CN109362652A - One breeding worm device and its application method - Google Patents
One breeding worm device and its application method Download PDFInfo
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- CN109362652A CN109362652A CN201811310382.2A CN201811310382A CN109362652A CN 109362652 A CN109362652 A CN 109362652A CN 201811310382 A CN201811310382 A CN 201811310382A CN 109362652 A CN109362652 A CN 109362652A
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- worm slot
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- worm
- larva
- hollow frame
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- 238000009395 breeding Methods 0.000 title claims abstract description 63
- 230000001488 breeding effect Effects 0.000 title claims abstract description 63
- 238000000034 method Methods 0.000 title claims description 16
- 238000000926 separation method Methods 0.000 claims abstract description 28
- 230000035800 maturation Effects 0.000 claims description 20
- 239000012774 insulation material Substances 0.000 claims description 14
- 230000001418 larval effect Effects 0.000 claims description 12
- 229920002635 polyurethane Polymers 0.000 claims description 7
- 239000004814 polyurethane Substances 0.000 claims description 7
- 239000004793 Polystyrene Substances 0.000 claims description 6
- 229920002223 polystyrene Polymers 0.000 claims description 6
- 238000004321 preservation Methods 0.000 claims description 4
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 3
- 239000011797 cavity material Substances 0.000 claims 3
- 238000004140 cleaning Methods 0.000 abstract description 15
- 241000238631 Hexapoda Species 0.000 abstract description 14
- 238000004519 manufacturing process Methods 0.000 abstract description 11
- 241000233805 Phoenix Species 0.000 description 18
- 238000010586 diagram Methods 0.000 description 9
- 241000935974 Paralichthys dentatus Species 0.000 description 7
- 238000001727 in vivo Methods 0.000 description 5
- 230000009194 climbing Effects 0.000 description 4
- 238000000605 extraction Methods 0.000 description 4
- 238000009360 aquaculture Methods 0.000 description 3
- 244000144974 aquaculture Species 0.000 description 3
- 241001465754 Metazoa Species 0.000 description 2
- 210000003608 fece Anatomy 0.000 description 2
- 239000010871 livestock manure Substances 0.000 description 2
- 239000002028 Biomass Substances 0.000 description 1
- 241000196324 Embryophyta Species 0.000 description 1
- 241000287828 Gallus gallus Species 0.000 description 1
- 241001481656 Stratiomyidae Species 0.000 description 1
- 238000010521 absorption reaction Methods 0.000 description 1
- 150000001336 alkenes Chemical class 0.000 description 1
- 235000021120 animal protein Nutrition 0.000 description 1
- 238000010923 batch production Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000002955 isolation Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 235000019629 palatability Nutrition 0.000 description 1
- 229920006389 polyphenyl polymer Polymers 0.000 description 1
- 238000001179 sorption measurement Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K67/00—Rearing or breeding animals, not otherwise provided for; New or modified breeds of animals
- A01K67/033—Rearing or breeding invertebrates; New breeds of invertebrates
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Environmental Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- Zoology (AREA)
- Animal Husbandry (AREA)
- Biodiversity & Conservation Biology (AREA)
- Feeding And Watering For Cattle Raising And Animal Husbandry (AREA)
Abstract
The present invention relates to the technical fields of the mechanical equipment of cultured insect, a more particularly to breeding worm device, the at least two feeding worm slot ontologies including successively stacking from top to bottom, the feeding worm slot ontology includes hollow frame one and opens the separation net being located at below hollow frame, the space of hollow one inside of frame enters in the feeding worm slot ontology of top for supporting worm, the separation net of the feeding worm slot ontology of the drill-through top of the feeding intrinsic larva of worm slot of lower section.The configuration of the present invention is simple, design is rationally, easy to operate, easy to use, worker's amount of labour can be reduced, time saving and energy saving, excrement cleaning speed is fast, high-efficient, human cost can be greatly reduced, suitable for large-scale breeding production, and reduce breeding box usage amount, two breeding boxes can be only needed in least situation.
Description
Technical field
The present invention relates to the technical field of the mechanical equipment of cultured insect more particularly to a breeding worm device and its users
Method.
Background technique
Phoenix worm is a kind of septic Stratiomyidae insect, can feeding fowl and animal excrement and house refuse, produce high value
Animal protein feed, rapidly because of its breeding, biomass is big, feeding habits extensively, sorption enhanced rate it is high, be easy management, feeding cost
It is low, the features such as animal palatability is good, batch production, scale artificial breeding mode obtained in worldwide constantly
It promotes.It is widely used in handling the wastes such as chicken manure, pig manure and kitchen garbage at present.
But phoenix worm in the market has several drawbacks in that: when cultivation first is that the processing of excrement, phoenix worm larva
Also a large amount of excrement can be generated in growth course, finally cultured space is taken, therefore, it is necessary to periodically handle excrement.By
Structure in pond and box, when clearing up excrement, since excrement is located at lowest level, so just needing phoenix worm children
Worm, feed and excrement clean up inside the chest together, then separate to polypide, therefore, using the method for manual cleaning,
Time-consuming and laborious, excrement cleaning efficiency is low, and human cost height and aquaculture cost are high, it is difficult to realize a large amount of breeding productions;Second is that: now
Cultivation be plane cultivation, take up a large area, land utilization ratio is low, it is difficult to realize the mode of large-scale cultivation, and need big
The breeding box of amount, greatly increases aquaculture cost.
Summary of the invention
Present invention aim to address the above problems, provide a kind of by successively stack from top to bottom at least two feeding worms
Slot ontology, after having expired the feeding intrinsic frass of worm slot of lower layer, lower section support the drill-through separation net of the intrinsic larva of worm slot into
Enter top feeding worm slot ontology in, then toward upper layer support worm slot ontology continue launch feed raised, by the feeding worm slot of lower section
Ontology extraction, the frass of the inside is outwelled and is cleared up, is then placed within above the feeding worm slot ontology of the top and continues to use,
The cleaning efficiency for greatly improving frass greatly reduced breeding box usage amount and cultivation occupied area, reduce worker
Labor intensity and aquaculture cost feeding worm device and its application method.
To solve the above-mentioned problems, the technical solution used in the present invention is:
One breeding worm device, at least two feeding worm slot ontologies including successively stacking from top to bottom, the feeding worm slot ontology packet
It includes hollow frame one and opens the separation net being located at below hollow frame, the space of hollow one inside of frame
For supporting worm, the separation net of the feeding worm slot ontology of the drill-through top of the feeding intrinsic larva of worm slot of lower section enters the feeding worm slot of top
In ontology.
The size of the filter hole of the separation net is to be provided with to receive worm outside frame one hollow described in 10mm~30mm
Slot, the receipts worm slot include the hollow frame two being arranged in outside hollow frame one and are arranged in hollow frame two
Connecting plate between hollow one bottom of frame, the hollow frame one are located in hollow frame two.
At least the one of the inside of the hollow frame one, which is sloped downwardly, is provided with slope.
The slope lower end, which passes sequentially through, forms closed cavity between transverse slat and hollow frame one, described is closed
Cavity for keeping the temperature.
Thermal insulation material is filled in the closed cavity, the thermal insulation material is polyurethane or is polyphenyl second
Alkene.
The transverse slat is parallel with slope or is parallel to the horizontal plane, when transverse slat is parallel with slope, the length of transverse slat with
The equal length on slope, the lowermost position of the transverse slat are located at the lower section of hollow frame one.
It is provided with anti-escape device above the receipts worm slot, the anti-escape device includes that the outside of hollow frame one is set
The L-type plate two of the inside setting of the L-type plate one and hollow frame two set, the equal court of opening of the L-type plate one and L-type plate two
Under, the opening of the L-type plate one and L-type plate two is opposite.
Water of the horizontal position on the top of the hollow frame two greater than the top of hollow frame one
Prosposition is set.
It is described when the horizontal position on the top of hollow frame two is higher than the horizontal position on the top of hollow frame one
Connecting plate on corresponding position be provided with the groove to match, the depth of the groove is equal to the top of hollow frame two
Horizontal position be higher than hollow frame one top horizontal position distance, the feeding worm slot ontology of the top passes through recessed
On the matched feeding worm slot ontology being disposed below of slot.
The application method of -9 any breeding worm devices according to claim 1, comprising the following steps:
1.: after the feeding worm slot ontology of bottom is placed, then toward addition feed inside the space of hollow one inside of frame and
The larva just hatched is raised, while placing at least one again in the top of the feeding worm slot ontology of bottom and supporting worm slot ontology;
2.: since in the breeding process, above, larva and mature larva will constantly climb up always feed, with most
The inside of the hollow frame one of the feeding worm slot ontology of lower section is taken by frass, and the larva of larva and Partial mature is by drill-through top
The separation net of feeding worm slot ontology enter in the feeding worm slot ontology of top, the larva that will climb into feeding worm slot this body maturation of top is received
Collection, larva continues plus feed is fed, and is continued to put into small grub according to larval density, the larva of another part maturation will climb
Into receipts worm slot;
3. etc. the feeding intrinsic larva of worm slot of bottoms and mature larva all pierce the feeding worm slot ontology or receipts of top
In worm slot, the feeding worm slot ontology of bottom is extracted out, the mature larva received inside worm slot is collected, then by the inside
Frass outwells carry out clear stream, is then placed within above the feeding worm slot ontology of the top and continues to use.
Gain effect of the invention is:
The present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow one inside of frame
Space inside addition feed and the larva that just hatches raised, while the top of the feeding worm slot ontology in bottom is placed again
At least one supports worm slot ontology, most lower as the inside of the hollow frame one of the feeding worm slot ontology of bottom is taken by frass
The separation net of the feeding worm slot ontology of drill-through top is entered supporting for top by the feeding intrinsic larva of worm slot of side and the larva of maturation
In worm slot ontology, then the frass of the inside is outwelled by the feeding worm slot ontology extraction of bottom and is cleared up, is then placed within most
It is continued to use above the feeding worm slot ontology of top.The configuration of the present invention is simple, design is rationally, easy to operate, easy to use, can be with
Worker's amount of labour is reduced, time saving and energy saving, excrement cleaning speed is fast, and it is high-efficient, human cost can be greatly reduced, be suitable for big
The breeding production of scale, and reduce breeding box usage amount, two breeding boxes can be only needed in least situation, lower layer
Frass is full, waits larvas and mature larva to climb into the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, the inside
Frass cleaning after, continue to use, can continuously raise in the feeding worm slot ontology of the top before being placed on, space utilization rate is high, just
In the mode for realizing large-scale cultivation, the cultivation rate of phoenix worm is improved.
Detailed description of the invention
One of Fig. 1 is the structural diagram of the present invention.
Fig. 2 is second structural representation of the invention.
Fig. 3 is third structural representation of the invention.
Fig. 4 is the four of structural schematic diagram of the invention.
Fig. 5 is the five of structural schematic diagram of the invention.
Fig. 6 is the six of structural schematic diagram of the invention.
Fig. 7 is the seven of structural schematic diagram of the invention.
Fig. 8 is the structural schematic diagram of the feeding worm slot ontology of Fig. 7.
Fig. 9 is the eight of structural schematic diagram of the invention.
Figure 10 is the structural schematic diagram of the feeding worm slot ontology of Fig. 9.
Figure 11 is the structural schematic diagram of separation net of the invention.
Specific embodiment
Below in conjunction with attached drawing, specific embodiments of the present invention will be described in detail.
Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10 and Figure 11, serial number in figure: 1 is hollow
Frame one, 2 be separation net, 3 be receive worm slot, 4 be hollow frame two, 5 be connecting plate, 6 be slope, 7 be closed cavity,
8 it is groove, 9 be transverse slat, 10 be thermal insulation material, 11 be L-type plate two and 12 is L-type plate one.
Embodiment one: referring to Fig. 1 and Figure 11, a breeding worm device of the invention, including two successively stacked from top to bottom
Worm slot ontology is supported, the feeding worm slot ontology includes hollow frame 1 and opens the isolation for being located at hollow 1 lower section of frame
The space of net 2, hollow one 1 inside of frame is used to support worm, the drill-through top of the feeding intrinsic larva of worm slot of lower section
The separation net 2 for supporting worm slot ontology enters in the feeding worm slot ontology of top.
Separation net 2 is fixed on the opening of the lower section of hollow frame 1, and the shape of the filter hole of the separation net is
Round, square or rectangle.
The application method of the present embodiment: including the following steps:
1.: after the feeding worm slot ontology of bottom is placed, then toward addition feed inside the space of hollow one 1 inside of frame and
The larva just hatched is raised, while placing a feeding worm slot ontology again in the top of the feeding worm slot ontology of bottom;
2.: since in the breeding process, above, larva and mature larva will constantly climb up always feed, with most
The inside of the hollow frame 1 of the feeding worm slot ontology of lower section is taken by frass, and larva and mature larva are by drill-through top
The separation net for supporting worm slot ontology enters in the feeding worm slot ontology of top, will climb into the larva receipts of this body maturation of the feeding worm slot of top
Collection, larva continues plus feed is fed, and is continued to put into small grub according to larval density;
3. etc. the feeding intrinsic larva of worm slot of bottoms and mature larva all pierce in the feeding worm slot ontology of top, will most
The feeding worm slot ontology of lower section is extracted out, is then outwelled the frass of the inside and is cleared up, is then placed within the feeding worm slot sheet of the top
It is continued to use above body.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame 1 space inside addition feed and the larva just hatched raised, while in the feeding worm slot sheet of bottom
A feeding worm slot ontology is placed in the top of body again, continuous into feeding worm slot ontology according to the needs of larva during cultivation
Feed is put into, as the inner space of the hollow frame 1 of the feeding worm slot ontology of bottom is taken by frass, due to cultivating
In the process, above, larva and mature larva will constantly climb up always feed, the feeding intrinsic children of worm slot of bottom
Worm and mature larva enter the separation net 2 of the feeding worm slot ontology of drill-through top in the feeding worm slot ontology of top, on climbing into
The larvae collection of the intrinsic maturation of feeding worm slot of side, larva then continue addition feed and are fed, continued according to larval density
Small grub is put into, then the frass of the inside is outwelled by the feeding worm slot ontology extraction of bottom and is cleared up, is then placed within most
It is continued to use above the feeding worm slot ontology of top, circuits sequentially progress, carry out the cultivation of phoenix worm.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, after the frass cleaning of the inside, top before being placed on is supported
It continues to use, can continuously raise in worm slot ontology, space utilization rate is high, is easy to implement the mode of large-scale cultivation, improves phoenix
The cultivation rate of worm.
Embodiment two: referring to fig. 2 and Figure 11, a breeding worm device of the invention, the structure and one base of embodiment of the present embodiment
This is identical, and something in common no longer repeats, the difference is that: the filter hole of the separation net 2 is square, square
The size of filter hole is to be provided with to receive worm slot 3 outside frame 1 hollow described in 10mm~30mm, and the receipts worm slot 3 includes
The hollow frame 24 that is arranged in outside hollow frame 1 and hollow frame 24 and hollow one 1 bottom of frame are set
Connecting plate 5 between portion, the hollow frame 1 are located in hollow frame 24.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame 1 space inside addition feed and the larva just hatched raised, while in the feeding worm slot sheet of bottom
A feeding worm slot ontology is placed in the top of body again, continuous into feeding worm slot ontology according to the needs of larva during cultivation
Feed is put into, as the inner space of the hollow frame one of the feeding worm slot ontology of bottom is taken by frass, due to cultivating
In the process, above, larva and mature larva will constantly climb up always feed, the feeding intrinsic children of worm slot of bottom
Worm and the larva of Partial mature enter the separation net 2 of the feeding worm slot ontology of drill-through top in the feeding worm slot ontology of top, due to
Mature larva, which is relatively free of for mature larva, will compare that To Be Protected from Heat, during the larva of another part maturation will pass sequentially through
Temperature is climbed in gap between the empty inner sidewall of frame 1 and the feeding worm slot ontology of the top and the feeding worm slot ontology of bottom
It spends in relatively low receipts worm slot 3, due to receiving the temperature in worm slot 3 relative to the temperature in the space of hollow one 1 inside of frame
It is relatively low, the larvae collection of the intrinsic maturation of feeding worm slot of top will be climbed into, larva then continues addition feed and fed, root
Continue to put into small grub according to larval density, the feeding worm slot ontology of bottom is extracted out, the mature larva for receiving 3 the inside of worm slot is led to
Insect sucking device collection is crossed, then the frass of the inside is outwelled and is cleared up, the upper of the feeding worm slot ontology of the top is then placed within
Side continues to use, and circuits sequentially progress, carries out the cultivation of phoenix worm.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology and receipts worm slot 3 of top, the feeding worm slot ontology of lower section is extracted out, the mature larva of 3 the inside of worm slot will be received
It is collected, is then outwelled the frass of the inside after being cleared up by insect sucking device, in the feeding worm slot ontology of the top before being placed on
It continuing to use, can continuously raise, space utilization rate is high, is easy to implement the mode of large-scale cultivation, the cultivation rate of phoenix worm is improved,
And worm slot is received convenient for collecting mature larva, mature larva need to only be taken out from worm slot interior suction is received with the device for collecting larva
Come, substantially increases the collection efficiency of mature larva.
Embodiment three: referring to Fig. 3 and Figure 11, a breeding worm device of the invention, the structure and embodiment diyl of the present embodiment
This is identical, and something in common no longer repeats, the difference is that: four sides of the inside of the hollow frame 1 to it is lower
It is tiltedly installed with slope 6.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame 1 space inside addition feed and the larva just hatched raised, while in the feeding worm slot sheet of bottom
A feeding worm slot ontology is placed in the top of body again, continuous into feeding worm slot ontology according to the needs of larva during cultivation
Put into feed, as the inside of the hollow frame 1 of the feeding worm slot ontology of bottom is taken by frass, the feeding worm slot of bottom
The separation net 2 of the feeding worm slot ontology of drill-through top is entered the feeding worm slot sheet of top by intrinsic larva and the larva of Partial mature
In vivo, it will compare that To Be Protected from Heat since mature larva is relatively free of for mature larva, the larva of another part maturation will
It passes sequentially through the gap between the feeding worm slot ontology on slope 6 and the top and the feeding worm slot ontology of bottom and climbs to temperature and compare
It is relatively low relative to the temperature in the space of hollow one 1 inside of frame due to receiving the temperature in worm slot 3 in low receipts worm slot 3,
The larvae collection of this body maturation of the feeding worm slot of top will be climbed into, larva then continues addition feed and fed, according to larval density
Continue to put into small grub, the feeding worm slot ontology of bottom is extracted out, the mature larva received inside worm slot is collected, then
The frass of the inside is outwelled and is cleared up, is then placed within above the feeding worm slot ontology of the top and continues to use, circuit sequentially
It carries out, carries out the cultivation of phoenix worm.Inner sidewall of the slope 6 of the present embodiment relative to hollow frame 1, more conducively mature
Larva, which climbs into, receives in worm slot 3, does not have gradient on the inner sidewall of hollow frame 1, is less conducive to mature larva and climbs into receipts worm
In slot 3.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, the mature larva for receiving 3 the inside of worm slot is filled by fluke
Collection is set, is then outwelled the frass of the inside after being cleared up, is continued to use in the feeding worm slot ontology of the top before being placed on, energy
Continuous raising, space utilization rate is high, is easy to implement the mode of large-scale cultivation, improves the cultivation rate of phoenix worm, and 6 phase of slope
Mature larva is more conducive to for the inner sidewall of hollow frame 1 to climb into receipts worm slot.
Example IV: referring to fig. 4 and Figure 11, a breeding worm device of the invention, the structure and three base of embodiment of the present embodiment
This is identical, and something in common no longer repeats, the difference is that: 6 lower end of slope passes sequentially through transverse slat 9 and hollow frame
Closed cavity 7 is formed between frame 1, for keeping the temperature, the transverse slat 9 is parallel to the horizontal plane the closed cavity 7.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame 1 space inside addition feed and the larva just hatched raised, while in the feeding worm slot sheet of bottom
A feeding worm slot ontology is placed in the top of body again, continuous into feeding worm slot ontology according to the needs of larva during cultivation
Put into feed, as the inside of the hollow frame one of the feeding worm slot ontology of bottom is taken by frass, the feeding worm slot of bottom
The separation net of the feeding worm slot ontology of drill-through top is entered the feeding worm slot sheet of top by intrinsic larva and the larva of Partial mature
In vivo, it will compare that To Be Protected from Heat since mature larva is relatively free of for mature larva, the larva of another part maturation will
Successively it is relatively low to climb to temperature for the gap between the feeding worm slot ontology of the feeding worm slot ontology and bottom of slope 6 and the top
It receives in worm slot 3, it is relatively low relative to the temperature in the space of hollow one 1 inside of frame due to receiving the temperature in worm slot 3, it will climb
Enter the larvae collection of the intrinsic maturation of feeding worm slot of top, larva continues plus feed is fed, and continues according to larval density
Put into small grub, the feeding worm slot ontology of bottom extracted out, the mature larva received inside worm slot is collected, then will in
The frass in face, which is outwelled, is cleared up, and is then placed within above the feeding worm slot ontology of the top and is continued to use, circuits sequentially progress,
Carry out the cultivation of phoenix worm.When cultivation, larva has certain requirement to temperature, needs in hollow frame 1
The temperature in the space of side is kept the temperature, and provides a suitable growth temperature to larva, improves cultivation success rate, closed cavity
7 due to closed, space not convection current, can the temperature in the effective space to one 1 inside of hollow frame keep the temperature, do not need volume
The energy is consumed again outside to keep the temperature the growing environment of larva, greatly improves cultivation rate.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, the mature larva for receiving 3 the inside of worm slot is filled by fluke
Collection is set, is then outwelled the frass of the inside after being cleared up, is continued to use in the feeding worm slot ontology of the top before being placed on, energy
Continuous raising, space utilization rate is high, is easy to implement the mode of large-scale cultivation, improves the cultivation rate of phoenix worm, and closed
Cavity 7 can the temperature in the effective space to one 1 inside of hollow frame keep the temperature, do not need additionally to consume the energy again to children
The growing environment of worm is kept the temperature, and cultivation rate is greatly improved.
Embodiment five: referring to Fig. 5 and Figure 11, a breeding worm device of the invention, the structure and example IV base of the present embodiment
This is identical, and something in common no longer repeats, the difference is that: thermal insulation material 10, institute are filled in the closed cavity 7
The thermal insulation material stated is polyurethane or is polystyrene.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame 1 space inside addition feed and the larva just hatched raised, while in the feeding worm slot sheet of bottom
A feeding worm slot ontology is placed in the top of body again, continuous into feeding worm slot ontology according to the needs of larva during cultivation
Put into feed, as the inside of the hollow frame 1 of the feeding worm slot ontology of bottom is taken by frass, the feeding worm slot of bottom
The separation net of the feeding worm slot ontology of drill-through top is entered the feeding worm slot sheet of top by intrinsic larva and the larva of Partial mature
In vivo, it will compare that To Be Protected from Heat since mature larva is relatively free of for mature larva, the larva of another part maturation will
Successively it is relatively low to climb to temperature for the gap between the feeding worm slot ontology of the feeding worm slot ontology and bottom of slope 6 and the top
It receives in worm slot 3, it is relatively low relative to the temperature in the space of hollow one 1 inside of frame due to receiving the temperature in worm slot 3, it will climb
Enter the larvae collection of the intrinsic maturation of feeding worm slot of top, larva continues plus feed is fed, and continues according to larval density
Put into small grub, the feeding worm slot ontology of bottom extracted out, the mature larva received inside worm slot is collected, then will in
The frass in face, which is outwelled, is cleared up, and is then placed within above the feeding worm slot ontology of the top and is continued to use, circuits sequentially progress,
Carry out the cultivation of phoenix worm.When cultivation, larva has certain requirement to temperature, needs in hollow frame 1
The temperature in the space of side is kept the temperature, and provides a suitable growth temperature to larva, improves cultivation success rate, described is closed
Cavity 7 in be filled with thermal insulation material 10, the thermal insulation material 10 be polyurethane or is polystyrene, can be effectively right
The temperature in the space of one 1 inside of hollow frame is kept the temperature, do not need additionally to consume again the energy to the growing environment of larva into
Row heat preservation, greatly improves cultivation rate.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, the mature larva for receiving 3 the inside of worm slot is filled by fluke
Collection is set, is then outwelled the frass of the inside after being cleared up, is continued to use in the feeding worm slot ontology of the top before being placed on, energy
Continuous raising, space utilization rate is high, is easy to implement the mode of large-scale cultivation, is filled with thermal insulation material 10 in closed cavity 7,
Can the temperature in the effective space to one inside of hollow frame keep the temperature, give the growth of larva to provide suitable temperature, mention
The cultivation rate of high phoenix worm.
Embodiment six: referring to Fig. 6 and Figure 11, a breeding worm device of the invention, the structure and five base of embodiment of the present embodiment
This is identical, and something in common no longer repeats, the difference is that: it is provided with anti-escape device above the receipts worm slot 3, it is described
Anti-escape device includes the L-type of the inside setting of the L-type plate 1 and hollow frame 24 of the outside setting of hollow frame 1
The opening of plate 2 11, the L-type plate 1 and L-type plate 2 11 downward, open by the L-type plate 1 and L-type plate 2 11
Mouth is opposite, and the horizontal position on the top of the hollow frame 24 is equal to the horizontal position on the top of hollow frame 1.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame 1 space inside addition feed and the larva just hatched raised, while in the feeding worm slot sheet of bottom
A feeding worm slot ontology is placed in the top of body again, continuous into feeding worm slot ontology according to the needs of larva during cultivation
Put into feed, as the inside of the hollow frame one of the feeding worm slot ontology of bottom is taken by frass, the feeding worm slot of bottom
The separation net of the feeding worm slot ontology of drill-through top is entered the feeding worm slot sheet of top by intrinsic larva and the larva of Partial mature
In vivo, it will compare that To Be Protected from Heat since mature larva is relatively free of for mature larva, the larva of another part maturation will
Successively it is relatively low to climb to temperature for the gap between the feeding worm slot ontology of the feeding worm slot ontology and bottom of slope 6 and the top
Receive in worm slot 3, due to receive the temperature in worm slot 3 relative to the temperature in the space of one 1 inside of hollow frame relatively low, L-type
Plate 1 and L-type plate 2 11 can effectively prevent the mature larva climbed into receipts worm slot 3 from climbing out of receipts along the side wall for receiving worm slot 3
Worm slot 3 leads to the low output of cultivation, makes to be insect everywhere in farm, worker grabs insect everywhere, comes very very much not to work belt
Just, the environment of farm is also influenced, the larva of feeding worm slot this cylinder mature that will climb into top is collected by insect sucking device,
Larva continues plus feed is fed, and is continued to put into small grub according to larval density, the feeding worm slot ontology of bottom is extracted out, will
It receives the mature larva inside worm slot to be collected, then the frass of the inside is outwelled and is cleared up, the top is then placed within
Feeding worm slot ontology above continue to use, circuit sequentially progress, carry out the cultivation of phoenix worm.When cultivation, larva pair
Temperature has certain requirement, and the temperature in the space of the inside to hollow frame one is needed to keep the temperature, and provides one to larva
Suitable growth temperature improves cultivation success rate, is filled with thermal insulation material, the thermal insulation material in the closed cavity
For polyurethane or be polystyrene, can the temperature in the effective space to one inside of hollow frame keep the temperature.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, the mature larva for receiving 3 the inside of worm slot is filled by fluke
Collection is set, is then outwelled the frass of the inside after being cleared up, is continued to use in the feeding worm slot ontology of the top before being placed on, energy
Continuous raising, space utilization rate is high, is easy to implement the mode of large-scale cultivation, while the setting of anti-escape device, one 12 He of L-type plate
L-type plate 2 11 effectively prevents mature larva from climbing out of along the side wall for receiving worm slot and receives worm slot, greatly improves cultivation rate.
Embodiment seven: referring to Fig. 7, Fig. 8 and Figure 11, a breeding worm device of the invention, the structure and embodiment of the present embodiment
Five is essentially identical, and something in common no longer repeats, the difference is that: the horizontal position on the top of the hollow frame 24
The horizontal position for setting the top higher than hollow frame 1, on the connecting plate 5 corresponding position be provided with match it is recessed
Slot 8, the horizontal position that the depth of the groove 8 is equal to the top of hollow frame 24 are higher than the top of hollow frame 1
Horizontal position distance, the feeding worm slot ontology of the top passes through the matched feeding worm slot ontology being disposed below of groove 8
On.
The application method of the present embodiment: including the following steps:
4.: after the feeding worm slot ontology of bottom is placed, then toward addition feed inside the space of hollow one 1 inside of frame and
The larva just hatched is raised, while placing a feeding worm slot ontology again in the top of the feeding worm slot ontology of bottom;
5.: since in the breeding process, above, larva and mature larva will constantly climb up always feed, with most
The inside of the hollow frame 1 of the feeding worm slot ontology of lower section is taken by frass, the larva of larva and Partial mature will be drill-through on
The separation net 2 of the feeding worm slot ontology of side enters in the feeding worm slot ontology of top, will climb into the children of this body maturation of the feeding worm slot of top
Worm is collected, and larva continues plus feed is fed, and is continued to put into small grub, the larva of another part maturation according to larval density
It will climb to and receive in worm slot 3;
6. etc. the feeding intrinsic larva of worm slot of bottoms and mature larva all pierce feeding worm slot ontology or receive worm slot 3
It is interior, the feeding worm slot ontology of bottom is extracted out, the mature larva for receiving 3 the inside of worm slot is collected by absorption plant, so
The frass of the inside is outwelled into carry out clear stream afterwards, is then placed within above the feeding worm slot ontology of the top and continues to use.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame 1 space inside addition feed and the larva just hatched raised, while in the feeding worm slot sheet of bottom
A feeding worm slot ontology is placed in the top of body again, continuous into feeding worm slot ontology according to the needs of larva during cultivation
Put into feed, as the inside of the hollow frame one of the feeding worm slot ontology of bottom is taken by frass, the feeding worm slot of bottom
The separation net of the feeding worm slot ontology of drill-through top is entered the feeding worm slot sheet of top by intrinsic larva and the larva of Partial mature
In vivo, it will compare that To Be Protected from Heat since mature larva is relatively free of for mature larva, the larva of another part maturation will
Successively it is relatively low to climb to temperature for the gap between the feeding worm slot ontology of the feeding worm slot ontology and bottom of slope 6 and the top
Receive in worm slot 3, due to receive the temperature in worm slot 3 relative to the temperature in the space of one 1 inside of hollow frame relatively low, L-type
Plate 1 and L-type plate 2 11 can effectively prevent the mature larva climbed into receipts worm slot 3 from climbing out of receipts along the side wall for receiving worm slot 3
Worm slot leads to the low output of cultivation, makes to be insect everywhere in farm, and worker grabs insect everywhere, carrys out very big inconvenience to work belt,
Also the environment of farm is influenced, the larva of feeding worm slot this cylinder mature that will climb into top is collected by insect sucking device, children
Worm continues plus feed is fed, and is continued to put into small grub according to larval density, the feeding worm slot ontology of bottom is extracted out, will be received
Mature larva inside worm slot is collected, and then outwells the frass of the inside and clears up, is then placed within the top
It supports and is continued to use above worm slot ontology, circuit sequentially progress, carry out the cultivation of phoenix worm.When cultivation, larva is to temperature
Degree has certain requirement, and the temperature in the space of the inside to hollow frame one is needed to keep the temperature, and provides a conjunction to larva
Suitable growth temperature improves cultivation success rate, is filled with thermal insulation material in the closed cavity, the thermal insulation material is
Polyurethane or be polystyrene, can the temperature in the effective space to one 1 inside of hollow frame keep the temperature, groove 8
It is arranged convenient for improving the stability of the feeding worm slot ontology stacked, prevents from causing supporting for top due to accidentally touching or shaking
Worm slot ontology is fallen down, make that larva falls everywhere, reduce cultivation rate.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, the mature larva for receiving 3 the inside of worm slot is filled by fluke
Collection is set, after then clearing up the frass of the inside, continues to use, can continuously raise in the feeding worm slot ontology of the top before being placed on
It supports, space utilization rate is high, is easy to implement the mode of large-scale cultivation, while the feeding worm slot sheet that the setting of groove stacks convenient for raising
The stability of body.
Embodiment eight: referring to Fig. 9, Figure 10 and Figure 11, a breeding worm device of the invention, the structure and embodiment of the present embodiment
Seven is essentially identical, and something in common no longer repeats, the difference is that: the transverse slat 9 is parallel with slope 6, the length of transverse slat 9
With the equal length on slope 6, the lowermost position of the transverse slat 9 is located at the lower section of hollow frame 1.
When on the feeding worm slot ontology that the feeding worm slot ontology of top of the invention is disposed below, the feeding worm slot sheet of top
The transverse slat 9 of body and the slope 6 of the feeding worm slot ontology of lower section fit.
Working principle: the present invention when in use, after first placing the feeding worm slot ontology of bottom, then toward hollow
The inside of frame one space inside addition feed and the larva just hatched raised, while in the feeding worm slot ontology of bottom
Top place a feeding worm slot ontology again, during cultivation, according to the needs of larva, continuously thrown into feeding worm slot ontology
Enter feed, as the inside of the hollow frame one of the feeding worm slot ontology of bottom is taken by frass, the feeding worm slot sheet of bottom
The separation net of the feeding worm slot ontology of drill-through top is entered the feeding worm slot ontology of top by intracorporal larva and the larva of Partial mature
It is interior, separately it will compare that To Be Protected from Heat since mature larva is relatively free of for mature larva, the larva of another part maturation will
Successively it is relatively low to climb to temperature for the gap between the feeding worm slot ontology of the feeding worm slot ontology and bottom of slope 6 and the top
It receives in worm slot 3, L-type plate 1 and L-type plate 2 11 can effectively prevent the mature larva climbed into receive in worm slot 3 along receipts worm
The side wall of slot 3, which climbs out of, receives worm slot, leads to the low output of cultivation, makes to be insect everywhere in farm, and worker grabs insect everywhere, gives work
Very big inconvenience is brought, the environment of farm is also influenced, the larva of feeding worm slot this cylinder mature that will climb into top passes through fluke
Device is collected, and larva continues plus feed is fed, and is continued to put into small grub according to larval density, by the feeding worm of bottom
The insect for receiving 3 the inside of worm slot is collected by the extraction of slot ontology by insect sucking device, and it is clear that the frass of the inside is then outwelled progress
Reason, is then placed within above the feeding worm slot ontology of the top and continues to use, and circuits sequentially progress, carries out the cultivation of phoenix worm.
When cultivation, larva has certain requirement to temperature, and the temperature in the space of the inside to hollow frame one is needed to carry out
Heat preservation provides a suitable growth temperature to larva, improves cultivation success rate, and the closed cavity is interior filled with heat preservation
Material, the thermal insulation material be polyurethane or be polystyrene, can effective space to hollow one inside of frame
Temperature is kept the temperature, the setting of groove 8 convenient for improving the stability of feeding worm slot ontology stacked, prevent due to accidentally touching or
Person's vibration, causes the feeding worm slot ontology of top to fall down, make that larva falls everywhere, reduce cultivation rate.
The configuration of the present invention is simple, it is easy to operate, it is easy to use, it is possible to reduce worker's amount of labour, time saving and energy saving, excrement cleaning
Speed is fast, high-efficient, and human cost can be greatly reduced, and is suitable for large-scale breeding production, and reduce breeding box
Usage amount can only need two breeding boxes in least situation, and the frass of lower layer is full, and larvas and mature larva be waited to climb into
In the feeding worm slot ontology of top, the feeding worm slot ontology of lower section is extracted out, the mature larva for receiving 3 the inside of worm slot is filled by fluke
Collection is set, after then clearing up the frass of the inside, continues to use, can continuously raise in the feeding worm slot ontology of the top before being placed on
It supports, space utilization rate is high, is easy to implement the mode of large-scale cultivation, while the feeding worm slot that the setting of groove 8 stacks convenient for raising
The stability of ontology.
The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry
Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and what is described in the above embodiment and the description is only the present invention
Principle, various changes and improvements may be made to the invention without departing from the spirit and scope of the present invention, these variation and
Improvement is both fallen in the range of claimed invention.The present invention claims protection scope by appended claims and its
Equivalent defines.
Claims (10)
1. a breeding worm device, it is characterised in that: at least two feeding worm slot ontologies including successively stacking from top to bottom, it is described
Worm slot ontology is supported to include hollow frame one and open the separation net being located at below hollow frame, the hollow frame
The space of one inside enters for supporting worm, the separation net of the feeding worm slot ontology of the drill-through top of the feeding intrinsic larva of worm slot of lower section
In the feeding worm slot ontology of top.
2. breeding worm device according to claim 1, it is characterised in that: the size of the filter hole of the separation net is
It is provided with outside hollow frame one described in 10mm~30mm and receives worm slot, the receipts worm slot includes that hollow frame one is arranged in
Outer hollow frame two and the connecting plate being arranged between hollow frame two and hollow one bottom of frame, it is described
Hollow frame one is located in hollow frame two.
3. breeding worm device according to claim 2, it is characterised in that: the inside of the hollow frame one is extremely
Few one is sloped downwardly and is provided with slope.
4. breeding worm device according to claim 3, it is characterised in that: the slope lower end pass sequentially through transverse slat with
Closed cavity is formed between hollow frame one, the closed cavity is for keeping the temperature.
5. breeding worm device according to claim 4, it is characterised in that: filled with heat preservation in the closed cavity
Material, the thermal insulation material are polyurethane or are polystyrene.
6. breeding worm device according to claim 4, it is characterised in that: the transverse slat is parallel with slope or and water
Plane is parallel, when transverse slat is parallel with slope, the length of transverse slat and the equal length on slope, and the lowermost position of the transverse slat
Setting in the lower section of hollow frame one.
7. according to any breeding worm device of claim 2-6, it is characterised in that: be provided with above the receipts worm slot
Anti-escape device, the anti-escape device include hollow frame one outside setting L-type plate one and hollow frame two it is interior
The L-type plate two of side setting, the opening of the L-type plate one and L-type plate two downward, open by the L-type plate one and L-type plate two
Mouth is opposite.
8. according to any breeding worm device of claim 7, it is characterised in that: the top of the hollow frame two
Horizontal position greater than hollow frame one top horizontal position.
9. according to any breeding worm device of claim 8, it is characterised in that: when the water on the top of hollow frame two
Corresponding position, which is provided with, when prosposition sets the horizontal position higher than the top of hollow frame one, on the connecting plate matches
Groove, the horizontal position that the depth of the groove is equal to the top of hollow frame two is higher than the top of hollow frame one
Horizontal position distance, the feeding worm slot ontology of the top passes through the feeding worm slot ontology of matching grooves being disposed below
On.
10. the application method of -9 any breeding worm devices according to claim 1, it is characterised in that: including following step
It is rapid:
1.: after the feeding worm slot ontology of bottom is placed, then toward addition feed inside the space of hollow one inside of frame and
The larva just hatched is raised, while placing at least one again in the top of the feeding worm slot ontology of bottom and supporting worm slot ontology;
2.: since in the breeding process, above, larva and mature larva will constantly climb up always feed, with most
The inside of the hollow frame one of the feeding worm slot ontology of lower section is taken by frass, and the larva of larva and Partial mature is by drill-through top
The separation net of feeding worm slot ontology enter in the feeding worm slot ontology of top, the larva that will climb into feeding worm slot this body maturation of top is received
Collection, larva continues plus feed is fed, and is continued to put into small grub according to larval density, the larva of another part maturation will climb
Into receipts worm slot;
3.: etc. the feeding intrinsic larva of worm slot of bottoms and mature larva all pierce the feeding worm slot ontology or receipts of top
In worm slot, the feeding worm slot ontology of bottom is extracted out, the mature larva received inside worm slot is collected, then by the inside
Frass outwells carry out clear stream, is then placed within above the feeding worm slot ontology of the top and continues to use.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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