CN106689065B

CN106689065B - Automatic get rice moth ovum device

Info

Publication number: CN106689065B
Application number: CN201611148334.9A
Authority: CN
Inventors: 覃振强; 宋修鹏; 韦金菊; 罗亚伟; 魏春燕; 李杨瑞; 刘璐; 李德伟
Original assignee: Sugarcane Research Institute of Guangxi Academy of Agricultural Sciences
Current assignee: Sugarcane Research Institute of Guangxi Academy of Agricultural Sciences
Priority date: 2016-12-13
Filing date: 2016-12-13
Publication date: 2023-05-30
Anticipated expiration: 2036-12-13
Also published as: CN106689065A

Abstract

The invention provides an automatic rice moth egg taking device which comprises a shell, a rice moth cage, a driving mechanism, a hairbrush and an egg collecting drawer. The rice moth cage comprises a cage body and a rotating shaft, wherein a spawning cavity is formed in the cage body, an egg outlet part for allowing rice moth eggs to pass through is formed in the side wall of the cage body, the rotating shaft is fixedly connected with the cage body, the rotating shaft is rotatably arranged on the shell, at least one end part of the rotating shaft is positioned outside the shell, a rice moth inlet and outlet channel is formed in the rotating shaft, one end of the rice moth inlet and outlet channel penetrates through the rotating shaft to form a rice moth inlet and outlet, the other end of the rice moth inlet and outlet channel is communicated with the spawning cavity, the rice moth inlet and outlet is positioned outside the shell, and a hole cover for opening or closing the rice moth inlet and outlet is arranged on the rotating shaft; the driving mechanism is connected with the rotating shaft, the hairbrush is arranged on the inner side of the shell and contacts with the side wall of the cage body, and the egg collecting drawer is movably arranged in the shell and is positioned below the rice moth cage. The automatic rice moth egg taking device can automatically finish rice moth egg taking and improve production efficiency.

Description

Automatic get rice moth ovum device

Technical Field

The invention relates to a collection device of biological insect eggs, in particular to a device for collecting rice moth eggs.

Background

With the continuous and intensive research of trichogramma and the wide application of trichogramma in agricultural production, the trichogramma is primarily formed around the industrial chain of trichogramma. In order to artificially reproduce and produce trichogramma, a great deal of research has been carried out before, wherein trichogramma is reproduced in a great quantity by utilizing eggs of wheat moth, rice moth, castor silkworm, tussah silkworm and the like, and a good effect is obtained. The collection of the rice moth eggs is an important process of artificial breeding and trichogramma production, and currently, the rice moth eggs on attachments are manually swept away by a brush in China. The artificial egg collecting operation has low work efficiency, the operation environment is high in temperature, high in humidity and high in dust concentration, and suitable machinery is lacking to replace the artificial work, so that the artificial egg collecting operation becomes a technical bottleneck for trichogramma propagation for a long time.

Disclosure of Invention

Aiming at the problems, it is necessary to provide an automatic rice moth egg taking device to solve the problems of high labor intensity, long working time and low efficiency of manually collecting rice moth eggs.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

an automatic rice moth egg taking device comprises a shell, a rice moth cage, a driving mechanism, a hairbrush and an egg collecting drawer. The rice moth cage comprises a cage body and a rotating shaft, wherein an egg laying cavity for accommodating rice moth is formed in the cage body, an egg outlet part for allowing rice moth eggs to pass through is formed in the side wall of the cage body, the rotating shaft is fixedly connected with the cage body, the rotating shaft is rotatably arranged on the shell, at least one end part of the rotating shaft is positioned outside the shell, a rice moth inlet and outlet channel is formed in the rotating shaft, one end of the rice moth inlet and outlet channel penetrates through the rotating shaft to form a rice moth inlet and outlet, the other end of the rice moth inlet and outlet channel is communicated with the egg laying cavity, the rice moth inlet and outlet is positioned outside the shell, and a hole cover for opening or closing the rice moth inlet and outlet is arranged on the rotating shaft; the driving mechanism is connected with the rotating shaft to drive the rotating shaft to rotate, the hairbrush is arranged on the inner side of the shell and contacts with the side wall of the cage body, the egg collecting drawer is movably arranged in the shell and positioned below the rice moth cage, and the egg collecting drawer can be pulled in and pulled out relative to the shell under the action of external force.

Further, the cage body comprises two opposite end plates and a peripheral wall connected with the peripheries of the two end plates, the two end plates and the peripheral wall jointly enclose an oviposition cavity, the rotating shaft is fixedly connected with the two end plates, the egg outlet part is arranged on the peripheral wall, and the hairbrush is in contact with the peripheral wall of the cage body.

Further, the axis of rotation is including rotationally install in on the casing and the first shaft part and the second shaft part that the axis is mutual coincide, first shaft part with the one end of second shaft part all is located outside the casing, first shaft part and the second shaft part respectively with two end plate fixed connection, first shaft part link up corresponding end plate, the rice moth business turn over passageway link up and locate on the first shaft part, the handhole door is located on the first shaft part, actuating mechanism is located outside the casing and with the second shaft part is connected.

Further, the hole cover is detachably mounted on the first shaft portion.

Further, a vent hole is formed in the side wall of the shell.

Further, the bottom wall of the shell is provided with ventilation holes, the bottom of the egg collecting drawer is a ventilation filter screen, the automatic rice moth egg taking device further comprises an air draft mechanism, and the air draft mechanism comprises a shell, a connecting pipe, a collecting box, a fan and a filter bag; the shell is arranged at the bottom of the shell, and a collecting cavity is formed in the shell; the collecting cavity is communicated with the air holes; the connecting pipe is arranged on the shell and is communicated with the collecting cavity through a communication hole arranged on the connecting pipe; one end of the connecting pipe is arranged on the collecting box, the filter bag is arranged in the collecting box and is communicated with the connecting pipe, and the fan is arranged on the collecting box.

Further, the air exhausting mechanism further comprises a collecting pipe, one end of the collecting pipe is arranged on the shell or the connecting pipe and is communicated with the connecting pipe, and the other end of the collecting pipe is detachably arranged at the inlet and the outlet of the rice moth.

Further, one end of the collecting pipe is arranged on the connecting pipe, the automatic rice moth egg taking device further comprises a baffle plate and a driving assembly, the baffle plate is arranged in the connecting pipe, the driving assembly can drive the baffle plate to rotate between a first position and a second position, and when the baffle plate rotates to the first position, the baffle plate seals the communication hole and enables the collecting pipe to be communicated with the filter bag; when the baffle rotates to the second position, the communication hole is opened so that the shell is communicated with the filter bag, and the communication channel between the collecting pipe and the filter bag is closed.

Further, the brush is mounted on the top wall of the housing.

Further, the shell is made of transparent materials.

By adopting the technical scheme, the invention has the following beneficial effects:

1. according to the automatic rice moth egg taking device, the driving mechanism drives the rice moth cage to rotate, so that the brush and the rice moth cage generate relative motion, further rice moth eggs attached to the rice moth cage are automatically swept down into the egg collecting drawer, the collected rice moth eggs can be obtained by pulling out the egg collecting drawer, and compared with a traditional manual collection method, the working efficiency is improved, the labor intensity is reduced, the production cost is effectively reduced, and the wide application of trichogrammars in agricultural production is facilitated.

2. According to the automatic rice moth egg taking device, negative pressure is formed in the collecting box through the fan, scales, coarse powder, dust and the like generated when the rice moth cage rotates enter the filter bag along with air to be collected, and the scales, coarse powder and the like generated when the rice moth cage rotates are ensured not to diffuse out of the automatic rice moth egg taking device to pollute the operation environment.

3. According to the automatic rice moth egg taking device, the inside of the collecting box is negative pressure through the fan, so that rice moth in the rice moth cage is rapidly pumped into the filter bag through the collecting pipe for collecting, and compared with a traditional manual collecting method, the working efficiency is improved.

[ description of the drawings ]

Fig. 1 is a schematic structural view of an automatic rice moth egg taking device according to a preferred embodiment of the present invention.

In the attached drawings, a 100-automatic rice moth egg taking device, a 2-shell, a 22-cavity, a 25-supporting bar, a 26-ventilation hole, a 27-ventilation hole, a 4-rice moth cage, a 42-cage body, a 423-end plate, a 425-peripheral wall, a 426-egg laying cavity, a 44-rotation shaft, a 442-first shaft part, a 443-second shaft part, a 445-rice moth inlet and outlet channel, a 446-rice moth inlet and outlet, a 5-hole cover, a 6-driving mechanism, a 7-brush, an 8-egg collecting drawer, a 9-ventilation mechanism, a 92-shell, a 922-collecting cavity, a 94-connecting pipe, a 942-communication hole, a 96-collecting box, a 97-fan, a 98-filter bag, a 99-collecting pipe and a 10-baffle.

[ detailed description ] of the invention

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, an embodiment of the present invention provides an automatic rice moth egg taking device 100, which includes a housing 2, a rice moth cage 4, a driving mechanism 6, a brush 7 and an egg collecting drawer 8. The rice moth cage 4 for accommodating rice moth (not shown) to be spawned is rotatably installed on the housing 2; the driving mechanism 6 is connected with the rice moth cage 4 to drive the rice moth cage 4 to rotate; a brush 7 is installed at the inner side of the housing 2 and contacts the rice moth cage 4 to sweep out rice moth eggs (not shown) attached to the rice moth cage 4; an egg collection drawer 8 is drawably installed in the housing 2 and positioned below the rice moth cage 4 to collect the rice moth eggs swept by the brush 7.

In the present embodiment, the housing 2 has a substantially cubic shape. A chamber 22 is formed in the housing 2. The rice moth cage 4 includes a cage body 42 and a rotation shaft 44. The cage 42 is generally cylindrical and includes two opposed end plates 423 and a peripheral wall 425 connecting the peripheral edges of the two end plates 423. The two end plates 423 and the peripheral wall 425 together define a spawning chamber 426 for receiving rice moth. The peripheral wall 425 is provided with an egg-discharging portion (not shown) through which the rice moth eggs pass. In this embodiment, the peripheral wall 425 is made of a gauze, and the mesh of the gauze is an egg-discharging portion through which the rice moth eggs pass. The rotation shaft 44 is fixedly connected to the two end plates 423, the rotation shaft 44 is rotatably mounted on the housing 2, and at least one end portion of the rotation shaft 44 is located outside the housing 2. In the present embodiment, the rotation shaft 44 includes a first shaft portion 442 and a second shaft portion 443 that are rotatably attached to the housing 2 and whose axes overlap each other. The first shaft portion 442 and the second shaft portion 443 are fixedly connected to the two end plates 423, respectively, wherein the first shaft portion 442 penetrates the corresponding end plate 423. One end of each of the first shaft portion 442 and the second shaft portion 443 is located outside the housing 2.

In order to facilitate the taking and placing of the rice moth, a rice moth access passage 445 is also provided in the first shaft portion 442. One end of the rice moth access passage 445 penetrates the first shaft portion 442 to form a rice moth access 446, and the other end of the rice moth access passage 445 communicates with the spawning chamber 426. In the present embodiment, the rice moth access passage 445 extends in the axial direction of the first shaft portion 442 and penetrates opposite ends of the first shaft portion 442. The rice moth inlet and outlet 446 is positioned outside the housing 2 so as to facilitate the user to put in or take out the rice moth into the spawning chamber 426 through the rice moth inlet and outlet 446. The first shaft 442 is provided with a hole cover 5 for opening or closing the rice moth inlet 446. In the present embodiment, the hole cover 5 is detachably attached to an end portion of the first shaft portion 442.

The driving mechanism 6 is installed outside the housing 2 and connected to the second shaft portion 443 to drive the cage 42 connected to the second shaft portion 443 to rotate. In the present embodiment, the driving mechanism 6 is connected to the second shaft portion 443 by a belt transmission mechanism, it will be appreciated that the driving mechanism 6 may be connected to the second shaft portion 443 by other transmission mechanisms, such as a gear transmission mechanism, or directly connected to the second shaft portion 443.

In this embodiment, the brush 7 is mounted on the top wall of the housing 2 and contacts the peripheral wall 425 of the cage 42. When the cage 42 rotates relative to the housing 2, the brush 7 is able to move along the peripheral wall 425 of the cage 42 to sweep off the rice moth eggs attached to the peripheral wall 425 of the cage 42. The egg collecting drawer 8 is drawably arranged in the shell 2, and specifically comprises: two support bars 25 are arranged on the inner side wall of the shell 2, the two support bars 25 are oppositely arranged, and the bottom of the egg collecting drawer 8 is slidingly supported on the two support bars 25. When the egg collecting drawer 8 has collected the rice moth eggs, the egg collecting drawer 8 can be slid along the two support bars 25 to be drawn out of the shell 2, so as to take out the collected rice moth eggs.

In this embodiment, the side wall of the housing 2 is further provided with a ventilation hole 26, so that the housing 2 has better ventilation performance. The bottom wall of the shell 2 is provided with an air vent 27, and the bottom of the egg collecting drawer 8 is a ventilated filter screen. The automatic rice moth egg taking device 100 further comprises an air exhausting mechanism 9. The air extraction mechanism 9 includes a housing 92, a connecting tube 94, a collection box 96, a fan 97, and a filter bag 98. The housing 92 is installed at the bottom of the case 2 and the inside of the housing 92 forms a collection chamber 922, the collection chamber 922 communicating with the ventilation holes 27. The connection pipe 94 is installed on the housing 92 and communicates with the collection chamber 922 through a communication hole 942 provided on the connection pipe 94. One end of the connecting tube 94 is mounted to a collection box 96. A filter bag 98 is disposed within the collection tank 96 and communicates with the connecting tube 94. The fan 97 is mounted on the collection box 96. When the fan 97 operates, air in the shell 2 sequentially enters the filter bag 98 through the bottom of the egg collecting drawer 8, the air holes 27 on the bottom wall of the shell 2, the collecting cavity 922 and the connecting pipe 94, and is filtered by the filter bag 98 and then discharged to the external environment. In the process, negative pressure is formed in the shell 2, scales, coarse powder, dust and the like generated when the rice moth cage 4 rotates enter the filter bag 98 along with air to be collected, and the scales and coarse powder generated when the rice moth cage 4 rotates are ensured not to be diffused outside the automatic rice moth egg taking device 100 so as to pollute the operation environment.

In this embodiment, the suction mechanism 9 further comprises a collection tube 99. One end of the collecting pipe 99 is installed on the connection pipe 94 and communicates with the connection pipe 94, and the other end of the collecting pipe 99 is detachably installed at the rice moth inlet and outlet 446. When the rice moth eggs are collected, one end of the collecting pipe 99 can be arranged at the inlet 446 of the rice moth, the fan 97 is opened, and the negative pressure is formed in the collecting box 96 through the fan 97, so that the rice moth in the rice moth cage 4 is pumped into the filter bag 98 through the collecting pipe 99, and the rice moth is collected rapidly. It will be appreciated that in other embodiments, one end of the collection tube 99 may also be mounted to the housing 92.

The automatic rice moth egg taking device 100 further includes a barrier 10 and a driving assembly (not shown). The baffle 10 is mounted within the connecting tube 94 and the drive assembly is capable of driving the baffle 10 to rotate between a first position and a second position. When the shutter 10 is rotated to the first position, the shutter 10 closes the communication hole 942 and communicates the collection tube 99 with the filter bag 98 to prevent rice moth from entering the housing 2 from the communication hole 942; when the shutter 10 is rotated to the second position, the communication hole 942 is opened to communicate the housing 2 with the filter bag 98 and close the communication passage of the collection tube 99 with the filter bag 98.

In the present embodiment, the housing 2, the outer shell 92, the collecting pipe 99 and the collecting box 96 may be made of transparent materials, so as to facilitate observation of the collecting conditions of the rice moth eggs and the rice moth.

When the automatic rice moth egg taking device 100 is used, firstly, the hole cover 5 is opened, rice moth is placed in the rice moth cage 4, and then the hole cover 5 is covered on the rice moth inlet and outlet 446 so as to prevent rice moth from flying out of the rice moth cage 4. Next, the shutter 10 is rotated to the second position, and the communication hole 942 is opened. After the rice moth spawns, the fan 97 and the driving mechanism 6 are started, at this time, the rice moth cage 4 rotates relative to the shell 2, and the brush 7 sweeps on the peripheral wall 425 of the rice moth cage 4 to sweep the rice moth eggs attached to the rice moth cage 4 into the egg collecting drawer 8. In this process, the operating fan 97 makes the inside of the collection box 96 negative pressure, so that scales, dust and the like generated when the rice moth cage 4 rotates are introduced into the filter bag 98 along with air. Finally, after the collection of the rice moth eggs is completed, the egg collecting drawer 8 is pulled out, and the rice moth eggs can be taken out. Then, the hole cover 5 is opened, one end of the collection tube 99 is mounted on the first shaft portion 442, the shutter 10 is rotated to the first position, the communication hole 942 is closed, and the collection tube 99 is brought into communication with the filter bag 98. The inside of the collecting box 96 is made to be negative pressure by the fan 97, so that the rice moth in the rice moth cage 4 is sucked into the filter bag 98 through the collecting pipe 99, and the rice moth after spawning is collected rapidly.

It will be appreciated that the configuration of the cage 42 is not limited to this embodiment. In other embodiments, the cage 42 may be spherical, and the rotation shaft 44 is connected to the cage 42 and drives the cage 42 to rotate under the driving of the driving mechanism 6.

The foregoing description is directed to the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the invention, and all equivalent changes or modifications made under the technical spirit of the present invention should be construed to fall within the scope of the present invention.

Claims

1. The utility model provides an automatic get rice moth ovum device, includes casing and rice moth cage, its characterized in that: the shell is made of transparent materials, a cavity is formed in the shell, the rice moth cage comprises a cage body and a rotating shaft, a spawning cavity for accommodating rice moth is formed in the cage body, a spawning part for allowing rice moth eggs to pass through is arranged on the side wall of the cage body, the rotating shaft is fixedly connected with the cage body, the rotating shaft is rotationally arranged on the shell, at least one end part of the rotating shaft is positioned outside the shell, a rice moth inlet and outlet channel is arranged in the rotating shaft, one end of the rice moth inlet and outlet channel penetrates through the rotating shaft to form a rice moth inlet and outlet, the other end of the rice moth inlet and outlet channel is communicated with the spawning cavity, the rice moth inlet and outlet is positioned outside the shell, a driving mechanism, a brush and an egg collecting drawer are arranged on the rotating shaft, the driving mechanism is connected with the rotating shaft to drive the rotating shaft, the brush cover is arranged on the inner side of the shell and is in contact with the side wall of the cage body, the egg collecting drawer is movably arranged below the shell and can collect eggs under the action of the shell; the cage body comprises two opposite end plates and a peripheral wall connected with the peripheries of the two end plates, the two end plates and the peripheral wall jointly enclose the spawning cavity, the rotating shaft is fixedly connected with the two end plates, the spawning part is arranged on the peripheral wall, and the hairbrush is in contact with the peripheral wall of the cage body; the rotary shaft comprises a first shaft part and a second shaft part which are rotatably arranged on the shell and have axes overlapped with each other, one ends of the first shaft part and the second shaft part are respectively positioned outside the shell, the first shaft part and the second shaft part are respectively fixedly connected with the two end plates, the first shaft part penetrates through the corresponding end plates, the rice moth inlet and outlet channel is penetrated on the first shaft part, the hole cover is arranged on the first shaft part, and the driving mechanism is positioned outside the shell and is connected with the second shaft part; the hole cover is detachably arranged on the first shaft part; the bottom wall of the shell is provided with an air vent, the bottom of the egg collecting drawer is provided with an air-permeable filter screen, the automatic rice moth egg taking device also comprises an air draft mechanism, and the air draft mechanism comprises a shell, a connecting pipe, a collecting box, a fan and a filter bag; the shell is arranged at the bottom of the shell, and a collecting cavity is formed in the shell; the collecting cavity is communicated with the air holes; the connecting pipe is arranged on the shell and is communicated with the collecting cavity through a communication hole arranged on the connecting pipe; one end of the connecting pipe is arranged on the collecting box, the filter bag is arranged in the collecting box and is communicated with the connecting pipe, and the fan is arranged on the collecting box; the air exhausting mechanism further comprises a collecting pipe, one end of the collecting pipe is arranged on the shell or the connecting pipe and is communicated with the connecting pipe, and the other end of the collecting pipe is detachably arranged at the inlet and outlet of the rice moth; one end of the collecting pipe is arranged on the connecting pipe, the automatic rice moth egg taking device also comprises a baffle plate and a driving assembly, the baffle plate is arranged in the connecting pipe, the driving assembly can drive the baffle plate to rotate between a first position and a second position, and when the baffle plate rotates to the first position, the baffle plate seals the communication hole and enables the collecting pipe to be communicated with the filter bag; when the baffle rotates to the second position, the communication hole is opened so that the shell is communicated with the filter bag, and the communication channel between the collecting pipe and the filter bag is closed.

2. An automatic rice moth egg taking device as defined in claim 1, wherein: and the side wall of the shell is provided with a vent hole.

3. An automatic rice moth egg taking device according to any one of claims 1 to 2, wherein: the brush is arranged on the top wall of the shell.