CN112119981B

CN112119981B - Black soldier fly larva breeding box

Info

Publication number: CN112119981B
Application number: CN202010970071.XA
Authority: CN
Inventors: 王春铭
Original assignee: South China Agricultural University
Current assignee: South China Agricultural University
Priority date: 2020-09-15
Filing date: 2020-09-15
Publication date: 2022-03-18
Anticipated expiration: 2040-09-15
Also published as: CN112119981A

Abstract

The invention discloses a black soldier fly larva breeding box which comprises a box body and a waste hopper used for collecting waste residues in the box body, wherein the box body is placed in the waste hopper, and a breeding outlet used for transferring larvae out is arranged on the side wall of the box body; the bottom of the box body is provided with a screen for separating larvae from waste residues; a supporting structure for fixedly supporting the box body in a plurality of working states is arranged between the inner wall of the waste hopper and the outer wall corresponding to the box body, the supporting structure comprises a supporting table and a clamping groove, the clamping groove is arranged on the outer wall of the box body or the inner wall of the waste hopper, and the clamping groove comprises a plurality of transverse clamping grooves which are vertically distributed; the support table is arranged on the inner wall of the waste hopper or the outer wall of the box body; the support tables are located in different transverse slots to represent different working states. This heisui river horsefly larva breeds box is exclusively used in the larva of breeding heisui river horsefly, is convenient for carry out the management of pertinence to the larva, is favorable to forming extensive, modular breed.

Description

Black soldier fly larva breeding box

Technical Field

The invention relates to a black soldier fly breeding device, in particular to a black soldier fly larva breeding box.

Background

In order to meet the requirements of harmless and recycling treatment of organic garbage, a method for treating kitchen garbage by hermetia illucens is introduced in China in recent years. The black soldier fly is native to America and is a saprophytic soldier fly, and the larva of the black soldier fly has saprophytic life, can take excrement of feeding livestock and domestic garbage, can effectively convert perishable organic garbage into insect protein and grease with high added values, provides a large amount of high-quality and low-cost animal protein sources for the market, and has huge application prospect in the fields of environmental protection and agriculture.

Among the current breeding technology, the breed mode of heisui river horsefly is more extensive, needs to rely on a large amount of manual works to cultivate, especially in the larva stage, lacks the breed box that is used for supplying the larva to grow, does not form the cultivation mode of pertinence, and the breed scale is little, the cost of labor is high, hardly carries out large-scale production and forms the industrialization.

Disclosure of Invention

The invention aims to overcome the existing problems and provides the black soldier fly larva breeding box which is specially used for breeding the black soldier fly larvae, is convenient for purposefully managing the larvae and is beneficial to forming large-scale and modular breeding.

The purpose of the invention is realized by the following technical scheme:

a black soldier fly larva breeding box comprises a box body and a waste hopper, wherein the box body is used for providing a growth space for black soldier fly larvae, the waste hopper is used for collecting waste residues in the box body, the box body is placed in the waste hopper, and a breeding outlet used for transferring the larvae out is formed in the side wall of the box body; the bottom of the box body is provided with a screen for separating larvae from waste residues;

a supporting structure for fixedly supporting the box body in a plurality of working states is arranged between the inner wall of the waste hopper and the outer wall corresponding to the box body, the supporting structure comprises a supporting table and a clamping groove, the clamping groove is arranged on the outer wall of the box body or the inner wall of the waste hopper, and the clamping groove comprises a plurality of transverse clamping grooves which are vertically distributed; the support table is arranged on the inner wall of the waste hopper or the outer wall of the box body; the support tables are located in different transverse slots to represent different working states.

The working principle of the black soldier fly larva breeding box is as follows:

take the example that the draw-in groove sets up on the outer wall of box body, and the brace table sets up on the inner wall of waste material fill.

During operation, put in the fodder through automatic feeding mechanism to the box body, input the heisui river horsefly ovum to the box body again, the worm ovum of heisui river horsefly is hatched in this breed box, and the larva after the hatching continues to grow in current breed box. The aforesaid is normal breed state, and under this state, the brace table of waste material fill is supported in the horizontal draw-in groove that is located the top, and the box body is received basically in the inner chamber of waste material fill, and the breed export of box body is sealed basically to the lateral wall of waste material fill.

When the waste materials and the residues in the box body need to be cleaned, the box body is lifted upwards, so that the bottom surface of the box body, which is far away from the waste hopper, is kept, and enough space is reserved for containing the waste materials and the residues in the box body. Further, shake or vibrate the screen cloth through artifical or automatic mechanism for the fodder residue on the screen cloth falls from the sieve mesh, separates with the larva, and the larva stops on the screen cloth. The aforesaid is the clearance waste material state, and under this state, the brace table of waste material fill is supported in the horizontal draw-in groove that is located the centre, and the bottom position of the breed export of box body still is sealed by the lateral wall of waste material fill.

When the larva in the box body grows to the stage needing to be transferred out (the stage can be the stage before pupation), the box body is lifted upwards, so that the culture outlet of the box body is completely exposed, then the larva is transferred out of the box body through the attraction transfer device and transferred into the next culture module. The above is the larva transfer state, and under this state, the brace table of waste bin is supported in the horizontal draw-in groove that is located the below.

According to a preferable scheme of the invention, the clamping groove is of an E-shaped structure and comprises three transverse clamping grooves and one vertical clamping groove, and the vertical clamping groove is communicated with the same end of the three transverse clamping grooves. Other shapes of structures are of course possible.

In a normal breeding state, the supporting platform is positioned in the transverse clamping groove above the supporting platform; in a waste cleaning state, the supporting table is positioned in the middle transverse clamping groove; in the larva transfer state, the support platform is located in the transverse clamping groove below the support platform. Through the structure, when the box body is switched to different states, the support can be obtained, so that the corresponding work is completed.

Preferably, the outer wall of the box body is provided with a mounting plate, and the clamping groove is formed in the mounting plate. Set up on the body of box body for the draw-in groove, this preferred draw-in groove of setting up the benefit on the affiliated mounting panel lies in, can reduce the thickness of box body lateral wall, reduces the weight of box body.

In a preferred embodiment of the present invention, the supporting structure has two sets, one set is disposed between the inner wall of the waste bin and the outer wall of the box body, and the other set is symmetrically disposed. Thus, the support of the box body can be ensured to be more balanced and stable.

The invention also comprises a state switching mechanism for driving the box body to switch to different working states, wherein the state switching mechanism comprises a first driving rod and a second driving rod;

the outer wall of the top of the box body is fixedly provided with an intermediate transmission plate, and the intermediate transmission plate extends outwards from the outer wall of the box body and downwards after crossing the waste hopper;

the first driving rod comprises a first driving part and a first transmission part, one end of the first transmission part is hinged to the outer wall of the waste hopper through a hinge shaft, and the other end of the first transmission part is fixedly connected with the first driving part; the axis of the articulated shaft is vertical to the side wall of the box body provided with the clamping groove; an indirect driving hole is formed in the first transmission part;

the second driving rod comprises a second driving part and a second transmission part, one end of the second transmission part is hinged to the lower end of the middle transmission plate, and the other end of the second transmission part is fixedly connected with the second driving part; the second driving part crosses the indirect driving hole of the first transmission part. Through the structure, when the box body needs to be switched from the current working state to another working state, for example, from a normal breeding state to a waste material cleaning state, the second driving part of the second driving rod is driven in the corresponding direction (the second driving part moves in the indirect driving hole), and the box body is transversely driven through the second transmission part, so that the supporting table on the waste hopper is far away from the current transverse clamping groove and enters the vertical clamping groove; then the first drive division of the first actuating lever of down drive, because the second drive division crosses in the indirect drive hole of first drive division, so when first drive division swings down round the articulated shaft, upward stick up the second actuating lever in other words first drive division to the vertical up-movement of drive box body (relatively, the brace table on the waste bin moves down along vertical draw-in groove). When the box body rises to the height of the waste material cleaning state, the supporting table is parallel and level with the horizontal clamping groove in the middle, then the second driving part of the second driving rod is driven towards the corresponding direction to drive the box body to move transversely, so that the supporting table is clamped into the horizontal clamping groove in the middle, and the box body is supported under the current state.

Preferably, a limiting plate extending vertically is arranged on the outer wall of the waste hopper, and an elastic clamping mechanism is arranged between the limiting plate and the middle transmission plate;

the elastic clamping mechanism comprises a roller, a connecting column and a compression spring, the connecting column is transversely arranged, one end of the connecting column is transversely movably connected to the middle transmission plate, and the other end of the connecting column is rotatably connected with the roller; the compression spring is sleeved on the connecting column, and two ends of the compression spring respectively abut against the middle transmission plate and the connecting column. Through above-mentioned structure, when second actuating lever drive box body lateral shifting for when the horizontal draw-in groove was kept away from to the brace table, compression spring on the spliced pole received the extrusion and compression deformation, then the box body carries out vertical migration (the vertical removal of brace table in vertical draw-in groove), when brace table and next horizontal draw-in groove parallel and level, compression spring release potential energy on the spliced pole recovers, thereby the drive box body carries out lateral shifting, makes the automatic card of support bar advance in this horizontal draw-in groove.

Furthermore, the elastic clamping mechanisms are provided with two groups, and the two groups of elastic clamping mechanisms are vertically distributed.

Preferably, the number of the first transmission part and the number of the second transmission part are two, and the two transmission parts are respectively arranged on two sides of the waste hopper; the second driving part simultaneously passes through the indirect driving holes of the two first transmission parts, so that balanced driving force can be provided, and the box body stably moves transversely and vertically.

In a preferred embodiment of the present invention, the waste material container further includes a state switching mechanism for driving the waste material container to move vertically relative to the container body, and a driving end of the state switching mechanism acts on the waste material container.

Compared with the prior art, the invention has the following beneficial effects:

1. the larva breeding box is specially used for breeding the larvae of the hermetia illucens, so that the targeted management of the larvae is facilitated, and the large-scale and modular breeding is facilitated.

2. Through set up bearing structure between the outer wall that the inner wall at the waste material fill corresponds with the box body, carry out the fixed stay to the box body respectively under normal breed state, clearance waste material state and larva transfer state, need not manual operation, accomplish a plurality of operating condition's switching automatically to accomplish different breed works.

Drawings

Fig. 1-3 are schematic perspective views of the black soldier fly larva breeding box in different working states, wherein fig. 1 is a schematic view in a normal breeding state, fig. 2 is a schematic view in a waste material cleaning state, and fig. 3 is a schematic view in a larva transferring state.

Fig. 4-7 are side views of the black soldier fly larva breeding box in different working states, wherein fig. 4 is a schematic view in a normal breeding state, fig. 5 is a schematic view in a waste cleaning state, fig. 6 is a schematic view in preparation for switching to a waste cleaning state, and fig. 7 is a schematic view in a larva transferring state.

Detailed Description

In order to make those skilled in the art understand the technical solutions of the present invention well, the following description of the present invention is provided with reference to the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example 1

Referring to fig. 1-7, the black soldier fly larva breeding box in the embodiment comprises a box body 1 for providing a growth space for black soldier fly larvae and a waste hopper 2 for collecting waste residues in the box body 1, wherein the box body 1 is placed in the waste hopper 2, and a breeding outlet 1-1 for transferring the larvae out is arranged on the side wall of the box body 1; the bottom of the box body 1 is provided with a screen 3 for separating larvae from waste residues; a supporting structure for fixedly supporting the box body 1 in a plurality of working states is arranged between the inner wall of the waste hopper 2 and the outer wall corresponding to the box body 1, the supporting structure comprises a supporting table 4 and a clamping groove, and the clamping groove is arranged on the outer wall of the box body 1 and comprises a plurality of transverse clamping grooves 5 which are vertically distributed; the support table 4 is arranged on the inner wall of the waste hopper 2; the support 4 is located in different transverse slots 5 representing different operating states.

Referring to fig. 4-7, the clamping grooves are of an E-shaped structure and include three transverse clamping grooves 5 and one vertical clamping groove 6, and the vertical clamping groove 6 is communicated with the same end of the three transverse clamping grooves 5; in a normal breeding state, the support table 4 is positioned in the transverse clamping groove 5 above; in the state of waste cleaning, the support table 4 is positioned in the middle transverse clamping groove 5; in the larva transfer state, the support platform 4 is located in the lower transverse clamping groove 5. Through the structure, when the box body 1 is switched to different states, the support can be obtained, so that the corresponding work can be completed. Of course, the slot may have other shapes.

Further, be equipped with mounting panel 7 on the outer wall of box body 1, the draw-in groove is seted up on mounting panel 7. For the draw-in groove set up on the body of box body 1, this preferred draw-in groove set up the benefit on affiliated mounting panel 7 lie in, can reduce the thickness of box body 1 lateral wall, reduce the weight of box body 1.

Further, the bearing structure is equipped with two sets, and a set of setting is between the inner wall of waste material fill 2 and the outer wall of box body 1, and another group is the symmetry setting. This ensures that the support of the cartridge 1 is more balanced and stable.

Referring to fig. 1 to 7, the larva cultivating box in the embodiment further comprises a state switching mechanism for driving the box body 1 to switch to different working states, wherein the state switching mechanism comprises a first driving rod and a second driving rod; the fixed intermediate drive plate 8 that is equipped with of outer wall at box body 1 top, this intermediate drive plate 8 is followed the outer wall of box body 1 earlier and is extended outward, crosses behind the waste bin 2 and down extends. The first driving rod comprises a first driving part 9 and a first transmission part 10, one end of the first transmission part 10 is hinged on the outer wall of the waste hopper 2 through a hinge shaft 11, and the other end of the first transmission part 10 is fixedly connected with the first driving part 9; the axis of the articulated shaft 11 is vertical to the side wall of the box body 1 provided with the clamping groove; an indirect driving hole 10-1 is formed in the first transmission part 10; the second driving rod comprises a second driving part 12 and a second transmission part 13, one end of the second transmission part 13 is hinged to the lower end of the middle transmission plate 8, and the other end of the second transmission part 13 is fixedly connected with the second driving part 12; the second driving part 12 crosses in the indirect driving hole 10-1 of the first transmission part 10. Through the structure, when the box body 1 needs to be switched from the current working state to another working state, for example, from the normal breeding state to the waste material cleaning state, the second driving part 12 of the second driving rod is driven in the corresponding direction (the second driving part 12 moves in the indirect driving hole 10-1), and the box body 1 is transversely driven through the second transmission part 13, so that the supporting platform 4 on the waste hopper 2 is far away from the current transverse clamping groove 5 and enters the vertical clamping groove 6; then, the first driving portion 9 of the first driving rod is driven downward, and since the second driving portion 12 crosses the indirect driving hole 10-1 of the first driving portion 10, when the first driving portion 9 swings downward around the hinge shaft 11, it is equivalent to that the first driving portion 9 tilts the second driving rod upward, thereby driving the box body 1 to move vertically upward (relatively, the supporting platform 4 on the waste bin 2 moves downward along the vertical slot 6). When box body 1 rose to the height of clearance waste material state, brace table 4 and the 5 parallel and level of horizontal draw-in grooves that are located the centre, then toward the second drive division 12 of the direction drive second actuating lever that corresponds, drive box body 1 lateral shifting for brace table 4 blocks into and is located horizontal draw-in grooves 5 in the centre, thereby accomplishes box body 1 and supports under current state. Specifically, the first drive portion of the first drive lever and the second drive portion of the second drive lever in the present embodiment function as "drive handles", and can be driven by a manual or automatic drive mechanism.

Referring to fig. 1 to 7, a limit plate 14 extending vertically is arranged on the outer wall of the waste hopper 2, and an elastic clamping mechanism is arranged between the limit plate 14 and the intermediate transmission plate 8; the elastic clamping mechanism comprises a roller 15, a connecting column 16 and a compression spring 17, wherein the connecting column 16 is transversely arranged, one end of the connecting column is transversely movably connected to the middle transmission plate 8, and the other end of the connecting column is rotatably connected with the roller 15; the compression spring 17 is sleeved on the connecting column 16, and two ends of the compression spring respectively abut against the middle transmission plate 8 and the connecting column 16. Through above-mentioned structure, when 1 lateral shifting of second actuating lever drive box body, when making brace table 4 keep away from horizontal draw-in groove 5, compression spring 17 on the spliced pole 16 can be stretched, then box body 1 carries out vertical removal (brace table 4 vertical shifting in vertical draw-in groove 6), when brace table 4 and the 5 parallel and level of next horizontal draw-in groove, compression spring 17 release potential energy on the spliced pole 16 recovers, thereby drive box body 1 carries out lateral shifting, make the automatic card of support bar advance in this horizontal draw-in groove 5.

Further, the first transmission part 10 and the second transmission part 13 are respectively provided with two parts and are respectively arranged at two sides of the waste hopper 2; the second driving part 12 simultaneously passes through the indirect driving holes 10-1 of the two first transmission parts 10, so that a balanced driving force can be provided to stably perform lateral and vertical movements of the cartridge 1.

Specifically, the bottom of the waste hopper 2 in this embodiment is composed of a detachable lower hopper, and when the lower hopper of the waste hopper 2 is filled with waste and residue, the lower hopper is detached, and the waste and residue are transferred to other places for centralized processing.

Referring to fig. 1-7, the operation principle of the black soldier fly larva breeding box in the embodiment is as follows:

during operation, throw in the fodder to box body 1 through automatic feeding mechanism, input the heisui river horsefly ovum to box body 1 again, the ovum of heisui river horsefly is hatched in this box body 1, and the larva after the hatching continues to grow in current box body 1. The above is a normal breeding state, in this state, the support table 4 of the waste hopper 2 is supported in the transverse clamping groove 5 positioned above, the box body 1 is basically received in the inner cavity of the waste hopper 2, and the side wall of the waste hopper 2 basically seals the breeding outlet 1-1 of the box body 1.

When the waste materials and the residues in the box body 1 need to be cleaned, the box body 1 is lifted upwards, so that the bottom surface of the box body 1, which is far away from the waste hopper 2, is kept, and enough space is reserved for accommodating the waste materials and the residues in the box body 1. Further, shake or vibrate screen cloth 3 through artifical or automated mechanism for the fodder residue on the screen cloth 3 falls from the sieve mesh, and with the larva separation, the larva stops on screen cloth 3. The above is a waste cleaning state, in which the support table 4 of the waste hopper 2 is supported in the middle of the transverse slot 5, and the bottom of the breeding outlet 1-1 of the box body 1 is still sealed by the side wall of the waste hopper 2.

When the larva in the box body 1 grows to a stage needing to be transferred out (the stage can be a pupation stage), the box body 1 is lifted upwards, so that the breeding outlet 1-1 of the box body 1 is completely exposed, and then the larva is transferred out of the box body 1 through the attraction transfer device and transferred to the next breeding module. The above is a larva transfer state in which the support table 4 of the waste bin 2 is supported in the transverse slot 5 located below.

Example 2

Unlike embodiment 1, the engaging groove in this embodiment is provided on the inner wall of the waste hopper, and the support base is provided on the outer wall of the box body. Further, the orientation of the E-shaped structure of the card slot in this embodiment is opposite to that of the E-shaped structure in embodiment 1.

Example 3

Different from embodiment 1, the state switching mechanism in this embodiment is used to drive the waste material hopper to move vertically relative to the box body, and is switched to a different working state.

Example 4

Different from the embodiment 1, the bottom of the waste material hopper in the embodiment is composed of a movable bottom plate which can be opened and closed, and a collecting hopper is arranged below the movable bottom plate. When the waste and the residue need to be collected, the movable bottom plate is opened, so that the waste and the residue fall into the collecting hopper at the bottom.

The present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents and are included in the scope of the present invention.

Claims

1. The black soldier fly larva breeding box is characterized by comprising a box body for providing a growth space for black soldier fly larvae and a waste hopper for collecting waste residues in the box body, wherein the box body is placed in the waste hopper, and a breeding outlet for transferring the larvae out is formed in the side wall of the box body; the bottom of the box body is provided with a screen for separating larvae from waste residues;

a supporting structure for fixedly supporting the box body in a plurality of working states is arranged between the inner wall of the waste hopper and the outer wall corresponding to the box body, the supporting structure comprises a supporting table and a clamping groove, the clamping groove is arranged on the outer wall of the box body, and the supporting table is arranged on the inner wall of the waste hopper; the clamping grooves comprise a plurality of transverse clamping grooves which are vertically distributed; the supporting tables are positioned in different transverse clamping grooves to represent different working states;

the outer wall of the box body is provided with an installation plate, and the clamping groove is formed in the installation plate;

the waste hopper is driven to vertically move relative to the box body and is switched to different working states by the state switching mechanism.

2. The black soldier fly larva breeding box according to claim 1, wherein the clamping groove is of an E-shaped structure and comprises three transverse clamping grooves and a vertical clamping groove, and the vertical clamping groove is communicated with the same end of the three transverse clamping grooves;

in a normal breeding state, the supporting platform is positioned in the transverse clamping groove above the supporting platform; in a waste cleaning state, the supporting table is positioned in the middle transverse clamping groove; in the larva transfer state, the support platform is located in the transverse clamping groove below the support platform.

3. The black soldier fly larva raising box according to any one of claims 1 to 2, wherein the support structure is provided in two sets, one set being disposed between the inner wall of the waste bin and the outer wall of the box body, the other set being symmetrically disposed.

4. The black soldier fly larva raising box of claim 1, wherein the state switching mechanism comprises a first drive rod and a second drive rod;

the second driving rod comprises a second driving part and a second transmission part, one end of the second transmission part is hinged to the lower end of the middle transmission plate, and the other end of the second transmission part is fixedly connected with the second driving part; the second driving part crosses the indirect driving hole of the first transmission part.

5. The black soldier fly larva breeding box according to claim 4, wherein a limiting plate extending vertically is arranged on the outer wall of the waste hopper, and an elastic clamping mechanism is arranged between the limiting plate and the middle transmission plate;

the elastic clamping mechanism comprises a roller, a connecting column and a compression spring, the connecting column is transversely arranged, one end of the connecting column is transversely movably connected to the middle transmission plate, and the other end of the connecting column is rotatably connected with the roller; the compression spring is sleeved on the connecting column, and two ends of the compression spring respectively abut against the middle transmission plate and the connecting column.

6. The black soldier fly larva raising box according to claim 5, wherein the two sets of elastic clamping mechanisms are vertically distributed.

7. The black soldier fly larva breeding box according to claim 4, wherein two first transmission parts and two second transmission parts are arranged on two sides of the waste hopper respectively; the second driving part simultaneously passes through the indirect driving holes of the two first transmission parts.