of bottle cages 0011 which are sequentially arranged along the axial direction of the cleaning matching rotary drum 0010. The bottle swinging conveying track 0020 is provided with a plurality of feeding track grooves 0021, and each feeding track groove 0021 extends to different positions of the cleaning matching rotary drum 0010 along the axial direction. An inclined vibration table 0040 extends to each of the feeder rail grooves 0021. The bottle overturning output rail 0050 is arranged on one side of the cleaning matching drum 0010 departing from the bottle swinging conveying rail 0020, the bottle overturning output rail 0050 comprises a table top 0051 and a plurality of discharge rail grooves 0052, one end of each discharge rail groove 0052 extends to different positions of the cleaning matching drum 0010 along the axial direction, and the other end of each discharge rail groove 0052 extends to the table top 0051. Tissue culture bottle washing mechanism can brush the bottle and wash the processing to tissue culture bottle 0190, can get rid of stubborn stain, has obviously improved the cleaning performance.

Referring to fig. 4 and 8, the tissue culture bottle washing mechanism comprises a bottle brushing device 0090 and a middle washing component 0110, wherein the bottle brushing device 0090 comprises a plurality of telescopic bottle brushes 0091, each telescopic bottle brush 0091 is sequentially arranged along the axis direction of the rotating cylinder, and each telescopic bottle brush 0091 extends towards the rotating cylinder. Middle part washing unit 0110 includes middle part flushing pipe and a plurality of shower nozzle, the middle part flushing pipe is followed the axis direction of rotatory barrel extends, each the shower nozzle is followed the length direction of middle part flushing pipe connect gradually in the middle part flushing pipe, the shower nozzle all faces rotatory barrel. Under the brushing state, each telescopic bottle brush 0091 extends into the tissue culture bottle 0190 in the corresponding bottle cage 0011, and each spray head sprays water towards the corresponding tissue culture bottle.

Brush bottled putting 0090 includes base 0092, flexible part 0093 and slider 0094, slider 0094 slidable connect in base 0092, flexible part 0093 connect in base 0092, just flexible part 0093 with the transmission of slider 0094 is connected. Each telescopic bottle brush 0091 is connected to the slider 0094 respectively. The telescopic component 0093 can make telescopic movement to drive all the telescopic bottle brushes 0091 to make telescopic movement.

Telescoping bottle brush 0091 may include brush head 0091a and the body of rod. Brush head 0091a is similar with common beaker brush, and the fixed mode of the body of rod adopts quick detach formula design, the convenient change. The telescopic component 0093 can be a hydraulic push rod, and the top of the push rod is connected with the slide block 0094 to push the slide block to horizontally reciprocate.

Bottle brushing device 0090 may also include a distal limit switch and a proximal limit switch. The telescopic range of the telescopic bottle brush 0091 is limited by the cooperation of the far-end limit switch and the near-end limit switch. When the telescopic component 0093 or the slider 0094 touches the far-end limit switch, the telescopic component 0093 stops pushing movement, and at the moment, the brush head 0091a just touches the bottle bottom. When the telescopic component 0093 or the slider 0094 touches the near end limit switch, the telescopic component 0093 stops retracting movement, and at the moment, the brush head 0091a leaves the bottle body and is positioned outside the arc-shaped hollow track 0080.

In a possible embodiment, the tissue culture bottle washing mechanism further comprises a rotary driving device, and the rotary driving device is in transmission connection with each telescopic bottle brush 0091 respectively so as to drive each telescopic bottle brush 0091 to rotate to brush the inner wall of the tissue culture bottle 0190.

Referring to fig. 8, in a possible embodiment, the rotation driving device includes a driving portion and a plurality of penetrating bodies 0095, the penetrating bodies 0095 have penetrating grooves and outer gear rings 0095a, and the inner walls of the penetrating grooves have convex portions or concave portions extending along the axial direction of the penetrating grooves. Each telescopic bottle brush 0091 is connected respectively in corresponding cover body 0095 that wears, and telescopic bottle brush 0091 runs through the cover groove sets up, telescopic bottle brush 0091 has along length direction's concave part or convex part, the concave part with the convex part cooperation of pegging graft. The outer gear rings 0095a of two adjacent penetrating sleeve bodies 0095 are meshed, and the driving part is in transmission connection with any one of the penetrating sleeve bodies 0095 so as to drive each telescopic bottle brush 0091 to rotate.

Referring to fig. 13, in one possible embodiment, the bottle cage 0011 is internally provided with an elastic smooth support body 0011a and a friction plate 0011 b. Tissue culture bottle 0190 is accommodated in the bottle cage 0011. Under the brushing station, the axis of the tissue culture bottle 0190 and the extension line of the telescopic bottle brush 0091 have a certain inclination angle. Under the state that telescopic bottle brush 0091 stretched into corresponding group and banks up in the bottle 0190 with earth, the smooth supporter 0011a of elasticity is compressed, friction plate 0011b and group banks up bottle 0190 with earth and contact, have increased frictional force, group banks up bottle 0190 with earth and is difficult for rotating, can be by the effectual scrubbing of rotatory telescopic bottle brush 0091. Under the state that flexible bottle brush 0091 breaks away from group and banks up bottle 0190 with earth, the elasticity of the smooth supporter 0011a of elasticity resets, friction plate 0011b and group banks up bottle 0190 with earth and have the clearance, conveniently bank up bottle 0190 with earth and can roll off the bottle cage smoothly after breaking away from arc fretwork track.

Optionally, the tissue culture bottle washing mechanism includes: the front flush assembly 0100. The bottle swinging conveying track 0020 is provided with a plurality of feeding track grooves 0021, and hollow grooves are formed in the bottoms of the feeding track grooves 0021. The front flushing component 0100 is located at the bottom of the swing bottle conveying track 0020, the front flushing component 0100 comprises a plurality of nozzles, and each nozzle is arranged towards the corresponding feeding track groove 0021 respectively.

The front flushing assembly 0100 comprises a first front flushing pipe 0101 and a second front flushing pipe 0102. The first front flushing pipe 0101 and the second front flushing pipe 0102 are both provided with a plurality of nozzles. The first front flushing pipe 0101 and the second front flushing pipe 0102 are connected to the first main pipe through an interlocking electromagnetic water valve.

The front flushing component 0100 is arranged in double rows, the middle is separated by the distance of one bottle, a cluster water jet nozzle is arranged on the first front flushing pipe 0101, and an umbrella-type water jet nozzle is arranged on the second front flushing pipe 0102. The water flow of the two rows of nozzles is sprayed in a pulse mode, and water is alternately supplied to form pulses, for example, the water flow is automatically controlled by adopting a one-inlet two-outlet interlocking type electromagnetic water valve. The cluster water flow can disperse and fall off the whole culture medium at the bottom of the bottle, and the umbrella water flow can wash off the residual culture medium adhered to the wall of the bottle. The pulse water jet mode can improve the water flushing capacity and achieve the purpose of saving water.

Optionally, group banks up bottle washing mechanism with earth and still includes and turns over a bottle output track 0050 and rear portion flushing assembly 0120, turn over a bottle output track 0050 and set up in washing cooperation rotary drum 0010 and deviate from one side of pendulum bottle delivery track 0020, middle part flushing assembly 0110 set up in pendulum bottle delivery track 0020 with turn over between the bottle output track 0050, rear portion flushing assembly 0120 set up in middle part flushing assembly 0110 with turn over between the bottle output track 0050. The rear flushing component 0120 comprises an inner flushing pipe 0121 and two outer flushing pipes 0122, wherein the two outer flushing pipes 0122 are respectively arranged at two sides of the inner flushing pipe 0121, and a plurality of spray heads are respectively arranged on the inner flushing pipe 0121 and the two outer flushing pipes 0122. The inner washing pipe 0121 and the outer washing pipe 0122 are connected to the second mother pipe through an interlocking electromagnetic water valve. The inner flushing pipe 0121 and the outer flushing pipe 0122 are controlled by a one-inlet two-outlet interlocking type electromagnetic water valve and are externally connected with tap water. Wherein, set up end shower nozzle on inside flushing pipe 0121, end shower nozzle is bunched formula pulse rivers, and outside flushing pipe 0122 sets up the side shower nozzle, for umbrella type pulse rivers, and two kinds of pulse heads supply water in turn and form the pulse, have improved the cleaning efficiency.

Example two

The second embodiment of the present application will be described in further detail with reference to the above-described second embodiment. This group banks up bottle self-cleaning mechanism with earth can handle the discarded object.

Specifically, group banks up a bottle self-cleaning machine with earth and includes: a front flushing assembly 0100, a drip chamber 0170 and a shredder 0180, the front flushing assembly 0100 being located at the bottom of the pendulum bottle conveyor rail 0020, the front flushing assembly 0100 comprising a plurality of spray heads, each spray head facing a respective feeder rail slot 0021. Referring to fig. 1 and 10, the drip box 0170 has a drip trough at the bottom of the pendulum bottle conveyor rail 0020. The smashing device 0180 is communicated with the liquid collecting tank, and the smashing device 0180 is connected with a first sewage discharge pipeline. In this application, set up album liquid box 0170 through washing subassembly 0100 bottom in front and can collect the waste water of its upper portion drippage and wash solid debris such as culture medium that get off to converge all discarded objects to the exit end of bottom one side, smash through reducing mechanism 0180, made things convenient for the emission.

Referring to fig. 10, the liquid collecting box 0170 is box-shaped as a whole, the upper end of the peripheral vertical side wall is attached to the lower edge of the bottle placing conveying rail 0020, and the bottom of the box is funnel-shaped and inclines to one side to form a confluence groove, so that waste water and impurities are converged to the discharge port under the action of gravity.

Referring to fig. 4 and 10, in one possible embodiment, the front flushing assembly 0100 comprises a flushing pipe at least partially disposed within the drip box 0170, each spray head being located within the drip box 0170 and connected to the flushing pipe.

Specifically, washing subassembly 0100 includes washing pipe 0101 before first preceding washing pipe 0101 and the second before, washing pipe 0101 before first preceding washing pipe 0101 and the second follow the length direction of pendulum bottle delivery track 0020 sets gradually, washing pipe 0101 before first preceding washing pipe 0101 and the second all with pay-off track groove 0021 is mutually perpendicular. The first front flushing pipe 0101 and the second front flushing pipe 0102 are connected to the first main pipe through an interlocking electromagnetic water valve.

Referring to fig. 9, the pulverizer 0180 includes a cylinder 0181, a fixed abrasive disk 0182 and a pulverizing assembly, the bottom of the cylinder 0181 is connected to the first sewage conduit, the fixed abrasive disk 0182 is disposed in the cylinder 0181, the pulverizing assembly includes a movable abrasive disk 0183, a motor 0184 and a transmission shaft 0185, the movable abrasive disk 0183 is disposed in the cylinder 0181, one end of the transmission shaft 0185 is connected to the movable abrasive disk 0183, and the other end of the transmission shaft 0185 is connected to the motor 0184.

One or more circles of through holes are distributed on the fixed abrasive disk 0182 and are fixed ends of the crushing device, a circle of through holes and the inner wall of the cylinder are fixed through clamping grooves, and the fixed abrasive disk 0182 and the cylinder do not move relatively during operation. One or more circles of inclined through holes (the distance from each circle of through holes to the rotation center of the grinding disc 0182 is the same as that of the through holes in the fixed grinding disc 0182, and the inclined direction is opposite to the rotation direction) are distributed on the movable grinding disc 0183 and are the moving end of the crushing device 0180. This reducing mechanism 0180 can make the relative rotation grinding of bold solid through two millstones for the fritter solid, the slope through-hole that rotates on the grinding disc can produce certain pressure boost effect to its lower part for the grinding of solid and the downward flow of waste water, only waste water and the through-hole of two millstones of fritter solid accessible and further downstream during the operation, can prevent that the bold discarded object is too much in order to block up sewage pipes, two kinds of millstones belong to quick-wear consumptive material, be detachable design, convenient the change. The first sewage discharge pipeline can directly discharge the waste liquid and the contained small-particle solid matters into a municipal sewage pipe network, and continuous discharge can not be blocked because of no large solid matters and the like.

The automatic washer further includes a drum flush assembly (e.g., a mid-flush assembly and a rear-flush assembly) having a plurality of spray heads directed toward the wash-fit drum 0010, and a reclaimed water storage tank 0130 located at the bottom of the wash-fit drum 0010 and connected to the forward flush assembly 0100 through a multiplex conduit. Water is provided for the front flushing component 0100, and the effect of saving water is achieved.

Referring to fig. 10 and 11, in one possible embodiment, a strainer 0131 is provided in the reclaimed water storage tank 0130, and the strainer 0131 divides the reclaimed water storage tank 0130 into a stock solution chamber 0132 and a filtration chamber 0133. A confluence box 0140 is arranged between the reclaimed water storage tank 0130 and the cleaning matching rotary drum 0010, and a liquid outlet of the confluence box 0140 is communicated with the stock solution cavity 0132. One side of the filter cavity 0133 close to the filter screen 0131 is provided with a first concave groove 0134, a water pump 0136 is arranged in the first concave groove 0134, and the multiplexing pipeline is connected to the water pump 0136.

The filter screen 0131 is detachably connected with the reclaimed water storage tank 0130, and the filter screen 0131 is a square thin plate with hard frames and uniformly and densely distributed holes. Grooves are formed in two opposite side walls of the reclaimed water storage tank 0130, and the hard frame of the filter screen 0131 can be inserted and fixed along the grooves.

The upper edge of the wall surface of the primary liquid cavity 0132 is connected with an overflow box 0137. The stock solution cavity 0132 and the overflow box 0137 are both communicated with a second sewage discharge pipeline.

Former liquid chamber 0132 is close to one side of filter screen 0131 sets up second depressed groove 0135, second depressed groove 0135 bottom sets up the intercommunication second sewage pipes's discharge port, be provided with the solenoid valve on the discharge port.

Referring to fig. 12, a first baffle 0141 and a second baffle 0142 are respectively disposed on two sides of the liquid outlet of the confluence box 0140, the first baffle 0141 is located on one side close to the filter screen 0131, and the second baffle 0142 is located on one side far from the filter screen 0131. The first baffle 0141 extends obliquely to the side away from the filter screen 0131, and the extension length of the second baffle 0142 is less than that of the first baffle 0141. The liquid outlet is contracted back and forth to be flat, the first guide plate 0141 extends obliquely to one side away from the filter screen 0131, so that waste liquid is prevented from directly and vertically impacting a lower water body (the precipitated solid sediments are prevented from being resuspended by stirring the water body, the precipitates are convenient to discharge in time during periodic sewage discharge, and the probability of blockage of the filter screen 0131 is reduced at the same time). The extension length of the second flow guide plate 0142 is less than that of the first flow guide plate 0141, so that the size of the water outlet can be increased, and the flow speed of the reclaimed water at the liquid outlet is further reduced.

The automatic cleaning machine is also provided with a liquid level detector, and the liquid level detector comprises an upper water level detection probe, a lower water level detection probe and a warning water level detection probe, wherein the arrangement height of the upper water level detection probe is slightly lower than the horizontal height of an overflow port of the overflow box 0137. The lower water level detection probe is positioned at the middle height of the reclaimed water storage tank 0130; the height of the water level detection probe is slightly higher than that of the water pump 0136. The dope chamber 0132 and the filtration chamber 0133 are recessed downward at the bottom near the side of the filter screen and inclined toward one end, and the solid particles filtered by the filter screen are collected in the second recessed groove 0135. The lowest part of the raw liquid cavity 0132 is opened outwards and connected with a sewage discharge pipe and can be directly discharged to a municipal sewage pipe network, the opening is controlled to be opened and closed by an electromagnetic valve, when the liquid level in a reclaimed water storage tank reaches the highest water level (an upper water level detection probe), the electromagnetic valve is opened, sewage in the storage tank carries solid matters deposited in a bottom groove to be discharged, and when the liquid level falls to a proper water level (a lower water level detection probe), the electromagnetic valve is closed and stops discharging. An overflow box 0137 is also arranged at one end of the top of the stock solution cavity 0132, the outer side of an overflow port of the overflow box 0137 is connected to a sewage discharge pipe, and when the filter screen is blocked or the water level detection or the electromagnetic valve fails, excessive water can be discharged through the overflow port.

EXAMPLE III

Referring to fig. 1 to 13, a second embodiment of the present application will be described in further detail on the basis of the first embodiment. High-efficient type group banks up bottle self-cleaning machine with earth includes: a cleaning matching rotary drum 0010, a bottle swinging conveying track 0020, an inclined vibrating table 0040 and a bottle overturning output track 0050. Wash cooperation rotary drum 0010 and include rotatory barrel and a plurality of bottle loading portion, each bottle loading portion edge the circumferencial direction of rotatory barrel sets gradually, bottle loading portion includes the edge a plurality of bottle cages 0011 that washing cooperation rotary drum 0010's axis direction set gradually. The bottle swinging conveying track 0020 is provided with a plurality of feeding track grooves 0021, and each feeding track groove 0021 extends to different positions of the cleaning matching rotary drum 0010 along the axial direction. An inclined vibration table 0040 extends to each of the feeder rail grooves 0021. The bottle overturning output rail 0050 is arranged on one side of the cleaning matching drum 0010 departing from the bottle swinging conveying rail 0020, the bottle overturning output rail 0050 comprises a table top 0051 and a plurality of discharge rail grooves 0052, one end of each discharge rail groove 0052 extends to different positions of the cleaning matching drum 0010 along the axial direction, and the other end of each discharge rail groove 0052 extends to the table top 0051.

In this embodiment, through setting up washing cooperation rotary drum 0010, the effectual length that has reduced traditional transfer chain, area is little, can improve labor efficiency, reduces the cost of labor.

Still be provided with separation blade 0023 on putting bottle conveying track 0020, separation blade 0023 encloses to close and forms installation breach, and slope shaking table 0040 holds on this installation breach, and whole slope shaking table 0040 inclines slightly. The inclined vibration table 0040 can horizontally reciprocate left and right, vibrate in a small range and at high frequency, and move the tissue culture bottle to the feeding track groove.

Referring to fig. 3 and 5, the efficient tissue culture bottle automatic cleaning machine further comprises a feeding bottle turning device 0030, wherein the feeding bottle turning device 0030 comprises a first shaft body 0031 and a plurality of first bottle turning parts, and the first bottle turning parts are sequentially arranged along the length direction of the first shaft body 0031. In the rotating process of the feeding bottle turning device 0030, the first bottle turning part can be driven to respectively stir the tissue culture bottle 0190 in the corresponding feeding track groove 0021.

The first bottle turning part comprises a plurality of first shifting pieces 0032, the first shifting pieces 0032 are sequentially arranged at intervals in the circumferential direction of the first rotating shaft, and the thickness direction of the first shifting pieces 0032 is parallel to the first shaft body 0031. Pay-off track groove 0021 bottom sets up the fretwork groove, first plectrum 0032 passes through the fretwork groove stretches into or stretches out pay-off track groove 0021.

Optionally, the first bottle turning part comprises three groups of first shifting sheets 0032, each first shifting sheet 0032 comprises a first edge 0032a, a second edge 0032b and an arc-shaped edge 0032c connecting the first edge 0032a and the second edge 0032b, the included angle between the first edge 0032a of one first shifting sheet and the second edge 0032b of the other first shifting sheet 0032 is 90 °, and the curvature of the arc-shaped edge 0032c is gradually increased in the direction from the end part of the first edge 0032a to the end part of the second edge 0032 b.

In this embodiment, the first shifting piece 0032 is a fan-blade type shifting piece, and the three groups of first blocking pieces are arranged to rotate to drive the bottle to be turned over and block the bottle at the rear side when the bottle is turned over. In two adjacent first plectrums 0032 in this application, the contained angle of the first limit 0032a of one and the second limit 0032b of another can hold group banks up bottle 0190 for 90. First plectrum 0032 designs for by first limit 0032a tip to the direction of second limit 0032b tip, and the camber of arc limit 0032c increases gradually to in the rotatory in-process of first bottle portion that turns over, the group that is transported banks up bottle 0190 with earth and is located between two adjacent first plectrums 0032, along with first bottle portion that turns over removal, other group that lie in this group that is transported banks up bottle 0190 rear portion banks up bottle 0190 with earth then supports and pushes up on arc limit 0032c, and slowly moves ahead. In the rotating process of the first bottle turning part, the first poking piece 0032 does not push the bottles at the back, so that the phenomenon that the motor is burnt out due to overlarge rotating resistance is avoided.

In one possible example, the rotary cylinder is provided with a plurality of partition plates 0012 along the circumferential direction, and each partition plate 0012 is arranged to extend in the axial direction of the rotary cylinder. The bottle body loading part is arranged between two adjacent isolation plates 0012.

In this embodiment, through the design of division board 0012, the structural strength of the cleaning cooperation rotary drum 0010 is strengthened, and in the stage of washing and scrubbing, can prevent that liquid from following current or splash of water from splashing to next door row bottle cage 0011, pollute the bottle that has already been cleaned.

Referring to fig. 6, in a possible embodiment, the automatic cleaning machine for tissue culture bottles further comprises a positioning mechanism 0070, wherein the positioning mechanism 0070 is used for intermittently locking the cleaning fit rotary drum 0010 during the rotation of the cleaning fit rotary drum 0010, so that the bottle loading parts on the cleaning fit rotary drum 0010 are sequentially paused at a cleaning station. The tissue culture bottle automatic cleaning machine is convenient for a washing component to perform washing operation, and when the current bottle body loading part is cleaned, the positioning mechanism 0070 drives the cleaning matching rotary drum 0010 to make the next bottle body loading part pause at the cleaning station, so that the washing component can perform washing operation conveniently.

Wherein, positioning mechanism 0070 includes motor, drive train 0071, driving body 0072 and locking structure. The motor 0184 with transmission train 0071 transmission connection, transmission train 0071 with driving body 0072 transmission connection, driving body 0072 with locking structure transmission cooperation. The cleaning engagement drum 0010 includes a drive plate 0013 connected to the rotating drum. During the rotation of the driving body 0072, the locking structure can be driven to alternately lock and toggle the driving plate 0013.

The driving body 0072 is connected with a driving rod 0073, and a driving shaft is arranged at the end part of the driving rod 0073. Drive body 0072 includes eccentric cam, locking structure includes locking lever 0074 and connection locking lever 0074's reset spring, locking lever 0074 has articulated portion and locates the first body of rod and the second body of rod of articulated portion both sides the effect of reset spring down, the first body of rod support top in eccentric cam, set up the locking axle on the second body of rod. The drive plate 0013 is provided with a plurality of matching grooves 0013a along the circumferential direction, the eccentric cam drives the first rod body to rotate and drive the second rod body to move, and therefore the locking shaft can be inserted into or slide out of the matching grooves 0013 a. When the locking shaft is disengaged from one of the engagement grooves 0013a, the driving shaft is inserted into one of the engagement grooves 0013a to drive the driving plate 0013 to rotate. In a state where the lock shaft is inserted into one of the engagement grooves 0013a, the drive shaft is disengaged from one of the engagement grooves 0013 a.

Referring to fig. 1, the efficient tissue culture bottle automatic cleaning machine further comprises a discharging bottle turning device 0060, wherein the discharging bottle turning device 0060 comprises a second shaft body and a plurality of second bottle turning parts, and the second bottle turning parts are sequentially arranged along the length direction of the second shaft body. In the rotation process of the discharging bottle turning device 0060, the second bottle turning parts can be driven to respectively turn tissue culture bottles 0190 in corresponding discharging track grooves 0052. The structure of the discharging bottle turning device 0060 is similar to that of the feeding bottle turning device 0030, and the specific structure of the discharging bottle turning device 0060 can be referred to the structure of the feeding bottle turning device 0030.

Example four

The fourth embodiment of the present application will be described in further detail with reference to the above-described embodiments. In the fourth embodiment, the tissue culture bottle automatic cleaning machine further comprises a washing component, wherein the washing component at least comprises a plurality of nozzles facing the washing matching rotary drum 0010. At least when wasing rotatory to a certain bottle loading portion position cleaning station of cooperation rotary drum 0010 and pause, should wash the subassembly and can begin to carry out the operation of washing, carry out effectual washing to each group of group on the bottle loading portion bottle.

The automatic cleaning machine further comprises a first bottle clamping detector and a second bottle clamping detector. The detection signal light path of the first bottle clamping detector passes through a gap between the bottle swinging conveying track 0020 and the cleaning matching rotary drum 0010. A detection signal optical path of the second vial jam detector passes through a gap between the vial inversion output rail 0050 and the cleaning fit drum 0010. The first and second clamp bottle detectors may be both infrared detectors and may be surface light sources. When the detection signals of the first bottle clamping detector and the second bottle clamping detector are blocked, the bottle clamping fault can be judged to occur.

Further, the tissue culture bottle automatic cleaning machine further comprises a driving device, a feeding bottle turning device 0030 and a positioning control part. The driving device is in transmission connection with the feeding bottle turning device 0030. The feeding bottle overturning device 0030 is provided with a plurality of first bottle overturning parts along the length direction, and each first bottle overturning part can extend into the corresponding feeding rail groove 0021. And a plurality of positioning trigger parts 0033 are arranged on the bottle overturning device along the circumferential direction. In the rotating process of the bottle overturning device, each positioning triggering part 0033 triggers the positioning control part in sequence to generate a driving device pause instruction, so that the feeding bottle overturning device 0030 is temporarily in a pause state, and the cleaning matching rotary drum 0010 can rotate at the moment to transfer the next bottle loading part to the cleaning station. The positioning control part can be a proximity switch, and when the positioning trigger part 0033 approaches the positioning control part, a pause instruction of the driving device can be triggered.

First card bottle detector can play card bottle detection and plectrum stop rotation two effects simultaneously. Specifically, when the first bottle inverting part rotates, the cleaning engagement drum 0010 is in a stopped state. First bottle portion rotation of turning over triggers 0033 to the location when the location control portion, first card bottle detector opens, detects the transmitting signal and whether blockked, if the transmitting signal is blockked, then indicates that there is the bottle by the card, banks up a group this moment and organizes a bottle automatic cleaning machine and report to the police, and controls first bottle portion stop motion that turns over. If the transmission signal is not blocked, it indicates that each tissue culture bottle 0190 is smoothly loaded into the bottle cage 0011, and then the cleaning cooperation drum 0010 starts to rotate.

Referring to fig. 4 and 6, the tissue culture bottle 0190 small-sized full-automatic cleaning machine further comprises a positioning mechanism 0070, and the positioning mechanism 0070 is in transmission connection with the cleaning matching rotary drum 0010. The washing assembly comprises a middle washing assembly 0110, and the middle washing assembly 0110 comprises a plurality of spray heads facing the cleaning fit drum 0010. The cleaning engagement drum 0010 has a conveyance state and a cleaning state. In the conveying state, the positioning mechanism 0070 drives the cleaning matching rotary drum 0010 to rotate; in the cleaning state, the positioning mechanism 0070 locks the cleaning matching drum 0010, and the middle washing component 0110 performs a spraying operation.

The positioning mechanism 0070 includes a locking structure and a rotatable drive body 0072. The driving body 0072 is provided with an eccentric cam and a driving rod 0073. The locking structure comprises a locking rod 0074 and a return spring connected with the locking rod 0074, and one end of the locking rod 0074 abuts against the eccentric cam. The rotary cylinder body is connected with a drive plate 0013, and the drive plate 0013 is provided with a plurality of matching grooves 0013a along the circumferential direction. In the conveying state, when the locking rod 0074 is disengaged from one of the matching grooves 0013a, the driving rod 0073 is inserted into one of the matching grooves 0013a to drive the driving plate 0013 to rotate; in the cleaning state, when the driving rod 0073 is disengaged from one of the fitting grooves 0013a, the locking rod 0074 is inserted into one of the fitting grooves 0013 a.

Referring to fig. 4, 7 and 8, the tissue culture bottle 0190 small-sized full-automatic cleaning machine further comprises a bottle brushing device 0090, wherein the bottle brushing device 0090 comprises a plurality of telescopic bottle brushes 0091, each telescopic bottle brush 0091 is sequentially arranged along the axis direction of the rotating cylinder, and each telescopic bottle brush 0091 extends towards the rotating cylinder. The brush bottle apparatus 0090 has an extended state and a retracted state. Under the cleaning state, flexible bottle brush 0091 is in the extension state, flexible bottle brush 0091 extends to and is located tissue culture bottle 0190 in the bottle cage 0011. In the retraction state, the retractable bottle brush 0091 is separated from the bottle cage 0011 and is in the retraction state.

Referring to fig. 7, the flushing assembly further comprises a front flushing assembly 0100 and a rear flushing assembly 0120. The front flushing assembly 0100 is located at the bottom of the pendulum bottle delivery track 0020, the front flushing assembly 0100 comprising a plurality of spray heads directed towards a respective feeder track slot 0021. The rear flushing assembly 0120 is arranged between the middle flushing assembly 0110 and the bottle overturning output track 0050, the rear flushing assembly 0120 comprises a plurality of nozzles facing the cleaning matching drum 0010.

Referring to fig. 4, the small-sized full-automatic tissue culture bottle 0190 cleaning machine further comprises an arc-shaped hollowed-out rail 0080, which is attached to the bottom of the cleaning matching rotary drum 0010 and extends in the circumferential direction of the cleaning matching rotary drum 0010. Tissue culture bottle 0190 is accommodated in the state of bottle cage 0011, the open end of the tissue culture bottle is propped against the arc-shaped hollow track 0080.

Referring to fig. 1, the tissue culture bottle 0190 small-sized full-automatic washing machine further comprises a reclaimed water storage tank 0130 and a confluence box 0140, wherein the confluence box 0140 is arranged between the reclaimed water storage tank 0130 and the washing matching drum 0010. The confluence box 0140 comprises a liquid collecting port and a liquid discharging port, the liquid collecting port is positioned at the bottom of the cleaning matching rotary drum 0010, and the liquid discharging port is communicated with the reclaimed water storage tank 0130.

Tissue culture bottle 0190 small-size full automatic cleaning machine turns over bottle ware 0030 including the feeding, and pendulum bottle delivery track 0020 includes a plurality of baffles 0022, forms between two adjacent baffles 0022 pay-off track groove 0021, baffle 0022 includes straight transport section 0022a and arc upset section 0022b, the feeding turn over bottle ware 0030 set up in one side of arc upset section 0022 b. Group banks up small-size full-automatic cleaning machine of bottle 0190 with earth and still include first protection apron 0150 and second protection lid 0160, first protection apron 0150 and second protection lid 0160 all have open mode and closed state. In the closed state, the first protective cover 0150 covers the straight conveying section 0022a of each baffle 0022, and the second protective cover 0160 covers the arc-shaped turning section 0022b of each baffle 0022. First protection apron 0150 and second protection lid 0160 play the effect that prevents the tong, prevent that rivers from spraying and sputter out, and the landing comes out when preventing the bottle upset, and the apron can also overturn and open and shut and conveniently get rid of trouble such as card bottle in time. The equipment needs to be tightly buckled in the operation process, if the protective cover plate is turned over midway, the equipment gives out an alarm, the operation is stopped, and the operation indicator lamp of the equipment is changed from green to red.

The working process of the tissue culture bottle automatic cleaning machine is briefly explained as follows:

the tissue culture bottle 0190 is positioned on an inclined vibrating table 0040, and the bottle mouth is downward. The inclined vibration table 0040 is in a vibration state, tissue culture bottles 0190 on the inclined vibration table 0040 sequentially enter the feeding track grooves 0021 under the vibration of the inclined vibration table 0040, at the moment, the cleaning matching rotary drum 0010 is in a static state, the feeding bottle turning device 0030 is in a rotation state, and the feeding bottle turning device 0030 rotates by a certain angle to stir a group of tissue culture bottles 0190 into each bottle cage 0011 of a bottle loading part. At the moment, the first bottle clamping detector starts to detect whether a bottle is clamped or not, if so, the full-automatic cleaning machine starts to alarm, otherwise, the bottle is not clamped, the positioning mechanism 0070 drives the cleaning matching rotary drum 0010 to rotate to the next station (namely, the position corresponding to the tissue culture bottle washing mechanism) and stop, at the moment, the tissue culture bottle washing mechanism starts to perform washing operation, and the feeding bottle turning device 0030 continues to rotate to turn another tissue culture bottle 0190 to bottle cages 0011 of the next bottle loading part. When the washing operation is finished and the first bottle clamping detector does not detect the bottle clamping fault, the cleaning matching rotary drum 0010 continuously rotates for a certain angle to the next station (namely the position corresponding to the washing component at the rear part of the tissue culture bottle) and stops, at the moment, the inner washing pipe 0121 and the outer washing pipe 0122 alternately spray water, and meanwhile, the station where the subsequent bottle loading part is located continuously turns over the bottle to enter the bottle cage 0011 or wash the bottle. Wherein the cleaning is controlled by a positioning mechanism 0070 in conjunction with the alternating rotation and pause control of the drum 0010. As shown in fig. 1, the cleaning fit drum 0010 rotates counterclockwise, the bottle mouth of the tissue culture bottle 0190 on the cleaning fit drum 0010 faces outward, and when the mouth of the tissue culture bottle 0190 faces downward, the bottle mouth abuts against the arc-shaped hollowed-out rail 0080 and cannot fall off. When the cleaning matching rotary drum 0010 rotates to the point that the tissue culture bottle 0190 is separated from the arc-shaped hollowed-out track 0080, under the action of gravity, the tissue culture bottle 0190 is separated from the bottle cage 0011 and enters each discharging track groove 0052, and enters the table 0051 under the stirring of the discharging bottle turning device 0060, and at the moment, the mouth of the tissue culture bottle 0190 is downward for water control. In the output process of the tissue culture bottle 0190, the second bottle clamping detector detects whether a bottle clamping fault exists or not, and when the bottle clamping fault is detected, an alarm is given out, and the cleaning matching rotary drum 0010 is controlled to suspend rotation.

In the operation process of the automatic tissue culture bottle cleaning machine, the front flushing component 0100 performs rough washing on the tissue culture bottle 0190 with the opening facing downwards on the swinging bottle conveying track 0020 to remove solid impurities such as a bottle bottom culture medium, and in the rotating process of the cleaning matching rotary drum 0010, the middle flushing component 0110 and the rear flushing component 0120 also sequentially clean the tissue culture bottle 0190, so that the cleaning effect is improved.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a high-efficient type group banks up bottle self-cleaning machine with earth which characterized in that includes:

the cleaning and matching rotary drum comprises a rotary drum body and a plurality of bottle body loading parts, wherein each bottle body loading part is sequentially arranged along the circumferential direction of the rotary drum, and each bottle body loading part comprises a plurality of bottle cages which are sequentially arranged along the axial direction of the cleaning and matching rotary drum;

the bottle brushing device comprises a plurality of telescopic bottle brushes, the telescopic bottle brushes are sequentially arranged along the axial direction of the rotary cylinder body, and the telescopic bottle brushes extend towards the rotary cylinder body;

the middle flushing assembly comprises a middle flushing pipe and a plurality of spray heads, the middle flushing pipe extends along the axial direction of the rotary cylinder body, each spray head is sequentially connected to the middle flushing pipe along the length direction of the middle flushing pipe, and the spray heads face the rotary cylinder body;

under the brushing state, each telescopic bottle brush respectively extends into the tissue culture bottle in the corresponding bottle cage, and each spray head respectively sprays water towards the corresponding tissue culture bottle.

2. The efficient automatic tissue culture bottle cleaning machine according to claim 1, wherein the bottle brushing device comprises a base, a telescopic component and a sliding block, the sliding block is slidably connected to the base, the telescopic component is connected to the base, and the telescopic component is in transmission connection with the sliding block;

each telescopic bottle brush is connected with the sliding block respectively;

the telescopic component moves telescopically to drive the telescopic bottle brushes to move telescopically.

3. The efficient automatic tissue culture bottle cleaning machine according to claim 2, further comprising a rotary driving device, wherein the rotary driving device is in transmission connection with each telescopic bottle brush respectively so as to drive each telescopic bottle brush to rotate.

4. The automatic cleaning machine for tissue culture bottles of claim 3, wherein the rotary driving device comprises a driving part and a plurality of condom body, the condom body is provided with a condom groove and an outer gear ring, and the condom groove is provided with a convex part or a concave part extending along the axial direction of the condom groove;

each telescopic bottle brush is respectively connected with the corresponding sleeve penetrating body and arranged through the sleeve penetrating groove, each telescopic bottle brush is provided with a concave part or a convex part along the length direction, and the concave part is in inserted fit with the convex part;

the outer gear rings of two adjacent penetrating sleeve bodies are meshed, and the driving part is in transmission connection with any one of the penetrating sleeve bodies so as to drive each telescopic bottle brush to rotate.

5. The tissue culture bottle conveying mechanism according to claim 1, wherein an elastic smooth support body and a friction plate are arranged inside the bottle cage;

the tissue culture bottle is accommodated in the bottle cage;

under the state that flexible bottle brush stretched into corresponding group banks up the bottle with earth in, elasticity smooth support is compressed, friction plate and group banks up the bottle with earth and contact, under the state that flexible bottle brush breaks away from group and banks up the bottle with earth, elasticity smooth support elastic reset, friction plate and group are organized the bottle with earth and have the clearance.

6. The efficient automatic tissue culture bottle cleaning machine according to claim 1, wherein a plurality of isolation plates are circumferentially arranged on the rotary cylinder body, and each isolation plate extends along the axial direction of the rotary cylinder body;

the bottle body loading part is arranged between two adjacent isolation plates.

7. The automatic cleaning machine for tissue culture bottles in high efficiency according to claim 1, which comprises:

the bottle placing and conveying track is provided with a plurality of feeding track grooves, and hollow grooves are formed in the bottoms of the feeding track grooves;

the front washing assembly is located at the bottom of the bottle swinging conveying track and comprises a plurality of spray heads, and the spray heads are arranged towards corresponding feeding track grooves respectively.

8. The efficient automatic tissue culture bottle cleaning machine according to claim 7, wherein the front flushing assembly comprises a first front flushing pipe and a second front flushing pipe;

a plurality of spray heads are arranged on the first front flushing pipe and the second front flushing pipe;

the first front flushing pipe and the second front flushing pipe are connected to the first main pipe through interlocking type electromagnetic water valves.

9. The efficient automatic tissue culture bottle cleaning machine according to claim 7, further comprising a bottle turning output track and a rear flushing device, wherein the bottle turning output track is arranged on one side of the cleaning matching drum, which is far away from the bottle placing conveying track, the middle flushing component is arranged between the bottle placing conveying track and the bottle turning output track, and the rear flushing component is arranged between the middle flushing component and the bottle turning output track;

the rear flushing component comprises an inner flushing pipe and two outer flushing pipes, the two outer flushing pipes are respectively arranged on two sides of the inner flushing pipe, a plurality of spray heads are respectively arranged on the inner flushing pipe and the two outer flushing pipes, the inner flushing pipe is used for flushing the inner wall of the tissue culture bottle, and the outer flushing pipe is used for flushing the outer wall of the tissue culture bottle;

the inner flushing pipe and the outer flushing pipe are connected to a second main pipe through an interlocking electromagnetic water valve.

10. The efficient automatic tissue culture bottle cleaning machine according to claim 1, further comprising an arc-shaped hollowed-out rail, wherein the arc-shaped hollowed-out rail is attached to the bottom of the cleaning fit rotary drum and extends along the circumferential direction of the cleaning fit rotary drum, and the middle flushing assembly is located on one side, away from the cleaning fit rotary drum, of the arc-shaped hollowed-out rail;

tissue culture bottle hold in under the state of bottle cage, tissue culture bottle's open end support in arc fretwork track.

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