CN218784187U - Utilize incomplete wing fruit fly to raise device of reddish singing stinkbug - Google Patents

Abstract

The utility model discloses a device for breeding red-color rhynchophorus lucorum by using drosophila lucorum, which relates to the technical field of insect culture, and comprises a drosophila lucorum breeding box, a drosophila lucorum culture box, a red-color rhynchophorus lucorum breeding box, a communicating pipe and at least one feed box; the feed box is provided with a feed cavity; the winged fruit fly breeding box is provided with a breeding cavity for placing the winged fruit fly imagoes, and the winged fruit fly imagoes lay eggs in the feed cavity in the breeding cavity; the winged fruit fly culture box is provided with a culture cavity and an escape hole, a feed box for laying eggs is placed in the culture cavity, and a blocking part is arranged at the escape hole; the red color rhynchophorus rex breeding box is provided with an inlet hole and a breeding cavity; the communicating pipe can be communicated with the escape hole and the inlet hole, and adults cultured in the culture chamber can enter the red color rhynchophorus lucorum breeding box. The utility model provides an utilize incomplete wing fruit fly to raise device of rainbow rey stinkbug through cultivateing incomplete wing fruit fly in order to raise the red color rey stinkbug, need not to carry out host plant's cultivation, promotes the raising efficiency of red color rey stinkbug.

Description

Utilize incomplete wing fruit fly to raise device of reddish singing stinkbug

Technical Field

The utility model belongs to the technical field of the insect culture technique and specifically relates to an utilize incomplete wing fruit fly to raise device of red colourful lygus.

Background

The red-colored rhynchophorus lucidus is a natural enemy insect of the family of the Nepridae with strong predation capability, can predate various pests such as cotton bollworms, brown planthoppers on rice, striped rice borers, rice leaf rollers, tobacco aphids, tobacco budworms, prodenia litura, mulberry pest saddles, teak moths and the like on cotton, and has very wide application prospect in the aspect of crop pest control. The artificial breeding technology of the natural enemies has few reports, and the patent number (CN 112674034A) discloses a method for breeding the red-colored rhynchophorus lucidus. Although the generation breeding of the red-colored rhynchophorus lucorum can be completed by the method, the defects that the host plants need to be continuously planted and the breeding of the host plants needs to consume a large amount of time, labor force and the like exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an utilize incomplete wing fruit fly to raise device of the lucky bug of rainbow color to solve the problem that above-mentioned prior art exists, through cultivateing incomplete wing fruit fly in order to raise the lucky bug of reddish color, need not to carry out the cultivation of host plant, promote the raising efficiency of the lucky bug of reddish color.

In order to achieve the above purpose, the utility model provides a following scheme:

the utility model provides a device for breeding red-color lygus lucorum by using the fly flies with the residual wings, which comprises a fly breeding box, a fly cultivating box, a breeding box for red-color lygus lucorum, a communicating pipe and at least one feed box; the feed box is provided with a feed cavity for containing feed; the residual wing drosophila melanogaster propagation box is provided with a propagation cavity, and the feed box and the residual wing drosophila melanogaster propagation box can be detachably connected; the breeding cavity is used for placing a plurality of adult drosophila cullochaena into the breeding cavity, and the adult drosophila cullochaena can lay eggs in the feed cavity; the residual wing fruit fly culture box is provided with a culture cavity, and the feed box in the propagation cavity can be detachably connected with the residual wing fruit fly culture box; the residual wing fruit fly culture box is provided with an escape hole which can be communicated with the culture cavity and the outside, the escape hole is provided with a plugging component which can seal the culture cavity and the outside, and the plugging component can be detachably connected with the residual wing fruit fly culture box; the red color rhynchophorus rex breeding box is provided with a breeding cavity, the breeding cavity is used for breeding the red color rhynchophorus rex, and an inlet hole capable of communicating the breeding cavity with the outside is formed in the red color rhynchophorus rex breeding box; the two ends of the communicating pipe are respectively used for being detachably connected and communicated with the escape hole and the inlet hole, and adults cultured in the residual wing drosophila culture box can enter the red rhynchophorus reyi breeding box through the escape hole, the communicating pipe and the inlet hole.

Preferably, the residual wing drosophila breeding box, the residual wing drosophila culture box and the red color rhynchopus reys breeding box are all provided with vent holes; and the escape hole is arranged at the top of the residual wing drosophila culture box.

Preferably, the residual wing drosophila breeding box, the residual wing drosophila culturing box and the red-coloured rhynchophorus ferrugineus breeding box respectively comprise a cover body and a box body which can be detachably connected; the cover body of the residual wing drosophila cultivation box is provided with the escape hole, and the cover body of the red tarry bug breeding box is provided with the entrance hole.

Preferably, the quantity of the residual wing drosophila breeding boxes and the quantity of the residual wing drosophila culture boxes are at least two; the two residual wing fruit fly breeding boxes are respectively a first breeding box and a second breeding box, and the two residual wing fruit fly culture boxes are respectively a first culture box and a second culture box; the first breeding box and the second breeding box are respectively used for placing adult small residual-wing flies and adult large residual-wing flies, the feed box in the first breeding box is used for containing feed for the small residual-wing flies, and the feed box in the second breeding box is used for containing feed for the large residual-wing flies; the first culture box and the second culture box are respectively used for placing the feed boxes in the first propagation box and the second propagation box and respectively culturing the imagoes of the small residual wings and the imagoes of the big residual wings; the red color rhynchophorus rex breeding box is communicated with the first culture box or the second culture box through the communicating pipe.

Preferably, the residual wing drosophila breeding box and the residual wing drosophila culture box are both fixedly provided with fixing components, the upper end of the feed box is open, and the fixing components are used for being detachably connected with the feed box.

Preferably, each fixed subassembly all includes connecting rod and connection pad, the feed box sets up to the tube-shape, connecting rod one end with the top fixed connection in the incomplete wing fruit bat breeds the box or the incomplete wing fruit bat cultivates the box, the other end with connection pad fixed connection, the connection pad with the upper end of feed box can be dismantled and be connected, just be provided with on the connection pad and enable the feed chamber with breed the chamber or cultivate the chamber intercommunication and be used for making the insect-passing hole that the incomplete wing fruit bat passed through.

Preferably, an insect prevention member is provided at each of the air holes.

Preferably, the residual wing drosophila breeding box and the residual wing drosophila culture box are both provided with a first climbing part.

Preferably, still include the second climbing part, the second climbing part sets up in the inside of the red color ruyu raises the box.

Preferably, the first climbing part is set as wood wool, the blocking part is set as absorbent cotton, and the insect prevention part is set as an insect prevention net; the second climbing part includes support frame and a plurality of climbing board, and is a plurality of the climbing board sets up in clearance side by side, and each the climbing board homoenergetic dismantle connect in the support frame.

The utility model discloses for prior art gain following technological effect:

the utility model provides an utilize incomplete wing fruit fly to raise device of red colourful hunting bugs, the incomplete wing fruit fly adult in breeding the intracavity can lay eggs in the fodder box in breeding the intracavity, then will breed the fodder box that has incomplete wing fruit fly egg in the intracavity and pull down from incomplete wing fruit fly breeds the box and set up to cultivate the intracavity, and set up new fodder box in breeding the intracavity and supply the incessant continued laying eggs of incomplete wing fruit fly adult to satisfy the raising demand; after the residual wing drosophila eggs in the feed box in the culture cavity are cultured into the adult drosophila residual wings, the plugging part is removed to open the escape hole, and the escape hole is communicated with the inlet hole through the communicating pipe, so that the adult drosophila residual wings enter the red color rhynchopus lucorus feeding box through the escape hole, the communicating pipe and the inlet hole and are caught by the red color rhynchopus lucorus in the feeding cavity; therefore, only the feed is needed to be used indoors to breed the adult drosophila remained, and then the adult drosophila remained is used for breeding the red color rhynchophorus lucidus, so that the complicated step of breeding the prey by planting host plants is omitted, the breeding cost is reduced, and the efficiency of breeding the red color rhynchophorus lucidus is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of an axis view of the device for rearing red fly bug using drosophila residua according to the first embodiment;

FIG. 2 is a schematic front view of the connection structure of the drosophila residua culture box and the red color rhynchophorus lucorum breeding box provided in the first embodiment;

FIG. 3 is a schematic top view of the structure of the connection between the drosophila melanogaster culture box and the red rhynchophorus lucorum breeding box provided in FIG. 2;

FIG. 4 is a left side view schematically illustrating a structure of the connection between the drosophila melanogaster culture box and the red rhynchophorus lucorum breeding box provided in FIG. 2;

figure 5 is a schematic structural view of a second climbing member provided in the first embodiment.

Icon: 1-a device for feeding the red fleahopper by using the drosophila bicolor; 10-a feed box; 11-a feed chamber; 20-a drosophila residual wing breeding box; 21-a reproduction chamber; 30-a residual wing drosophila culture box; 31-culture chamber; 32-escape pores; 40-red color rhynchophorus rex breeding box; 41-a feeding cavity; 42-an entrance hole; 50-a communicating tube; 60-vent holes; 70-a cover body; 80-a box body; 90-a stationary component; 91-a connecting rod; 92-connecting disc; 93-wormhole; 100-an insect repellent component; 110-a second climbing member; 111-a support; 112-climbing plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model aims at providing an utilize incomplete wing fruit fly to raise device of the lucky bug of rainbow color to solve the problem that above-mentioned prior art exists, through cultivateing incomplete wing fruit fly in order to raise the lucky bug of reddish color, need not to carry out the cultivation of host plant, promote the raising efficiency of the lucky bug of reddish color.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Example one

The embodiment provides a device 1 for feeding red-color rhynchophorus lucorum by using the drosophila lucorum, please refer to fig. 1-4, which comprises a drosophila lucorum breeding box 20, a drosophila lucorum culture box 30, a red-color rhynchophorus lucorum feeding box 40, a communicating pipe 50 and at least one feed box 10; the feed box 10 is provided with a feed cavity 11 for containing feed; the residual wing fruit fly breeding box 20 is provided with a breeding cavity 21, and the feed box 10 and the residual wing fruit fly breeding box 20 can be detachably connected; a plurality of adult flies with the wings broken away are placed in the breeding cavity 21 and can lay eggs in the feed cavity 11; the residual wing fruit fly culture box 30 is provided with a culture cavity 31, and the feed box 10 in the breeding cavity 21 can be detachably connected with the residual wing fruit fly culture box 30; the residual wing fruit fly culture box 30 is provided with an escape hole 32 which can communicate the culture cavity 31 with the outside, the escape hole 32 is provided with a plugging part which can seal the culture cavity 31 and the outside, and the plugging part can be detachably connected with the residual wing fruit fly culture box 30; the red color rhynchophorus ferrugineus breeding box 40 is provided with a breeding cavity 41, the breeding cavity 41 is used for breeding the red color rhynchophorus ferrugineus, and the red color rhynchophorus ferrugineus breeding box 40 is provided with an inlet hole 42 capable of communicating the breeding cavity 41 with the outside; both ends of the communicating pipe 50 are detachably connected and communicated with the escape hole 32 and the inlet hole 42, respectively, and the adults cultured in the winged fruit fly culturing box 30 can enter the red rhynchus lucorus raising box 40 through the escape hole 32, the communicating pipe 50 and the inlet hole 42.

The adult winged fruit fly in the breeding cavity 21 can lay eggs in the feed box 10 in the breeding cavity 21, then the feed box 10 with the winged fruit fly eggs in the breeding cavity 21 is detached from the winged fruit fly breeding box 20 and is arranged in the culture cavity 31, and a new feed box 10 is arranged in the breeding cavity 21 for the adult winged fruit fly to continuously lay eggs to meet the feeding requirement; after the eggs of the drosophila melanogaster in the feed box 10 in the culture cavity 31 are cultured into adult drosophila melanogaster, the plugging part is removed to open the escape hole 32, the communication pipe 50 is communicated with the escape hole 32 and the inlet hole 42, so that the adult drosophila melanogaster enters the red color rhynchopus raising box 40 through the escape hole 32, the communication pipe 50 and the inlet hole 42 and is caught by the red color rhynchopus melanogaster in the raising cavity 41; therefore, only the feed is needed to be used indoors to breed the adult drosophila remained, and then the adult drosophila remained is used for breeding the red color rhynchophorus lucidus, so that the complicated step of breeding the prey by planting host plants is omitted, the breeding cost is reduced, and the efficiency of breeding the red color rhynchophorus lucidus is improved.

In particular, the blocking means may be provided as absorbent cotton.

In the alternative of this embodiment, it is preferable that the residual wing drosophila breeding box 20, the residual wing drosophila culturing box 30 and the red lucorum raising box 40 are all provided with vent holes 60; the vent holes 60 are arranged to facilitate the normal breathing of the drosophila melanogaster, the escape holes 32 are arranged at the top of the drosophila melanogaster culture box 30, and the adult drosophila melanogaster can enter the communicating pipes 80 through the escape holes 32 and continuously enter the red luck bug feeding box 40 along the communicating pipes 80 by utilizing the upward climbing tendency of the adult drosophila melanogaster.

In the alternative of this embodiment, it is preferable that the winged fruit fly breeding box 20, the winged fruit fly culturing box 30 and the red color rhynchophorus ferrugineus breeding box 40 each include a cover 70 and a box 80 which can be detachably connected, so as to facilitate assembly and replacement of the breeding box 10; the cover body 70 of the winged fruit fly culture box 30 is provided with an escape hole 32, the cover body 70 of the red color rhynchophorus ferrugineus breeding box 40 is provided with an inlet hole 42, and the winged fruit fly adults can enter the communicating pipe 80 through the escape hole 32 and continuously enter the red color rhynchophorus ferrugineus breeding box 40 along the communicating pipe 80 by utilizing the upward climbing tendency of the winged fruit fly adults.

Further, the inlet hole 42 may be provided on the bottom wall of the red color rhynchophorus raising box 40, and the red color rhynchophorus raising box 40 is located above the winged fruit fly culture box 30.

In the alternative of this embodiment, preferably, according to the predation capacity of the red color rhynchophorus lucorus at different ages, 1-3 ages of the red color rhynchophorus lucorus are fed by adult drosophila corpulenta, nymphs and/or adults of the red color rhynchophorus lucorus greater than 3 ages are fed by adult drosophila corpulenta, so that the artificial feeding of the whole generation of the red color rhynchophorus lucorus is realized; therefore, the residual-wing drosophila breeding box 20 and the residual-wing drosophila culture box 30 are both provided at least two, preferably, can be both provided at two, the two residual-wing drosophila breeding boxes 20 are respectively a first breeding box and a second breeding box, and the two residual-wing drosophila culture boxes 30 are respectively a first culture box and a second culture box; the first breeding box and the second breeding box are respectively used for placing adult small residual wing drosophila and adult large residual wing drosophila, the feed box 10 in the first breeding box is used for containing feed for small residual wing drosophila, and the feed box 10 in the second breeding box is used for containing feed for large residual wing drosophila; the first culture box and the second culture box are respectively used for placing the feed boxes 10 in the first breeding box and the second breeding box and respectively culturing the imagoes of the small residual-wing drosophila melanogaster and the imagoes of the large residual-wing drosophila melanogaster; the red color rhynchophorus rex raising box 40 is communicated with the first culture box or the second culture box through a communicating pipe 50.

Specifically, when the red-color rhynchophorus ferrugineus bred in the red-color rhynchophorus ferrugineus breeding box 40 is at age of 1-3, feeding adult small winged fruit flies, for the breeding of the small winged fruit flies, after the adult small winged fruit flies mate and lay eggs in the first breeding box for 4-5 days, before fruit fly larvae climb out of the feed box 10, taking down the feed box 10 in the first breeding box, reinstalling the feed box 10 containing new feed for the adult small winged fruit flies into the first breeding box for the adult small winged fruit flies to continue laying eggs, putting the taken down feed box 10 containing laid eggs into the first breeding box, after the eggs of the small winged fruit flies hatch, after the larvae climb out of the inner wall of the first breeding box and become pupae for standby application, when the number of the pupae in the first breeding box begins to turn into adults and the adult flies escape, taking down the plugging parts on the communicating pipes on the first breeding box 32, and communicating the holes 42 of the red-color rhynchophorptophorus ferrugineus breeding box 40 with 50 through communicating pipes; when the red color rhynchophorus lucidus bred in the red color rhynchophorus lucidus breeding box 40 is older than 3 years, feeding the red color rhynchophorus lucidus adults by using the adult drosophila lucidus, taking down the feed box 10 in the second breeding box before the fruit fly larvae climb out of the feed box 10 after the adult drosophila lucidus mate and lay eggs in the second breeding box for 7-8 days, re-installing the feed box 10 filled with new feed for the adult drosophila lucidus to continue laying eggs in the second breeding box, putting the taken down feed box 10 containing eggs into the second breeding box, waiting for hatching of the eggs of the fruit fly lucidus, standing for later use after the larvae climb out of the pupae on the inner wall of the second breeding box, and when the number of the adult flies in the second breeding box starts to emerge into the adult, taking down the plugging part on the escape hole 32 of the second breeding box, and communicating the escape hole 32 with the red color rhynchophorus lucidus breeding box 40 through the communicating pipe 50; the artificial rearing of the entire generation of the red lucorum bug in the red lucorum rearing box 40 is thus achieved.

Further preferably, the number of the red color rhynchophorus lucorum raising boxes 40 is two, after the red color rhynchophorus lucorum in one red color rhynchophorus lucorum raising box 40 grows to be larger than the nymph of 3 years, at this time, the red color rhynchophorus lucorum raising box 40 does not need to utilize the first propagation box and the first culture box to culture the imagoes of drosophila remained wing, so that the culture of the imags of drosophila remained wing can be used for the culture of the 1-3 years old red color rhynchophorus lucorum in the other red color rhynchophorus lucorum raising box 40, and thus, the raising efficiency of the red color rhynchophorus lucorum is improved.

In the alternative of this embodiment, it is preferable that the fixing assemblies 90 are fixedly disposed in the residual wing drosophila breeding box 20 and the residual wing drosophila culturing box 30, the upper end of the feed box 10 is open, so that the drosophila can climb out of the feed cavity 11, and the fixing assemblies 90 are detachably connected to the feed box 10, so that the feed box 10 can be detachably disposed in the residual wing drosophila breeding box 20 and the residual wing drosophila culturing box 30, thereby facilitating replacement and transfer of the feed box 10.

Further preferably, each fixing component 90 comprises a connecting rod 91 and a connecting disc 92, the feed box 10 is arranged in a cylindrical shape, one end of the connecting rod 91 is fixedly connected with the inside of the residual-fin drosophila breeding box 20 or the top of the residual-fin drosophila culturing box 30, the other end of the connecting rod is fixedly connected with the connecting disc 92, the connecting disc 92 can be detachably connected with the upper end of the feed box 10, so that the feed box 10 can be fixed in the residual-fin drosophila breeding box 20 or the residual-fin drosophila culturing box 30, and the connecting disc 92 is provided with an insect passing hole 93 which can enable the feed cavity 11 to be communicated with the breeding cavity or the culturing cavity 31 and enable the residual-fin drosophila to pass through, so that the drosophila can climb out of the feed cavity 11.

In an alternative of this embodiment, it is preferable that each of the ventilation holes 60 is provided with an insect prevention member 100 to prevent the drosophila residua or the red color rhynchophorus from escaping from the ventilation hole 60, and in particular, the insect prevention member 100 may be provided as an insect net.

In the alternative of this embodiment, it is preferable that the inside of each of the winged fruit fly breeding box 20 and the winged fruit fly culture box 30 is provided with a first climbing part for providing a moving place for the winged fruit flies; in particular, the first climbing member may be provided as wooden wire.

In an alternative aspect of this embodiment, please refer to fig. 5, the device 1 for raising red color herein using drosophila melanogaster further includes a second climbing component 110, the second climbing component 110 is disposed in the raising box 40 for red color herein, and the second climbing component 110 is used to provide a moving place for the red color herein and the drosophila melanogaster in the raising box 40.

Further preferably, the second climbing part 110 comprises a support frame 111 and a plurality of climbing plates 112, the plurality of climbing plates 112 are arranged side by side in a clearance manner, and each climbing plate 112 is used for climbing the red-fleshed bug and the winged fruit fly; each climbing plate 112 is detachably connected to the support frame 111, and the size of the activity place is adjusted by adjusting the number of the climbing plates 112; specifically, fretwork in the middle of the support frame 111, each climbing board 112 inserts in the fretwork district side by side, and is provided with the standing groove of a plurality of symmetries on the frame in support frame 111 fretwork district, and each climbing board 112 can set up to the T type, and the standing groove is used for each climbing board 112 of overlap joint, is convenient for adjust the size of climbing board 112 quantity in order to adjust the activity space through the lapped mode.

Specifically, at least climbing plate 112 may be corrugated cardboard; and the number and size of climbing plates 112 is determined according to actual requirements.

The utility model discloses a concrete example is applied to explain the principle and the implementation mode of the utility model, and the explanation of the above example is only used to help understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (10)

1. A device for feeding red-fleshed bug by using winged fruit fly is characterized in that: the method comprises the following steps:

at least one feed box (10) having a feed cavity (11) for containing feed;

the residual-wing fruit fly breeding box (20) is provided with a breeding cavity (21), and the feed box (10) is detachably connected with the residual-wing fruit fly breeding box (20); a plurality of adult winged fruit flies are placed in the breeding cavity (21) and can lay eggs in the feeding cavity (11);

the residual wing fruit fly culture box (30) is provided with a culture cavity (31), and the feed box (10) in the propagation cavity (21) is detachably connected with the residual wing fruit fly culture box (30); an escape hole (32) capable of communicating the culture cavity (31) with the outside is formed in the winged fruit fly culture box (30), a plugging component capable of sealing the culture cavity (31) and the outside is arranged at the escape hole (32), and the plugging component and the winged fruit fly culture box (30) can be detachably connected;

the red color rhynchophorus reys breeding box (40) is provided with a breeding cavity (41), the breeding cavity (41) is used for breeding the red color rhynchophorus reys, and an inlet hole (42) capable of communicating the breeding cavity (41) with the outside is formed in the red color rhynchophorus reys breeding box (40); and

two ends of the communicating pipe (50) are detachably connected and communicated with the escape hole (32) and the inlet hole (42), and adults cultured in the winged drosophila cultivation box (30) can enter the red color rhynchus lucorum cultivation box (40) through the escape hole (32), the communicating pipe (50) and the inlet hole (42).

2. The device for feeding the red fly bug with the drosophila residuata according to claim 1, wherein: the residual wing drosophila breeding box (20), the residual wing drosophila culturing box (30) and the red-coloured rhynchophorus suturalis breeding box (40) are respectively provided with an air vent (60); and the escape hole (32) is arranged at the top of the winged fruit fly culture box (30).

3. The device for feeding the harris lucorum with the drosophila residua according to claim 2, characterized in that: the residual wing drosophila breeding box (20), the residual wing drosophila culturing box (30) and the red rhynchus lucorum breeding box (40) respectively comprise a cover body (70) and a box body (80) which can be detachably connected; the cover body (70) of the winged fruit fly culture box (30) is provided with the escape hole (32), and the cover body (70) of the red-color rhynchophorus suturalis breeding box (40) is provided with the entrance hole (42).

4. The device for feeding the harris lucorum with the drosophila residua according to claim 1, characterized in that: the quantity of the residual wing drosophila breeding boxes (20) and the quantity of the residual wing drosophila culture boxes (30) are at least two; the two residual wing fruit fly breeding boxes (20) are respectively a first breeding box and a second breeding box, and the two residual wing fruit fly culture boxes (30) are respectively a first culture box and a second culture box;

the first breeding box and the second breeding box are respectively used for placing adult drosophila melanogaster with residual wings and adult drosophila melanogaster with residual wings, the feed box (10) in the first breeding box is used for containing feed for the drosophila melanogaster with residual wings, and the feed box (10) in the second breeding box is used for containing feed for the drosophila melanogaster with residual wings; the first culture box and the second culture box are respectively used for placing the feed boxes (10) in the first breeding box and the second breeding box and respectively culturing imagoes of the small residual wings and the large residual wings; the red color rhynchophorus reys breeding box (40) is communicated with the first culture box or the second culture box through the communicating pipe (50).

5. The device for feeding the harris lucorum with the drosophila residua according to claim 1, characterized in that: fixed subassembly (90) all are fixed in incomplete wing drosophila breeding box (20) and incomplete wing drosophila cultivates box (30), feed box (10) upper end is uncovered, fixed subassembly (90) be used for with feed box (10) can be dismantled and be connected.

6. The device for feeding the red fly bug with the drosophila residuata according to claim 5, wherein: each fixed subassembly (90) all includes connecting rod (91) and connection pad (92), feed box (10) set up to the tube-shape, connecting rod (91) one end with the top fixed connection in the box (20) is bred to the winged fruit fly or in the winged fruit fly cultivates box (30), the other end with connection pad (92) fixed connection, connection pad (92) with the upper end of feed box (10) can be dismantled and be connected, just be provided with on connection pad (92) and enable feed chamber (11) with breed chamber (21) or cultivate chamber (31) intercommunication and be used for making wormhole (93) that the winged fruit fly passed through.

7. The device for feeding the harris lucorum with the drosophila residua according to claim 2, characterized in that: insect prevention parts (100) are arranged at the positions of the air holes (60).

8. The device for feeding the harris lucorum with the drosophila residua according to claim 7, characterized in that: and first climbing components are arranged in the residual wing drosophila breeding box (20) and the residual wing drosophila culture box (30).

9. The device for feeding the harris lucorum with the drosophila residua according to claim 8, characterized in that: still include second climbing part (110), second climbing part (110) set up in the box (40) is raised to the ruhry stinkbug of red colourful.

10. The device for feeding the harris lucorum with the drosophila residua according to claim 9, characterized in that: the first climbing component is made of wood wool, the blocking component is made of absorbent cotton, and the insect prevention component (100) is made of insect prevention net; the second climbing part (110) comprises a support frame (111) and a plurality of climbing plates (112), the climbing plates (112) are arranged in a side-by-side clearance mode, and each climbing plate (112) can be detachably connected to the support frame (111).

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