CN216796262U - Insect poisoning device - Google Patents

Abstract

The utility model belongs to the field of poisoning insects, and particularly relates to an insect poisoning device for popular science teaching. The poison bottle of the device comprises a first connecting piece and a first opening and closing piece, and the worm bottle comprises a second connecting piece and a second opening and closing piece; the two connecting pieces are used for connecting the poison bottle and the worm bottle, and the two opening and closing pieces are used for controlling: when the poison bottle is connected with the insect bottle, the bottom opening of the poison bottle and the top opening of the insect bottle are opened, and a channel is formed between the two openings; when the poison bottle and the insect bottle are separated, the bottom opening of the poison bottle and the top opening of the insect bottle are both automatically closed. The poison bottle and the insect bottle can be directly and quickly jointed and separated, and are very convenient to disassemble and assemble; the poison bottle and the insect bottle are communicated when being combined and are respectively closed when being separated, so that the poison gas in the poison bottle can be prevented from leaking, and the workload of operators for sealing the insect bottle additionally can be saved. The device has the advantages that the components and the structure of the device are cooperated, and the technical effects of convenience in operation, cleanness and environmental protection are realized together.

Description

Insect poisoning device

Technical Field

The utility model belongs to the field of poisoning insects, and particularly relates to an insect poisoning device.

Background

The poison bottle is a main appliance for killing insects during collection, and is specially used for quickly fumigating and killing the captured insects so as to prepare complete specimens in time.

Chinese patent ZL201420618259.8 provides an insect poison bottle, which comprises a medicine bottle and an insect chamber; the bottle lid inboard of this poison bottle is equipped with the medicine bottle, and when the bottle lid was closed, the space between the inner wall of poison bottle and the medicine bottle outer wall formed the worm's room, has realized from this that medicament and insect hold respectively. However, the vial has the following drawbacks: when the medicine bottle is connected with the worm chamber, an operator needs to open the poison bottle cap, connect the medicine bottle cap to the inner side of the poison bottle cap, connect the medicine bottle to the inner side of the medicine bottle cap and finally cover the poison bottle cap on the poison bottle; when the medicine bottle is taken out from the worm room, an operator needs to open the poison bottle cap and then detach the medicine bottle cap from the top cover of the poison bottle, and because the medicine bottle cap is provided with a central hole and a diffusion hole, the medicine bottle with the medicine bottle cap is not completely closed, toxic gas can overflow from the hole, and the medicine bottle is extremely easy to damage the environment and human bodies; if the medicine bottle cap is not taken off from the poison bottle cap, the whole poison bottle containing the insect corpse is in an open state although the medicine bottle is closed; if the poison bottle is sealed, another poison bottle cap is needed to be arranged on the poison bottle cap. Therefore, the operation steps of connection and disassembly between the medicine bottle and the worm chamber are various, and the medicine bottle and the worm chamber cannot form respective sealing states simultaneously when being separated, so that the workload is obviously increased for an operator; meanwhile, the medicine bottle can occupy the internal space of the insect bottle when being inserted, and the insects stored in the insect bottle are easily extruded.

In order to solve the problems, a novel insect poisoning device is needed in current scientific research and science popularization teaching, the device can realize quick connection and disassembly between a poison bottle and an insect bottle, the poison bottle and the insect bottle are communicated with each other when being connected, the poison bottle and the insect bottle form a closed structure when being separated, poison gas can be prevented from leaking, a bottle cap does not need to be prepared for the insect bottle, the device is environment-friendly, and the workload of operators is greatly reduced. More importantly, in the science popularization teaching environment, the risk of toxic gas leakage can be avoided to the maximum extent, and teachers and students are protected to the maximum extent.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems in the prior art, the present invention provides an insect poisoning device. The apparatus of the present invention comprises:

a vial, the vial comprising:

the first connecting piece is used for connecting the insect bottle; the first connecting piece is arranged at the bottom end of the poison bottle;

a first opening and closing member for controlling: when the poison bottle is connected with the insect bottle, the bottom opening of the poison bottle and the top opening of the insect bottle are opened, and a channel is formed between the two openings; when the poison bottle and the insect bottle are separated, the bottom opening of the poison bottle and the top opening of the insect bottle are both closed;

the first opening and closing member further comprises:

a first sealing member for sealing the bottom opening of the vial; the first sealing member is arranged inside the poison bottle;

a first elastic member for adjusting a position of the first seal member; one end of the first elastic component is arranged on one surface of the first sealing element facing the top of the poison bottle, and the other end of the first elastic component is arranged on one surface of the first supporting element facing the bottom of the poison bottle;

a first support member for supporting the first resilient member within the vial; the first supporting piece is covered above the opening at the bottom end of the poison bottle, and the opening end of the first supporting piece is fixed with the inner bottom surface of the poison bottle;

a first engaging member for forming a hollow passage when the poison bottle and the bug bottle are connected; the first connecting piece is hollow, one end of the first connecting piece is connected with one surface, facing the bottom opening, of the first sealing piece, and a first quick plug-in unit is arranged at the other end of the first connecting piece and is used for being connected with a second quick plug-in unit of the insect bottle; a first vent hole is formed in the first connecting piece and close to the first sealing piece, and the first vent hole is used for toxic gas to pass through;

the absorption body is used for absorbing the liquid toxin and is arranged on the inner wall of the toxin bottle, and the absorption body comprises a shell and contents;

the device further comprises:

an insect bottle, comprising:

the second connecting piece is used for connecting the poison bottle; the second connecting piece is arranged at the top end of the insect bottle;

a second opening and closing member for controlling: when the poison bottle is connected with the insect bottle, a channel is formed between the bottom opening of the poison bottle and the top opening of the insect bottle, and when the poison bottle and the insect bottle are separated, the bottom opening of the poison bottle and the top opening of the insect bottle are both closed;

the second opening and closing member further comprises:

a second sealing member for sealing the top opening of the insect bottle; the second sealing piece is arranged inside the insect bottle;

a second elastic member for adjusting a position of the second sealing member; one end of the second elastic component is arranged on one surface of the second sealing piece facing the bottom of the insect bottle, and the other end of the second elastic component is arranged on one surface of the second supporting piece facing the top of the insect bottle;

the second supporting piece is used for providing support for the second elastic part inside the insect bottle; the second support part is surrounded below the top end opening of the insect bottle, and the opening end of the second support part is fixed with the inner top surface of the virus bottle;

a second connector for forming a hollow channel when the poison bottle and the bug bottle are connected; the second connecting piece is hollow, one end of the second connecting piece is connected with one surface, facing the top opening, of the second sealing piece, and a second quick plug-in unit is arranged at the other end of the second connecting piece and is used for being connected with the first quick plug-in unit of the poison bottle; and a second vent hole is formed in the position, close to the second sealing piece, of the second connecting piece and used for allowing toxic gas to pass through.

In a preferred embodiment, the first connecting piece and the second connecting piece are connected through a buckle or a sleeve; the first quick insert and the second quick insert are shown connected by a snap or sleeve.

In a preferred embodiment, the first quick-insert and the second quick-insert are both a centrally-bored six-lobed fifth wheel, or are both bushings.

In a preferred embodiment, the vial is provided with a plurality of the first opening members, and the insect vial is provided with one of the second opening members.

In a preferred embodiment, the vial further comprises: the electric fan is used for accelerating the flow of toxic gas; the electric fan is arranged inside the poison bottle and is connected with the top cover of the poison bottle.

In a preferred embodiment, the insect bottle further comprises: the bottom cover of the insect bottle is connected with the bottle body of the insect bottle through a buckle or a sleeve.

In a preferred embodiment, the insect bottle is made of a transparent material.

In a preferred embodiment, the body of the insect bottle is a cube, and magnifying glasses are arranged on four side faces of the cube.

The utility model has the following beneficial effects:

1. the poison bottle and the insect bottle are provided with the connecting piece and the opening and closing piece, so that the poison bottle and the insect bottle can be quickly connected and quickly separated, and are very convenient to disassemble and assemble.

2. The opening and closing part of the utility model comprises an elastic part, a sealing part and a joint part (comprising a quick plug-in and a vent hole), and the poisoning device realizes the following effects by changing the positions of a sealing gasket and a through hole: when the poison bottle and the insect bottle are jointed into a whole, a poison gas channel is formed between the poison bottle and the insect bottle through the joint part, so that poison gas flows into the insect bottle from the inside of the poison bottle; when the poison bottle and the insect bottle are separated, the sealing piece is automatically attached to the opening, and the poison bottle and the insect bottle automatically form a closed state. Therefore, the poison bottle and the insect bottle are communicated when combined and are closed when separated, so that the toxic gas in the poison bottle can be prevented from leaking, and the workload of an operator for additionally covering the insect bottle with a bottle cap can be saved.

3. The electric fan is arranged in the poison bottle, so that the flow of poison gas can be further accelerated, and the insecticidal efficiency is improved.

4. The poison bottle can be provided with one or more opening and closing parts and can be connected with one worm bottle with a larger outer diameter or a plurality of worm bottles with smaller outer diameters, so that the requirement of poisoning insects with different specifications is met.

5. The components and the structure of the utility model cooperate with each other to realize the technical effects of convenient operation, cleanness and environmental protection.

6. The utility model can avoid the risk of toxic gas leakage in the process of combining and separating the toxic bottle and the insect bottle to the maximum extent, is particularly suitable for the science popularization teaching environment, and can protect the health of teachers and students to the maximum extent.

Drawings

Fig. 1 is a schematic structural view of a poison bottle of the poisoning device in a split state.

Fig. 2 is a structural schematic diagram of the insect bottle of the poisoning device in a split state.

Fig. 3 is another structural schematic diagram of the poison bottle of the poisoning device in a split state.

FIG. 4 is a schematic view of the first opening and closing member of the vial.

Fig. 5 is a schematic structural diagram of the second opening and closing member of the insect bottle.

Fig. 6 is a schematic structural view of the poisoning device in a state where the poisoning bottle and the bug bottle are engaged.

The reference numerals in the figures are explained below:

1-a vial comprising: 11-first connector, 12-first opening and closing member (again: 121-first sealing member, 122-first elastic member, 123-first support member, 124-first engaging member (again: 1241-first quick-insert member, 1242-first vent hole)), 13-adsorbent body, 14-vial top cover, 15-fan.

2-insect bottle comprising: 21-second connector, 22-second opening and closing member (again: 221-second sealing member, 222-second elastic member, 223-second supporting member, 224-second engaging member (again: 2241-second quick-insertion member, 2242-second ventilation hole)), 23-top cover of bug bottle.

3-combination, i.e. showing the combination formed by the first quick-insert and the second quick-insert when they are plugged together.

Detailed Description

In order to make the technical solution, objects and advantages of the present invention clearer, the present invention is further described in detail by the following specific embodiments. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. For the electrical and communication fields, either a wired connection or a wireless connection is possible. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1-3, the device of the present invention includes an upper poison bottle and a lower bug bottle. When the two bottles are connected, the opening at the bottom end of the poison bottle and the opening at the top end of the worm bottle are connected through the opening-closing piece to form a hollow channel; when the two bottles are separated, the bottom opening of the poison bottle and the top opening of the worm bottle are respectively sealed through the opening and closing piece to respectively form a closed state.

As shown in fig. 1 and 4, the vial 1 includes:

a first connecting member 11 disposed at the bottom end of the poison bottle 1; the first connecting member 11 is used for connecting with the insect bottle 2 and can be a buckle or a sleeve.

A first opening and closing member 12 for controlling: when the poison bottle 1 is connected with the insect bottle 2, both the bottom opening (not shown) of the poison bottle and the top opening (not shown) of the insect bottle are opened, a channel is formed between the 2 openings, and when the poison bottle 1 and the insect bottle 2 are separated, both the bottom opening of the poison bottle and the top opening of the insect bottle are closed.

As shown in fig. 4, the first opening and closing member 12 further includes:

a first seal 121 provided inside the vial 1; the first sealing member 121 is used to seal the bottom opening of the vial 1, and may be made of rubber, silicone, or the like.

A first elastic member 122 having one end disposed on a surface of the first sealing member 121 facing the top of the vial and the other end disposed on a surface of the first supporting member 123 facing the bottom of the vial; the first elastic member 122 is used to adjust the position of the first seal 121; the first elastic member 122 may be a spring, and 2 or more springs may be provided for each sealing member 121.

A first support member 123 for supporting the first elastic member 122 inside the vial, which is made of a corrosion-resistant material; the first supporting member 123 is covered above the opening at the bottom end of the poison bottle, and the opening end of the first supporting member 123 is fixedly arranged with the inner bottom surface of the poison bottle; the side wall of the first supporting member 123 is provided with a through hole (not shown), and preferably, the whole first supporting member 123 is a filter screen; thus, the toxic gas in the vial 1 fills the space formed by the first support member 123, the bottom surface of the vial, and the first sealing member 121.

A first joint member 124 for forming a hollow passage for the passage of the poison gas when the poison bottle 1 and the bug bottle 2 are jointed; the first joint member 124 is hollow, one end of the first joint member is connected to the surface of the first sealing member 121 facing the bottom opening of the vial, and the other end of the first joint member 124 is provided with a first quick-insertion part 1241; the outer diameter of the first engaging member 124 is equal to the diameter of the bottom opening of the vial; the first quick plug-in unit 1241 is used for connecting with the second quick plug-in unit 2241 on the worm bottle; a first vent hole 1242 is formed in the first joint member 124 near the first sealing member 121, and the first vent hole 1242 is used for allowing toxic gas to enter the joint member 124.

As shown in fig. 1, the above-mentioned vial further comprises:

an adsorbent 13 provided on the inner wall of the vial 1; the adsorbent 13 includes a housing (not shown) and a content; the shell is provided with a plurality of holes and is made of corrosion-resistant materials; the content can be porous adsorption material such as gypsum, ceramic, sponge, absorbent cotton, etc., and the liquid toxic agent is adsorbed in the content; the toxic agent comprises ethyl acetate, ethanol, diethyl ether, formaldehyde, cyanide, etc.

The top cover 14 of the poison bottle is arranged at the top end of the poison bottle 1 and used for opening the poison bottle and adding poison, the top cover 14 of the poison bottle can be connected with the bottle body of the poison bottle through a buckle or a sleeve, and the buckle or the sleeve is provided with a sealing ring so as to form a sealed space between the top cover 14 of the poison bottle and the bottle body of the poison bottle and prevent poison gas from leaking.

As shown in fig. 2 and 5, the insect bottle 2 includes:

a second connector 21, which is arranged on the top end of the insect bottle 2, is used for connecting with the poison bottle 1 and can be a buckle or a sleeve;

a second opening and closing member 22 functioning similarly to the first opening and closing member 12 described above; when the poison bottle 1 is connected with the insect bottle 2, the bottom opening (not shown) of the poison bottle 1 and the top opening (not shown) of the insect bottle 2 are both opened, a channel is formed between the 2 openings, and when the poison bottle 1 and the insect bottle 2 are separated, the bottom opening of the poison bottle 1 and the top opening of the insect bottle 2 are both closed.

As shown in fig. 5, the second opening element 22 further includes, similarly to the structure of the first opening element 12 described above:

a second sealing member 221 provided inside the insect bottle 2, the second sealing member 221 sealing a distal end opening of the insect bottle 2; the material of which is the same as or similar to the first seal 121 described above.

A second elastic member 222 having one end disposed on a surface of the second sealing member 221 facing a bottom of the bug bottle and the other end disposed on a surface of the second supporting member 223 facing a top of the bug bottle; the elastic member 222 is used to adjust the position of the second sealing member 222.

A second support member 223 surrounding a lower portion of the top end opening of the bug bottle 2, an opening end of the second support member 223 being fixedly mounted to an inner top surface of the bug bottle 2; the second support 223 is provided with air holes, preferably the entire second support is a screen structure. The second support 223 provides support for the second elastic member 222 inside the bug bottle 2.

A second engaging member 224 for engaging with the first engaging member 124 to form a hollow passage for the toxic gas to pass through when the toxic bottle 1 and the insect bottle 2 are engaged. The second joint member 224 is hollow, one end of the second joint member is connected to a surface of the second sealing member 221 facing the top opening of the bug bottle, and the other end is provided with a second quick plug 2241; the outer diameter of the second engaging member 224 is equal to the diameter of the top opening of the insect bottle; the second quick plug 2241 is used for connecting with the first quick plug 1241 on the poison bottle; the second joint member 224 is provided with a second ventilation hole 2242 near the second sealing member 2241, and the second ventilation hole 2242 is used for the toxic gas to enter the inside of the insect bottle 2.

As shown in fig. 2, the insect bottle 2 further includes:

the insect bottle bottom cover 24 is arranged at the bottom end of the insect bottle 2 and used for opening the insect bottle 2 and placing insects, the insect bottle bottom cover and the insect bottle body can be connected through a buckle or a sleeve, and the buckle or the sleeve is provided with a sealing ring, so that a sealed space is formed between the insect bottle top cover 24 and the insect bottle body, and toxic gas is prevented from leaking and the insects are prevented from escaping.

As shown in fig. 6, the first quick-insert piece 1241 and the second quick-insert piece 2241 can be inserted into one body to form a combined body 3, so that the poison bottle and the bug bottle can be combined into one body.

In a preferred embodiment, the first quick plug-in unit 1241 and the second quick plug-in unit 2241 may be connected by a snap connection or a sleeve connection. Further preferably, the first quick plug-in 1241 and the second quick plug-in 2241 are both six-blade connecting wheels with holes in the centers, and the plugging manner is to slightly rotate after contacting; the two can also be rubber tubes which are inserted and connected with each other.

In a preferred embodiment, the first connector 11 and the second connector 21 may be connected by a snap connection or a sleeve connection.

In a preferred embodiment, as shown in fig. 3, an electric fan 15 may be further installed inside the top cover 14, and a switch (not shown) of the electric fan and a power source (not shown) made of an anti-corrosion material, such as a dry battery, a rechargeable battery or a solar battery, are installed outside the top cover 14, and the electric fan and the switch thereof are used for controlling and stirring the gas in the insect killing bottle, so that when the electric fan and the switch are combined, the gas in the insect killing bottle is accelerated to flow into the insect killing bottle.

In a preferred embodiment, the virus bottle 1 is provided with a plurality of first opening/closing members 12 for connecting a plurality of worm bottles, more preferably 9 worm bottles. When one poison bottle is connected with only one insect bottle, the insects in the insect bottle are dishes, moths and the like with larger specifications; when 9 insect bottles are connected with one virus bottle, the insects in the insect bottles are flies, bees and the like with smaller specifications.

Above-mentioned worm bottle 2 is made by transparent material (like PVC), and the bottle is the cube, and four sides of this cube all are equipped with the magnifying glass, according to the observation demand of different kind insect sizes, can set up different magnification's magnifying glass to situation in the observation bottle especially is fit for showing in the science popularization teaching.

As shown in fig. 1 and 2, when the poison bottle 1 and the insect bottle 2 are not joined together and are in a split state:

in the vial 1, the first elastic member 122 is in a compressed state, and applies a force to the first sealing member 121 in a direction toward the bottom end of the vial to tightly contact the first sealing member 121 with the inner bottom surface of the vial, thereby sealing the bottom end opening of the vial; the part of the first engagement member 124 having the first ventilation hole 1242 extends out of the vial 1 from the opening at the bottom of the vial.

Similarly, in the insect bottle 2, the second elastic member 222 is in a compressed state, and applies a force to the second sealing member 221 in the direction of the top end of the insect bottle to tightly contact the second sealing member 221 with the inner top surface of the toxic bottle, thereby sealing the top end opening of the insect bottle; the part of the second joint part 224 with the second ventilation hole 2242 extends out of the insect bottle 2 from the top opening of the insect bottle.

As shown in fig. 6, when the worker performs the poisoning work, the first quick inserting member 1241 is aligned with the second quick inserting member 2241, and the first quick inserting member 1241 and the second quick inserting member 2241 are inserted together to form the combined body 3, so that the first coupling member 124 and the second coupling member 224 are integrally coupled to form the hollow pipe, and the first connecting member 11 and the second connecting member 21 are also coupled together by the snap-fit, so that the poison bottle 1 and the bug bottle 2 are coupled together. Since the second engaging member 224 applies a force to the first engaging member 124 toward the top end of the vial, the first engaging member 124 moves toward the top end of the vial, pushing the first sealing member 121 away from the bottom surface of the vial 1, the first vent 1242 of the first engaging member 124 enters the interior of the vial, and the first elastic member 122 further shortens. Similarly, since the first engaging member 124 also applies a force to the second engaging member 224 toward the bottom end of the bug bottle, the second engaging member 224 moves toward the bottom end of the bug bottle, pushing the second sealing member 221 to be separated from the top surface of the bug bottle 2, the vent hole 2242 of the second engaging member 224 enters the inside of the bug bottle, and the second elastic member 222 is further shortened. At this time, the hollow first engaging member 124 and the hollow second engaging member 224 connected together form a gas passage between the poison bottle and the bug bottle, and the poison gas in the poison bottle 1 enters the gas passage from the first ventilation hole 2242 and then enters the bug bottle through the second ventilation hole 2242 to poison the bugs therein. As shown in figure 3, when the electric fan 15 is arranged in the poison bottle 1, the switch of the electric fan is turned on, the blades of the electric fan rotate to stir the air in the poison bottle, so that the poison gas in the poison bottle flows into the bug bottle quickly.

As shown in fig. 1 and 2, when the insects in the insect bottle are killed by poison, the worker separates the first connecting part 11 from the second connecting part 21 by the snap, the insect bottle 1 and the insect bottle 2 move in opposite directions, the first quick inserting piece 1241 and the second quick inserting piece 2241 are separated at the same time, and therefore the first engaging piece 124 and the second engaging piece 224 are also separated from each other. At this time, the first engaging member 124 loses the acting force on the top end of the vial, the degree of compression of the first elastic member 122 is reduced, and the first elastic member 122 returns to the split state, so that the first sealing member 121 is pushed by the first elastic member 122 to be tightly attached to the bottom surface of the vial, and the bottom opening of the vial is sealed again; the first sealing member 121 pushes the first engaging member 124 until the portion of the first engaging member 124 with the first ventilation hole 1242 extends out of the vial 1 from the bottom opening of the vial; the inside of the poison bottle 1 is restored to be in a sealed state, and the poison bottle 1 is restored to be in a closed state. Similarly, the second engaging member 224 loses the force applied to the bottom end of the bug bottle, the second elastic member 222 is compressed to a reduced degree and returns to the split position, and the second elastic member 222 pushes the second sealing member 221 to abut against the top surface of the bug bottle again to reseal the top opening of the bug bottle; the second sealing member 221 pushes the second engaging member 224 until the portion of the second engaging member 224 with the second ventilation hole 2242 extends out of the bug bottle 2 from the top end opening of the bug bottle; the inside of the insect bottle 2 is restored to be in a sealed state, and the insect bottle 2 is restored to be in a closed state.

Therefore, the poison bottle and the insect bottle of the insect poisoning device are automatically kept in a closed state when the poison bottle and the insect bottle are separated, and automatically become an open state when the poison bottle and the insect bottle are connected, an air channel is formed between the poison bottle and the insect bottle for allowing poison gas to flow from the poison bottle to the insect bottle, and the poison bottle and the insect bottle automatically recover to the closed state after being detached and separated again. Therefore, the device can avoid the leakage of the poisonous gas in the poisonous bottle and the escape of insects in the insect bottle, and can also save the operation of opening the poisonous gas valve after connecting the poisonous bottle and the insect bottle, the operation of closing the poisonous gas valve after finishing the insect killing, and the work of sealing the insect bottle when the insect bottle is detached, so the device has high safety, is environment-friendly and human-friendly, has high-efficiency and quick connection mode of the poisonous bottle and the insect bottle, is suitable for being used in any workplaces, and is particularly suitable for displaying and teaching the insect form and the poisoning method in popular science teaching.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An insect poisoning device, comprising: the device comprises:

a vial, the vial comprising:

the first connecting piece is used for connecting the insect bottle; the first connecting piece is arranged at the bottom end of the poison bottle;

a first opening and closing member for controlling: when the poison bottle is connected with the insect bottle, the bottom opening of the poison bottle and the top opening of the insect bottle are opened, and a channel is formed between the two openings; when the poison bottle and the insect bottle are separated, the bottom opening of the poison bottle and the top opening of the insect bottle are both closed;

the first opening and closing member further comprises:

a first sealing member for sealing the bottom opening of the vial; the first sealing member is arranged inside the poison bottle;

a first elastic member for adjusting a position of the first seal member; one end of the first elastic component is arranged on one surface of the first sealing element facing the top of the poison bottle, and the other end of the first elastic component is arranged on one surface of the first supporting element facing the bottom of the poison bottle;

a first support member for supporting the first resilient member within the vial; the first supporting piece is covered above the opening at the bottom end of the poison bottle, and the opening end of the first supporting piece is fixed with the inner bottom surface of the poison bottle;

a first engaging member for forming a hollow passage when the poison bottle and the bug bottle are connected; the first connecting piece is hollow, one end of the first connecting piece is connected with one surface, facing the bottom end opening of the poison bottle, of the first sealing piece, the other end of the first connecting piece is provided with a first quick plug-in unit, and the first quick plug-in unit is used for being connected with a second quick plug-in unit of the poison bottle; a first vent hole is formed in the first connecting piece close to the first sealing piece and used for toxic gas to pass through;

the absorption body is used for absorbing the liquid toxin and is arranged on the inner wall of the toxin bottle, and the absorption body comprises a shell and contents;

the device further comprises:

an insect bottle, comprising:

the second connecting piece is used for connecting the poison bottle; the second connecting piece is arranged at the top end of the insect bottle;

a second opening and closing member for controlling: when the poison bottle is connected with the insect bottle, a channel is formed between the bottom opening of the poison bottle and the top opening of the insect bottle; when the poison bottle and the insect bottle are separated, the bottom opening of the poison bottle and the top opening of the insect bottle are both closed;

the second opening and closing member further comprises:

a second sealing member for sealing the top opening of the insect bottle; the second sealing piece is arranged inside the insect bottle;

a second elastic member for adjusting a position of the second sealing member; one end of the second elastic component is arranged on one surface of the second sealing piece facing the bottom of the insect bottle, and the other end of the second elastic component is arranged on one surface of the second supporting piece facing the top of the insect bottle;

the second supporting piece is used for providing support for the second elastic part inside the insect bottle; the second support piece is enclosed below the top end opening of the worm bottle, and the opening end of the second support piece is fixed with the inner top surface of the poison bottle;

a second connector for forming a hollow channel when the poison bottle and the bug bottle are connected; the second connecting piece is hollow, one end of the second connecting piece is connected with one surface, facing the top opening, of the second sealing piece, and a second quick plug-in unit is arranged at the other end of the second connecting piece and is used for being connected with the first quick plug-in unit of the poison bottle; and a second vent hole is formed in the position, close to the second sealing piece, of the second connecting piece and used for allowing toxic gas to pass through.

2. An insect poisoning device in accordance with claim 1, wherein:

the first connecting piece and the second connecting piece are connected through a buckle or a sleeve.

3. An insect poisoning device in accordance with claim 2, wherein:

the first quick insert and the second quick insert are shown connected by a snap or sleeve.

4. An insect poisoning device in accordance with claim 3, wherein:

the first quick insert and the second quick insert are both six-blade connecting wheels with holes in the centers.

5. An insect poisoning device in accordance with claim 4, wherein:

the first quick plug-in unit and the second quick plug-in unit are both sleeves.

6. An insect poisoning device in accordance with any of claims 1 to 5, wherein:

the poison bottle is provided with a plurality of the first opening and closing members, and the worm bottle is provided with one of the second opening and closing members.

7. An insect poisoning device in accordance with claim 6, wherein:

the poison bottle also comprises an electric fan which is used for accelerating the flow of poison gas;

the electric fan is arranged inside the poison bottle and is connected with the top cover of the poison bottle.

8. An insect poisoning device in accordance with claim 7, wherein:

the insect bottle also comprises an insect bottle bottom cover which is connected with the bottle body of the insect bottle through a buckle or a sleeve.

9. An insect poisoning device in accordance with claim 8, wherein:

the insect bottle is made of transparent materials.

10. An insect poisoning device in accordance with claim 9, wherein:

the body of the insect bottle is a cube;

and magnifying glasses are arranged on four side faces of the cube.

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