CN114304078B - Ant collecting process for industrial silkworm breeding - Google Patents

Abstract

The invention discloses an ant collecting process for industrial silkworm breeding, which comprises the following steps: (a) placing feed into an ant collection implement; taking silkworm eggs, and putting the silkworm eggs beside the feed; (c) After the silkworm eggs are exposed to light, the silkworm eggs are hatched into the newly-hatched silkworms, and the newly-hatched silkworms climb onto the feed. The invention has convenient operation, obviously improves the working efficiency of collecting the ants, replaces the process of flapping and avoids the problem of damage caused by dropping the newly-hatched silkworms; after the newly-hatched silkworms are hatched, the newly-hatched silkworms can autonomously crawl to feed, and are beneficial to the rapid development of the newly-hatched silkworms in one age period.

Description

Ant collecting process for industrial silkworm breeding

Technical Field

The invention belongs to the technical field of industrial silkworm breeding, and particularly relates to an ant harvesting process for industrial silkworm breeding.

Background

The silkworm is commonly called a baby silkworm, also called a silkworm, and is one of economic insects for spinning and cocooning by taking mulberry leaves as foodstuff. Belonging to the order Lepidoptera, family Bombycidae. The silkworm originates from China, the development temperature of the silkworm is 7-40 ℃, the breeding temperature is 20-30 ℃, and the silkworm is mainly distributed in temperate zones, subtropical zones and tropical zones.

The silkworm passes through silkworm eggs, newly-hatched silkworms, silkworm babies, silkworm cocoons and silkworm moths for a lifetime of more than forty days. The silkworm baby just hatched from the egg is dark in color and called as the silkworm, and the silkworm is full of fine hair, and the fine hair is not obvious after about two days. After the silkworm comes out of the shell, it begins to peel after a certain period of feeding, and the time of peeling is about one day, called "dormancy". After one-time peeling, the silkworm grows into second-instar larvae, and the silkworm needs to peel for four times to become fifth-instar larvae to start spinning and cocooning.

Silkworm baby need pass through the receipts ant process at the newly-hatched silkworm stage and make the newly-hatched silkworm transfer to the fodder, and current receipts ant process includes: collecting silkworm eggs after hatching, wrapping silkworm eggs with small paper bags, collecting ant after silkworm eggs are exposed, spreading the small paper bags when collecting ant, and dropping ant silkworms on the feed. The method for harvesting ants has obvious defects, including:

1. the damage to the silkworm eggs is easy to cause in the egg taking process, and certain operation difficulty exists;

2. the newly-hatched silkworms are flapped from the small paper bags, so that certain damage can be caused to the newly-hatched silkworms;

3. the newly-hatched silkworms cannot draw feed in time after hatching, so that the development of the newly-hatched silkworms is influenced;

4. the consumed labor cost is high, and the working efficiency is low.

Disclosure of Invention

The invention aims to solve the technical problems in the prior art, provides the ant collecting process for industrial silkworm rearing, is convenient to operate, remarkably improves the ant collecting working efficiency, replaces the process of flapping and avoids the problem that the drop of the newly-hatched silkworms causes damage; after the silkworm is hatched, the silkworm can automatically crawl to feed, and the rapid development of the silkworm in one age period is facilitated.

In order to solve the technical problems, the invention adopts the following technical scheme:

the ant harvesting process for industrial silkworm breeding is characterized by comprising the following steps of:

(a) Feeding the feed into a termite collecting device;

(b) Taking silkworm eggs, and putting the silkworm eggs beside the feed;

(c) After the silkworm eggs are exposed to light, the silkworm eggs are hatched into the newly-hatched silkworms, and the newly-hatched silkworms climb onto the feed.

The ant collecting process is convenient to operate, the working efficiency of the ant collecting process is remarkably improved, the process of flapping is replaced, and the problem that the newly-hatched silkworms are damaged when falling is avoided; after the silkworm is hatched, the silkworm can automatically crawl to feed, and the rapid development of the silkworm in one age period is facilitated.

Further, in the step (b), black silkworm eggs are wrapped, dark development is carried out, and the silkworm eggs are put beside the feed after the black silkworm eggs are developed. The light and the black cloth are turned off during dark cultivation to create a completely black environment, the silkworm eggs which grow too fast can be inhibited during dark development, and the slow silkworm eggs can be accelerated to develop, so that the development degree of the silkworm eggs in one batch is close, the subsequent uniform silkworm breeding operation is convenient, and the method is suitable for subsequent large-scale and industrial silkworm breeding operation.

Further, before the silkworm eggs are wrapped with black, the silkworm eggs are contained by means of a container. The silkworm eggs are protected, centralized management is carried out, the size of the container is relatively controllable, and subsequent sealing treatment is facilitated.

Further, a plastic film with grids is adopted as the container, and silkworm eggs are placed in each grid. The container is of an open structure, so that silkworm eggs can be conveniently put in the container; the silkworm egg feeder has the advantages of being convenient to obtain materials, low in cost and convenient to package due to the adoption of the plastic film, each grid is mutually independent, silkworm eggs are not easy to freely escape from the grids, the silkworm egg feeder is reliable to place, batch and quantitative management is realized, and the growth quality of silkworm eggs is guaranteed.

Further, the specification of each lattice is the same. The silkworm egg quantitative management is convenient, the accurate number of the newly-hatched silkworms is obtained, the method is suitable for the culture conditions, and the growth quality of the silkworm is indirectly ensured.

Further, after the silkworm eggs are contained, the container is sealed. Seal the packing to the container, prevent that the container from receiving outside striking and leading to the graine to escape the check, improved the reliability that the graine was placed in the check, reduced the management degree of difficulty.

Further, the sealing treatment specifically comprises the following steps: the container was capped with a sealing layer, and the grid was sealed by the sealing layer in a shielding manner. Effectively shelter from each check and seal, put in place in one step, reduced manipulation strength, can open the sealing layer through exerting certain power, easy operation, the degree of difficulty is low.

Further, after development, the container was cut in equal portions to obtain vector units each having a lattice. The carrier unit is conveniently taken and put in, realizes that the ant is received to the ration, and convenient operation controls newly-hatched silkworms easily quantity for the newly-hatched silkworms quantity of hatching corresponds with fodder weight, avoids the fodder too much to cause the waste, and the fodder lacks and causes newly-hatched silkworms to develop the scheduling problem.

Further, the sealing layer is torn to expose the silkworm eggs in the grids, and then the carrier unit is placed beside the feed. By throwing in the fodder with the graine with the carrier form, realize regular rule and quick throwing in order, arrange more evenly, avoid appearing one side and place many, one side places few problem, and the newly-hatched silkworm climbs to the fodder feed from all directions uniformly after the hatching, and the fodder supply is even, helps the balanced development of newly-hatched silkworm.

Further, a cutter is used to cut the container. The cutting is quick and effective, easy to control and low in cost.

Further, the sealing layer is made of tissue paper. Has the advantages of convenient material acquisition, low cost, convenient packaging, and the like.

Furthermore, the sealing layer and the outer edge of the container are bonded by paste. The sufficient contact area is ensured, the bonding is reliable, the separation is not easy, and the sealing layer is convenient to open.

Further, the silkworm eggs in the grids are flattened to fill the grids with the silkworm eggs. Reduce the difference of the number of the silkworm eggs in each grid and balance the development degree of each silkworm egg.

Further, the dark development time of silkworm egg is 1-3 days, the temperature is controlled at 20-29 deg.C, and the humidity is controlled at 70-85%. The environmental conditions are adapted to those of incubation, and are suitable for silkworm egg development and balancing the development degree of each silkworm egg.

Further, in the step (b), a spoon is adopted to take the silkworm eggs. Convenient operation, easily control, the graine is difficult for dropping, and work efficiency is high, has reduced the human cost, reduces the damage to the graine simultaneously.

Furthermore, the volume of the spoon is determined according to the number of the silkworm eggs required to be taken each time, and the silkworm eggs are taken to be flush with the opening of the spoon each time when being taken. The quantity of the silkworm eggs scooped at each time is controlled within a certain error range, quantitative termite collection is realized in a quantitative silkworm egg mode, the quantity of the newly-hatched silkworms is easily controlled, the quantity of the newly-hatched silkworms hatched corresponds to the weight of the feed, waste caused by excessive feed is avoided, and the problems of newly-hatched silkworms underdevelopment and the like caused by insufficient feed are solved.

Further, the ant harvesting device used in the step (a) adopts a breeding frame. Breed frame structure rule and stable, can carry on the logistics line, convenient transport and pile up neatly are suitable for the industrialization sericulture.

Further, in the step (a), a feed extruder is used to feed the feed to the termite collecting device. The feed extruder realizes extruding and putting the feed into the termite collecting device in an automatic mode, and further improves the efficiency.

Further, after the silkworm eggs are hatched into the newly-hatched silkworms, the silkworm eggs are cultivated into the silkworm at the first age stage.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. the ant collecting process is convenient to operate, the ant collecting working efficiency is remarkably improved, the process of beating is replaced, and the problem that the newly-hatched silkworms are damaged when falling is avoided; after the silkworm is hatched, the silkworm can automatically crawl to feed, and the rapid development of the silkworm in one age period is facilitated.

2. The quantitative termite receiving is realized through the quantitative egg taking mode, the operation is convenient, the number of the newly-hatched silkworms is easy to control, the number of the newly-hatched silkworms in the hatching corresponds to the weight of the feed, the problems that the feed is too much to cause waste, the feed is lack to cause the poor development of the newly-hatched silkworms and the like are solved.

3. The light and the black cloth are turned off during dark cultivation to create a completely black environment, the dark development can inhibit the silkworm eggs which are developed too fast, and the slow silkworm eggs are developed at an accelerated speed, so that the development degree of the silkworm eggs in one batch is close, the uniform cultivation operation of the silkworm is convenient to perform subsequently, and the method is suitable for the subsequent large-scale and industrial silkworm cultivation operation.

4. The container is of an open structure, the silkworm eggs are conveniently and uniformly placed in each grid, the grids are mutually independent, the silkworm eggs are not easy to freely escape from the grids, the placing is reliable, batch and quantitative management is realized, and the growth quality of the silkworm is ensured; seal the packing through adding the lid sealing layer to the container, effectively shelter from each check and seal, put in place in one step, reduced manipulation strength, prevent that the container from receiving outside striking and leading to the graine to escape, improved the reliability that the graine was placed in the check, reduced the management degree of difficulty.

5. With container etc. and divide into the carrier unit, conveniently take and put in to the carrier form is put in the fodder with the graine by, realizes orderly rule and quick input, arranges more evenly, avoids appearing one side and places many, one side and place few problem, and the newly-hatched silkworm climbs to the fodder feed from all directions uniformly after the hatching, and the fodder supply is even, helps the balanced development of newly-hatched silkworm.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a flow diagram of an ant harvesting process according to the present invention;

fig. 2 is a schematic structural view of the ant collecting conveyor line according to the present invention;

fig. 3 is a schematic structural view of feed put in the ant collecting device of the present invention;

fig. 4 is a schematic structural view of a carrier unit put in the ant collecting device of the present invention;

FIG. 5 is a schematic structural diagram of a step-by-step carrier throwing unit according to the present invention;

FIG. 6 is a schematic view of the structure of the container of the present invention;

FIG. 7 is a schematic structural view of a carrier unit according to the present invention;

fig. 8 is a schematic structural view of the spoon of the present invention.

In the figure: 1-a feed extruder; 2-feed; 3-an ant harvesting device; 4-spoon; 5-a container; 6-grid; 7-a sealing layer; 8-a carrier unit; 9-conveying the ants to a termite receiving conveyor line; 10-unstacker; 11-a stacker crane.

Detailed Description

As shown in fig. 1 to 8, the ant harvesting process for industrial silkworm rearing according to the present invention comprises the following steps:

(a) Disinfecting silkworm eggs;

(b) Hatching silkworm eggs: taking the disinfected silkworm eggs, and placing the silkworm eggs in a hatching-accelerating appliance; silkworm eggs enter a hatching stage after low-temperature hatching and high-temperature hatching;

(c) Feeding:

the feed extruder 1 extrudes the flaky feed 2 in sequence and puts the flaky feed into the termite collecting device 3, so that the automation degree is high and the working efficiency is high. According to the culture requirement, the feeds 2 are orderly arranged in the ant collecting device 3, and proper space is ensured among the feeds 2, so that sufficient and proper hatching and development space is provided for the newly-hatched silkworms.

The used ant collecting device 3 adopts a culture frame, the structure of the culture frame is regular and stable, the culture frame can be conveyed on a logistics line, the transport and stacking are convenient, and the device is suitable for industrial silkworm breeding. By adopting the flaky feed 2, the coverage is wider, the effect of collecting the ants is good, and the feed 2 with the same weight can be drawn by more newly-hatched silkworms.

(d) Silkworm egg containing:

and taking the silkworm eggs which are spotted with the spoon 4, putting the silkworm eggs into the lattices 6 of the container 5, and spreading the silkworm eggs to ensure that the lattices 6 are filled with the silkworm eggs. Reduce the difference of the number of the silkworm eggs in each grid 6 and balance the development degree of each silkworm egg. The error range of the number of the silkworm eggs is 0 to +/-150, and the precision of the ant collection is further improved.

Adopt ladle 4 to get the silkworm egg, convenient operation, easily control, the silkworm egg is difficult for dropping, and work efficiency is high, has reduced the human cost, reduces the damage to the silkworm egg simultaneously.

The capacity of the spoon 4 is determined according to the number of the silkworm eggs required to be taken each time, and when the silkworm eggs are taken, the silkworm eggs are taken each time to be flush with the opening of the spoon 4. The silkworm egg quantity control of spooning at every turn is in certain error range, realizes the ration through the mode of ration silkworm egg and receives the ant, controls the ant silkworm quantity easily for the ant silkworm quantity of hatching corresponds with 2 weight on fodder, avoids fodder 2 too much to cause the waste, and fodder 2 lacks and causes the ant silkworm to develop the scheduling problem.

The container 5 is used for containing the silkworm eggs, the silkworm eggs are protected, centralized management is carried out, the size of the container 5 is relatively controllable, and subsequent sealing treatment is facilitated. The container 5 can adopt a plastic film, a paper sheet, a cloth sheet or a plastic gasket with lattices 6, preferably the plastic film is an open structure, and silkworm eggs can be conveniently thrown in the container; the silkworm egg feeder has the advantages of being convenient to obtain materials, low in cost and convenient to package due to the adoption of the plastic film, each grid 6 is independent, silkworm eggs are not easy to freely escape from the grids 6, the silkworm egg feeder is reliable to place, batch and quantitative management is realized, and the growth quality of silkworm eggs is guaranteed. The specifications of each grid 6 are the same, so that quantitative management of silkworm eggs is facilitated, accurate quantity of the newly-hatched silkworms is obtained, the method is suitable for breeding conditions, and the growth quality of the silkworm is indirectly guaranteed.

(e) Sealing:

after the container 5 contains the silkworm eggs, the container 5 is sealed, and the method comprises the following specific steps: the container 5 is covered with a sealing layer 7, and the grid 6 is sealed by the sealing layer 7 in a shielding manner. The lattices 6 are effectively shielded and sealed in one step, the operation strength is reduced, the sealing layer 7 can be opened by applying a certain force, the operation is simple, and the difficulty is low; seal the packing to container 5, prevent that container 5 from receiving outside striking and leading to the graine to escape grid 6, improved the reliability that the graine was placed in grid 6, reduced the management degree of difficulty.

The sealing layer 7 is made of tissue paper, and has the advantages of convenient material acquisition, low cost, convenient packaging and the like. The sealing layer 7 is bonded with the outer edge of the container 5 by paste, so that a sufficient contact area is ensured, the bonding is reliable, the separation is not easy, and the sealing layer 7 is convenient to open.

(f) And (3) dark development:

the container 5 is treated in the dark, and the silkworm eggs are developed in the dark. The light and the black cloth are turned off during dark cultivation to create a completely black environment, the dark development can inhibit the silkworm eggs which are developed too fast, and the slow silkworm eggs are developed at an accelerated speed, so that the development degree of the silkworm eggs in one batch is close, the uniform cultivation operation of the silkworm is convenient to perform subsequently, and the method is suitable for the subsequent large-scale and industrial silkworm cultivation operation.

The development time of silkworm egg in dark is 1-3 days, the temperature is controlled at 20-29 deg.C, and the humidity is controlled at 70-85%. The environmental conditions are adapted to those of incubation, and are suitable for silkworm egg development and balancing the development degree of each silkworm egg.

(g) Cutting:

after the container 5 is developed, the container is cut equally by the cutter, so that the cutting is quick and effective, easy to control and low in cost. The cutting results in carrier elements 8, each carrier element 8 having a grid 6. Carrier unit 8 conveniently takes and puts in, realizes the ration and receives the ant, convenient operation, easy control newly-hatched silkworm quantity for the newly-hatched silkworm quantity of hatching corresponds with 2 weight of fodder, avoids fodder 2 too much to cause the waste, and fodder 2 lacks and causes newly-hatched silkworm dysplasia scheduling problem.

The carrier unit 8 is light-shielded and is moved to the termite receiving place to prevent the silkworm eggs from hatching in advance during the carrying process.

(h) And (3) feed ant harvesting:

tearing the sealing layer 7 open to expose the silkworm eggs in the grids 6, then placing the carrier units 8 beside the feed 2, wherein the preferred placing position is an area close to the feed 2, the placing number of the carrier units 8 of each feed 2 is determined according to the culture requirement, and generally 1-8 carrier units are placed; in the process of collecting the ants, the silkworm eggs begin to gradually hatch into the newly hatched silkworms when the light is applied, and the newly hatched silkworms gradually climb onto the flaky feed 2.

Put in 2 sides of fodder with the graine with the carrier form, realize orderly rule and quick input, arrange more evenly, avoid appearing one side and place many, one side and place few problem. After the silkworm eggs are exposed to light, the silkworm eggs are hatched into the newly-hatched silkworms, and climb to the feed 2 from all directions uniformly to eat, so that the feed 2 is supplied uniformly, and the balanced development of the newly-hatched silkworms is facilitated.

Put in advance fodder 2 in receiving ant utensil 3, directly put to the graine that does not hatch again and remove other positions of placing fodder 2, the graine hatching receives the ant, and the ant silkworm can be independently climb to fodder 2 and draw fodder 2. The ant collecting process is convenient to operate, the working efficiency of the ant collecting process is remarkably improved, the process of flapping is replaced, and the problem that the newly-hatched silkworms are damaged when falling is avoided; after the silkworm is hatched, the silkworm can automatically crawl to the feed 2 to eat, and the rapid development of the silkworm in one age period is facilitated.

The placement of the carrier elements 8 can be performed in several steps, a first step of placing the carrier elements 8 of the first row of feed 2 and a second step of placing the carrier elements 8 of the second row of feed 2; by analogy, the work of placing the carrier units 8 is completed in a labor-division manner, a plurality of workers are designed to place each row of carrier units 8 in a labor-division manner, the work efficiency is further improved, the workload is lightened, and the error rate in the work is reduced.

The ant collection is completed on the ant collection conveying line 9: the ant collecting device 3 is sequentially conveyed on the ant collecting conveying line 9, firstly, the sheet-shaped feed 2 is sequentially extruded by the feed extruder 1 and put into the ant collecting device 3, then, the carrier unit 8 is sequentially arranged on the periphery of the feed 2 in the ant collecting device 3, the ant collecting device 3 is sent out after the placement is finished, and the carrier unit is sent into the ant collecting chamber for cultivation after being subjected to light sensing for a period of time. Receive ant transfer chain 9 and carry in proper order and receive ant utensil 3, realize the limit and carry the limit and place fodder 2 and carrier unit 8, promote work efficiency, and can directionally carry one process down, need not artificial transport labour saving and time saving.

The ant collecting conveyor line 9 comprises an unstacker 10 arranged at the front end and a stacker 11 arranged at the rear end, and the stacked ant collecting appliances 3 are separated one by the unstacker 10 and then conveyed on the ant collecting conveyor line 9; after the carrier unit 8 is placed, the carrier unit is stacked by a stacking machine 11 and sent into an ant receiving chamber for cultivation after being subjected to light for a period of time. Unstacking and stacking are respectively realized by the unstacker 10 and the stacker 11, so that the ant collecting appliances 3 can be conveyed on the ant collecting conveying line 9 one by one, and the stacker 11 can stack the ant collecting appliances 3 after the ant collecting operation, and is convenient to carry and store.

In addition, fodder 2 extrudes the process and can externally accomplish, extrude slice fodder 2 by fodder extruder 1 earlier, put in fodder 2 by workman or mechanical equipment again and receive ant utensil 3, for convenient the input, cushion the bed course in 2 bottoms pads of extruded slice fodder.

The above are only specific embodiments of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications based on the present invention to solve the same technical problems and achieve the same technical effects are all covered by the protection scope of the present invention.

Claims (12)

1. The ant harvesting process for industrial silkworm breeding is characterized by comprising the following steps of:

(a) Feeding the feed into a termite collecting device;

(b) Taking silkworm eggs, putting the silkworm eggs into a grid of a container, wherein the container is a plastic film with the grid;

then, the container is sealed, and the specific method comprises the following steps: covering a sealing layer on the container, and shielding and sealing the grids through the sealing layer;

then, the container is wrapped to be black, so that the silkworm eggs develop in the dark;

after the growth is finished, equally dividing and cutting the container to obtain carrier units, wherein each carrier unit is provided with a grid;

tearing the sealing layer to expose the silkworm eggs in the grids, and then placing the carrier unit beside the feed;

(c) After the silkworm eggs are exposed to light, the silkworm eggs are hatched into the newly-hatched silkworms, and the newly-hatched silkworms climb onto the feed.

2. The harvesting ant process for industrially rearing silkworms according to claim 1, wherein: the specification of each lattice is the same.

3. The ant harvesting process for industrially raising silkworms according to claim 1, wherein: the container is cut with a cutter.

4. The ant harvesting process for industrially raising silkworms according to claim 1, wherein: the sealing layer is made of tissue paper.

5. The ant harvesting process for industrially raising silkworms according to claim 1, wherein: the sealing layer is adhered to the outer edge of the container by paste.

6. The ant harvesting process for industrially raising silkworms according to claim 1, wherein: spreading the silkworm eggs in the grids to fill the grids with the silkworm eggs.

7. The ant harvesting process for industrially raising silkworms according to claim 1, wherein: the development time of silkworm egg in dark is 1-3 days, the temperature is controlled at 20-29 deg.C, and the humidity is controlled at 70-85%.

8. The ant harvesting process for industrially raising silkworms according to any one of claims 1 to 7, wherein: and (b) taking the silkworm eggs by using a spoon.

9. The ant harvesting process for industrially raising silkworms according to claim 8, wherein: the capacity of the spoon is determined according to the quantity of the silkworm eggs required to be taken every time, and the silkworm eggs are taken to be flush with the opening of the spoon every time when being taken.

10. The ant harvesting process for industrially raising silkworms according to any one of claims 1 to 7, wherein: the ant harvesting device used in the step (a) adopts a culture frame.

11. The ant harvesting process for industrially raising silkworms according to any one of claims 1 to 7, wherein: in the step (a), a feed extruder is adopted to feed the feed into the termite collecting device.

12. The harvesting ant process for industrially rearing silkworms according to claim 1, wherein: after the silkworm eggs are hatched into the newly-hatched silkworms, the silkworm eggs are cultivated into the silkworm at the first age stage.

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