CN111887105B - Biological enzyme raw material processing apparatus - Google Patents
Biological enzyme raw material processing apparatus Download PDFInfo
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- CN111887105B CN111887105B CN202010805613.8A CN202010805613A CN111887105B CN 111887105 B CN111887105 B CN 111887105B CN 202010805613 A CN202010805613 A CN 202010805613A CN 111887105 B CN111887105 B CN 111887105B
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G18/00—Cultivation of mushrooms
- A01G18/70—Harvesting
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G18/00—Cultivation of mushrooms
- A01G18/80—Accessories for use after harvesting, e.g. scrapers
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Abstract
The invention relates to the field of biological enzyme, in particular to a biological enzyme raw material processing device. The technical problem to be solved is as follows: provides a biological enzyme raw material processing device. The technical scheme is as follows: a biological enzyme raw material processing device comprises a supporting bottom plate, side frame plates, an operation control screen, a top frame plate, a transmission separation mechanism, a tremella separating mechanism, a sorting mechanism and a culture bag storage cabin; the support base plate is welded to the side frame plates. The invention achieves the effect of replacing manpower with a machine to carry out batch separation treatment on the cultured bags and the cultured tremella, greatly improves the production efficiency of the cultured tremella, simultaneously completely reserves the cultured bags for secondary use, and simultaneously separates and separately treats the cultured tremella larger than a limited diameter range, thereby having higher economic value.
Description
Technical Field
The invention relates to the field of biological enzyme, in particular to a biological enzyme raw material processing device.
Background
Tremella fuciformis is a fruiting body of fungi of Basidiomycota, Tremellaceae, Tremellales and Tremella, and has been popular with people because of its health-care effect and abundant plant protease. The artificially planted tremella fuciformis can use wood and wood dust bags as culture media, then the tremella fuciformis grows by controlling temperature and humidity, the tremella fuciformis can be harvested after ripening, and new tremella fuciformis can also grow after the tremella fuciformis is picked up by hilling for planting the tremella fuciformis.
Usually, picking of artificially planted tremella is to pick off the tremella from a section of culture medium manually by culturists, a large amount of human resources and time are needed, the low efficiency leads to mature tremella which can not be collected in time and enter the market, and a large amount of culture bags are occupied, secondary utilization of the culture bags causes section breaking, efficient cyclic utilization chains can not be formed, meanwhile, part of tremella with larger diameter has higher economic benefit, and manual picking is difficult to distinguish and leads to reduction of economic benefit.
In combination with the above problems, there is a high necessity for a bio-enzyme raw material treatment apparatus to solve the above problems.
Disclosure of Invention
In order to overcome the picking of the tremella that usually plants to artifical is plucked the tremella from one section of culture medium by the raiser is manual, need a large amount of manpower resources and time, inefficiency leads to ripe tremella can not in time collect and get into market, and occupy a large amount of culture bags, make the reutilization of culture bag cause disconnected festival, can not form efficient cyclic utilization chain, the great tremella of partial diameter has higher economic benefits simultaneously, artifical picking is difficult to differentiate the shortcoming that leads to economic benefits to reduce, the technical problem that will solve: provides a biological enzyme raw material processing device.
The technical scheme is as follows: a biological enzyme raw material processing device comprises a supporting bottom plate, side frame plates, an operation control screen, a top frame plate, a transmission separation mechanism, a tremella separating mechanism, a sorting mechanism and a culture bag storage cabin; welding the support bottom plate and the side frame plate; a sorting mechanism and a culture bag storage cabin are sequentially arranged above the supporting bottom plate; an operation control screen is arranged on the side surface of the side frame plate; welding the side frame plate and the top frame plate; the side frame plate is connected with the transmission separation mechanism; the top frame plate is connected with the transmission separation mechanism; the top frame plate is connected with the tremella separating mechanism; the transmission separation mechanism is connected with the tremella separation mechanism; the transmission separation mechanism is connected with the sorting mechanism; the sorting mechanism is connected with the culture bag storage cabin.
Further, the transmission separation mechanism further comprises a first slide rail, a pinion rack, a first flat gear, a first transmission wheel, a second flat gear, a third transmission wheel, a third flat gear, a fixed support rod, a first electric push rod, a balance raising rod, a transmission belt, a fourth transmission wheel, a fifth transmission wheel, a limiting base, a culture bag and cultured tremella; the first sliding rail is in sliding connection with the gear tooth plate; the pinion plate is in transmission connection with the first flat gear; a fixed support rod and a first electric push rod are sequentially arranged below the pinion plate; the first flat gear is rotationally connected with the first driving wheel through a driving rod; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the second transmission wheel is rotationally connected with the second flat gear through a transmission rod; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the third transmission wheel is in rotary connection with the third horizontal gear through a transmission rod; the fixed supporting rod is inserted with the balance warping rod; the first electric push rod is sleeved with the balance warping rod; a transmission belt is arranged below the balance warping rod; the transmission belt is in transmission connection with the fourth transmission wheel; the transmission belt is in transmission connection with the fifth transmission wheel; the outer surface of the transmission belt is provided with a limiting base; the outer ring surface of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; a breeding bag is arranged above the limiting base; three groups of cultured white fungus are arranged above the culture bag at equal intervals; the first sliding rail is connected with the top frame plate; the first driving wheel is connected with the tremella separating mechanism; the transmission belt is connected with the side frame plate; the fourth driving wheel is connected with the sorting mechanism.
Further, the tremella separating mechanism further comprises a first motor, a sixth driving wheel, a seventh driving wheel, an eighth driving wheel, a ninth driving wheel, a second electric push rod, a tenth driving wheel, a first bevel gear, a second bevel gear, a control push rod, a third electric push rod, a first screw rod, a first bearing seat, a first linkage plate, a slide rod, a slide ring, a first base plate, a fixing plate, a third bevel gear, a fourth bevel gear, a second screw rod, a second bearing seat, a second linkage plate, an I-shaped slide block, a second slide rail, a fourth electric push rod, a second base plate and a tremella separating column; the first motor is in rotary connection with the sixth driving wheel through a rotating shaft; the outer ring surface of the sixth driving wheel is in transmission connection with the seventh driving wheel through a belt; the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the outer ring surface of the seventh driving wheel is in transmission connection with the ninth driving wheel through a belt; the outer ring surface of the eighth driving wheel is in transmission connection with the ninth driving wheel through a belt; the eighth driving wheel is rotationally connected with the third bevel gear through a driving rod; the outer ring surface of the seventh driving wheel is in transmission connection with the tenth driving wheel through a belt; the ninth driving wheel is connected with the second electric push rod; the tenth transmission wheel is rotationally connected with the first bevel gear through a transmission rod; the first bevel gear is meshed with the second bevel gear; a control push rod is arranged on the side surface of the tenth transmission wheel; the second bevel gear is rotationally connected with the first screw rod; the control push rod is sleeved with the third electric push rod; the outer surface of the third electric push rod is in transmission connection with the first bearing seat; the first bearing seat is sleeved with the first linkage plate; the first linkage plate is welded with the slide bar; the sliding rod is connected with the sliding ring in a sliding manner; the sliding rod is welded with the first bottom plate; two groups of fixing plates are arranged below the first bottom plate at equal intervals; the third bevel gear is meshed with the fourth bevel gear; the fourth bevel gear is in rotary connection with the second screw rod; the outer surface of the second screw rod is in transmission connection with the second bearing seat; the second bearing seat is sleeved with the second linkage plate; the second linkage plate is welded with the I-shaped sliding block; the I-shaped sliding block is in sliding connection with the second sliding rail; a fourth electric push rod is arranged below the I-shaped sliding block; the fourth electric push rod is sleeved with the second bottom plate; three groups of tremella separating columns are equidistantly arranged on the side surface of the second bottom plate; the first motor is connected with the top frame plate; the sixth driving wheel is connected with the first driving wheel; the seventh driving wheel is connected with the top frame plate through a supporting seat; the eighth driving wheel is connected with the top frame plate through a supporting seat; the second electric push rod is connected with the top frame plate; the third electric push rod is connected with the top frame plate; the first screw rod is connected with the top frame plate through a supporting seat; the slip ring is connected with the top frame plate; the second screw rod is connected with the top frame plate; the second slide rail is connected with the top frame plate.
Further, the sorting mechanism also comprises a second motor, an eleventh driving wheel, a twelfth driving wheel, a fourth flat gear, a fifth flat gear, a thirteenth driving wheel, a fourteenth driving wheel, a sorting plate roller, a limiting block, a first storage cabin, a second storage cabin, a third storage cabin and a screen; the second motor is in rotary connection with the eleventh transmission wheel through a rotating shaft; the outer ring surface of the eleventh driving wheel is in transmission connection with the twelfth driving wheel through a belt; the outer ring surface of the eleventh driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the twelfth driving wheel is rotationally connected with the fourth flat gear through a driving rod; the fourth flat gear is meshed with the fifth flat gear; the fifth flat gear is rotationally connected with the thirteenth driving wheel through a driving rod; the fourteenth driving wheel is rotationally connected with the sorting plate roller through a driving rod; a limiting block is arranged above the sorting plate roller; a first storage cabin, a second storage cabin and a third storage cabin are sequentially arranged below the limiting block; a screen is arranged above the third storage cabin; the second motor is connected with the supporting bottom plate; the thirteenth driving wheel is connected with the fourth driving wheel; the sorting plate roller is connected with the side frame plate; the limiting block is connected with the side frame plate; the first storage cabin is connected with the supporting bottom plate; the second storage cabin is connected with the supporting bottom plate; the third storage compartment is connected to the support floor.
Furthermore, the balance warping rod is smaller than the longitudinal distance of the limiting base.
Furthermore, one side of the fixing plate, which is far away from the first bottom plate, is an arc surface which is concave upwards.
Furthermore, one side of the tremella separating column, which is far away from the second bottom plate, is an arc surface.
Furthermore, a curved cambered surface is arranged below the limiting block.
Has the advantages that: 1. the method aims to solve the problems that the tremella is picked up manually by a farmer from a section of culture medium, a large amount of human resources and time are needed, mature tremella cannot be collected into the market in time due to low efficiency, a large amount of culture bags are occupied, secondary utilization of the culture bags is broken, an efficient cyclic utilization chain cannot be formed, meanwhile, part of tremella with larger diameter has higher economic benefit, and the economic benefit is reduced due to the fact that manual picking is difficult to distinguish;
2. the device is characterized in that a transmission separation mechanism is designed, a white fungus separation mechanism and a sorting mechanism are designed, when the device is used, a culture bag and cultured white fungus are placed on a limiting base, the position of the culture bag and the cultured white fungus is adjusted through the transmission separation mechanism, after the culture bag and the cultured white fungus reach a designated position, the culture bag and the cultured white fungus are separated through the white fungus separation mechanism, the separated cultured white fungus is sent into the sorting mechanism, then the separated culture bag is continuously adjusted in position through the transmission separation mechanism, after the culture bag reaches the designated position, the culture bag is sent into a culture bag storage cabin through the transmission separation mechanism, then, firstly, scraps carried on the surface of the separated cultured white fungus are removed through the sorting mechanism, and then, the cultured white fungus with the diameter larger than a limited range is separated;
3. it carries out separation processing in batches to breed the bag and breed the white fungus through the machine replacement manual work to have reached, has greatly promoted the production efficiency who breeds the white fungus, will breed the bag complete simultaneously and remain and can carry out the secondary and use, will be greater than the breed white fungus separation independent processing of injecing the diameter scope simultaneously, has higher economic value's effect.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the drive release mechanism of the present invention;
FIG. 3 is a top view of a second base plate and a Tremella separation column of the present invention;
FIG. 4 is a side view of the first base plate and the fixed plate of the present invention;
fig. 5 is a schematic structural view of a tremella separating mechanism according to the present invention;
FIG. 6 is a schematic perspective view of an I-shaped slider according to the present invention;
fig. 7 is a schematic structural diagram of the sorting mechanism of the present invention.
The meaning of the reference symbols in the figures: 1: supporting bottom plate, 2: side frame plate, 3: operation control panel, 4: top frame plate, 5: transmission release mechanism, 6: white fungus breaks away from mechanism, 7: sorting mechanism, 8: culture bag storage compartment, 501: first slide rail, 502: pinion plate, 503: first spur gear, 504: first drive wheel, 505: second transmission wheel, 506: second spur gear, 507: third transmission wheel, 508: third spur gear, 509: fixed strut, 5010: first electric putter, 5011: balance lever, 5012: drive belt, 5013: fourth drive wheel, 5014: fifth drive wheel, 5015: limit base, 5016: breeding bag, 5017: culturing tremella, 601: first motor, 602: sixth transmission wheel, 603: seventh transmission wheel, 604: eighth transmission wheel, 605: ninth drive wheel, 606: second electric push rod, 607: tenth transmission wheel, 608: first bevel gear, 609: second bevel gear, 6010: control push rod, 6011: third electric putter, 6012: first lead screw, 6013: first bearing seat, 6014: first linkage plate, 6015: slide bar, 6016: slip ring, 6017: first base plate, 6018: fixing plate, 6019: third bevel gear, 6020: fourth bevel gear, 6021: second lead screw, 6022: second bearing seat, 6023: second linkage plate, 6024: i-shaped slide block, 6025: second slide rail, 6026: fourth electric push rod, 6027: second bottom plate, 6028: white fungus separation column, 701: second electric machine, 702: eleventh transmission wheel, 703: twelfth driving wheel, 704: fourth flat gear, 705: fifth spur gear, 706: thirteenth drive wheel, 707: fourteenth driving wheel, 708: sorting plate roller, 709: stopper, 7010: first storage compartment, 7011: second storage compartment, 7012: third storage compartment, 7013: and (4) screening.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
A biological enzyme raw material processing device is shown in figures 1-7 and comprises a supporting bottom plate 1, a side frame plate 2, an operation control screen 3, a top frame plate 4, a transmission separation mechanism 5, a tremella separation mechanism 6, a sorting mechanism 7 and a culture bag storage cabin 8; the supporting bottom plate 1 and the side frame plate 2 are welded; a sorting mechanism 7 and a culture bag storage cabin 8 are sequentially arranged above the supporting bottom plate 1; an operation control screen 3 is arranged on the side surface of the side frame plate 2; welding the side frame plate 2 and the top frame plate 4; the side frame plate 2 is connected with a transmission separation mechanism 5; the top frame plate 4 is connected with a transmission separation mechanism 5; the top frame plate 4 is connected with a tremella separating mechanism 6; the transmission separation mechanism 5 is connected with the tremella separation mechanism 6; the transmission separation mechanism 5 is connected with the sorting mechanism 7; the sorting mechanism 7 is connected with a culture bag storage cabin 8.
When the device is used, an operator horizontally fixes the device at a required using position through the supporting bottom plate 1, the side frame plates 2 and the top frame plate 4, the power is switched on, the operator mixes the device through the operation control screen 3, firstly, the culture bags 5016 and the cultured white fungus 5017 which are required to be processed are prepared, the operator places the culture bags 5016 and the cultured white fungus 5017 on the limit base 5015, the position of the culture bags 5016 and the cultured white fungus 5017 is adjusted through the transmission separation mechanism 5, after the culture bags 5016 and the cultured white fungus 5017 reach the specified position, the culture bags 5016 and the cultured white fungus 5017 are separated through the white fungus separation mechanism 6, the separated cultured white fungus 5017 is sent into the separation mechanism 7, then, the separated culture bags 5016 continue to be adjusted in position through the transmission separation mechanism 5, after the culture bags 5016 reach the specified position, the culture bags 5016 are further sent into the culture bag storage cabin 8 through the transmission separation mechanism 5, then, the separated fragments on the surfaces of the cultured tremella 5017 are removed through the sorting mechanism 7, and then the cultured tremella 5017 with the diameter larger than the limited range is separated, the device achieves the purpose of carrying out batch separation treatment on the cultured bags 5016 and the cultured tremella 5017 through a machine instead of manpower, greatly improves the production efficiency of the cultured tremella 5017, simultaneously completely reserves the cultured bags 5016 for secondary use, and simultaneously separates and independently treats the cultured tremella 5017 with the diameter larger than the limited range, so that the device has higher economic value.
The transmission separation mechanism 5 further comprises a first slide rail 501, a gear tooth plate 502, a first flat gear 503, a first transmission wheel 504, a second transmission wheel 505, a second flat gear 506, a third transmission wheel 507, a third flat gear 508, a fixed support rod 509, a first electric push rod 5010, a balance tilting rod 5011, a transmission belt 5012, a fourth transmission wheel 5013, a fifth transmission wheel 5014, a limiting base 5015, a cultivation bag 5016 and cultivated tremella 5017; the first slide rail 501 is connected with the gear tooth plate 502 in a sliding manner; the pinion plate 502 is in transmission connection with the first flat gear 503; a fixed support rod 509 and a first electric push rod 5010 are sequentially arranged below the wheel tooth plate 502; the first spur gear 503 is rotatably connected to the first driving wheel 504 via a driving rod; the outer annular surface of the first transmission wheel 504 is in transmission connection with a second transmission wheel 505 through a belt; the second transmission wheel 505 is in rotary connection with the second flat gear 506 through a transmission rod; the outer annular surface of the second driving wheel 505 is in transmission connection with a third driving wheel 507 through a belt; the third transmission wheel 507 is rotationally connected with the third gear 508 through a transmission rod; the fixed support rod 509 is inserted into the balance warped rod 5011; the first electric push rod 5010 is in sleeve joint with the balance warped rod 5011; a transmission belt 5012 is arranged below the balance warped rod 5011; the transmission belt 5012 is in transmission connection with a fourth transmission wheel 5013; the transmission belt 5012 is in transmission connection with a fifth transmission wheel 5014; the outer surface of the transmission belt 5012 is provided with a limiting base 5015; the outer ring surface of the fourth transmission wheel 5013 is in transmission connection with the fifth transmission wheel 5014 through a belt; a breeding bag 5016 is arranged above the limiting base 5015; three groups of cultured white fungus 5017 are arranged above the culture bag 5016 at equal intervals; the first slide rail 501 is connected with the top frame plate 4; the first driving wheel 504 is connected with the tremella separating mechanism 6; the belt 5012 is connected to the side frame plate 2; the fourth transmission wheel 5013 is connected with the sorting mechanism 7.
When an operator places a cultivating bag 5016 with an upward cultivating white fungus 5017 and the cultivating white fungus 5017 on a limiting base 5015, the fourth transmission wheel 5013 rotates to drive a fifth transmission wheel 5014 to rotate, and further the fourth transmission wheel 5013 and the fifth transmission wheel 5014 synchronously rotate to drive a transmission belt 5012 to perform clockwise transmission, when the cultivating bag 5016 and the cultivating white fungus 5017 reach a specified position, the fourth transmission wheel 5013 stops rotating to stop the transmission belt 5012 to stop running, then the cultivating bag 5016 is separated from the cultivating white fungus 5017 through a white fungus separating mechanism 6, the cultivating bag 5016 is still positioned on the limiting base 5015, the cultivating white fungus 5017 falls onto the transmission belt 5012, then the transmission belt 5012 is started to enable the cultivating white fungus 5017 to fall into a sorting mechanism 7 after reaching the tail end of the transmission belt 5012, and after the cultivating bag 5016 positioned on the limiting base 5015 reaches the specified position, the cultivating white fungus 5012 stops running, then, the first flat gear 503 is rotated by the first transmission wheel 504, and the second transmission wheel 505 is driven to rotate, and the second flat gear 506 is driven to rotate, and the second transmission wheel 505 is driven to rotate, and the third transmission wheel 507 is driven to rotate, and the third flat gear 508 is driven to rotate, when the first flat gear 503, the second flat gear 506 and the third flat gear 508 are controlled to rotate clockwise, the wheel tooth plate 502 is moved to one side of the first flat gear 503 on the first slide rail 501, the fixed support rod 509, the first electric push rod 5010 and the balance warped rod 5011 move synchronously, when the balance warped rod 5011 is inserted into a gap between the limit bases 5015, the first flat gear 503 is controlled, the second flat gear 506 and the third flat gear 508 stop rotating, at this time, the balance warped rod 5011 stays below the cultivation bag 5016, then the first electric push rod 5010 is started, one end of the balance warped rod 5011 is pushed downwards, due to the balance fixing effect of the fixing support rod 509, one end, located below the cultivation bag 5016, of the balance tilting rod 5011 tilts upwards to lift the cultivation bag 5016, so that the cultivation bag 5016 rolls into the cultivation bag storage cabin 8, and the mechanism can completely reserve the cultivation bag 5016 for secondary use.
The tremella separating mechanism 6 further comprises a first motor 601, a sixth driving wheel 602, a seventh driving wheel 603, an eighth driving wheel 604, a ninth driving wheel 605, a second electric push rod 606, a tenth driving wheel 607, a first bevel gear 608, a second bevel gear 609, a control push rod 6010, a third electric push rod 6011, a first screw 6012, a first bearing seat 6013, a first linkage plate 6014, a slide rod 6015, a slip ring 6016, a first bottom plate 6017, a fixing plate 6018, a third bevel gear 6019, a fourth bevel gear 6020, a second screw 6021, a second bearing seat 6022, a second linkage plate 6023, an i-shaped slide block 6024, a second slide rail 6025, a fourth electric push rod 6026, a second bottom plate 6027 and a tremella separating column 6028; the first motor 601 is rotatably connected with the sixth driving wheel 602 through a rotating shaft; the outer annular surface of the sixth driving wheel 602 is in transmission connection with a seventh driving wheel 603 through a belt; the seventh driving wheel 603 is in driving connection with the eighth driving wheel 604 through a belt; the outer annular surface of the seventh driving wheel 603 is in transmission connection with the ninth driving wheel 605 through a belt; the outer annular surface of the eighth driving wheel 604 is in transmission connection with the ninth driving wheel 605 through a belt; the eighth transmission wheel 604 is rotatably connected with the third bevel gear 6019 through a transmission rod; the outer annular surface of the seventh driving wheel 603 is in transmission connection with a tenth driving wheel 607 through a belt; the ninth driving wheel 605 is connected with the second electric push rod 606; the tenth transmission wheel 607 is rotationally connected with the first bevel gear 608 through a transmission rod; the first bevel gear 608 meshes with the second bevel gear 609; a control push rod 6010 is arranged on the side surface of the tenth transmission wheel 607; the second bevel gear 609 is rotatably connected with the first screw 6012; the control push rod 6010 is sleeved with a third electric push rod 6011; the outer surface of the third electric push rod 6011 is in transmission connection with the first bearing seat 6013; the first bearing seat 6013 is sleeved with the first linkage plate 6014; welding a first linkage plate 6014 and a sliding rod 6015; the slide bar 6015 is slidably connected with the slide ring 6016; the slide bar 6015 is welded with the first base plate 6017; two groups of fixing plates 6018 are equidistantly arranged below the first bottom plate 6017; the third bevel gear 6019 meshes with the fourth bevel gear 6020; the fourth bevel gear 6020 is rotatably connected with the second screw 6021; the outer surface of the second screw rod 6021 is in transmission connection with a second bearing seat 6022; the second bearing seat 6022 is sleeved with the second linkage plate 6023; the second linkage plate 6023 is welded with the I-shaped slide block 6024; the I-shaped sliding block 6024 is in sliding connection with the second sliding rail 6025; a fourth electric push rod 6026 is arranged below the I-shaped slide block 6024; the fourth electric push rod 6026 is sleeved with the second bottom plate 6027; three groups of white fungus separation columns 6028 are equidistantly arranged on the side surface of the second bottom plate 6027; the first motor 601 is connected with the top frame plate 4; the sixth transmission wheel 602 is connected with the first transmission wheel 504; the seventh transmission wheel 603 is connected with the top frame plate 4 through a support seat; the eighth driving wheel 604 is connected with the top frame plate 4 through a supporting seat; the second electric push rod 606 is connected with the top frame plate 4; the third electric push rod 6011 is connected to the top frame plate 4; the first screw 6012 is connected with the top frame plate 4 through a support seat; the slip ring 6016 is connected with the top frame plate 4; the second screw rod 6021 is connected with the top frame plate 4; the second slide rail 6025 is coupled to the top frame plate 4.
After the culture bag 5016 and the cultured white fungus 5017 reach the designated positions, the first motor 601 is started to drive the sixth transmission wheel 602 to rotate, further drive the seventh transmission wheel 603 to rotate, further drive the tenth transmission wheel 607 to rotate, further drive the first bevel gear 608 to rotate and the first bevel gear 608 to engage with the second bevel gear 609 to rotate, further drive the first lead screw 6012 to rotate, further drive the first bearing 6013 to move downwards, further drive the first linkage plate 6014 to drive the slide bar 6015 to move downwards synchronously, the slide bar 6015 is fixed by the slip ring 6016, the first bottom plate 6017 simultaneously drives the fixing plate 6018 to move downwards, the fixing plate 6018 presses two sections of gaps between the three groups of cultured white fungus 5017 on the culture bag 5016, so that the culture bag 5016 is fixed, then the third electric push rod 6011 is started to push upwards to control the push rod 6010 to move for a designated distance, so that the first bevel gear 608 is disengaged from the second bevel gear 609, the fixing plate 6018 is kept still, then the fourth electric push rod 6026 is started, the second bottom plate 6027 and the tremella separating column 6028 are pushed to move downwards to be at the same level with the cultured tremella 5017, then the second electric push rod 606 is started, the ninth driving wheel 605 is pulled to the side far away from the seventh driving wheel 603, the loosened belt is tightened, the seventh driving wheel 603 drives the eighth driving wheel 604, the third bevel gear 6019 is driven to rotate, the third bevel gear 6019 is meshed with the fourth bevel gear 6020 to rotate, the second screw rod 6021 is driven to rotate, the second bearing base 6022 is driven to rotate, the second coupling plate 6023 is driven to move to the side far away from the fourth bevel gear 6020, the i-shaped slide block 6024 is driven to move in the same direction as the second slide rail 6025, the fourth electric push rod 6026 is pushed, the second bottom plate 6027 and the tremella separating column 6028 are moved to the side near the cultured tremella 5017, the cultured white fungus 5017 is separated from the cultured bag 5016 under the pushing action of the white fungus separation column 6028, the mechanism realizes batch separation treatment of the cultured bag 5016 and the cultured white fungus 5017 through a machine instead of manpower, and the production efficiency of the cultured white fungus 5017 is greatly improved.
The sorting mechanism 7 further comprises a second motor 701, an eleventh driving wheel 702, a twelfth driving wheel 703, a fourth flat gear 704, a fifth flat gear 705, a thirteenth driving wheel 706, a fourteenth driving wheel 707, a sorting plate roller 708, a limiting block 709, a first storage cabin 7010, a second storage cabin 7011, a third storage cabin 7012 and a screen 7013; the second motor 701 is rotatably connected with an eleventh transmission wheel 702 through a rotating shaft; the outer annular surface of the eleventh driving wheel 702 is in driving connection with the twelfth driving wheel 703 through a belt; the outer annular surface of the eleventh driving wheel 702 is in driving connection with a fourteenth driving wheel 707 through a belt; the twelfth driving wheel 703 is rotationally connected with the fourth flat gear 704 through a driving rod; the fourth spur gear 704 meshes with a fifth spur gear 705; the fifth flat gear 705 is rotationally connected with a thirteenth driving wheel 706 through a driving rod; a fourteenth driving wheel 707 is rotationally connected with the sorting plate roller 708 through a driving rod; a limiting block 709 is arranged above the sorting plate roller 708; a first storage cabin 7010, a second storage cabin 7011 and a third storage cabin 7012 are sequentially arranged below the limiting block 709; a screen 7013 is arranged above the third storage cabin 7012; the second motor 701 is connected with the support base plate 1; the thirteenth driving wheel 706 is connected with a fourth driving wheel 5013; the sorting plate roller 708 is connected to the side frame plate 2; the stopper 709 is connected to the side frame plate 2; the first storage compartment 7010 is connected to the support floor 1; the second storage compartment 7011 is connected to the support floor 1; the third storage compartment 7012 is connected to the support floor 1.
When the cultivated tremella 5017 falls off from the screen 7013 after being separated, due to inertia during falling, when the cultivated tremella 5017 is temporarily intercepted by the screen 7013, part of scraps on the cultivated tremella 5017 continuously move downwards and then enter the third storage cabin 7012 through the screen 7013, then the cultivated tremella 5017 slides into the second storage cabin 7011, when part of the cultivated tremella 5017 with the diameter larger than the limited range falls off and is clamped at the position of the sorting plate roller 708, the eleventh driving wheel 702 is driven to rotate by the rotation of the second motor 701 at the moment, and the fourteenth driving wheel 707 is further driven to rotate, so that the sorting plate roller 708 rotates clockwise, so that the cultivated tremella 5017 with the diameter larger than the limited range enters the first storage cabin 7010 through the shifting action of the sorting plate roller 708, the limit block 709 prevents the cultivated tremella 5017 from flying out of the action range of the sorting plate roller, and at the same time of the rotation of the second motor 701, the eleventh driving wheel 702 is driven to rotate, the twelfth driving wheel 703 is driven to rotate, the fourth flat gear 704 is driven to rotate, the fifth flat gear 705 is driven to rotate, the thirteenth driving wheel 706 is driven to rotate, power is provided for the transmission separation mechanism 5, the mechanism realizes that the cultivated tremella 5017 larger than a limited diameter range is separated and independently treated, and the mechanism has higher economic value.
The balance warped rod 5011 is smaller than the longitudinal distance of the limiting base 5015.
The balance warped rod 5011 can be inserted into the gap of the limiting base 5015, and then the breeding bag 5016 can be pried.
One side of the fixing plate 6018, which is away from the first bottom plate 6017, is an arc surface that is concave upward.
The shapes of the cultivation bags 5016 can be attached, and the cultivation bags 5016 can be fixed.
Wherein, one side of the white fungus separation column 6028 far away from the second bottom plate 6027 is an arc surface.
The pushing effect of hands on the cultured tremella 5017 can be simulated, the shape of the cultured tremella 5017 is fitted, and damage to the cultured tremella 5017 is avoided.
Wherein, a curved arc surface is arranged below the limiting block 709.
The rotating track of the sorting plate roller 708 can be attached, and the cultured tremella 5017 is prevented from flying out of the action range of the sorting plate roller 708 due to the fact that the rotating speed of the sorting plate roller 708 is too high.
While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.
Claims (6)
1. A biological enzyme raw material processing apparatus comprising a support base plate (1) and a side frame plate (2), characterized in that: the device also comprises an operation control screen (3), a top frame plate (4), a transmission separation mechanism (5), a tremella separating mechanism (6), a sorting mechanism (7) and a culture bag storage cabin (8); the supporting bottom plate (1) is welded with the side frame plate (2); a sorting mechanism (7) and a culture bag storage cabin (8) are sequentially arranged above the supporting bottom plate (1); an operation control screen (3) is arranged on the side surface of the side frame plate (2); the side frame plate (2) is welded with the top frame plate (4); the side frame plate (2) is connected with the transmission separation mechanism (5); the top frame plate (4) is connected with the transmission separation mechanism (5); the top frame plate (4) is connected with a tremella separating mechanism (6); the transmission separation mechanism (5) is connected with the tremella separation mechanism (6); the transmission separation mechanism (5) is connected with the sorting mechanism (7); the sorting mechanism (7) is connected with the culture bag storage cabin (8);
the transmission separation mechanism (5) further comprises a first slide rail (501), a gear tooth plate (502), a first flat gear (503), a first transmission wheel (504), a second transmission wheel (505), a second flat gear (506), a third transmission wheel (507), a third flat gear (508), a fixed support rod (509), a first electric push rod (5010), a balance raising rod (5011), a transmission belt (5012), a fourth transmission wheel (5013), a fifth transmission wheel (5014), a limiting base (5015), a cultivation bag (5016) and cultivation white fungus (5017); the first sliding rail (501) is in sliding connection with the toothed plate (502); the pinion plate (502) is in transmission connection with the first flat gear (503); a fixed support rod (509) and a first electric push rod (5010) are sequentially arranged below the wheel tooth plate (502); the first flat gear (503) is rotationally connected with the first driving wheel (504) through a driving rod; the outer annular surface of the first transmission wheel (504) is in transmission connection with a second transmission wheel (505) through a belt; the second transmission wheel (505) is rotationally connected with the second flat gear (506) through a transmission rod; the outer annular surface of the second driving wheel (505) is in transmission connection with a third driving wheel (507) through a belt; the third transmission wheel (507) is rotationally connected with the third horizontal gear (508) through a transmission rod; the fixed supporting rod (509) is inserted into the balance warped rod (5011); the first electric push rod (5010) is sleeved with the balance warped rod (5011); a transmission belt (5012) is arranged below the balance warped rod (5011); the transmission belt (5012) is in transmission connection with a fourth transmission wheel (5013); the transmission belt (5012) is in transmission connection with a fifth transmission wheel (5014); a limiting base (5015) is arranged on the outer surface of the transmission belt (5012); the outer ring surface of the fourth transmission wheel (5013) is in transmission connection with the fifth transmission wheel (5014) through a belt; a breeding bag (5016) is arranged above the limiting base (5015); three groups of cultured tremella (5017) are arranged above the culture bag (5016) at equal intervals; the first sliding rail (501) is connected with the top frame plate (4); the first driving wheel (504) is connected with the tremella separating mechanism (6); the transmission belt (5012) is connected with the side frame plate (2); the fourth transmission wheel (5013) is connected with the sorting mechanism (7);
the tremella separating mechanism (6) further comprises a first motor (601), a sixth driving wheel (602), a seventh driving wheel (603), an eighth driving wheel (604), a ninth driving wheel (605), a second electric push rod (606), a tenth driving wheel (607), a first bevel gear (608), a second bevel gear (609), a control push rod (6010), a third electric push rod (6011), a first screw rod (6012), a first bearing seat (6013), a first linkage plate (6014), a sliding rod (6015), a sliding ring (6016), a first bottom plate (6017), a fixing plate (6018), a third bevel gear (6019), a fourth bevel gear (6020), a second screw rod (6021), a second bearing seat (6022), a second linkage plate (6023), an I-shaped sliding block (6024), a second sliding rail (6025), a fourth electric push rod (6026), a second bottom plate (6027) and a tremella separating column (6028); the first motor (601) is rotationally connected with the sixth driving wheel (602) through a rotating shaft; the outer ring surface of the sixth driving wheel (602) is in transmission connection with a seventh driving wheel (603) through a belt; the seventh driving wheel (603) is in transmission connection with the eighth driving wheel (604) through a belt; the outer ring surface of the seventh driving wheel (603) is in transmission connection with a ninth driving wheel (605) through a belt; the outer ring surface of the eighth driving wheel (604) is in transmission connection with a ninth driving wheel (605) through a belt; the eighth driving wheel (604) is rotationally connected with a third bevel gear (6019) through a driving rod; the outer ring surface of the seventh driving wheel (603) is in transmission connection with a tenth driving wheel (607) through a belt; the ninth driving wheel (605) is connected with the second electric push rod (606); the tenth transmission wheel (607) is rotationally connected with the first bevel gear (608) through a transmission rod; the first bevel gear (608) is meshed with the second bevel gear (609); a control push rod (6010) is arranged on the side surface of the tenth transmission wheel (607); the second bevel gear (609) is rotationally connected with the first screw rod (6012); the control push rod (6010) is sleeved with the third electric push rod (6011); the outer surface of the third electric push rod (6011) is in transmission connection with the first bearing seat (6013); the first bearing seat (6013) is sleeved with the first linkage plate (6014); the first linkage plate (6014) is welded with the sliding rod (6015); the sliding rod (6015) is in sliding connection with the sliding ring (6016); the sliding rod (6015) is welded with the first bottom plate (6017); two groups of fixing plates (6018) are arranged below the first bottom plate (6017) at equal intervals; the third bevel gear (6019) is meshed with the fourth bevel gear (6020); the fourth bevel gear (6020) is rotationally connected with the second screw rod (6021); the outer surface of the second screw rod (6021) is in transmission connection with a second bearing seat (6022); the second bearing seat (6022) is sleeved with the second linkage plate (6023); the second linkage plate (6023) is welded with the I-shaped sliding block (6024); the I-shaped sliding block (6024) is in sliding connection with the second sliding rail (6025); a fourth electric push rod (6026) is arranged below the I-shaped slide block (6024); the fourth electric push rod (6026) is sleeved with the second bottom plate (6027); three groups of tremella separating columns (6028) are equidistantly arranged on the side surface of the second bottom plate (6027); the first motor (601) is connected with the top frame plate (4); the sixth transmission wheel (602) is connected with the first transmission wheel (504); the seventh transmission wheel (603) is connected with the top frame plate (4) through a supporting seat; the eighth transmission wheel (604) is connected with the top frame plate (4) through a supporting seat; the second electric push rod (606) is connected with the top frame plate (4); the third electric push rod (6011) is connected with the top frame plate (4); the first screw rod (6012) is connected with the top frame plate (4) through a supporting seat; the slip ring (6016) is connected with the top frame plate (4); the second screw rod (6021) is connected with the top frame plate (4); the second slide rail (6025) is connected with the top frame plate (4).
2. The apparatus for processing a bio-enzyme material according to claim 1, wherein: the sorting mechanism (7) further comprises a second motor (701), an eleventh driving wheel (702), a twelfth driving wheel (703), a fourth flat gear (704), a fifth flat gear (705), a thirteenth driving wheel (706), a fourteenth driving wheel (707), a sorting plate roller (708), a limiting block (709), a first storage cabin (7010), a second storage cabin (7011), a third storage cabin (7012) and a screen (7013); the second motor (701) is in rotary connection with an eleventh driving wheel (702) through a rotating shaft; the outer ring surface of the eleventh driving wheel (702) is in transmission connection with a twelfth driving wheel (703) through a belt; the outer annular surface of the eleventh driving wheel (702) is in transmission connection with a fourteenth driving wheel (707) through a belt; the twelfth transmission wheel (703) is rotationally connected with the fourth flat gear (704) through a transmission rod; the fourth flat gear (704) is meshed with the fifth flat gear (705); the fifth flat gear (705) is rotationally connected with a thirteenth driving wheel (706) through a driving rod; a fourteenth driving wheel (707) is rotationally connected with the sorting plate roller (708) through a driving rod; a limiting block (709) is arranged above the sorting plate roller (708); a first storage cabin (7010), a second storage cabin (7011) and a third storage cabin (7012) are sequentially arranged below the limiting block (709); a screen mesh (7013) is arranged above the third storage cabin (7012); the second motor (701) is connected with the support base plate (1); the thirteenth driving wheel (706) is connected with the fourth driving wheel (5013); the sorting plate roller (708) is connected with the side frame plate (2); the limiting block (709) is connected with the side frame plate (2); the first storage cabin (7010) is connected with the supporting bottom plate (1); the second storage cabin (7011) is connected with the supporting bottom plate (1); the third storage cabin (7012) is connected with the supporting bottom plate (1).
3. The apparatus for processing a bio-enzyme material according to claim 2, wherein: the balance warped rod (5011) is smaller than the longitudinal distance of the limiting base (5015).
4. A bio-enzyme material processing apparatus according to claim 3, wherein: one side of the fixing plate (6018) far away from the first bottom plate (6017) is an arc surface which is concave upwards.
5. The apparatus for treating a bio-enzyme material according to claim 4, wherein: one side of the white fungus separating column (6028) far away from the second bottom plate (6027) is a circular arc surface.
6. The apparatus for treating a bio-enzyme material according to claim 5, wherein: a curved cambered surface is arranged below the limiting block (709).
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| CN202010805613.8A CN111887105B (en) | 2020-08-12 | 2020-08-12 | Biological enzyme raw material processing apparatus |
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