阅读说明：本技术 一种捕虫诱导管 (Insect-catching induction pipe ) 是由 不公告发明人 于 2020-12-01 设计创作，主要内容包括：本发明涉及一种捕虫诱导管,包括：管体,其经配置以诱导容纳虫害；以及连接件,其经配置以将所述管体与气密围护结构相连；其中,管体内的氧含量经配置高于所述气密围护结构内的氧含量。本申请捕虫诱导管利用虫害喜氧特性,可以将害虫诱导至氧含量较高的管体内,据其观察气密围护内害虫的消杀情况,方便清理害虫。(The present invention relates to an insect-catching trap comprising: a tube configured to induce accommodation of pests; and a connector configured to connect the pipe with an airtight enclosure; wherein the oxygen content in the pipe body is configured to be higher than the oxygen content in the airtight enclosure. The pest trapping induction pipe utilizes the oxygen-loving characteristic of pest pests, can induce the pests into the pipe body with higher oxygen content, observes the killing condition of the pests in the airtight enclosure according to the pest trapping induction pipe, and is convenient to clean the pests.)

1. An insect trapping lure tube comprising:

a tube configured to induce accommodation of pests; and

a connector configured to connect the pipe with an airtight enclosure;

wherein, the oxygen content in the pipe body is higher than the oxygen content in the airtight envelope.

2. The insect trapping lure tube of claim 1, further comprising: a first shut-off valve disposed between the pipe body and the connector configured to block or communicate the pipe body and the airtight enclosure.

3. The insect trapping lure tube of claim 1, further comprising: an airtight connection configured to extend through the airtight enclosure and connect with the connector.

4. The insect trapping conduit of claim 3, wherein the airtight connection comprises a connection portion and an airtight portion, the connection portion being connected to the connection member, the airtight portion being disposed between the connection portion and the airtight enclosure.

5. The insect trapping conduit of claim 3, wherein the airtight connection is smaller in diameter than the tube.

6. The insect trapping lure tube of claim 5, further comprising: an adapter disposed between the connector and the gas-tight connection, configured to change a diameter of a pipeline.

7. The insect trapping conduit of claim 2, further comprising: a second stop valve disposed at an end of the tubular body distal from the first stop valve, configured to clear the tubular body of pests or to increase oxygen content in the tubular body.

8. The insect trap conduit of claim 7, wherein the second stop valve is no higher in level than the first stop valve.

9. The insect trapping conduit of claim 2, further comprising: an elbow disposed between the first shut off valve and the connector configured to switch the direction of the pipe.

10. The insect trapping conduit of claim 2, further comprising: a loose joint disposed between the first shut-off valve and the tubular body, configured to facilitate disassembly of the tubular body.

Technical Field

The invention relates to the field of insect killing, in particular to an insect trapping and inducing pipe.

Background

The problem of pest control has become a universal problem to be solved urgently in the field of storage of traditional Chinese medicinal materials and the like. The existing insect killing mode generally adopts: chemical fumigation, physical radiation or freezing insecticide. Wherein, chemical fumigation and physical radiation methods are easy to cause the overproof chemical residues and irreversible damage to medicinal materials, influence the quality of the medicinal materials, pollute the environment and even harm the health of workers. The following are explicitly specified before: the Chinese medicinal materials should not be fumigated by aluminum phosphide or sulfur during storage. The freeze insecticidal method can avoid the above problems, but the cost is high, and large-scale batch insecticidal treatment is difficult to realize. Accordingly, there is a pressing need in the art for an insecticidal device that addresses the problem of insect control.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides an insect-catching trap, which comprises: a tube configured to induce accommodation of pests; and a connector configured to connect the pipe with an airtight enclosure; wherein, the oxygen content in the pipe body is higher than the oxygen content in the airtight envelope.

The insect trapping conduit as described above, further comprising: a first shut-off valve disposed between the pipe body and the connector configured to block or communicate the pipe body and the airtight enclosure.

The insect trapping conduit as described above, further comprising: an airtight connection configured to extend through the airtight enclosure and connect with the connector.

The insect trapping pipe comprises a connecting part and an airtight part, wherein the connecting part is connected with the connecting part, and the airtight part is arranged between the connecting part and the airtight enclosure.

The insect trapping pipe as described above, wherein the airtight connecting portion has a diameter smaller than that of the pipe body.

The insect trapping conduit as described above, further comprising: an adapter disposed between the connector and the gas-tight connection, configured to change a diameter of a pipeline.

The insect trapping conduit as described above, further comprising: a second stop valve disposed at an end of the tubular body distal from the first stop valve, configured to clear the tubular body of pests or to increase oxygen content in the tubular body.

The insect trapping conduit as described above, wherein the second stop valve is not higher than the first stop valve in a horizontal plane.

The insect trapping conduit as described above, further comprising: an elbow disposed between the first shut off valve and the connector configured to switch the direction of the pipe.

The insect trapping conduit as described above, further comprising: a loose joint disposed between the first shut-off valve and the tubular body, configured to facilitate disassembly of the tubular body.

The insect-catching induction pipe utilizes the insect pest oxygen-loving characteristic, can induce insect pests to the outside of the airtight enclosure structure with higher oxygen content, and therefore can thoroughly eliminate the insect pest prevention and control problem of stored goods.

Drawings

Preferred embodiments of the present invention will now be described in further detail with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of an insect-catching induction tube according to one embodiment of the present application; and

fig. 2 is a schematic view of a partial connection of the trap conduit according to one embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the following detailed description, reference is made to the accompanying drawings that form a part hereof and in which is shown by way of illustration specific embodiments of the application. In the drawings, like numerals describe substantially similar components throughout the different views. Various specific embodiments of the present application are described in sufficient detail below to enable those skilled in the art to practice the teachings of the present application. It is to be understood that other embodiments may be utilized and structural, logical or electrical changes may be made to the embodiments of the present application.

Hypoxic gas-regulated insecticidal methods have been proposed. The low-oxygen modified atmosphere insect killing is a method for suffocating insect pests by reducing the oxygen content in a storage space, and is a safe, environment-friendly, pollution-free, residual-free and injury-free insect killing method. However, in the low-oxygen controlled atmosphere insecticidal process, the killing condition of pests in an insecticidal storehouse or an insecticidal cabinet is inconvenient to check, and the pest killing progress cannot be intuitively known.

The application provides an insecticidal induction device, it can cooperate the low oxygen gas-regulating insecticidal method to use, it can link to each other with the airtight envelope that reduces oxygen, utilizes the induced insect pest of its inside high oxygen environment to get into, can be with the insect pest induction to insecticidal induction device to can be isolated outside the storage environment with the insect pest, be convenient for directly perceivedly understand the pest circumstances of killing, clear up the pest in the envelope, have important meaning to the low oxygen insecticidal field.

The technical solution of the present application is further explained by the following specific embodiments. It should be understood by those skilled in the art that the following descriptions are only provided for facilitating the understanding of the technical solutions of the present application, and should not be used to limit the scope of the present application.

FIG. 1 is a schematic view of an insect-catching induction tube according to one embodiment of the present application. Fig. 2 is a schematic view of a partial connection of the trap conduit according to one embodiment of the present application.

As shown, the trap conduit 100 includes a pipe body 101 and a connector 102. The pipe body 101 can be used for containing insect pests, the connecting piece 102 can connect the pipe body to the airtight enclosure, the environment in the airtight enclosure is in a low-oxygen state, the oxygen content in the pipe body is higher than that in the airtight enclosure, the internal environment is in a high-oxygen state relative to the airtight enclosure, and the insect pests can be induced to the outside of the airtight enclosure according to the aerobic characteristic of the insect pests. In some embodiments, the tube may be partially or completely transparent so as to have a visual function, so that the state of the insect-catching can be observed obviously, and the signs and the number of the insect pests can be observed. In some embodiments, the material of the tube body may be glass, acrylic or PVC, and considering the characteristics of fragility and heavy weight of glass, acrylic and PVC materials are preferred. In some embodiments, the length of the tube may be 100-1000mm, preferably 200-500 mm. In some embodiments, the diameter of the tube body may be 15-50mm, preferably 20-35 mm. In some embodiments, the connector 102 may be a connecting outer wire.

In some embodiments, the airtight enclosure may be an airtight enclosure such as an airtight warehouse, an airtight cabinet, or a flexible airtight tent, and the technical solution of the present application will be further described below by taking the airtight warehouse as an example.

Referring to fig. 2, in some embodiments, the insect trapping conduit 100 may further comprise an airtight connection portion, which may be used for connection between the connection member 102 and the airtight storehouse, which includes the connection portion 103 and the airtight portion 104, wherein the connection portion 103 may be a connection pipe thread penetration plate, which may penetrate through a wall plate of the airtight storehouse to communicate the inside of the storehouse with the outside of the storehouse, so that the insect trapping conduit may be connected with the airtight storehouse. Airtight portion can be sealed cushion, and it sets up between the wallboard of connecting pipe thread wearing board and airtight storehouse, can be used for catching insect and lures sealing connection between pipe and the airtight storehouse, guarantees the gas tightness of airtight storehouse. In some embodiments, the connector 102 may be directly coupled to the threads of the coupling. In some embodiments, the airtight connection is positioned between 10 mm and 150mm from an inner bottom surface of the airtight enclosure to facilitate the crawling of pests into the tubular body.

In some embodiments, the diameter of the airtight connection is the same as the diameter of the tube. In some embodiments, the diameter of the airtight connection is smaller than the diameter of the insect trap tube, which facilitates slowing down the rate at which air within the tube is replaced by the hypoxic gas within the airtight enclosure. In some embodiments, the trap conduit 100 may further include an adapter 105 that may be connected at one end to the outer wire 102 and at the other end to the connector 103, with the adapter 105 having different diameters at its ends, such that the airtight connector may be made smaller in diameter than the pipe body, slowing the rate of gas displacement. In some embodiments, the tube 101 may be other shapes, such as: the speed of gas replacement in the pipe can be further relieved through a complex pipeline by spiral rotation, S shape and fold line shape.

In some embodiments, the trap conduit 100 can further include a first shut-off valve 106 disposed between the pipe body and the connector that can be used to block or communicate between the airtight enclosure and the pipe body. When the oxygen-reducing valve is used, firstly, the airtight enclosure structure is subjected to oxygen reduction, when the oxygen content is reduced to a certain degree, the first stop valve is opened, so that the pipe body is communicated with the airtight enclosure structure, the oxygen content in the airtight enclosure structure is reduced, generally, pests can sense the low oxygen when the oxygen content is 5% -10% due to the oxygen preference of the pests and tend to crawl to a position with higher oxygen content, the activity of the pests is more obvious along with the reduction of the oxygen content, and the pests can enter a relatively high-oxygen environment of the pipe body along with the reduction of the oxygen content in the airtight enclosure structure due to the fact that the oxygen content in the pipe body changes slowly. When the pipe body needs to be taken down, the first stop valve can be closed, and the enclosure structure is sealed. In some embodiments, the first shut-off valve 106 is a solenoid valve, and in particular can be controlled by a control device of the controlled atmosphere device, thereby achieving automatic opening/closing adjustment.

In some embodiments, the trap conduit 100 may further include a second shut-off valve 107 disposed at an end of the pipe body remote from the first shut-off valve, which may be used to block or communicate air with the pipe body. When the induced insect pest enters the pipe body, the second stop valve can be closed, and the external air is prevented from entering the airtight envelope to influence the oxygen content in the airtight envelope. And when the insect pest no longer got into the body, closed first stop valve, can open the second stop valve, can shift out the body with the insect pest through inclination. In some embodiments, when the induced pests enter the pipe body, when the oxygen content in the pipe body is consistent with or has little difference with the oxygen content in the airtight enclosure structure, and the induced pests cannot be continuously induced, the second stop valve can be temporarily opened to increase oxygen into the pipe body, so that the pests can be continuously induced to enter the pipe body. In some embodiments, the first stop valve and the second stop valve can be manual ball valves, which can ensure that the opening is effective in clearing the channels, so that the pests can pass through smoothly.

In some embodiments, the insect trapping induction tube may also not include a second shut-off valve 107, which may close the tube body by pipeline plugging, sealing rubber plugs, or the like. In some embodiments, the insect trap can also be provided with a seal head at one end.

In some embodiments, the pipe body is horizontally arranged, i.e. the second stop valve is horizontally equal to the first stop valve. In some embodiments, the tubular body is angled such that the second stop valve is horizontally lower than the first stop valve to facilitate outward removal of the infestation. In some embodiments, the trap conduit 100 may further include a collection bag (not shown) that is disposed in the second shut-off valve and may be used to collect pests in the tubular body, so that the tubular body may be cleaned frequently to prevent them from returning to the airtight enclosure.

In some embodiments, the trap conduit 100 may further include a living joint 108 disposed between the tubular body and the first stop valve, which may facilitate detachment of the tubular body to facilitate removal of pests therefrom. In some embodiments, the trap conduit 100 may further include an elbow 109 disposed between the first stop valve and the connector, so that the direction of the pipe body may be changed, thereby preventing the pipe body from occupying a large effective space. In some embodiments, the trap 100 can also include a tube support 110, which can be used to support a tube. In some embodiments, the tubular body support 110 may be connected to the ground so that the tubular body may be supported on the ground. In some embodiments, the tube support 110 can be coupled to a storage body so that the tubes can be supported on an airtight storage room. In some embodiments, the tube holder 110 can include a securing clamp 111 disposed on the tube holder that can be used to secure a tube, which can include an opening 112 to facilitate removal of the tube. In some embodiments, the fixing tube clamp 111 and the tube body bracket may be integrally formed.

With the reduction of the oxygen content in the space, generally 5-10% of the insect pests can sense low oxygen and tend to crawl to a position with high oxygen content due to the aerobic preference of the insect pests, and with the reduction of the oxygen content, the activities of the insect pests are more obvious, and the oxygen content is lower than a very low state (2%), so that the insect pests gradually lose consciousness, crawl slowly and die slowly. When the device is used, the two stop valves are closed at the initial stage of disinsection, when the oxygen content is reduced to 5% -10%, the first stop valve can be opened, the second stop valve is closed, and because the volume of the induction pipe body is very small compared with the volume of the reservoir body, the oxygen content replacement is slow, the oxygen content change in the induction pipe body is slow, and the oxygen content is high relative to the reservoir body. With the reduction of the oxygen content in the warehouse, the insect pests can enter the relatively high oxygen area of the pipe body of the induction pipe through the holes of the airtight enclosure structure. Along with the going on of insecticidal, can be according to the corpse of the volume of insect pest or regular clearance insect pest, at first close first stop valve and open the second stop valve, can pour the insect pest through inclination. The pipe body can be detached at the loose joint for cleaning, or the pipe body can be detached and connected with the pipe body with the same connector size, and insect pests are caught continuously.

This pipe is lured to insect trap uses the airtight insecticidal space of hypoxemia as the basis, according to the characteristic design development of insect pest oxygen-preference, lures the insect pest through local high oxygen state, reaches the purpose of insect-trapping insecticidal, and it is convenient to use, can install 1 to a plurality ofly according to airtight envelope's demand, can effectively derive the insect pest outside airtight envelope, avoids insect pest corpse to pollute medicinal material and surrounding environment. In some embodiments, the pest trapping induction tube can also be used as a basis for pest assessment, i.e., pest severity can be determined based on the number of pests collected over a period of time. In addition, the compound fertilizer can be used in low-oxygen controlled atmosphere curing storehouses and can also be used as a criterion for judging the pest control effect.

The above embodiments are provided only for illustrating the present invention and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the scope of the present invention, and therefore, all equivalent technical solutions should fall within the scope of the present invention.