CN104255298A - Efficient automatic sterilization vaccinator - Google Patents

Abstract

The invention discloses an efficient automatic sterilization vaccinator, and relates to the technical field of edible fungi, in particular to a strain vaccinator. The efficient automatic sterilization vaccinator comprises a strain crushing device and a vaccination feeding device, the vaccination feeding device comprises a feeding cylinder (1) and a feeding spiral shaft (2) arranged in the feeding cylinder (1), the front end of the feeding cylinder (1) is open, a feeding pipe (3) is arranged at the front end of the feeding cylinder (1), a rapid connecting portion (17) is arranged at the rear end of the feeding pipe (3) and detachably fixed at an opening in the front end of the feeding cylinder (1), a transmission rotating shaft (18) connected with a drive device is arranged at the rear end of the feeding cylinder (1), a bearing (19) is arranged on the feeding cylinder (1) and positioned in front of the transmission rotating shaft (18), the front end of the feeding spiral shaft (2) is inserted into the feeding pipe (3), and the rear end of the feeding spiral shaft penetrates a bearing hole of the bearing (19) and is detachably connected with the transmission rotating shaft (18). The efficient automatic sterilization vaccinator has the advantages of compact structure, reasonable design, easiness in disassembly, convenience in cleaning, complete disinfection, safety, reliability and high production efficiency.

Description

Efficient autosterilization inoculation device

Technical field

The present invention relates to edible mushroom technical field, be specifically related to a kind of strain inoculation machine.

Background technology

China is Edible Fungi big country, but, also there is a certain distance in Edible Fungi mechanical aspects compared with developed countries.Developed country is nearly all the production operation of liquid spawn automatic assembly line, and technical requirement is high and expensive.In China, the switching of solid edible spawn adopts manual operations more, and scientific and technological content is low, and labour intensity is large, and production efficiency is low, and living contaminants is not easy to control, and inoculation quality cannot be guaranteed, and the pollution that miscellaneous bacteria produces all can cause very large economic loss every year.

In order to realize mechanization and the automated production of solid edible spawn inoculation, some areas of China have developed some automation classification inoculation apparatus in succession, but these devices all more or less also exist some defects when actual production.Such as, when connecing bacterium, inoculation device is by the fungus injection hole feeding bacterial classification of discharging opening to bacterium bag, and after inoculation, the density of bacterial classification should be moderate, and tension all can affect the normal growth of bacterial classification with crossing pine.And the inoculation device of existing structure generally adopts the mode feeding of injection (injection), every bag of seeded process all needs note twice or thrice just can fill.Due to structural defect, more or less, density also can not get ensureing the amount of per injection.Long use, its injection tube is due to high-speed friction, and it is overheated to be easy to, and both affects operating efficiency, also can affect inoculation quality.The inoculation device of existing structure due to structure more complicated, also there is the problem of dismounting inconvenience, bring no small difficulty to cleaning and sterilizing, often have because cleaning is thorough, and a large amount of bacterium that initial stage inoculate are contracted for fixed output quotas the situation generation of raw living contaminants.

On structure for conveying, also someone adopted the conveying mode of screw conveyor shaft, but due to the size (aperture of preformed hole in bacterium bag can not be greater than) being limited to spout, the output diameter of helical axis is less, and for the input of helical axis, the little bacterial classification of diameter is difficult to feeding, and (medium because of solid spawn is the particle having viscosity, be difficult to pass through) in less space, diameter can make greatly again the bacterial classification entered be easy in the duct be compacted and blocking channel (feed end passage is greater than the reason of discharge end passage), therefore, have to abandon the trial adopting helical axis.

Summary of the invention

Technical problem to be solved by this invention is: for the problems referred to above, provides a kind of efficient autosterilization inoculation device, to enhance productivity, and solves inoculation device going wrong in feeding density and cleaning.

Technical solution of the present invention is: efficient autosterilization inoculation device, comprise strain powder crushing device and inoculation drawing-in device, described inoculation drawing-in device is made up of hello barrel and the feeding spiral shaft be placed in hello barrel, hello barrel front end is uncovered, hello barrel front end is provided with feed pipe, feed pipe rear end is provided with the front end open-mouth that quick connection is removably fixed on hello barrel, hello barrel rear end is provided with the drive shaft be connected with drive unit, hello barrel is provided with bearing in the front of drive shaft, feeding spiral shaft front end is inserted in feed pipe, rear end is removably connected with drive shaft through the dead eye of above-mentioned bearing.

Technique effect of the present invention is: it have compact conformation, reasonable in design, be easy to dismounting, easy to clean, sterilization is thorough, safe and reliable and production efficiency is high advantage.Feeding adopts the helical axis conveying of particular design, and conveying is even, and density is easy to control.All moving components can quick-detachment, installation, the bacterial classification under remaining when convenient cleaning worked the same day, really accomplishes without dead angle sterilizing.

Accompanying drawing explanation

Fig. 1 is the perspective view of conveying plant of the present invention;

Fig. 2 is the sectional structure schematic diagram of conveying plant of the present invention;

Fig. 3 is the structural representation of feeding spiral shaft of the present invention;

Fig. 4 is the perspective view of inoculating hood of the present invention;

Fig. 5 is the structural representation of inoculating hood of the present invention.

Embodiment

As shown in Figures 1 to 3, solid spawn inoculation device conveying plant, comprise strain powder crushing device and inoculation drawing-in device, strain powder crushing device will be sent in inoculation drawing-in device after bacterial classification fragmentation, described inoculation drawing-in device is made up of hello barrel 1 and the feeding spiral shaft 2 be placed in hello barrel 1, hello barrel 1 front end is provided with feed pipe 3, for inserting in inoculation hole reserved in bacterium bag, feed pipe 3 adopts the mode be spirally connected to be connected with hello barrel 1, with cleaning for convenience detach, hello barrel 1 is provided with conical cavity 4 in the rear end of feed pipe 3, the taper end of conical cavity 4 is connected with feed pipe 3, the butt end open top of conical cavity 4 is connected with the discharge end of reducing mechanism, feeding spiral shaft 2 is provided with the coniform spiral section adapted with conical cavity 4 shape of hello barrel 1, this coniform spiral section is made up of with the helical blade 6 be coiled on axis body the axis body 5 of taper, feeding spiral shaft 2 to be rotatably mounted in hello barrel 1 and to be connected with drive unit.Helicla flute between helical blade 6, by calculating, makes by the amount of material originally suitable in front and back segment base, so that discharging is even, the problem preventing blocking occurs.Use fillet, to be easy to cleaning in helicla flute as far as possible.

Described hello barrel 1 is arranged with annular space 7 outside the butt end of its conical cavity 4, and described feeding spiral shaft 2 is provided with backgauge land 8 in the rear end of coniform spiral section, and backgauge land 8 is provided with the material scraping plate 9 rotated with axle in the side of annular space 7.The material falling into annular space 7 can be dialled in conical cavity 4 by the material scraping plate 9 rotated with axle, is sent by feeding spiral shaft 2.Material scraping plate 9 also plays the effect of quantitated material-feeding simultaneously.

Described feeding spiral shaft 2 front end is provided with isometrical spiral section 10, and isometrical spiral section 10 is placed in feed pipe 3.Material evenly can be sent out feed pipe 3 by isometrical spiral section 10 on one's own initiative, does not make buildup in pipe.

Described material scraping plate 9 side is rotatably mounted in backgauge land 8 by rotating shaft, and opposite side is against on feeding spiral shaft 2 by the active force of spring 11.Material scraping plate 9 can be made to be close to the outer wall (inwall of annular space 7) of blade 6 or conical cavity 4 by spring 11, can shake be produced in the process rotated with feeding spiral shaft 2, ensure the reliable delivery of material further.Spring 11 is fixed on the opposite side of backgauge land 8, and structure can Reference clock watch spring.

Described strain powder crushing device is made up of powder cylinder 12 and powder screw axle 13, powder screw axle 13 is provided with helical blade 6 and stirs material portion 14, powder screw axle 13 is placed in powder cylinder 12 rotationally, one end of powder screw axle 13 is connected with drive unit, stirs material portion 14 and is located at and exports corresponding position with powder cylinder 12.Stir material portion 14 can, initiatively by material boost exports, prevent from piling up.

The edge of described helical blade 6 is provided with powder tooth 15.Material is initiatively broken into less particle by powder tooth 15, retains the integrality of bacterial classification, to avoid affecting effect of inoculation simultaneously as far as possible.

The position that the top of described powder cylinder 12 is corresponding with helical blade 6 is provided with vertical feeding tube 16.Bacterial classification bag size before feeding tube 16 diameter and fragmentation adapts, after bacterial classification unlap drops into feeding tube 16, its lower end contacts with the helical blade 6 of powder screw axle 13, in the process that powder screw axle 13 rotates, the bottom of bacterial classification is reamed by the powder tooth 15 on helical blade 6 gradually, constantly fall under gravity, until all broken.

As shown in Fig. 1 to 5, efficient autosterilization inoculation device, comprise strain powder crushing device and inoculation drawing-in device, strain powder crushing device will be sent in inoculation drawing-in device after bacterial classification fragmentation, described inoculation drawing-in device is made up of hello barrel 1 and the feeding spiral shaft 2 be placed in hello barrel 1, hello barrel 1 front end is uncovered, hello barrel 1 front end is provided with feed pipe 3, feed pipe 3 rear end is provided with the front end open-mouth that quick connection 17 is removably fixed on hello barrel 1, hello barrel 1 rear end is provided with the drive shaft 18 be connected with drive unit, hello barrel 1 is provided with bearing 19 in the front of drive shaft 18, feeding spiral shaft 2 front end is inserted in feed pipe 3, rear end is removably connected with drive shaft 18 through the dead eye of above-mentioned bearing 19.Feed pipe 3 can adopt Split type structure, is convenient to cleaning.The selectable structure of quick connection 17 is more, existing quick connected mode cyclostomous is generally suitable for, present embodiment adopts the draw-in groove 20 of " L " shape of rim openings to be connected (see accompanying drawing) with the mode that pin 21 coordinates, and has handling ease, connects feature easily.Feeding spiral shaft 2 rear end and dead eye adopt the matched in clearance that size is less, be convenient to assembling while can also ensure feeding spiral shaft 2 run well not with other position CONTACT WITH FRICTION.Drive shaft 18 outboard end is provided with belt wheel, sprocket wheel or gear and is connected with strain powder crushing device and drive unit.Drive shaft 18 medial extremity is connected with feeding spiral shaft 2 by the mode of chase mortise, and other modes such as reverse thread also can be adopted to connect, but structure relative complex.

Described strain powder crushing device is made up of powder cylinder 12 and the powder screw axle 13 be placed in powder cylinder 12, powder cylinder 12 rear end opening, front end is provided with axis hole, the front end of powder screw axle 13 is inserted in the axis hole of powder cylinder 12 front end, the back segment of powder screw axle 13 is provided with the rear end opening place that quick connection 17 is removably fixed on powder cylinder 12, the rear end of powder screw axle 13 is connected with drive unit, and strain powder crushing device is removably fixed on above described drawing-in device.Powder screw axle 13 can with reference to the syndeton inoculating drawing-in device with the connected mode of powder cylinder 12.The top of hello barrel 1 and the bottom of powder cylinder 12 are provided with Connection Block 22(attaching parts), the two is removably connected by attaching parts, fixes by arranging rapid bolt.The location of hello barrel 1 and powder cylinder 12 by connector between the two (material mouth), also by other positions or can arrange separately positioning element location.Present embodiment powder screw axle 13 is connected by sprocket wheel with feeding spiral shaft 2, determines gearratio, coordinates mutually with powder speed to make rate of feeding.

The open top of described powder cylinder 12 is also provided with barrel lid 23, and the top of barrel lid 23 is provided with vertical feeding tube 16, and barrel lid 23 removably covers on powder cylinder 12.Directly drop in feeding tube 16 after bacterial classification unpacking, the bottom of monoblock bacterial classification contacts with powder screw axle 13, is smashed gradually under gravity by powder tooth 15.

The front of described hello barrel is provided with bacterium bag bracket 25, and bacterium bag bracket 25 is fixed on also can along slide rail 26 slide anteroposterior on slide rail 26.Bacterium bag to be seeded is placed in bracket 25, and the material that hello barrel 1 exports is fed in the inoculation hole of bacterium bag, and along with the continuous filling of bacterial classification, bacterium bag is released gradually, stops conveying after filling up by travel switch automatic cut-off power.

Described reducing mechanism and inoculation drawing-in device are placed in inoculating hood 27, transfer room 28 is provided with in inoculating hood 27, transfer room 28 is provided with ozone sterilization device 29, the top of transfer room 28 is provided with air filter 30, air filter 30 is connected with fan blower 31 to transfer room 28 air feed, the side of transfer room 28 is provided with transfer room door 32, goes out sack 33 and gathering hole 34, goes out sack 33 position corresponding with the position of described feed pipe 3, and gathering hole 34 place is covered with is convenient to manual rubber gloves.

Be provided with operating room 35 in described transfer room 28, operating room 35 is respectively equipped with isolation window 36 and operating room door 24 with transfer room 28 and inoculating hood 27 outside, and operating room door 24 is provided with observation window 37, and described gathering hole 34 is located at the below of observation window 37.The ozone that ozone sterilization device 29 produces can directly pass into operating room 35, can open sterilizing in isolation window 36 pairs of transfer rooms 28.

The air intake of described fan blower 31 is connected with primary filter 38.The primary filter 38 of present embodiment adopts water filtration, and structure is simple, and filter material changes convenient and cost is low.

Described ozone sterilization device 29 uses oxygen cylinder 39 oxygen supply.To provide bactericidal effect more efficiently.

Described go out sack 33 place be provided with baffle plate for sealing, baffle plate is removably mounted on out sack 33 place.Baffle plate is used for enclosing sterilizing, is convenient to take out postvaccinal bacterium bag when normally inoculating operation after taking off.

Described inoculating hood 27 is provided with control panel in the side of transfer room door 32.Control panel is provided with switch 40, to control the action of an electrical equipment.

Volume of the present invention is little, and casing can be made into long 70 centimetres, wide 100 centimetres, the specification of high 180 centimetres.For ease of cleaning and durable, host machine part all adopts stainless steel material and Germany to produce the making of PETP superhard material.All moving components can quick-detachment, installation.Conveniently clean the bacterial classification under remaining when working the same day, really accomplish without dead angle sterilizing.Cabinet full-enclosed structure, cabinet internal upper part is equipped with high efficiency particulate air filter, washes air cleaner be connected with bottom.Other suspensions in dust, particle, fiber and air effectively in filtering air, make the air in casing reach efficient purification, guarantee in casing aseptic.Connect the quantity of bacterium and the density adjustable (connecing strain density to control by the frictional damping size adjusting slide rail) of bacterial classification, the bacterial classification quantity reached in often wrapping is consistent at every turn.Be provided with airtight bacterial classification chlorination equipment in cabinet, bacterial classification puts into the ozone of this device through high concentration to carrying out without dead angle thorough disinfection sterilizing outside strain bag, in the feeding cylinder that window loads main frame.Automatic chopping bacterial classification carries out connecing bacterium.

The present invention can add level sensor on feeding tube, to realize the object that automation is worked continuously.During production, in advance sterilizing is carried out to equipment, then puts bacterial classification bag into operating room and pass into ozone sterilization, by the rubber gloves of gathering hole by this place, scratch bacterial classification bag with blade, open isolation window and the bacterial classification of unpacking is put in feeding tube and can carry out connecing bacterium operation.Level sensor on feeding tube is reported to the police before bacterial classification will be finished, and staff can utilize operating room to continue to drop into new bacterial classification bag, to realize continuous continual production operation after warning.Operating room effectively can play the object of isolation sterilizing at this.By on door and relative motion parts place travel switch is set, autosterilization can be realized, connect the process of bacterium.

The machine one people can operate, and hourly output reaches more than 1200 bags.Utilize operating room separately to the sterilizing of bacterium bag, can be scratched by bacterium bag by gathering hole after sterilizing, bacterial classification is put into feeding tube.Bacterium bag exits after having connect bacterium automatically, there will not be connect the few outside of bacterial classification inside the very few or bacterium bag of bacterium amount mainly with and the too real phenomenon of bacterial classification dress occur.High-concentrated ozone in the machine can carry out disinfection to parts all in machine and space before work.The machine is opened effective filter and be can be used as superclean bench use.

Claims (10)

1. efficient autosterilization inoculation device, comprise strain powder crushing device and inoculation drawing-in device, it is characterized in that, described inoculation drawing-in device is made up of hello barrel (1) and the feeding spiral shaft (2) be placed in hello barrel (1), hello barrel (1) front end is uncovered, hello barrel (1) front end is provided with feed pipe (3), feed pipe (3) rear end is provided with the front end open-mouth that quick connection (17) is removably fixed on hello barrel (1), hello barrel (1) rear end is provided with the drive shaft (18) be connected with drive unit, hello barrel (1) is provided with bearing (19) in the front of drive shaft (18), feeding spiral shaft (2) front end is inserted in feed pipe (3), rear end is removably connected with drive shaft (18) through the dead eye of above-mentioned bearing (19).

2. efficient autosterilization inoculation device as claimed in claim 1, it is characterized in that, described strain powder crushing device is made up of powder cylinder (12) and the powder screw axle (13) be placed in powder cylinder (12), powder cylinder (12) rear end opening, front end is provided with axis hole, the front end of powder screw axle (13) is inserted in the axis hole of powder cylinder (12) front end, the back segment of powder screw axle (13) is provided with the rear end opening place that quick connection (17) is removably fixed on powder cylinder (12), the rear end of powder screw axle (13) is connected with drive unit, strain powder crushing device is removably fixed on above described drawing-in device.

3. efficient autosterilization inoculation device as claimed in claim 2, it is characterized in that, the open top of described powder cylinder (12) is also provided with barrel lid (23), and the top of barrel lid (23) is provided with vertical feeding tube (16), and barrel lid (23) removably covers on powder cylinder (12).

4. efficient autosterilization inoculation device as claimed in claim 1, it is characterized in that, the front of described hello barrel is provided with bacterium bag bracket (25), and bacterium bag bracket (25) is fixed on slide rail (26) above also can along slide rail (26) slide anteroposterior.

5. efficient autosterilization inoculation device as claimed in claim 1, it is characterized in that, described reducing mechanism and inoculation drawing-in device are placed in inoculating hood (27), transfer room (28) is provided with in inoculating hood (27), transfer room (28) is provided with ozone sterilization device (29), the top of transfer room (28) is provided with air filter (30), air filter (30) is connected to transfer room (28) air feed with fan blower (31), the side of transfer room (28) is provided with transfer room door (32), go out sack (33) and gathering hole (34), go out sack (33) position corresponding with the position of described feed pipe (3), gathering hole (34) place is covered with rubber gloves.

6. efficient autosterilization inoculation device as claimed in claim 5, it is characterized in that, operating room (35) is provided with in described transfer room (28), operating room (35) is respectively equipped with isolation window (36) and operating room door (24) with transfer room (28) and inoculating hood (27) outside, operating room door (24) is provided with observation window (37), and described gathering hole (34) is located at the below of observation window (37).

7. efficient autosterilization inoculation device as claimed in claim 5, it is characterized in that, the air intake of described fan blower (31) is connected with primary filter (38).

8. efficient autosterilization inoculation device as claimed in claim 5, it is characterized in that, described ozone sterilization device (29) uses oxygen cylinder (39) oxygen supply.

9. autosterilization inoculation device as claimed in claim 5 efficient, is characterized in that, described in go out sack (33) place and be provided with baffle plate for sealing, baffle plate is removably mounted on out sack (33) place.

10. efficient autosterilization inoculation device as claimed in claim 5, it is characterized in that, described inoculating hood (27) is provided with control panel in the side of transfer room door (32).