CN103999696A - Edible fungus inoculation device - Google Patents

Abstract

An edible fungus inoculation device at least comprises a machine base (1), a storage container (2), a belt releasing mechanism (5), a lower belt feeding wheel (3), an upper belt feeding wheel (4), a driving mechanism, a belt supporting wheel (7), a belt pressing wheel (8), a cutting base (19), a cutting tool (10), a first cam mechanism (9), a first compression spring (11), an inoculation rod assembly and a second cam mechanism (17). The storage container (2) and the belt releasing mechanism (5) are connected with the machine base (1). The lower belt feeding wheel (3) and the upper belt feeding wheel (4) are in rotatable connection with the storage container (2). The driving mechanism drives the lower belt feeding wheel (3) to rotate. The belt supporting wheel (7) and the belt pressing wheel (8) are in rotatable connection with the storage container (2). The cutting base (19) is located on a second side of the storage container (2) and connected with the storage container (2) and the machine base (1). The cutting tool (10) is mounted on the cutting base (19). The first cam mechanism (9) pushes the cutting tool (10) to move in a reciprocating mode. The first compression spring (11) pushes the cutting tool (10) to reset. The inoculation rod assembly is located below the cutting tool (10) and is in sliding connection with the cutting base (19). The second cam mechanism (17) is connected with a first end of the inoculation rod assembly through a transmission rod (18).

Description

Edible fungi inoculation device

Technical field

The present invention relates to edible fungi inoculation device technical field, especially relate to a kind of edible mushroom automatic vaccination device.

Background technology

Along with expanding economy, people more and more pay attention to the nutrition of diet, and the edible mushroom with high nutritive value is more and more subject to pursuing of people.Because the quantity of wild edible fungus is little, can not meet the demand in market, people just study artificial culture edible mushroom.At present, the process of artificial culture edible mushroom is: 1, cultivate the edible fungus species stage.Edible fungus species divides wood chip kind and grain kind.Wood chip kind is taking wood chip, wheat bran etc. as primary raw material, mixing and water adding packs in breeding strain bag after mixing thoroughly in certain proportion, tightens sack, high-temperature sterilization, cooling rear implantation edible fungi original seed, original seed bacterium in breeding strain bag is formed for the bacterial classification of culturing edible fungus.Grain kind method for making is taking wheat berry, iblet etc. as primary raw material, and immersion packs bacterial classification culture bag into after drying and tightens sack, high-temperature sterilization, and cooling rear implantation edible fungi original seed, original seed is sent out bacterium and is formed for the bacterial classification of cultivating in breeding strain bag.2, edible fungus culturing is with producing bag (be called for short and the produce bag) production phase.Producing bag is taking wood chip, wheat bran, cotton seed hulls, corncob etc. as primary raw material, and mixing and water adding is mixed and all packed in plastic sack and tying in certain proportion, and edible fungus species is implanted in the cooling rear wait of high-temperature sterilization.3, inoculation step.Edible Fungi bag through high-temperature sterilization and cooling after put into inoculating hood, sterilization in inoculating hood, two people complete inoculation, one of them people makes a call to four cave mouths at a side surface of Edible Fungi bag with pointed cone, another one people takes out wood chip kind with hand or tweezers or grain kind is implanted in the mouth of cave, then outside producing bag, put a plastic sack and tighten sack, or stick transparent adhesive tape on the mouth of cave, being then transported into indoor bacterium.4, send out in Edible Fungi bag after full bacterium, then transport to milpa and go out bacterium.The method can be cultivated a large amount of edible fungus species and edible mushroom, but, also there are some defects in it: 1, easy infection miscellaneous bacteria, cause planting unsuccessfully, because wood chip kind or grain kind are all loose shape granule bacterial classifications, when inoculation, must on Edible Fungi bag, beat cave mouth and replant into bacterial classification, and the pointed cone of beating cave mouth still may adhere to miscellaneous bacteria in seeded process, cause cross-infection, beat cave mouth four times, also just have four subinfection chances.When inoculation, take bacterial classification to implant cave mouth four times with hand or tweezers, increase again by four subinfection chances, thereby have eight subinfection chances in each Edible Fungi bag seeded process, once a cave mouth bacteria infection can cause whole bag Edible Fungi bag to scrap.2, send out the bacterium time slow, four cave mouths are to be all positioned on a side surface of Edible Fungi bag, bacterial classification is implanted rear mycelia and is equaled another point that a bit reaches diameter bag cross-sectional periphery, mycelia sends out purseful body and need to cross over the diameter of section of bag, and inner anoxic, send out bacterium slow, sending out full bacterium needs about 55 days, also easy bacteria infection.3, labour intensity is large, should not operate, and when inoculation, needs two people's compounding practices, process complexity, and high to operating personnel's technical requirement, increase production cost.4, inoculation time is oversize, and inoculating a bacterial classification production bag needs about 30 seconds, makes bacterial classification and cave mouth be exposed to overlong time in air, increases the chance of bacteria infection, increases production cost simultaneously.5, need the time oversize owing to sending out bacterium, cultivation season was restricted by autumn to the winter, and cultivation season can only be selected in by the winter to the spring, indoor bacterium.Improved like this production cost, indoor bacterium needs heating, keeps temperature 25 to spend, and takes fuel, and indoor bacterium oxygen in winter deficiency, easy infection, and planting number is restricted.

In Edible Fungi, improving the growth rate of mycelia, is one of Main Means preventing varied bacteria growing, raising yield rate.Improving the current the best way of mycelial growth rate is to adopt liquid spawn, liquid spawn generally more conventional solid spawn shortens growth time 40%, but there is the deficiency that equipment investment is large, technical difficulty is high in liquid spawn, and liquid spawn also needs to use a large amount of antibiotic aborning, be unfavorable for that the Harmless of edible mushroom is produced.

Summary of the invention

In order to solve the deficiencies in the prior art, the invention provides a kind of edible fungi inoculation device, production efficiency is high, and the edible fungi planting bags that utilizes this device to make has advantages of mycelial growth piece, pollution-free, yield rate is high.

In order to solve the problems of the technologies described above, edible fungi inoculation device provided by the invention, at least has support; The edible fungus species hold-up vessel being connected with described support; Be positioned at the Fang Dai mechanism that described hold-up vessel the first side is connected with described support; Be positioned at lower feed roller and upper feed roller that described hold-up vessel bottom Jin Fangdai mechanism one side and described hold-up vessel are rotationally connected; Drive the driving mechanism of described lower feed roller rotation; Be positioned at described hold-up vessel bottom away from Fang Dai mechanism one side, the carrier wheel and the pinch roller that are rotationally connected with described hold-up vessel; Be positioned at described hold-up vessel the second side, the cutting pedestal being connected with described hold-up vessel and support; Be arranged on the cutting tool on described cutting pedestal; Be arranged on and on described cutting pedestal, promote reciprocating the first cam mechanism of described cutting tool; Be arranged on the first Compress Spring that promotes described cutting tool reset on described cutting pedestal; Be positioned at described cutting tool below, the inoculation bar assembly being slidably connected with described cutting pedestal; The second cam mechanism being connected with the first end of described inoculation bar assembly by drive link; Described inoculation bar assembly comprises the expansion link being slidably connected with described cutting pedestal, described expansion link has groove away from hold-up vessel one end, and described expansion link has the pull bar being connected with described supporting plate at the supporting plate of described groove bottom land, the second Compress Spring between described expansion link and supporting plate and the 3rd Compress Spring, first end, the roller that is connected to described pull bar the second end; The U-shaped groove that described cutting pedestal has the cavity passing through for inoculation band, the cavity sliding for described expansion link and moves for described pull bar, the thickness of the openend of described U-shaped groove is less than the thickness of nearly hold-up vessel end, and described roller rolls and is connected with the lower surface of described U-shaped groove; Between described lower feed roller, the first cam mechanism, the second cam mechanism, be in transmission connection.

As improving technical scheme: edible fungi inoculation device provided by the invention, described upper feed roller, carrier wheel and pinch roller and lower feed roller are in transmission connection.

As improving technical scheme: edible fungi inoculation device provided by the invention, also has and be positioned at the push rod that described expansion link top is connected with described cutting pedestal.

As improving technical scheme: edible fungi inoculation device provided by the invention, also has the seal bootr being connected with described support for sealing described Fang Dai mechanism.

As improving technical scheme: edible fungi inoculation device provided by the invention, is provided with ultraviolet germicidal lamp in described seal bootr.

As improving technical scheme: edible fungi inoculation device provided by the invention, the upper-lower position of described upper feed roller, pinch roller is adjustable.

As improving technical scheme: edible fungi inoculation device provided by the invention, the length of described carrier wheel is greater than the width of inoculation band, the surface of carrier wheel is divided into two sections, first paragraph is provided with right-handed thread, second segment is provided with left hand thread, in the time that carrier wheel rotates, described right-handed thread and left hand thread are pushed edible fungus species at the middle part of carrier wheel and inoculation band.

In the situation that not conflicting, above-mentioned improvement project can be implemented alone or in combination.

When inoculation operation, the inoculation band after sterilizing is arranged in Fang Dai mechanism to the gap of the initiating terminal of inoculation band through lower feed roller and upper feed roller, carrier wheel and pinch roller; Cultured solid edible bacterium bacterial classification is packed in hold-up vessel.Driving mechanism drives lower feed roller, the first cam mechanism, the second cam mechanism motion simultaneously.Make inoculation band by edible fungus species layer, after carrier wheel and pinch roller, enter the cavity that cutting pedestal passes through for inoculation band, under the effect of the first cam mechanism and the first Compress Spring, cutting tool pumps, and in the time reaching extreme lower position, will be stained with the seed belt cutting that connects of bacterial classification, the second cam mechanism promotes inoculation bar assembly and moves back and forth in the horizontal direction, in the time being stained with the inoculation band of bacterial classification and being cut off, the groove of expansion link is in being cut off the below of inoculation band, and expansion link is to moving away from hold-up vessel direction, after cut inoculation band falls in the groove of expansion link, expansion link continues to moving away from hold-up vessel direction, insertion is placed in the edible mushroom culture vessel in expansion link front, after expansion link inserts in edible mushroom culture vessel, roller on the pull bar that the position of expansion link makes to be connected with supporting plate is in U-shaped channel opening end, on roller, move, supporting plate is under the effect of the second Compress Spring and the 3rd Compress Spring, move up, to inoculate band and release groove, insert in the medium of edible mushroom culture vessel, expansion link reaches maximum outset from rear, expansion link travelling backwards under the drive of the second cam mechanism, roller on the pull bar being connected with supporting plate resets under the effect of U-shaped groove, the elastic force that supporting plate overcomes the second Compress Spring and the 3rd Compress Spring moves down reset.The first cam mechanism, the second cam mechanism are done synchronous coordination motion, in the time that the first cam mechanism promotion cutting tool is positioned at extreme lower position, the second cam mechanism promotes expansion link in the most close hold-up vessel position, when the first cam mechanism promotes cutting tool while being positioned at extreme higher position, the second cam mechanism promote expansion link in away from hold-up vessel position.

The beneficial effect that the present invention brings: edible fungi inoculation device provided by the invention, behind the automatic location and feedway of matched bacterium culture vessel, can realize the automation inoculation of edible fungus culturing, also can coordinate manual delivery edible mushroom culture vessel inoculation operation, significantly reduce labour intensity, improve operating efficiency, be adapted to totally-enclosed inoculation operation, reduce the infection chance of miscellaneous bacteria.The inoculation band that is stained with bacterial classification is strip, is inserted into the middle part of edible mushroom culture vessel, is more evenly distributed in medium, is conducive to shorten the bacterium time of sending out, and saves energy consumption, reduces production costs.

Brief description of the drawings

Accompanying drawing is used to provide a further understanding of the present invention, forms the application's a part, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is embodiment edible fungi inoculation device sectional structure schematic diagram;

Fig. 2 is embodiment edible fungi inoculation device inoculation bar assembly the first status architecture schematic diagram;

Fig. 3 is embodiment edible fungi inoculation device inoculation bar assembly the second status architecture schematic diagram;

Fig. 4 is that the A-A of Fig. 1 is to structural representation.

Embodiment

As Fig. 1, edible fungi inoculation device shown in Fig. 4, comprise support 1, edible fungus species hold-up vessel 2 is positioned at the top of support 1 and is connected with support 1, Fang Dai mechanism 5 is positioned at the first side of hold-up vessel 2 and is connected with support 1, the outside of Fang Dai mechanism 5 is provided with the seal bootr being connected with support 1, in seal bootr, be provided with ultraviolet germicidal lamp, lower feed roller 3 and upper feed roller 4 are positioned at bottom Jin Fangdai mechanism 5 one sides of hold-up vessel 2, lower feed roller 3 and upper feed roller 4 are dynamically connected by bearing block and bearing rotary with hold-up vessel 2, wherein going up feed roller 4 relies on gravity to compress lower feed roller 3, its upper-lower position is adjustable, lower feed roller 3 is provided with drive motors, carrier wheel 7 and pinch roller 8 are positioned at hold-up vessel 2 bottoms away from Fang Dai mechanism 5 one sides, carrier wheel 7 and pinch roller 8 are dynamically connected by bearing block and bearing rotary with hold-up vessel 2, wherein pinch roller 8 relies on gravity to compress carrier wheel 7, its upper-lower position is adjustable, the length of carrier wheel 7 is greater than the width of inoculating with 6, the surface of carrier wheel 7 is divided into two sections, first paragraph is provided with right-handed thread, second segment is provided with left hand thread, in the time that carrier wheel 7 rotates, right-handed thread and left hand thread are pushed edible fungus species carrier wheel 7 to and are inoculated the middle part with 6, make edible fungus species stick to the lower surface of inoculating with 6, inoculation is all stained with edible fungus species with 6 surrounding like this, be inserted into the middle part of edible mushroom culture vessel, more be evenly distributed in medium, be conducive to shorten the bacterium time of sending out, cutting pedestal 19 is positioned at the second side of hold-up vessel 2 and is connected with hold-up vessel 2 and support 1, cutting pedestal 19 has for inoculation with 6 cavitys that pass through, the cavity sliding for aftermentioned expansion link 12, with the cavity for cutting tool 10 is installed, cutting tool 10 is arranged on cutting pedestal 19, the first Compress Spring 11 is arranged on cutting pedestal 19 for installing in the cavity of cutting tool 10, the first Compress Spring 11 upwards resets for promoting cutting tool 10, the first cam mechanism 9 is arranged on cutting pedestal 19, it is reciprocating that the cam of the first cam mechanism 9 promotes cutting tool 10, inoculation bar assembly is positioned at the below of cutting tool 10, and be slidably connected with cutting pedestal 19, the second cam mechanism 17 is arranged on cutting pedestal 19, the second cam mechanism 17 is connected with the first end of the expansion link 12 of inoculation bar assembly by drive link 18, upper feed roller 4, carrier wheel 7, pinch roller 8, the first cam mechanism 9, the second cam mechanism 17 is in transmission connection by sprocket wheel and chain and lower feed roller 3, drive motors by lower feed roller 3 drives, inoculation bar assembly comprises the expansion link 12 being slidably connected with cutting pedestal 19, expansion link 12 has groove away from hold-up vessel 2 one end, expansion link 12 has the supporting plate 16 that is positioned at groove bottom land, between the groove bottom land of expansion link 12 and supporting plate 16, be provided with the second Compress Spring 13 and the 3rd Compress Spring 14, pull bar 21 is through the bottom land of groove, the first end of pull bar 21 is connected with supporting plate 16, the second end of pull bar 21 is connected with roller 15, described cutting pedestal 19 has the U-shaped groove moving for pull bar 21, roller 15 rolls and is connected with the lower surface of U-shaped groove, the thickness of the openend of U-shaped groove is less than the thickness of nearly hold-up vessel 2 ends, the top that push rod 20 is positioned at expansion link 12 is connected with cutting pedestal 19, push rod 20 is provided with for the through hole of inoculation with 6 whereabouts after cutting off, and push rod 20 does not form interference to the inoculation after cutting off with 6 whereabouts.

Inoculation when operation, is with 6 to be arranged in Fang Dai mechanism 5 inoculation after sterilizing, and inoculation is the gap through lower feed roller 3 and upper feed roller 4, carrier wheel 7 and pinch roller 8 with 6 initiating terminal; Cultured solid edible bacterium bacterial classification is packed in hold-up vessel 2.Driving mechanism drives lower feed roller 3, upper feed roller 4, carrier wheel 7, pinch roller 8, the first cam mechanism 9, the second cam mechanism 17 to move simultaneously.Inoculation band is carried by lower feed roller 3 and upper feed roller 4, by edible fungus species layer, enters the cavity that cutting pedestal 19 passes through for inoculation band after carrier wheel 7 and pinch roller 8, under the effect of the first cam mechanism 9 and the first Compress Spring 11, cutting tool 10 pumps, and in the time reaching extreme lower position, the inoculation that is stained with bacterial classification is with to 6 cut-outs, the second cam mechanism 17 promotes inoculation bar assembly and moves back and forth in the horizontal direction, referring to Fig. 2 and Fig. 3, in the time being stained with the inoculation of bacterial classification and being with 6 to be cut off, the groove of expansion link 12 is in being cut off the below of inoculation band, and expansion link 12 is to moving away from hold-up vessel 2 directions, after cut inoculation band falls in the groove of expansion link 12, expansion link 12 continues to moving away from hold-up vessel 2 directions, insertion is placed in the edible mushroom culture vessel in expansion link 12 fronts, after expansion link 12 inserts in edible mushroom culture vessel, roller 15 on the pull bar 21 that the position of expansion link 12 makes to be connected with supporting plate 16 is in U-shaped channel opening end, the thickness of the openend of U-shaped groove is less than the thickness of nearly hold-up vessel 2 ends, under the effect of the second Compress Spring 13 and the 3rd Compress Spring 14, make to move on roller 15, supporting plate 16 moves up, inoculation band after cutting off is released to groove, insert in the medium of edible mushroom culture vessel, expansion link 12 reaches maximum outset from rear, expansion link 12 travelling backwards under the drive of the second cam mechanism 17, now push rod 20 opposed enter inoculation band and medium top lifting in edible mushroom culture vessel medium scrape effect, prevent that them from being taken out of with expansion link 12 travelling backwards, roller 15 on the pull bar 21 being connected with supporting plate 16 resets under the effect of U-shaped groove, the elastic force that supporting plate 16 overcomes the second Compress Spring 13 and the 3rd Compress Spring 14 moves down reset.The first cam mechanism 9, the second cam mechanism 17 are done synchronous coordination motion, in the time that the first cam mechanism 9 promotes cutting tool 10 and is positioned at extreme lower position, the second cam mechanism 17 promotes expansion link 12 in the most close hold-up vessel 2 positions, in the time that the first cam mechanism 9 promotes cutting tool 10 and is positioned at extreme higher position, the second cam mechanism 17 promote expansion link 12 in away from hold-up vessel 2 positions.

The invention is not restricted to above preferred embodiment, also can, in the spirit of the claims in the present invention and specification restriction, carry out conversion and the improvement of various ways, can solve same technical problem, and obtain the technique effect of expection, therefore do not repeat.Those of ordinary skill in the art can be from content disclosed by the invention directly or all schemes of associating, as long as within the spirit limiting in claim, also belong to protection scope of the present invention.

Claims (7)

1. an edible fungi inoculation device, is characterized in that: at least have support (1); The edible fungus species hold-up vessel (2) being connected with described support (1); Be positioned at the Fang Dai mechanism (5) that described hold-up vessel (2) first sides are connected with described support (1); Be positioned at lower feed roller (3) and upper feed roller (4) that described hold-up vessel (2) bottom Jin Fangdai mechanism (5) one sides and described hold-up vessel (2) are rotationally connected; Drive the driving mechanism of described lower feed roller (3) rotation; Be positioned at described hold-up vessel (2) bottom away from Fang Dai mechanism (5) one sides, the carrier wheel (7) and the pinch roller (8) that are rotationally connected with described hold-up vessel (2); Be positioned at described hold-up vessel (2) second sides, the cutting pedestal (19) being connected with described hold-up vessel (2) and support (1); Be arranged on the cutting tool (10) on described cutting pedestal (19); Be arranged on upper described cutting tool (10) reciprocating the first cam mechanisms (9) that promote of described cutting pedestal (19); Be arranged on upper the first Compress Spring (11) that promotes described cutting tool (10) reset of described cutting pedestal (19); Be positioned at described cutting tool (10) below, the inoculation bar assembly being slidably connected with described cutting pedestal (19); The second cam mechanism (17) being connected with the first end of described inoculation bar assembly by drive link (18); Described inoculation bar assembly comprises the expansion link (12) being slidably connected with described cutting pedestal (19), described expansion link (12) has groove away from hold-up vessel (2) one end, described expansion link (12) have be positioned at described groove bottom land supporting plate (16), be positioned at the pull bar (21) that the second Compress Spring (13) between described expansion link (12) and supporting plate (16) and the 3rd Compress Spring (14), first end be connected with described supporting plate (16), the roller (15) that is connected to described pull bar (21) second ends; Described cutting pedestal (19) has for the U-shaped groove of inoculating the cavity of being with (6) to pass through, the cavity sliding for described expansion link (12) and moving for described pull bar (21), the thickness of the openend of described U-shaped groove is less than the thickness of nearly hold-up vessel (2) end, and described roller (15) rolls and is connected with the lower surface of described U-shaped groove; Described lower feed roller (3), the first cam mechanism (9), the second cam mechanism are in transmission connection between (17).

2. edible fungi inoculation device according to claim 1, is characterized in that: described upper feed roller (4), carrier wheel (7) and pinch roller (8) are in transmission connection with lower feed roller (3).

3. edible fungi inoculation device according to claim 1, is characterized in that: also have and be positioned at the push rod (20) that described expansion link (12) top is connected with described cutting pedestal (19).

4. edible fungi inoculation device according to claim 1, is characterized in that: also have with described support (1) and be connected the seal bootr that is used for sealing described Fang Dai mechanism (5).

5. edible fungi inoculation device according to claim 4, is characterized in that: in described seal bootr, be provided with ultraviolet germicidal lamp.

6. edible fungi inoculation device according to claim 1, is characterized in that: the upper-lower position of described upper feed roller (4), pinch roller (8) is adjustable.

7. edible fungi inoculation device according to claim 1, it is characterized in that: the length of described carrier wheel (7) is greater than the width of inoculation band (6), the surface of carrier wheel (7) is divided into two sections, first paragraph is provided with right-handed thread, second segment is provided with left hand thread, in the time that carrier wheel (7) rotates, described right-handed thread and left hand thread are pushed edible fungus species at the middle part of carrier wheel (7) and inoculation band (6).