CN111742890A

CN111742890A - Automatic collecting system for eggs of lepidoptera moths

Info

Publication number: CN111742890A
Application number: CN202010709143.5A
Authority: CN
Inventors: 张少波; 郭超; 劳传忠; 王智颖
Original assignee: Guangdong Grain Science Institute
Current assignee: Guangdong Grain Science Institute
Priority date: 2020-07-22
Filing date: 2020-07-22
Publication date: 2020-10-09

Abstract

The invention provides an automatic moth egg collecting system for lepidoptera moths, which comprises a moth egg collector, a cyclone separator, a suction fan and a dust collecting bag; the moth egg collector comprises a shell structure formed by butting an upper shell part and a lower shell part, the upper shell part and the lower shell part in the moth egg collector are separated into an upper egg laying chamber and a lower collecting chamber by an isolation net, 1 or more culture plates are arranged in the upper shell part, and a plurality of jacks are formed in the culture plates; the bottom end of the lower shell part is provided with a moth egg collecting port and is communicated with a collecting branch pipe; the cyclone separator comprises a separator main body, the top of the separator main body is provided with a separator air inlet pipe and a separator air outlet pipe, the bottom of the separator main body is provided with a discharge hole, and the separator air inlet pipe is communicated with an air inlet main pipe; the collecting branch pipe of the moth egg collector is communicated with the air inlet main pipe of the cyclone separator, the air outlet pipe of the separator of the cyclone separator is communicated with the air inlet end of the suction fan, and the air outlet end of the suction fan is communicated with the dust collecting bag. The invention realizes the factory automatic batch collection of the moth eggs and can effectively ensure the factory production of the hosts.

Description

Automatic collecting system for eggs of lepidoptera moths

Technical Field

The invention relates to a biological pest control technology in the field of agriculture and forestry, in particular to an automatic moth egg collecting system used in the industrialized production process of an intermediate host for parasitic wasp propagation.

Background

The application number is 201610669295.0's chinese patent discloses a rice moth ovum collecting system, and it is including the box, and the inside of box is equipped with more than one interlayer, and equal interval sets up two rows of linkage in each interlayer, and the slope sets up rice moth ovum vibration collecting vat in the box of linkage below, and the end of rice moth ovum vibration collecting vat stretches out the box. In the structure, a frame for storing the adult rice moth is placed on a suspension device, and eggs produced by the adult rice moth fall into a rice moth egg vibration collecting tank and then are output and collected. This structure realizes the automatic collection function of moth eggs, but: 1. the dead rice moth also falls into the rice moth egg vibration collecting tank; 2. the scales of the adult rice moth can fall off regardless of the living body or the corpse, and the scales are powdery and are difficult to separate when mixed into the eggs of the rice moth. These are very disadvantageous for the separation and collection of moth eggs. There is therefore a need for improvement.

Disclosure of Invention

The invention aims to provide an automatic moth egg collecting system for lepidoptera moths, which can efficiently collect moth eggs which are not doped with impurities, effectively ensure the quantity and quality of the moth eggs, has extremely high collecting efficiency, realizes factory automatic batch collection, and further effectively ensures factory production of hosts, namely parasitic wasps.

The purpose of the invention can be realized by the following technical scheme:

an automatic moth egg collecting system for lepidoptera moths comprises a moth egg collector, a cyclone separator, a suction fan and a dust collecting bag.

The moth egg collector comprises a shell structure which is formed by butting an upper shell part and a lower shell part and is provided with an inner cavity, an upper egg laying chamber and a lower collecting chamber are separated by a transversely arranged isolation net between the upper shell part and the lower shell part in the moth egg collector, a plurality of meshes are uniformly distributed on the isolation net, and the diameters of the meshes are 1-2 mm; the side wall of the upper shell part is provided with an egg laying chamber opening and a movable door plate, 1 or more culture plates are arranged in the upper shell part, and a plurality of jacks are arranged on the culture plates; the bottom end of the lower shell part is provided with a moth egg collecting port and is communicated with a collecting branch pipe.

The cyclone separator comprises a separator main body, a separator air inlet pipe and a separator air outlet pipe are arranged at the top of the separator main body, a discharge hole is formed in the bottom of the separator main body, and the separator air inlet pipe is communicated with an air inlet main pipe.

The tail end of the collecting branch pipe of the moth egg collector is communicated to the air inlet main pipe of the cyclone separator, the air outlet pipe of the cyclone separator is communicated to the air inlet end of the suction fan, and the air outlet end of the suction fan is communicated to the dust collecting bag.

According to the optimal scheme, in the moth egg collector, the inner wall surface of one side, close to the moth egg collecting port, of the lower portion of the lower shell portion is an inclined inner wall surface, the lower portion of the lower collecting chamber is an egg receiving chamber which is gradually narrowed towards the moth egg collecting port, the included angle between the inclined inner wall surface and the horizontal plane close to the moth egg collecting port is a, and the a is 120-140 degrees.

According to a further optimized scheme, the moth egg collector comprises a plurality of moth egg collectors, an air valve is arranged on a collecting branch pipe of each moth egg collector, and the tail ends of the collecting branch pipes are communicated to an air inlet main pipe of the cyclone separator.

In the moth egg collector, oblique clamping grooves are formed in the inner walls of the two sides of the upper shell part, corresponding to the two sides of the culture plates, annular blocking strips for blocking the bottom ends of the oblique clamping grooves are arranged on the inner wall of the bottom end of the upper shell part, the two side parts of the culture plates are inserted into the oblique clamping grooves and are blocked by the annular blocking strips, so that the culture plates are obliquely arranged in the upper shell part of the moth egg collector, and the opening of the oviposition chamber is formed in the side wall of the upper shell part and corresponds to 2 culture plates.

In a further optimized scheme, the moth egg collector also comprises a culture cup, the culture cup is in a cone-shaped cup-shaped structure, the top end of the culture cup is gradually narrowed towards the bottom end, the top end of the culture cup is provided with a cup opening, the insertion opening on the culture plate is a circular opening, the diameter of the circular opening is equivalent to that of the upper portion in the culture cup, and the culture cup is inserted into the insertion opening of the culture plate from the bottom end.

In the moth egg collector, a mounting hole is formed in the side wall of the upper shell part above the opening of the egg laying chamber, 2 [ shaped pressing strips which are vertically arranged are arranged on two sides of the opening of the egg laying chamber, a shaft hole is formed in the top end of the movable door plate, a door shaft movably penetrates through the shaft hole of the movable door plate and is fixedly mounted in the mounting hole of the upper shell part, the movable door plate can rotate around the door shaft to open or close the opening of the egg laying chamber of the upper shell part, and at least 1 [ shaped pressing strip is pressed on the front face of the movable door plate.

In the moth egg collector, an upper connecting ring plate is arranged on the outer wall of the bottom end of the upper shell, a plurality of upper connecting holes are formed in the upper connecting ring plate, a lower connecting ring plate is arranged on the outer wall of the top end of the lower shell, a plurality of lower connecting holes are formed in the lower connecting ring plate, and the upper shell and the lower shell are aligned through the upper connecting holes of the upper connecting ring plate, the lower connecting holes of the lower connecting ring plate and bolts to form the moth egg collector.

In a further preferred embodiment, the side wall of the lower housing has a collection chamber opening and 2 [ shaped ] pressing strips located at two sides of the collection chamber opening, and a movable door plate is movably inserted between the side wall of the lower housing and the [ shaped ] pressing strips to open or close the collection chamber opening.

When the moth egg collector is used, a moth culture device (such as a culture frame or a culture cup in the invention) provided with moth larvae and larva feed is placed on a culture plate in an upper egg laying chamber of the moth egg collector, the moth larvae are eclosized into adults and then are mated and laid in the upper egg laying chamber, the moth eggs pass through meshes of the isolation net and fall into a lower collection chamber, and the bodies of the adult moth eggs are isolated in the upper egg laying chamber by the isolation net and cannot be mixed into the moth eggs, so that the efficient collection of the moth eggs is effectively ensured.

When moth eggs need to be collected, air valves on the suction fan and the moth egg collector are started, the moth eggs in the moth egg collector are sucked into the cyclone separator, the moth eggs are obtained after the cyclone separator is automatically separated, the moth eggs are efficiently and safely separated and collected through a wind conveying and cyclone separation mode, and the collection efficiency and quality of the moth eggs are effectively ensured.

The invention has the following prominent substantive features and remarkable progress:

1. the moth egg collector disclosed by the invention realizes the separation of the moth adults and the moth eggs through the isolation net, avoids the pollution of the dead bodies of the moth adults on the moth eggs, has a simple structure, is easy to operate, can conveniently, quickly and efficiently collect the moth eggs, and can be used for collecting the moth eggs in the industrial production process of lepidoptera moths such as Indian valley moths, pink moth moths, wheat moths and the like.

In addition, scales falling off from the moth adults can also pass through the separation net and fall into the lower collecting chamber, the scales and moth eggs fall on the inclined inner wall surface in the lower collecting chamber and are limited by the angle of the inclined inner wall surface, the scales of the moth adults can be collected on the inclined inner wall surface and cannot slide off, the moth eggs slide off under the action of gravity and are collected towards the moth egg collecting opening, and clean and effective collection of the moth eggs is effectively ensured.

In addition, the automatic collecting system realizes wind power conveying and cyclone separation through the suction fan and the cyclone separator, achieves the purposes of efficiently and safely separating and collecting moth eggs, and can effectively ensure the efficiency and the quality of moth egg collection.

2. The culture plate for placing the moth culture device (such as a culture cup or a culture rack) in the moth egg collector is in an inclined mode, so that the blockage of moth eggs falling to the lower collection chamber can be effectively reduced, eggs laid by adults can fall into the lower collection chamber, and the collection amount of the moth eggs is increased.

3. The moth egg collector ensures the placing stability and the placing quantity of the culture cups by obliquely inserting the moth culture device in the form of the culture cups on the inserting ports of the culture plate, the culture cups are convenient to replace and place, and after eclosion of adults in a single cup is finished, the adults are directly taken out and replaced by a new culture cup, so that new moth larvae for oviposition can be timely supplemented to an upper oviposition chamber.

4. The culture plate and the box body in the moth egg collector also have the characteristics of simple structure and easy assembly; and the moth egg collecting port of the lower shell part is connected with the butt joint port of the fallopian tube in an aligning way, so that the moth eggs in the collecting chamber of the lower part can be discharged from the fallopian tube along the inner wall of the lower shell part, and the loss of the moth eggs is effectively reduced.

Drawings

Fig. 1 is a schematic structural diagram of an automatic lepidoptera moth egg collection system according to the present invention.

Fig. 2 is a schematic structural diagram of a cyclone separator in the automatic lepidoptera moth egg collecting system.

Fig. 3 and 4 are schematic structural views of the moth egg collector of the present invention.

FIG. 5 is a schematic sectional view of a moth egg collector according to the present invention.

FIG. 6 is a schematic sectional view of the moth egg collector of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

Examples

Referring to fig. 1 to 6, an automatic moth egg collecting system for lepidoptera moths comprises a moth egg collector 1, a cyclone separator 11, a suction fan 12 and a dust collecting bag 13.

The cyclone separator 11 comprises a separator main body, the top of the separator main body is provided with a separator air inlet pipe 111 and a separator air outlet pipe 112, the bottom of the separator main body is provided with a discharge hole 113, and the separator air inlet pipe 111 is communicated with an air inlet main pipe 110.

Moth ovum collector 1 has 3, and it is including the shell structure who comprises upper shell portion 3 and lower casing portion 4 butt joint, has the inner chamber. The upper shell part 3 is of a rectangular structure, an upper connecting ring plate 33 is arranged on the outer wall of the bottom end of the upper shell part, and a plurality of upper connecting holes are formed in the upper connecting ring plate 33. The lower shell part 4 is a shell structure with the top end gradually narrowing towards the bottom end, a lower connecting ring plate 43 is arranged on the outer wall of the top end of the lower shell part, a plurality of lower connecting holes are formed in the lower connecting ring plate 43, and the upper shell part 3 and the lower shell part 4 are aligned and connected through the upper connecting holes of the upper connecting ring plate 33, the lower connecting holes of the lower connecting ring plate 43 and the bolts 9 to form the moth egg collector 1.

The moth egg collector 1 is positioned between the upper shell part 3 and the lower shell part 4 and is divided into an upper egg laying chamber 300 and a lower collecting chamber 40 by a transversely arranged isolation net 2, a plurality of meshes are uniformly distributed on the isolation net 2, and the diameters of the meshes are 1-2 mm.

The upper shell part 3 is internally provided with 2 culture plates 5, and the culture plates 5 are provided with a plurality of circular sockets 50. The two sides of the inner walls of the two sides of the upper shell part 3, which correspond to the culture plates 5, are provided with oblique clamping grooves 31, the inner wall of the bottom end of the upper shell part 3 is provided with an annular blocking strip 32 which blocks the bottom ends of the oblique clamping grooves 31, and the two sides of the culture plates 5 are inserted into the oblique clamping grooves 31 and are blocked by the annular blocking strips 32, so that the culture plates 5 are obliquely arranged in the upper shell part 3 of the moth egg collector 1.

Each moth egg collector 1 is internally provided with a plurality of culture cups 6, each culture cup 6 is of a truncated cone-shaped cup-shaped structure, the top end of each culture cup 6 is gradually narrowed towards the bottom end, the top end of each culture cup 6 is provided with a cup opening 60, the diameter of the middle upper part of each culture cup 6 is equivalent to that of the socket 50 on the culture plate 5, and the culture cups 6 are inserted into the sockets 50 on the culture plates 5 from the bottom ends.

The side wall of the upper shell part 3 is provided with an egg laying chamber opening 30 corresponding to 2 culture plates 5 and is provided with a movable door plate 8. The side wall of the upper shell part 3 is provided with a mounting hole above the egg laying chamber opening 30, 2 [ shaped pressing strips 34 ] which are vertically arranged are arranged at two sides of the egg laying chamber opening 30, the top end of the movable door plate 8 is provided with a shaft hole, and a door shaft 81 movably penetrates through the shaft hole of the movable door plate 8 and is fixedly mounted in the mounting hole of the upper shell part 3, so that the movable door plate 8 can rotate around the door shaft 81 to open or close the egg laying chamber opening 30 of the upper shell part 3. As shown in fig. 4, during the rotation of the movable door panel 8, there are 1 [ shape beads 34 ] pressed on the front surface of the movable door panel 8 all the time to make the back surface of the movable door panel 8 always stick to the upper housing 3, so as to reduce the gap between the movable door panel 8 and the upper housing 3.

The side wall of the lower shell part 4 is provided with a collecting chamber opening 42 and 2 [ shaped lower pressing strips 431 positioned at two sides of the collecting chamber opening 42, and a movable door plate 7 is movably inserted between the side wall of the lower shell part 4 and the [ shaped lower pressing strips 431 and opens or closes the collecting chamber opening 42.

The bottom end of the lower shell part 4 is provided with a moth egg collecting port 46, the inner wall surface of one side of the lower part of the lower shell part 4 close to the moth egg collecting port 46 is an inclined inner wall surface 41, the lower part of the lower collecting chamber 40 is an egg receiving chamber 400 gradually narrowed towards the moth egg collecting port 46, and the included angle a between the inclined inner wall surface 41 and the horizontal plane close to the moth egg collecting port 46 end is 135 degrees.

In the moth egg collector 1, a moth egg collecting port 46 of the lower shell part 4 is communicated with a collecting branch pipe 44, and an air valve 45 is arranged on the collecting branch pipe 44.

Referring to fig. 1 specifically, the tail end of the collecting branch pipe 44 of each moth egg collector 1 is respectively communicated to the air inlet main pipe 110 of the cyclone separator 11, the separator air outlet pipe 112 of the cyclone separator 11 is communicated to the air inlet end of the suction fan 12, and the air outlet end of the suction fan 12 is communicated to the dust collection bag 13.

In this embodiment, the moth egg collector 1 and the culture plate 5 are made of colorless transparent organic glass plates with a thickness of 0.5cm, wherein the upper shell portion 3 has a length × width × of 60cm × 40cm × 60cm, the lower shell portion 4 has a height H of 70cm and a top length × width of 60cm × 40cm, the culture cup 6 is made of colorless transparent plastic and has a height of 12 cm., the moth egg collector 1 is transparent from the inside to the outside, and the inside and the outside of the moth egg collector 1 can be easily observed at any time³H, the air quantity of the suction fan 12 is regulated and controlled (generally at 70 m)³About/h) to realize the centrifugal separation of moth eggs and impurities in the cyclone separator 11.

In this embodiment, taking the pink moth as an example, when the pink moth is used, moth larvae mixed with feed are placed in the culture cup 6, the movable door plate 8 is opened, the culture cup 6 is placed on the culture plate 5 in the upper egg laying chamber 300, the moth larvae are cultured in the culture cup 6, then feathering, mating and egg laying are carried out, the produced moth eggs fall into the lower collection chamber 40 through the meshes of the isolation net 2, dead bodies of the adult moths are isolated in the upper egg laying chamber 300 by the isolation net 2 and cannot fall into the lower collection chamber 40, meanwhile, scales falling off from the bodies of the moth eggs and the adult moths fall into the lower collection chamber 40, then fall onto the inclined inner wall surface 41 in the egg receiving chamber 400 and are limited by the angle and the surface friction force of the inclined inner wall surface 41, the scales are gathered on the inclined inner wall surface 41 and cannot slide down to the moth egg collection port 46 along the inclined inner wall surface 41. When necessary, the movable door plate 7 on the lower shell part 4 is opened to clean the inner space of the lower collection chamber 40.

The suction fan 12 and the air valve 45 are started at regular time (usually every 12 hours), the moth eggs in the moth egg collector 1 pass through the moth egg collecting opening 46 along with the air flow, the collecting branch pipe 44 → the air inlet main pipe 110 → the cyclone separator 11, after being separated by the cyclone separator 11, the moth eggs are discharged and collected through the discharge opening 113 of the cyclone separator 11 due to heavy weight, and impurities containing scales, feed residues and the like are collected from the separator air outlet pipe 112 of the cyclone separator 11 → the suction fan 12 → the dust collection bag 13 along with the air flow due to light weight, so that on the premise of improving the moth egg collecting efficiency, the impurity content in the moth eggs is further reduced, and the collecting efficiency and the quality of the moth eggs are effectively ensured.

Claims

1. An automatic moth egg collecting system for lepidoptera moths comprises a moth egg collector (1), a cyclone separator (11), a suction fan (12) and a dust collecting bag (13);

the moth egg collector (1) comprises a shell structure which is formed by butting an upper shell part (3) and a lower shell part (4) and is provided with an inner cavity, an upper egg laying chamber (300) and a lower collecting chamber (40) are formed in the moth egg collector (1) between the upper shell part (3) and the lower shell part (4) by a transversely arranged isolation net (2), a plurality of meshes are uniformly distributed on the isolation net (2), and the diameters of the meshes are 1-2 mm; an oviposition chamber opening (30) is arranged on the side wall of the upper shell part (3) and a movable door plate (8) is installed on the side wall of the upper shell part, 1 or more culture plates (5) are arranged in the upper shell part (3), and a plurality of jacks (50) are arranged on the culture plates (5); the bottom end of the lower shell part (4) is provided with a moth egg collecting port (46) and is communicated with a collecting branch pipe (44);

the cyclone separator (11) comprises a separator main body, the top of the separator main body is provided with a separator air inlet pipe (111) and a separator air outlet pipe (112), the bottom of the separator main body is provided with a discharge hole (113), and the separator air inlet pipe (111) is communicated with an air inlet main pipe (110);

the tail end of a collecting branch pipe (44) of the moth egg collector (1) is communicated to an air inlet main pipe (110) of the cyclone separator (11), a separator air outlet pipe (112) of the cyclone separator (11) is communicated to an air inlet end of the suction fan (12), and an air outlet end of the suction fan (12) is communicated to the dust collection bag (13).

2. The automatic lepidopteran moth egg collection system of claim 1, wherein: in the moth egg collector (1), the inner wall surface of one side of the lower part of the lower shell part (4) close to the moth egg collecting port (46) is an inclined inner wall surface (41), the lower part of the lower collecting chamber (40) is an egg receiving chamber (400) which is gradually narrowed towards the moth egg collecting port (46), the included angle between the inclined inner wall surface (41) and the horizontal plane close to the moth egg collecting port (46) is a, and the a is 120-140 degrees.

3. The automatic lepidopteran moth egg collection system of claim 1, wherein: the moth egg collector (1) comprises a plurality of moth egg collectors, an air valve (45) is arranged on a collecting branch pipe (44) of each moth egg collector (1), and the tail ends of the collecting branch pipes (44) are communicated to an air inlet main pipe (110) of the cyclone separator (11).

4. The automatic lepidopteran moth egg collection system of claim 1, or 2, or 3, wherein: in moth ovum collector (1), the both sides that correspond culture plate (5) on the both sides inner wall of upper shell portion (3) have slant draw-in groove (31), have annular blend stop (32) of sealing up the bottom of slant draw-in groove (31) on the bottom inner wall of upper shell portion (3), the both sides portion of culture plate (5) is inserted in slant draw-in groove (31) and is kept out, make culture plate (5) slant install in upper shell portion (3) of moth ovum collector (1) by annular blend stop (32), spawning room opening (30) are located and are corresponded between 2 culture plate (5) on the lateral wall of upper shell portion (3).

5. The automatic lepidopteran moth egg collection system of claim 1, or 2, or 3, wherein: moth ovum collector (1) is still including cultivateing cup (6), cultivate cup (6) and be the top towards the round platform shape cup structure that the bottom gradually narrows down, the top of cultivateing cup (6) has rim of a cup (60), socket (50) on cultivateing board (5) are diameter and cultivate the circular mouth that upper portion diameter is equivalent in cup (6), cultivate cup (6) and insert on socket (50) of cultivateing board (5) by the bottom.

6. The automatic lepidopteran moth egg collection system of claim 1, or 2, or 3, wherein: in moth ovum collector (1), the top that lies in oviposition room opening (30) on the lateral wall of upper shell portion (3) has the mounting hole, the both sides that lie in oviposition room opening (30) have 2 [ shape layering (34) of vertical setting, the top of activity door plant (8) has the shaft hole, a door-hinge (81) activity is passed the shaft hole fixed mounting of activity door plant (8) in the mounting hole of upper shell portion (3), make activity door plant (8) can rotate around door-hinge (81) and open or close oviposition room opening (30) of upper shell portion (3), 1 at least [ shape layering (34) are pressed on the front of activity door plant (8).

7. The automatic lepidopteran moth egg collection system of claim 6, wherein: in moth ovum collector (1), have on the bottom outer wall of upper shell portion (3) and connect crown plate (33), have a plurality of connecting holes on last connecting crown plate (33), have lower connecting crown plate (43) on the top outer wall of lower shell portion (4), have a plurality of lower connecting holes on lower connecting crown plate (43), upper shell portion (3) and lower shell portion (4) align through the last connecting hole of upper connecting crown plate (33), the lower connecting hole and bolt (9) of lower connecting crown plate (43) and connect into moth ovum collector (1).

8. The automatic lepidopteran moth egg collection system of claim 7, wherein: in the moth egg collector (1), a collecting chamber opening (42) and 2 [ shaped lower pressing strips (431) positioned at two sides of the collecting chamber opening (42) are arranged on the side wall of the lower shell part (4), and a movable door plate (7) is movably inserted between the side wall of the lower shell part (4) and the [ shaped lower pressing strips (431) to open or close the collecting chamber opening (42).