CN115474593B - Novel insect fumigating and killing bottle - Google Patents

Abstract

The application discloses a novel insect fumigating and killing bottle, which comprises a soft shell, a hard bottle body, a bottle cap and a medicine feeding cap; the hard bottle body is arranged in the soft shell, and the diameter of the soft shell is larger than that of the hard bottle body; the hard bottle body is provided with a bottle opening, the bottle opening extends out of the soft shell and is fixedly connected with the soft shell, and the bottle cap is arranged at the bottle opening; the soft shell is also provided with a medicine administration opening, and the medicine administration cover is connected with the soft shell in a sealing way through the medicine administration opening; a plurality of cross soft silica gel openings are arranged on the hard bottle body. The application is safe, portable and simple in structure, the capacity can be infinitely expanded by connecting the single bottle bodies, the containing amount is large, and the contained insect bodies are not mutually influenced.

Description

Novel insect fumigating and killing bottle

Technical Field

The application relates to the technical field of insect poison bottles, in particular to a novel insect fumigating and killing bottle.

Background

Insect specimens can be produced in agricultural production, forestry production, scientific research, teaching and the like. After capturing live insects, in order to keep the shape of insects intact when making specimens, glass jars filled with a proper amount (about 5-10 g) of highly toxic drugs such as potassium cyanide or sodium cyanide are currently used as poison bottles, the captured live insects are rapidly placed into the poison bottles, and bottle mouths are rapidly covered, so that the insects die as soon as possible after contacting with the highly toxic gases, and the complete shape is kept.

At present, the existing traditional poison bottle has the following problems: 1. safety problem: potassium cyanide, white lump, granular or crystalline powder, is extremely toxic. Deliquescing in humid air and emitting a trace amount of hydrogen cyanide gas. Wounds that contact the skin can die from poisoning by inhalation of trace amounts of powder. Potassium cyanide poisoning generally occurs through three pathways: air inhalation, food and skin. The traditional poison bottle is filled with extremely toxic gas, and when the bottle cap is opened, the toxic gas overflows, and if an operator is improper in protection, the poison is extremely easy to occur. Each time a live insect is put in or a dead insect is taken out, the risk of poisoning is increased once; 2. inconvenient use: when collecting insect specimens, the collector usually moves a large extent, and the poison bottle carrying the glass wide-mouth bottle is heavy, so that the collection portability is affected; 3. the number of the nano insects is small, and the nano insects affect each other: the insect specimens are collected when going out, the insects are usually required to be collected and packaged at the same time, the quantity of insects which can be contained in the traditional poison bottle is small, and particularly after more than 2 lepidoptera insects are placed at the same time, the wings are easily damaged by beating each other, the complete shape is influenced, and if fight insects or natural enemy insects are placed at the same time, the complete shape is also influenced; 4. the manufacturing process is complex: the traditional poison bottle is made by selecting a wide-mouth bottle with different sizes and a rubber plug (or a high-quality cork) closely matched with the wide-mouth bottle, putting a thin layer of small or powdery potassium cyanide (KCN) or sodium cyanide (NaCN) into the bottle, immediately and uniformly spreading a layer of coarse sawdust on the bottle, and compacting the bottle by using a wood rod. And casting a layer of thick and proper gypsum paste (with the degree of flowing down) on the sawdust, and drying to obtain the plaster. The whole manufacturing process is complicated and complicated, and is accompanied with poisoning risk in the whole process.

Therefore, how to provide a novel insect fumigating and killing bottle which is safe, portable, simple in structure, large in containing amount and free from mutual influence among the contained insects is a problem to be solved by the person skilled in the art.

Disclosure of Invention

In view of the above, the application provides a novel insect fumigating and killing bottle which is safe, portable, simple in structure, large in containing amount and free from mutual influence among contained insects.

In order to achieve the above purpose, the present application adopts the following technical scheme: a novel insect fumigating and killing bottle, which comprises a soft shell, a hard bottle body, a bottle cap and a medicine administration cap;

the hard bottle body is arranged inside the soft shell, and the diameter of the soft shell is larger than that of the hard bottle body; the hard bottle body is provided with a bottle opening, the bottle opening extends out of the soft shell and is fixedly connected with the soft shell, and the bottle cap is arranged at the bottle opening;

the soft shell is also provided with a dosing opening, and the dosing cover is connected with the soft shell in a sealing way through the dosing opening;

the hard bottle body is provided with a plurality of cross soft silica gel ports.

Further, the soft shell is made of anti-corrosion soft plastic materials, such as: the distilled water elbow sharp-mouth plastic bottle is made of a certain hardness but can be deformed; the hard bottle body is made of anti-corrosion hard plastic or glass.

Furthermore, the hard bottle body and the soft shell are cylindrical, a hollow interlayer is formed between the inner side of the soft shell and the hard bottle body, and a poison capable of fumigating and killing insects is placed in the hollow interlayer.

By adopting the scheme, the generated beneficial effects at least comprise: after the medicine feeding cover is opened, toxic medicine is put into the hollow interlayer, the toxic medicine is deliquesced in wet air and emits a trace amount of hydrogen cyanide gas, the soft shell is softer than the hard bottle body, the conical nails can be pressed inwards to enable the slit walls between the cross slits of the cross soft silica gel mouth to be separated from each other under the action of inward deformation stress, namely the slit gaps of the cross slits are increased, the hydrogen cyanide gas in the hollow interlayer is introduced into the hard bottle body through the slit of the cross slits under the action of air pressure of the soft shell, so that insects die as soon as possible after contacting with the extremely toxic gas, and the complete shape is maintained; the structure can limit the toxic amount and the toxic fumigation speed, and the toxic amount entering the hard bottle body and the toxic fumigation speed are controlled by controlling the deformation of the soft shell; after the fumigated and sterilized bottle is brought back to a laboratory, the bottle lifting opening can be aligned to a fume hood, the bottle cap is unscrewed to discharge toxic gas, and then the toxic dead insects are taken out, so that the safety of operators is effectively ensured due to the whole-process non-toxic gas operation of operators; at this time, the soft shell is flat and is close to the hard bottle body, the soft shell cannot be recovered, the medicine administration opening is opened in safe operation places such as a fume hood to enable air to enter the hollow interlayer, the soft shell is recovered, and the medicine administration opening is screwed after the medicine is put into the hollow interlayer, so that the soft shell can be reused.

Further, a plurality of auxiliary nails are arranged on the inner side of the soft shell, and the auxiliary nails correspond to the cross soft silica gel openings in position.

Further, a hand pull ring is arranged on the outer side of the soft shell, and the hand pull ring corresponds to the auxiliary nail in position;

further, the hand pull ring is a round hand pull ring, and can also be a hand pull buckle.

Further, the round hand pull ring or the hand pull buckle is connected with the auxiliary nail through the inside and outside of the rotary screw, and a silica gel pad is arranged in the middle.

By adopting the scheme, the generated beneficial effects at least comprise: the round hand pull ring or the hand pull buckle is aligned with the cross soft silica gel port of the hard bottle body to push inwards, at the moment, the auxiliary nail is embedded into the cross soft silica gel port to prop open the gap of the cross soft silica gel port, and toxic gas enters the inner bottle; the auxiliary nails are pulled out from the cross soft silica gel port more conveniently due to the arrangement of the hand pulling ring, so that the amount of the poison introduced into the hard bottle body is more conveniently controlled; and the setting of pad silica gel gasket can strengthen the leakproofness, avoids inside and outside bottle cavity intermediate layer toxic gas to leak, has effectively guaranteed operating personnel's security.

Further, the auxiliary nail is a conical hollow nail, a round hole is formed in one end, close to the hard bottle, of the conical hollow nail, round holes are formed in two sides, away from the hard bottle, of the conical hollow nail respectively, a Y-shaped pipeline is formed inside the conical hollow nail, and toxic gas in the hollow interlayer enters the hard bottle through the Y-shaped pipeline.

By adopting the scheme, the generated beneficial effects at least comprise: the setting of this structure can further limit the poison dosage and the poison fumigation speed of getting into the stereoplasm bottle, needs quick fumigation to press into the cross silica gel mouth with the whole hollow nail of circular cone, and special circumstances need slow down fumigation speed and keep fresh worm body, can press into one to two circular cone hollow nails, makes the slow release of poison gas.

Further, the soft shell further comprises an upper rotary interface and a lower rotary interface, wherein the upper rotary interface and the lower rotary interface are respectively arranged at the upper end and the lower end of the soft shell, and the diameter of the lower rotary interface is larger than that of the upper rotary interface.

By adopting the scheme, the generated beneficial effects at least comprise: the diameter of the lower rotary interface is large, so that the position of the bottle body is more stable.

Further, an external thread is arranged on the outer side wall of the upper rotary interface, the inside of the lower rotary interface is hollow, an opening is formed in the bottom end of the lower rotary interface, and an internal thread matched with the external thread is arranged on the inner side wall of the lower rotary interface.

By adopting the scheme, the generated beneficial effects at least comprise: the upper rotary interface and the lower rotary interface of the soft shell can be respectively connected with the lower rotary interfaces and the upper rotary interfaces of other soft shells, so that the soft shells are spliced together, the carrying is convenient, and the capacity is expanded.

Compared with the prior art, the novel insect fumigating and killing bottle provided by the application has the beneficial effects that at least:

1. the safety is high: after capturing living insects, unscrewing the bottle cap, and at the moment, no toxic gas exists in the bottle; the toxic gas between the soft shell and the hard bottle body overflows into the bottle body through the gap of the cross soft silica gel port, the pushing quantity of the conical nails can be adjusted according to the requirement, the auxiliary nails can be pulled out until the bottle body is overflowed, and the cross soft silica gel port is closed. When insects are taken out, the bottle mouth can be aligned to the fume hood, the bottle cap is unscrewed to discharge toxic gas, then the toxic dead insects are taken out, and an operator operates the bottle through no toxic gas;

2. is convenient to carry: each novel insect fumigating and killing bottle is internally provided with an insect, so that each insect is independently formed into a cabin, the collected insects have no influence on each other, the novel insect fumigating and killing bottles can be independently carried, a plurality of novel insect fumigating and killing bottles can be combined into a rod shape through a rotary interface to be carried, the number of the novel insect fumigating and killing bottles is arbitrarily combined, the occupied space is small, the novel insect fumigating and killing bottles can be inserted into a waist or a bag, the novel insect fumigating and killing bottle is convenient to carry, convenient to detach, and the novel insect fumigating and killing bottles can be installed or detached through rotation;

3. flexible selection: the traditional poison bottle puts a plurality of insects into a space, and the insects are clamped or poured out when being taken out, so that the time for operators to contact poison gas is prolonged, and the insects cannot be freely selected. The novel poison bottle can be independently selected and taken out when taking insects because of independent cabin formation. Simultaneously, before getting insects, can aim at the fume hood with the bottleneck, unscrew the bottle lid and discharge the poison gas of inner cabin, take out the poison dead worm body again, the whole non-toxic gas operation of operating personnel.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present application, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the internal structure of a novel insect fumigating bottle according to the present application;

FIG. 2 is a schematic view of the external surface of the soft shell of the novel insect fumigating bottle;

wherein, 1 is a hard bottle body; 2 is a soft shell; 21 is a medication administration cap; 3 is a bottle cap; 4 is a cross soft silica gel port; 5 is an auxiliary nail; 6 is a hand pull ring; 7 is an upper rotary interface; 8 is a lower rotary interface; and 9 is a hollow interlayer.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As shown in fig. 1, the embodiment discloses a novel insect fumigating and killing bottle, which comprises a soft shell 2, a hard bottle body 1, a bottle cap 3 and a medicine administration cover 21;

the hard bottle body 1 is arranged in the soft shell 2, and the diameter of the soft shell 2 is larger than that of the hard bottle body 1; the hard bottle body 1 is provided with a bottle opening, the bottle opening extends out of the soft shell 2 and is fixedly connected with the soft shell 2, and the bottle cap 3 is arranged at the bottle opening;

the soft shell 2 is also provided with a medicine administration port, and the medicine administration cover 21 is connected with the soft shell 2 in a sealing way through the medicine administration port;

a plurality of cross soft silica gel ports 4 are arranged on the hard bottle body 1.

Further, the soft shell 2 is made of anti-corrosion soft plastic materials, such as: the distilled water elbow sharp-mouth plastic bottle has certain hardness but can be deformed; the hard bottle body 1 is made of anti-corrosion hard plastic or glass.

Furthermore, the hard bottle body 1 and the soft shell 2 are cylindrical, a hollow interlayer 9 is formed between the inner side of the soft shell 2 and the hard bottle body 1, and a poison capable of fumigating and killing insects is placed in the hollow interlayer 9.

By adopting the scheme, the generated beneficial effects at least comprise: after the medicine feeding cover is opened, toxic medicine is put into the hollow interlayer, the toxic medicine is deliquesced in wet air and emits a trace amount of hydrogen cyanide gas, the soft shell is softer than the hard bottle body, the conical nails can be pressed inwards to enable the slit walls between the cross slits of the cross soft silica gel mouth to be separated from each other under the action of inward deformation stress, namely the slit gaps of the cross slits are increased, the hydrogen cyanide gas in the hollow interlayer is introduced into the hard bottle body through the slit of the cross slits under the action of air pressure of the soft shell, so that insects die as soon as possible after contacting with the extremely toxic gas, and the complete shape is maintained; the structure can limit the toxic amount and the toxic fumigation speed, and the toxic amount entering the hard bottle body and the toxic fumigation speed are controlled by controlling the deformation of the soft shell; after the fumigated and sterilized bottle is brought back to a laboratory, the bottle lifting opening can be aligned to a fume hood, the bottle cap is unscrewed to discharge toxic gas, and then the toxic dead insects are taken out, so that the safety of operators is effectively ensured due to the whole-process non-toxic gas operation of operators; at this time, the soft shell is flat and is close to the hard bottle body, the soft shell cannot be recovered, the medicine administration opening is opened in safe operation places such as a fume hood to enable air to enter the hollow interlayer, the soft shell is recovered, and the medicine administration opening is screwed after the medicine is put into the hollow interlayer, so that the soft shell can be reused.

Further, a plurality of auxiliary nails 5 are arranged on the inner side of the soft shell 2, and the auxiliary nails 5 correspond to the cross soft silica gel openings 4 in position.

Further, a hand pull ring 6 is arranged on the outer side of the soft shell 2, and the hand pull ring 6 corresponds to the auxiliary nail 5 in position;

further, the hand ring 6 is a circular hand ring, and may be a hand buckle.

Further, the round hand pull ring 6 and the auxiliary nail 5 are connected inside and outside the rotary screw, and a silica gel pad is arranged in the middle.

By adopting the scheme, the generated beneficial effects at least comprise: the round hand pull ring or the hand pull buckle is aligned with the cross soft silica gel port of the hard bottle body to push inwards, at the moment, the auxiliary nail is embedded into the cross soft silica gel port to prop open the gap of the cross soft silica gel port, and toxic gas enters the inner bottle; the auxiliary nails are pulled out from the cross soft silica gel port more conveniently due to the arrangement of the hand pulling ring, so that the amount of the poison introduced into the hard bottle body is more conveniently controlled; and the setting of pad silica gel gasket can strengthen the leakproofness, avoids inside and outside bottle cavity intermediate layer toxic gas to leak, has effectively guaranteed operating personnel's security.

Further, the auxiliary nail 5 is a conical hollow nail, a round hole is formed in one end, close to the hard bottle body 1, of the conical hollow nail, two round holes are formed in two sides, far away from the hard bottle body 1, of the conical hollow nail, a Y-shaped pipeline is formed inside the conical hollow nail, and toxic gas in the hollow interlayer 9 enters the hard bottle body 1 through the Y-shaped pipeline.

By adopting the scheme, the generated beneficial effects at least comprise: the setting of this structure can further limit the poison dosage and the poison fumigation speed of getting into the stereoplasm bottle, needs quick fumigation to press into the cross silica gel mouth with the whole hollow nail of circular cone, and special circumstances need slow down fumigation speed and keep fresh worm body, can press into one to two circular cone hollow nails, makes the slow release of poison gas.

Further, the soft shell further comprises an upper rotary interface 7 and a lower rotary interface 8, wherein the upper rotary interface 7 and the lower rotary interface 8 are respectively arranged at the upper end and the lower end of the soft shell 2, and the diameter of the lower rotary interface 8 is larger than that of the upper rotary interface 7.

By adopting the scheme, the generated beneficial effects at least comprise: the diameter of the lower rotary interface is large, so that the position of the bottle body is more stable.

Further, an external thread is arranged on the outer side wall of the upper rotary interface 7, the inside of the lower rotary interface 8 is hollow, an opening is arranged at the bottom end, and an internal thread matched with the external thread is arranged on the inner side wall of the lower rotary interface 8;

by adopting the scheme, the generated beneficial effects at least comprise: the upper rotary interface and the lower rotary interface of the soft shell can be respectively connected with the lower rotary interfaces and the upper rotary interfaces of other soft shells, so that the soft shells are spliced together, the carrying is convenient, and the capacity is expanded.

Compared with the prior art, the novel insect fumigating and killing bottle provided by the application has the beneficial effects that at least:

1. the safety is high: after capturing living insects, unscrewing the bottle cap, and at the moment, no toxic gas exists in the bottle; the toxic gas between the soft shell and the hard bottle body overflows into the bottle body through the gap of the cross soft silica gel port, the pushing quantity of the conical nails can be adjusted according to the requirement, the auxiliary nails can be pulled out until the bottle body is overflowed, and the cross soft silica gel port is closed. When insects are taken out, the bottle mouth can be aligned to the fume hood, the bottle cap is unscrewed to discharge toxic gas, then the toxic dead insects are taken out, and an operator operates the bottle through no toxic gas;

2. is convenient to carry: each novel insect fumigating and killing bottle is internally provided with an insect, so that each insect is independently formed into a cabin, the collected insects have no influence on each other, the novel insect fumigating and killing bottles can be independently carried, a plurality of novel insect fumigating and killing bottles can be combined into a rod shape through a rotary interface to be carried, the number of the novel insect fumigating and killing bottles is arbitrarily combined, the occupied space is small, the novel insect fumigating and killing bottles can be inserted into a waist or a bag, the novel insect fumigating and killing bottle is convenient to carry, convenient to detach, and the novel insect fumigating and killing bottles can be installed or detached through rotation;

3. flexible selection: the traditional poison bottle puts a plurality of insects into a space, and the insects are clamped or poured out when being taken out, so that the time for operators to contact poison gas is prolonged, and the insects cannot be freely selected. The novel poison bottle can be independently selected and taken out when taking insects because of independent cabin formation. Simultaneously, before getting insects, can aim at the fume hood with the bottleneck, unscrew the bottle lid and discharge the poison gas of inner cabin, take out the poison dead worm body again, the whole non-toxic gas operation of operating personnel.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present embodiments. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the embodiments. Thus, the present embodiments are not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The novel insect fumigating and killing bottle is characterized by comprising a soft shell, a hard bottle body, a bottle cap and a dosing cap;

the hard bottle body is arranged inside the soft shell, and the diameter of the soft shell is larger than that of the hard bottle body; a hollow interlayer is formed between the inner side of the soft shell and the hard bottle body, and a poison capable of fumigating and killing insects is placed in the hollow interlayer; the hard bottle body is provided with a bottle opening, the bottle opening extends out of the soft shell and is fixedly connected with the soft shell, and the bottle cap is arranged at the bottle opening;

the soft shell is also provided with a dosing opening, and the dosing cover is connected with the soft shell in a sealing way through the dosing opening;

the soft plastic bottle is characterized in that a plurality of cross soft silica gel openings are formed in the hard bottle body, a plurality of auxiliary nails are arranged on the inner side of the soft shell, the auxiliary nails correspond to the cross soft silica gel openings in position, and the auxiliary nails are conical hollow nails.

2. The novel insect fumigating bottle of claim 1 wherein the rigid body and the flexible shell are both cylindrical.

3. The novel insect fumigating bottle of claim 1 wherein a hand pull ring is provided on the outside of the flexible housing and corresponds to the position of the auxiliary spike.

4. A new insect fumigating bottle according to claim 3, wherein the hand pull ring and the auxiliary nail are connected by a rotary screw, and a pad silica gel pad is provided between the hand pull ring and the auxiliary nail.

5. The novel insect fumigating and killing bottle according to claim 1, further comprising an upper rotary interface and a lower rotary interface, wherein the upper rotary interface and the lower rotary interface are respectively arranged at the upper end and the lower end of the soft shell, and the diameter of the lower rotary interface is larger than that of the upper rotary interface.

6. The novel insect fumigating and killing bottle according to claim 5, wherein an external thread is arranged on the outer side wall of the upper rotary connector, the inside of the lower rotary connector is hollow, an opening is formed in the bottom end of the lower rotary connector, and an internal thread matched with the external thread is arranged on the inner side wall of the lower rotary connector.