CN208540865U

CN208540865U - Container containing

Info

Publication number: CN208540865U
Application number: CN201820451317.0U
Authority: CN
Inventors: 杨敬; 陈棋松; 杨奕轩
Original assignee: Ningbo Xiang Ting Daily Necessities Co Ltd
Current assignee: Ningbo Xiang Ting Daily Necessities Co Ltd
Priority date: 2017-12-27
Filing date: 2018-04-02
Publication date: 2019-02-26
Anticipated expiration: 2028-04-02
Also published as: CN109965488A; CN208393838U; CN109965490A; CN208388070U; CN109965489A; CN208388071U; CN209809110U; CN109969550A; CN208393837U; CN109965487A

Abstract

The utility model discloses a container containings, wherein the container containing includes a container body, an installation ontology and a rush volatilization device, the installation ontology is arranged at the container body, and the container containing is connected to the fixture by the installation ontology；The rush volatilization device is arranged at the container body, when the container body is in volatileness, the rate of volatilization for promoting volatilization device and being able to the volatile substance.

Description

Container containing

Technical field

The utility model relates to a field of containers more particularly to a container containings.

Background technique

It is well known that being easy to cause the opposite envelope because the fluidity of air is bad in the space of relative closure The air quality in space closed is poor, especially increasingly sharpening recently as environmental pollution, leads to relative closure Air quality in space is worse, and people need to rest on for a long time daily in the space of the relative closure, if described Air quality in the space of relative closure is unable to get improvement, then negative shadow will certainly be generated to people's health state It rings.For example, places are the spaces of relative closure in room, vehicle chamber etc., and people need to rest on room for a long time daily Between and vehicle chamber in, therefore, how to improve in room and vehicle chamber the air quality in the space of equal relative closures be industry always The problem of being dedicated to research.On the other hand, the smell in environment is able to influence people's lives temperament and interest to a certain extent or do Public efficiency is unsuitable for oneself space and carries out life activity or office behavior if people are in environment smell, this is by very big shadow It rings the mood of people and then influences to be engaged in efficiency.Now, people commonly improve the sky of equal relative closures in room and vehicle chamber Between the mode of air quality be to contain readily volatilized perfume using a perfume container, when perfume holds via the perfume The volatilization mouth of device can improve the relative closure full of the space of the entire relative closure after evaporating into the external world to play The effect of air quality.When perfume spreads in environment space, when people smell the fragrance of oneself adaptation, can generate a kind of pleased Fast comfortable mood, or the effect of help user reminding, therefore different types of perfume is widely used in the life of people In work.

Specifically, there is the perfume container container body, a confining bed, a deformation to scratch element and a volatilization Layer, the container body have an accommodating chamber for containing perfume, and the confining bed is arranged at the container body to be used for The accent of the accommodating chamber is closed, the deformation scratches element and the volatile layer and scratches member with the confining bed, the deformation The mode that part and the volatile layer are spaced apart from each other is set to the container body, so that the deformation scratches element and is maintained at institute It states between confining bed and the volatile layer.When perfume is not used by, the accommodating chamber of the perfume container is maintained at closing State is needed in perfume by use, passing through a protrusion in the external drive institute of the volatile layer with preventing volatilizing perfume It states deformation and scratches element in a manner of deforming towards the movement of the direction of the confining bed, and scratch element contact in the deformation The confining bed and continuing drive the deformation scratch element it is mobile towards the confining bed when, the deformation is scratched element and is scratched The confining bed and the volatilization mouth for forming the perfume container, when the perfume for being located at the accommodating chamber enters via the volatilization mouth Behind space between the confining bed and the volatile layer, the volatile layer can be penetrated further into and evaporate into the external world, to be full of The space of the relative closure.The existing perfume container has many defects.Firstly, the perfume container is disposable Container, after the perfume in the perfume container is used up, the perfume container silver can not be continued using and be reported therewith It is useless.Secondly, once the confining bed of the perfume container scratches element by the deformation and scratches and form the volatilization mouth, then The volatilization mouth does not allow to be closed, that is to say, that once the perfume container is used, then the perfume container use shape State can not be terminated.This causes a problem in that in the space of a specific relative closure, the perfume of same taste cannot Meet different Man's Demands.For example, in some cases, the people in the space in the specific relative closure likes this little earlier The perfume of kind taste, and the people in the slightly space in the specific relative closure does not like the perfume of this taste, at this point, Because the volatilization mouth of the perfume container can not be closed, then it certainly will will lead to the space of the specific relative closure Interior smell is unsuitable for later into the people in the space of the specific relative closure.At present for this problem way it First is that the perfume container is removed out of the specific relative closure space, but in the case where one writes specific situation, inciting somebody to action The perfume container is discarded after removing out of the specific relative closure space, it is clear that this mode can be made At waste.Way second is that, later in the specific relative closure space in people be merely able to endure this smell, but It is that this way not only results in discomfort, and if this smell of people in the space in the specific relative closure later If allergy, can also adverse effect be generated to its health status.

With people live in raising to details quality, different fragrant degree requirements is formed in different temperature environments, And then the volatile quantity for how controlling the Vehicular aromatherapy according to different needs is the problem that current industry field needs to capture.Example Such as when the peculiar smell weight in environment, the volatile quantity of the vehicle-mounted fumigating device need to be increased；As environment adaptation to odor people, people subtract On the one hand the volatile quantity of few vehicle-mounted fumigating device, this control mode meet people to adaptation another party of different perfume concentration The use of perfume is also reduced in face, not will cause the use waste of perfume.On the other hand, people change vapour when using Vehicular aromatherapy When interior portion's fragrance, the mixing of multiple fragrance will do it to reach the demand of mixed flavor.But it is unable to satisfy in the prior art A kind of a variety of different types of perfume of perfume fumigator injection, and perfume fumigator is controlled waving for different type perfume in use Rate is sent out, to reach the mixing perfume odor of different odor concentration, to meet the use demand of different crowd.

But in the perfume using process in the vehicle-mounted fumigating device of traditional technology, volatile quantity is to be unable to control.Only The switch state for only controlling the vehicle-mounted fumigating device is in opening and closing of fault state, but nothing for controlling the vehicle-mounted fumigating device Method controls the volatilizing perfume amount of the vehicle-mounted fumigating device, therefore is unable to satisfy further regulation of the people to environment smell Demand.

On the other hand, the vehicle-mounted fumigating device of traditional technology is connected to single, the different driver couple of structure of automobile The position that the vehicle-mounted fumigating device is installed on automobile is had nothing in common with each other, and the installation requirements of different location are unable to satisfy.And once connect Structural failure is connect, the vehicle-mounted fumigating device can not just be connected to fixture, and the entire vehicle-mounted fumigating device just needs to be replaced, and make It is wasted at using.

Utility model content

One of the utility model is designed to provide a container containing, wherein a volatile substance in the container containing Rate of volatilization is conditioned according to demand.

Another of the utility model is designed to provide a container containing, wherein the container containing has a variety of installations The container containing is installed on a different fixtures to meet user by structure.

Another of the utility model is designed to provide a container containing, wherein the container containing is able to according to user Use demand by control in the open state or closed state.That is, the state of the container containing allows user's root It is switched over according to needs.

Another of the utility model is designed to provide a container containing, wherein an accommodating chamber of the container containing Pressure is regulated to control the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein by adjusting the volatile substance from institute Air velocity when container containing volatilization process is stated, to control the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the container containing includes a container master Body, an operating main body and an installation ontology, the operating main body and the installation ontology are arranged at the container master respectively Body, the container body is in the open state or closed state for controlling for the operating main body, and the container containing is by institute It states installation ontology and is connected to the fixture.

Another of the utility model is designed to provide a container containing, wherein the container containing includes a rush volatilization Device, the rush volatilization device include a temperature control device, and the temperature control device is arranged at the container body, and the temperature control is set It is standby to be in heated condition to adjust the pressure in the accommodating chamber, and then control the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the rush volatilization device is arranged at institute At least one end oral area of container body is stated, in other words, the quantity for being installed on the rush volatilization device of the container containing is one Or it is multiple, so that the container containing has different rate of volatilizations.

Another of the utility model is designed to provide a container containing, wherein the rush volatilization device includes a fan Equipment, the fan apparatus are arranged at the accommodating chamber, and the fan apparatus is in the wind-force generated when rotation status and is used for The air velocity in the volatile substance volatilization process is adjusted, and then controls the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the container containing is by that can be hanged Extension is connected to the fixture, to enhance the connection between the container containing and fixture.

Another of the utility model is designed to provide a container containing, wherein the installation ontology includes a suspension group Part, the suspension assembly are arranged at the container body, and the container containing is connected to institute by suspension assembly suspension State fixture.

Another of the utility model is designed to provide a container containing, wherein the container containing is by can be by card Button is connected to the fixture, to enhance the connection between the container containing and fixture.

Another of the utility model is designed to provide a container containing, wherein the installation ontology includes a buckle group Part, the snap component are arranged at the container body, and the container containing is snapped connection by the snap component in institute State fixture.

Another of the utility model is designed to provide a container containing, wherein the container containing is by that can be glued It is attached to be connected to the fixture, to enhance the connection between the container containing and fixture.

Another of the utility model is designed to provide a container containing, wherein the installation ontology includes an adherency group Part, the adhesive component are arranged at the container body, and the container containing is adhesively joined by the adhesive component in institute State fixture.

Another of the utility model is designed to provide a container containing, wherein the container containing and the fixture Between relative distance be conditioned, to meet different use demands.

Another of the utility model is designed to provide a container containing, wherein the temperature control device includes at least one temperature Regulating part is spent, each temperature regulating part is arranged at the containing cavities, and the temperature regulating part generates when being in heated condition Heat be able to adjust the air pressure in the containing cavities, and then control the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the temperature control device includes at least one temperature Adjusting film is spent, each temperature adjusting film is arranged at a vessel shell of the container body, and the temperature adjusting film, which is in, to be added The heat generated when Warm status is able to adjust the air pressure in the containing cavities, and then controls the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the fan apparatus be arranged at it is described The inside of container body, wherein the fan component includes a flabellum component and a connecting shaft, the flabellum component axis is connected in institute Connecting shaft is stated, the volatile substance is in the rotation of flabellum component described in the air stream drives generated when volatileness, to enhance air-flow Flowing, and then control the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the fan apparatus be arranged at it is described At least one end oral area of container body, wherein the fan component includes a flabellum component and a connecting shaft, the flabellum component Axis is connected in the connecting shaft, and the volatile substance is in the rotation of flabellum component described in the air stream drives generated when volatileness, with The air-flow for enhancing the containing cavities and exterior space flows, and then controls the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the fan apparatus be arranged at it is described The inside of container body, wherein the fan component includes a flabellum component and a driving motor, the flabellum component axis is connected in The driving motor, the driving motor Electricity Federation drive the rotation of the flabellum component in a power supply, to enhance the storage The flowing of the air-flow of chamber and exterior space, and then control the rate of volatilization of the volatile substance.

Another of the utility model is designed to provide a container containing, wherein the suspension assembly connects including at least one Fitting, the connector form a suspension space, and the container containing hangs on the fixture by the connector, wherein The fixture is located at the suspension space.

Another of the utility model is designed to provide a container containing, wherein the suspension assembly includes an adjusting Part, the regulating part are arranged at the connector, and the size in the suspension space is controlled by the regulating part, so that The suspension assembly matches the various sizes of fixture.

Another of the utility model is designed to provide a container containing, wherein the snap component includes one first card Fastener and one second fastener, first fastener and second fastener form a buckle space, the container containing It is snapped connection by the snap component in the fixture, wherein the fixture is located at the buckle space.

Another of the utility model is designed to provide a container containing, wherein the suspension assembly includes a suspension shell Body, the suspension shell have a suspension space, and the container containing is able to be arranged at the suspension shell.

Another of the utility model is designed to provide a container containing, wherein the adhesive component is viscous including at least one Part is tied, each bonding piece is located at the vessel shell, and the container containing is adhesively joined by the bonding piece in described solid Earnest.

Another of the utility model is designed to provide a container containing, wherein the adhesive component includes at least 1 the One adhesive and at least one second adhesive, each first adhesive are located at the vessel shell, each second adhesive It is located at the fixture, the container containing is adhesively joined fixation by first adhesive and second adhesive In the fixture.

Another of the utility model is designed to provide a container containing, wherein the adhesive component includes one at least one Sucker and the sucker are located at the vessel shell, and the container containing is connected to the fixture by the sucker suction.

Another of the utility model is designed to provide a container containing, wherein the temperature adjusting film is located at the shell One lateral surface of body.

Another of the utility model is designed to provide a container containing, wherein the temperature adjusting film is located at the shell One medial surface of body.

Another of the utility model is designed to provide a container containing, wherein the installation ontology is detachably connected In the container containing, and then the container body and the installation ontology are replaced respectively.

Another of the utility model is designed to provide a container containing, wherein the vessel shell is at least one installation Hole, the connector, first fastener, second fastener or the sucker are respectively provided with a connection end, described Removably snap-fit is connected to the mounting hole for connection end, to realize the connector, first fastener, described Second fastener or the sucker are removably installed in the vessel shell.

Another of the utility model is designed to provide a container containing, wherein the vessel shell is at least one installation Hole, wherein the mounting hole has screw thread, the connector, first fastener, second fastener or the sucker Being respectively provided with a connection end has the helicitic texture to match in mounting hole, and the connection end removably matches screw thread company It is connected to the mounting hole, to realize that the connector, first fastener, second fastener or the sucker are detachable Ground is installed on the vessel shell.

Another of the utility model is designed to provide a container containing, wherein the container body and the installation are originally Body is split type structure, and the container body and the installation ontology are formed by Multi-step injection molding respectively.

Another of the utility model is designed to provide a container containing, wherein the container body and the installation are originally Body is an integral molding structure, in favor of production.

According to the one aspect of the utility model, the utility model provides a container containing comprising:

One promotees volatilization device；With

One container body, wherein the container body includes:

An at least volatile layer；

At least one end oral area, wherein the port part forms an at least allocation space, the volatile layer is with institute

It states volatile layer and closes the mode of the allocation space and be arranged at the port part；And

One vessel shell, wherein the port part is arranged at the vessel shell, in the port part and institute

It states and forms an accommodating chamber between vessel shell, for accommodating a volatile substance, wherein the allocation space can

It is connected to the accommodating chamber, so that the container containing is in a volatileness, wherein the rush volatilization device

Regulation is housed inside the rate of volatilization that the volatile substance of the accommodating chamber volatilizees via the allocation space.

One embodiment according to the present utility model, the rush volatilization device includes a temperature control device, wherein the temperature control Regulate and control to be housed inside described in the accommodating chamber in a manner of the pressure of the accommodating chamber of the equipment to adjust the container body and wave The rate of volatilization that hair substance volatilizees via the allocation space.

One embodiment according to the present utility model, the rush volatilization device include an air flow production device, wherein described Air flow production device regulates and controls to be housed inside the institute of the accommodating chamber in a manner of adjusting air-flow and flow through the speed of the container body State the rate of volatilization that volatile substance volatilizees via the allocation space.

One embodiment according to the present utility model, the temperature control device include an at least temperature regulating part, the temperature Regulating part is maintained at the accommodating chamber of the container body.

One embodiment according to the present utility model, the temperature control device include an at least temperature adjusting film, wherein described Temperature adjusting film is arranged at the lateral surface of the vessel shell.

One embodiment according to the present utility model, the temperature control device include an at least temperature adjusting film, wherein described Temperature adjusting film is arranged at the medial surface of the vessel shell.

One embodiment according to the present utility model, the temperature control device include an at least temperature adjusting film, wherein described Temperature adjusting film is embedded into the vessel shell.

One embodiment according to the present utility model, the container containing further comprise an installation ontology, wherein described Installation ontology is arranged at the vessel shell of the container body.

One embodiment according to the present utility model, the installation ontology include a suspension assembly, the suspension assembly quilt It is set to the vessel shell of the container body, it is empty to form a suspension between the suspension assembly and the vessel shell Between.

One embodiment according to the present utility model, the installation ontology include a snap component, the snap component quilt It is set to the vessel shell of the container body, and the snap component has a buckle space.

One embodiment according to the present utility model, the installation ontology include an adhesive component, the adhesive component quilt It is set to the vessel shell of the container body.

One embodiment according to the present utility model, the container body have an at least second fluid channel, and described the Two fluid channels are connected to the accommodating chamber and the allocation space.

One embodiment according to the present utility model, the container containing further comprise an at least operating main body, wherein The operating main body is operably disposed in the opening of the port part, and the operating main body and the port part it Between be capable of forming a first fluid channel, for being connected to the accommodating chamber and the second fluid channel, wherein when the operation When main body closes the opening, the container containing is in a closed state, and when in the operating main body and the port part Between when forming the first fluid channel, the container containing is in a volatileness, and the container containing can be It is converted between the closed state and the volatileness.

One embodiment according to the present utility model, the container body further comprise an at least holding element, wherein The port part has Single port space, and the port space is connected to the opening, wherein the holding element is arranged at institute The port space of port part is stated, and forms the second fluid channel between the holding element and the port part With the allocation space.

One embodiment according to the present utility model, the holding element have one keep channel, the holding element with The mode that the holding channel of the holding element corresponds to the opening of the port part is arranged at the port part The port space, wherein the operating main body is operably disposed in the holding channel of the holding element.

One embodiment according to the present utility model, the operating main body is to be slidably mounted in the holding The holding channel of element.

One embodiment according to the present utility model, the operating main body is to be rotatably mounted in the holding The holding channel of element.

One embodiment according to the present utility model, the operating main body has an at least notch, wherein when the operation When the notch of main body corresponds to the opening of the port part, formed between the operating main body and the port part The first fluid channel.

One embodiment according to the present utility model, the operating main body include an operation portion, a channel forming portion and One closure, the operation portion and the closure are respectively formed in the both ends of the channel forming portion, wherein the notch shape Channel forming portion described in Cheng Yu, wherein one in the channel forming portion and the closure can be maintained at the port The opening in portion.

One embodiment according to the present utility model, the operating main body include an operation portion and are formed in the operation portion End a channel forming portion, wherein the notch is formed in the channel forming portion, wherein the operation portion and described logical One in road forming portion can be maintained at the opening of the port part.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram according to a container containing of a preferred embodiment of the utility model.

Fig. 2 is the decomposition diagram according to the container containing of the above-mentioned preferred embodiment of the utility model.

Fig. 3 A is shown according to the perspective cross-sectional schematic diagram of the container containing of the above-mentioned preferred embodiment of the utility model It has anticipated the container containing in a closed state.

Fig. 3 B is shown according to the perspective cross-sectional schematic diagram of the container containing of the above-mentioned preferred embodiment of the utility model It has anticipated the container containing in a volatileness.

Fig. 4 is shown according to the section view of a manufacturing step of the container containing of the above-mentioned preferred embodiment of the utility model It is intended to.

Fig. 5 is the section view according to another manufacturing step of the container containing of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Fig. 6 is shown according to the decomposition of a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model It is intended to.

Fig. 7 is shown according to the section view of a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model It is intended to.

Fig. 8 is shown according to the section view of a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model It is intended to.

Fig. 9 is shown according to the section view of a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model It is intended to.

Figure 10 is the section view according to a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 11 is the section view according to a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 12 is the section view according to a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 13 A and Figure 13 B are a deformation sides according to the container containing of the above-mentioned preferred embodiment of the utility model The schematic cross-sectional view of formula.

Figure 14 is the section view according to a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 15 is the section view according to a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 16 is the section view according to a mode of texturing of the container containing of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 17 A is the signal according to the first embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model Figure.

Figure 17 B is to use scheme of installation according to the installation ontology of the above-mentioned preferred embodiment of the utility model.

Figure 18 A is illustrated according to a variant embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model Figure.

Figure 18 B is shown according to another variant embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model It is intended to.

Figure 18 C is to use scheme of installation according to the modification installation ontology of the above-mentioned variant embodiment of the utility model.

Figure 19 A is illustrated according to second of embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model Figure.

Figure 19 B is to use scheme of installation according to the installation ontology of the above-mentioned variant embodiment of the utility model.

Figure 20 A is illustrated according to the third embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model Figure.

Figure 20 B is to use scheme of installation according to the installation ontology of the above-mentioned variant embodiment of the utility model.

Figure 21 A is illustrated according to a variant embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model Figure.

Figure 21 B is to use scheme of installation according to the installation ontology of the above-mentioned variant embodiment of the utility model.

Figure 22 A is illustrated according to a variant embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model Figure.

Figure 22 B is to use scheme of installation according to the installation ontology of the above-mentioned variant embodiment of the utility model.

Figure 23 is illustrated according to a variant embodiment of the installation ontology of the above-mentioned preferred embodiment of the utility model Figure.

Figure 24 is to promote a kind of preferred embodiment that volatilization mechanism is set to the container body according to the one of the utility model Schematic diagram.

Figure 25 is to promote second of implementation diagram that volatilization mechanism is set to the container body according to the one of the utility model.

Figure 26 is to promote the third implementation diagram that volatilization mechanism is set to the container body according to the one of the utility model.

Figure 27 is a variant embodiment schematic diagram for promoting volatilization mechanism according to the one of the utility model.

Figure 28 A is second of embodiment signal according to the rush volatilization mechanism of the above-mentioned preferred embodiment of the utility model Figure.

Figure 28 B is second of variant embodiment according to the rush volatilization mechanism of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 29 A is the third embodiment signal according to the rush volatilization mechanism of the above-mentioned preferred embodiment of the utility model Figure.

Figure 29 B is the third variant embodiment according to the rush volatilization mechanism of the above-mentioned preferred embodiment of the utility model Schematic diagram.

Figure 30 is the 4th kind of embodiment signal according to the rush volatilization mechanism of the above-mentioned preferred embodiment of the utility model Figure.

Specific embodiment

Claim according to the present utility model and specification disclosure of that, the technical solution of the utility model are specific As described below.

It will be understood by those skilled in the art that in the exposure of the utility model, term " longitudinal direction ", " transverse direction ", "upper", The orientation of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" or position are closed System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, without It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore on Stating term should not be understood as limiting the present invention.

It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment, The quantity of one element can be one, and in a further embodiment, the quantity of the element can be multiple, term " one " should not be understood as the limitation to quantity.

With reference to figures 1 through Fig. 3 B, according to the utility model a preferred embodiment a container containing in following description In be disclosed for and be set forth, wherein the container containing has a volatileness and a closed state, and the container containing Suitable for repeatedly being converted between the volatileness and the closed state.Specifically, the container containing includes a container Main body 10 and two operating main bodies 20, wherein the container body 10 has an accommodating chamber 101 and is respectively communicated in the accommodating chamber 101 two openings 102, wherein each operating main body 20 is operably disposed in each of described container body 10 respectively The opening 102.By adjusting each operating main body 20 in the position of each of the receiving main body 10 opening 102 Mode, can make the container containing the volatileness and the closing conversion between convert.More specifically, work as institute State operating main body 20 close it is described accommodate main body 10 the opening 102 when, the container containing is in the closed state, this When, the volatile substance 100 for being housed inside the accommodating chamber 101 for accommodating main body 10 can not be by the receiving main body 10 opening 102 evaporates into the external world.Correspondingly, when forming one between the operating main body 20 and the receiving main body 10 When first fluid channel 30, the container containing is in the volatileness, at this point, being housed inside the institute for accommodating main body 10 The volatile substance 100 for stating accommodating chamber 101 is allowed through the opening 102 for accommodating main body 10 and evaporates into the external world.

It is noted that this in the container containing of the utility model shown in attached drawing 1 to Fig. 3 B is specific In example, each of described container body 10 opening 102 is located at two ends for accommodating main body 10, thus Each operating main body 20 is operably disposed in each end for accommodating main body 10 respectively.In addition, practical at this In this specific example of the container containing of the utility model shown in novel attached drawing 1 to Fig. 3 B, by vertically The mode for forcing in the operating main body 20 can operate movement of the operating main body 20 relative to the container body 10, and Convert the container containing between the volatileness and the closed state.

With further reference to attached drawing 1 to Fig. 3 B, in this specific example of the container containing of the utility model, lead to It crosses and presses inward against the mode of the operating main body 20 and vertically force in the operating main body 20, so that 20 court of the operating main body It is moved to the direction of the accommodating chamber 101 of the container body 10, at this point, can be in the operating main body 20 and the container The first fluid channel 30 is formed between main body 10, to be connected to the accommodating chamber 101 and the outside of the container body 10, from And the container containing is made to be in the volatileness.Correspondingly, by way of being pulled outwardly the operating main body 20 vertically The operating main body 20 is forced in, so that the operating main body 20 is directed away from the accommodating chamber 101 of the container body 10 Direction movement, at this point, the operating main body 20 can close the opening 102 of the container body 10, to make described Container containing is in the closed state.

Preferably, the operating main body 20 can be unpicked and washed from the container body 10, so that the container master The exposure of the opening 102 of body 10, so that the opening 102 by the container body 10 can be by the volatile substance 100 are supplemented in the accommodating chamber 101, and in this way, the container containing of the utility model can be by repeatedly It utilizes, to avoid wasting and reducing use cost.

With continued reference to attached drawing 1 to Fig. 3 B, the container body 10 further comprises the vessel shell 11 and two-port of a tubulose Portion 12, wherein each port part 12 is respectively provided with the opening 102, wherein each port part 12 is set respectively It is placed in each end of the vessel shell 11, to form the appearance between each port part 12 and the vessel shell 11 Receive chamber 101, and the opening 102 of each port part 12 is respectively communicated with the accommodating chamber 101.

Further, the container body 10 include two sealing elements 13, wherein each sealing element 13 respectively by It is maintained between each port part 12 and the vessel shell 11, to prevent by the sealing element 13 in the container Gap is generated between shell 11 and the port part 12, in such manner, it is possible to avoid the receiving for being stored in the container body 10 The volatile substance 100 in chamber 101 volatilizees between the vessel shell 11 and the port part 12.Preferably, the sealing Element 13 has elasticity, for example, the sealing element 13 may be implemented as but be not limited to silica gel sealing element or rubber is close Element is sealed, wherein the sealing element 13 is to be squeezed and generated by the vessel shell 11 and the port part 12 side of flexible deformation Formula prevention generates gap between the vessel shell 11 and the port part 12.It is highly preferred that the sealing element 13 is in ring Shape, wherein the sealing element 13 is sleeved on the port part 12, thus the port part 12 is installed on the vessel shell When 11, the sealing element 13 can be maintained between the port part 12 and the vessel shell 11.The port part 12 into One step has a retention groove 120, wherein the sealing element 13 for being sleeved on the port part 12 is maintained at the port part In 12 retention groove 120, with during the port part 12 is installed on vessel shell 11, the sealing element 13 can be securely held in the retention groove 120 of the port part 12, to be installed on by the port part 12 Behind the inside of the vessel shell 11, it is ensured that the sealing element 13 be maintained at the port part 12 and the vessel shell 11 it Between.It should be understood that in the sealing element 13 by the quilt in a manner of the retention groove 120 for being maintained at the port part 12 After being sleeved on the port part 12, the sealing element 13 protrudes from the surface of the port part 12, thus by the port After portion 12 is installed on the vessel shell 11, the vessel shell 11 and port part 12 is capable of providing pressure so that the sealing Element 13 is deformed, and then is prevented by the mode that the sealing element 13 is deformed at the vessel shell 11 and the end Gap is generated between oral area 12.

The operating main body 20 includes an operation portion 21, a channel forming portion 22 and a closure 23, wherein the behaviour Making main body 20 further has an at least notch 24, and the notch 24 corresponds to the channel forming portion 22.Specifically, attached In this specific example of the container containing shown in Fig. 1 to Fig. 3 B, the size of the channel forming portion 22 is less than described The size of the size of operation portion 21 and the closure 23, to form described lack in the corresponding position of the channel forming portion 22 Mouth 24.More specifically, the channel forming portion 22, the operation portion 21 and the closure 23 are cylindrical bodies, wherein institute The diameter dimension for stating channel forming portion 22 is less than the diameter dimension of the operation portion 21 and the closure 22, thus described The corresponding position of channel forming portion 22 forms the cricoid notch 24.Nevertheless, those skilled in the art should understand that , in other possible examples of the container containing of the utility model, with reference to attached drawing 6, the operating main body 20 The notch 24 can be the notch of a strip, that is to say, that the closure 22 is equipped with a groove, for forming institute Notch 24 is stated, wherein the groove of the closure 22 extends to the operation portion 21 and the closure 23 to both ends.

With reference to attached drawing 3A, when the container containing is in the closed state, the closing of the operating main body 20 Portion 23 is maintained at the opening 102 of the port part 12, so that the closure 23 by the operating main body 20 hinders Only 102 connection of the opening accommodating chamber 101 and outside are maintained at the container body 10 in this way The volatile substance 100 in the accommodating chamber 101 is prevented from outwardly waving by the opening 102 of the port part 12 Hair.

With reference to attached drawing 3B, when the container containing is in the volatileness, the channel of the operating main body 20 Forming portion 22 is maintained at the opening 102 of the port part 12, because the operating main body 20 is corresponding to the channel The position of forming portion 22 is equipped with the notch 24, so that the notch 24 of the operating main body 20, which is formed, is located at operation master The first fluid channel 30 between body 20 and the port part 12 of the container body 10, in this way, quilt The volatile substance 100 being maintained in the accommodating chamber 101 of the container body 10 is allowed to through described first-class It outwardly volatilizees in body channel 30.

It is noted that by pressing the behaviour to the direction of the accommodating chamber 101 towards the container body 10 Make the opening 102 that the mode of the operation portion 21 of main body 20 can make the closure 23 be detached from the port part 12, With the opening 102 for making the channel forming portion 22 enter the port part 12, to make the container containing from attached drawing 3A The closed state shown is transformed into the volatileness shown in attached drawing 3B.Correspondingly, by far from the container master The accommodating chamber 101 of body 10 reversely draws the mode of the operation portion 21 of the operating main body 20 that can make the channel shape It is detached from the opening 102 of the port part 12 at portion 22, and so that the closure 23 is entered the described of the port part 12 and opens Mouth 102, so that the volatileness shown in the container containing from attached drawing 3B be made to be transformed into the closing shown in attached drawing 3A State.

With further reference to attached drawing 1 to Fig. 3 B, the container body 10 further comprises two holding elements 14, wherein each institute It states holding element 14 and is respectively provided with a holding channel 141, wherein each holding element 14 is respectively with the holding element 14 The holding channel 141 correspond to the mode of the opening 102 of the port part 12 and be arranged at each port part 12, and an at least second fluid channel 15 is formed between the holding element 14 and the port part 12, wherein described Two fluid channels 15 can be connected to the first fluid channel 30 and be used to form a fluid channel.Preferably, the port part 12 With Single port space 121, the port space 121 is connected to the opening 102, wherein the holding element 14 is arranged at The port space 121 of the port part 12.The operation portion 21 of the operating main body 20 is by being operably disposed in The holding channel 141 of holding element 14 is stated, wherein the holding element 14 can guarantee the activity of the operating main body 20 Direction, and the holding element 14 can make the closure 23 of the operating main body 20 be securely held on the end The opening 102 of oral area 12, so that the container containing reliably and is stably maintained at the closed state.In addition, The holding element 14 also can be based on generating between the holding element 14 and the operation portion 21 of the operating main body 20 Frictional force so that the channel forming portion 22 is securely held on the opening 102 of the port part 12, to make described Container containing reliably and is stably maintained at the volatileness.

Preferably, the port part 12 has an at least groove 122, wherein the groove 122 is connected to the port space 121, thus after the port space 121 that the holding element 14 is arranged at the port part 12, because of the end Oral area 12 has been equipped with the groove 122, to be formed between the port part 12 and the holding element 14 corresponding to described The second fluid channel 15 of groove 122.It is highly preferred that passing through offer in the port space 121 of the port part 12 The mode of step forms the groove 122, wherein being formed in the outer wall of the holding element 14 and being used for for the port part 12 Forming the second fluid channel 15 between the inner wall of the groove 122 is gap-shaped volatilization channel, side in this way Formula can control the stream flowed out via the first fluid channel 30 and the second fluid channel 15 from the accommodating chamber 101 The flow velocity of the volatile substance 100 of body shape.

Further, the inner wall of the port part 12 is equipped with an at least adjutage 123, wherein the holding element 14 is with quilt The mode being set between each of described port part 12 adjutage 123 is maintained at the port of the port part 12 Space 121.And after the port space 121 that the holding element 14 is arranged at the port part 12, described An at least allocation space 16 is formed between port part 12 and the holding element 14, wherein the allocation space 16 is connected to described Two fluid channels 15.

Preferably, with further reference to attached drawing 1 to Fig. 3 B, the container body 10 further comprises two volatile layers 17, wherein The volatile layer 17 has an inside edge 171 and the outer ledge 172 corresponding to the inside edge 171, wherein described The inside edge 171 of volatile layer 17 is arranged at the outer ledge of the holding element 14 and the volatile layer 17 172 are arranged at the port part 12, to close each allocation space 16 by the volatile layer 17.For example, at this In this specific example of the container containing of utility model, the inside edge 171 of the volatile layer 17 is to mount Mode be arranged at the holding element 14 and the outer ledge 172 of the volatile layer 17 is set in a manner of attachment It is placed in the port part 12, to close each allocation space 16 by the volatile layer 17.

The volatile layer 17 allows gas to evaporate into the external world, and 17 energy of the volatile layer from each allocation space 16 Enough liquid is prevented to flow to the external world from each allocation space 16.

With reference to attached drawing 3B, when the container containing is in the volatileness, 100 energy of the volatile substance of flow-like It is enough successively to enter the distribution from the accommodating chamber 101 via the first fluid channel 30 and the second fluid channel 15 Space 16 because the volatile layer 17 prevents liquid from flowing to the external world from each allocation space 16, and allows gas from each The allocation space 16 evaporates into the external world, so that the volatile substance 100 of flow-like is merely able to pass through by way of gasification The volatile layer 17 evaporates into the external world.

Attached drawing 4 shows a manufacturing process of the container containing.Specifically, firstly, providing the appearance of tubulose Device shell 11.Secondly, the port part 12 for being equipped with the holding element 14 is installed on to the end of the vessel shell 11, from And the accommodating chamber 101 is formed between each port part 12 and the vessel shell 11, and each port part 12 The opening 102 be respectively communicated with the accommodating chamber 101 and outside.Then, an evaporation membranes 200 are mounted on the port part 12 and the holding element 14, and the volatilization is cut along the outer wall of the outer wall of the port part 12 or the vessel shell 11 Film 200, to avoid the outer wall of the prominent port part 12 of the evaporation membranes 200 or the outer wall of the vessel shell 11.It is worth one It is mentioned that, the evaporation membranes 200 is mounted on the port part 12 and the guarantor in the container containing of the utility model The mode for holding element 14 is unrestricted, such as the evaporation membranes 200 can be mounted on institute by glue or similar substance State port part 12 and the holding element 14.Then, the holding member is inserted into the closure 23 of the operating main body 20 The operating main body 20 is installed on the port part 12 by the normal form in the holding channel 141 of part 14, and in this process In, the operating main body 20 can puncture the evaporation membranes 200, so that the evaporation membranes 200 form the volatile layer 17, thus The container containing is made.

What attached drawing 5 showed the container containing stays a manufacturing process.Specifically, firstly, providing the described of tubulose Vessel shell 11.Secondly, the port part 12 for being equipped with the holding element 14 is installed on to the end of the vessel shell 11, To form the accommodating chamber 101, and each port part between each port part 12 and the vessel shell 11 12 opening 102 is respectively communicated with the accommodating chamber 101 and outside.Then, will have described in an at least through-hole 201 and wave Hair film 200 corresponds to the side in the holding channel 141 of the holding element 14 with the through-hole 201 of the evaporation membranes 200 Formula is mounted on the port part 12 and the holding element 14, and along the outer wall or the vessel shell 11 of the port part 12 Outer wall cut the evaporation membranes 200 so that the evaporation membranes 200 form the volatile layer 17.Then, by the operating main body The normal form in the 20 holding channels 141 for being first inserted into the holding element 14 with the closure 23 is installed on the port part 12, so that the container containing be made.

Attached drawing 7 shows a variant embodiment of the container containing, with attached drawing 1 the opening 102 is arranged Unlike the center of the port part 12, in this specific example of the container containing shown in attached drawing 7, The side that the opening 102 is arranged on the port part 12, in this way, be subsequently formed be arranged at it is described The first fluid channel 30 between the operating main body 20 of opening 102 and the port part 12 of the container body 10 Positioned at side, thus the even described container containing by a manner of laying flat in use, being stored in the stream of the accommodating chamber 101 The volatile substance 100 of body shape can successively enter via the first fluid channel 30 and the second fluid channel 15 every Then a allocation space 16 is outwardly volatilized by the evaporation membranes 17 again.

Attached drawing 8 shows a variant embodiment of the container containing, the splendid attire shown in attached drawing 1 to Fig. 3 B Unlike container, in this specific example of the container containing shown in attached drawing 8, the appearance of the container containing Device ontology 10 includes the vessel shell 11 and a port part 12 for being arranged at the vessel shell 11, and in the appearance The other end of device shell 11 has an at least through-hole 111, so that connection is formed between the port part 12 and the vessel shell 11 The accommodating chamber 101.When the container containing is in the volatileness, the through-hole 111 of the vessel shell 11 is permitted Perhaps external gas enters in the accommodating chamber 101, at this point, being stored in the volatile substance in the accommodating chamber 101 100 successively can enter the allocation space 16 via the first fluid channel 30 and the second fluid channel 15, then The external world is evaporated by the volatile layer 17 by way of gasification.Those skilled in the art is it should be understood that described When container containing is in the closed state, the closure 23 of the operating main body 20 is to be maintained at the port part The mode of 12 opening 102 closes the volume US book opening 102 of the port part 12, at this point, because atmospheric pressure is poor, The volatile substance 100 being stored in the accommodating chamber 101 can't be flowed out from the through-hole 111 of the vessel shell 11 The accommodating chamber 101.

One variant embodiment of the container containing shown in attached drawing 9, the splendid attire shown in attached drawing 1 to Fig. 3 B Unlike container, in this specific example of the container containing shown in attached drawing 9, the container containing is further wrapped An installation ontology 40 is included, wherein the installation ontology 40 is arranged at the vessel shell 11 of the vessel 10, rear It is continuous that the container containing is maintained at by use environment by the installation ontology 40.Such as hold in the splendid attire shown in attached drawing 9 In this specific example of device, the installation ontology 40 is implemented as a clamp, can be clamped in the indoor air-conditioning of vehicle On the grid of air outlet, so that the container containing is maintained at use environment.And in the container containing shown in attached drawing 10 Another variant embodiment in, the installation ontology 40 can also be implemented as a sucker, can be adsorbed on vehicle chamber Interior corresponding position, so that the container containing is maintained at use environment by the installation ontology.And it is shown in attached drawing 11 The container containing other variant embodiments in, the installation ontology 40 can also be implemented as a chaining, with energy It is enough that the container containing is maintained at use environment in a hanging manner.

It will be appreciated by those skilled in the art that the container containing is maintained at by the installation ontology 40 When the position of the indoor air-conditioner air outlet of vehicle, if the indoor air-conditioner air outlet of vehicle has heat to shed, the container containing The volatile substance 100 of inside can rapidly volatilize.

Another variant embodiment of the container containing shown in attached drawing 12, described in shown in attached drawing 1 to Fig. 3 B Unlike container containing, in this specific example of the container containing shown in attached drawing 12, the container containing into One step includes a heating element 50, wherein the heating element 50 is arranged at the vessel 10, although showing in attached drawing 12 In this specific example of the container containing out, the institute of the vessel 10 is arranged at the heating element 50 It states and the content and feature of the container containing of the utility model is disclosed and illustrated for vessel shell 11, art technology For personnel it should be understood that in other examples of the container containing of the utility model, the heating element 50 can be with It is arranged at the port part 12 of the vessel 10.Preferably, the heating element 50 is a temperature adjusting film, wherein The heating element 50 is wrapped in the outside of the vessel shell 11, or during the vessel shell 11 is molding, described to add Thermal element 50 is maintained at the inside of the vessel shell 11.In the heating element 50, power is supplied and adstante febre, the Sheng The volatile substance 100 in packaging container can be accelerated volatilization.

Attached drawing 13A and Figure 13 B show another variant embodiment of the container containing, show with attached drawing 1 to Fig. 3 B Unlike the container containing out, in this specific example of the container containing shown in attached drawing 13A and Figure 13 B In, the holding element 14 has internal thread structure, and the operation portion 21 of the operating main body 20 has external thread structure, Described in operating main body 20 the operation portion 21 external thread structure and the internal thread structure of the holding element 14 being capable of phase Mutually cooperation, so that the operation portion 21 of the operating main body 20 can be bolted in the holding element 14.For example, with reference to attached drawing 13A and Figure 13 B can make the described of the operating main body 20 by way of rotating the operating main body 20 to different directions Closure 23 is detached from the opening 102 of the port part 12 and makes the channel forming portion 22 into the institute of the port part 12 Opening 102 is stated, so that the container containing is in the volatileness, or the channel of the operating main body 20 can be made Forming portion 22 is detached from the opening 102 of the port part 12 and the sealing 23 is made to enter the described of the port part 12 and opens Mouth 102, so that the container containing is in the closed state.It is noted that hanging down with passing through shown in attached drawing 1 to Fig. 3 B It directly forces in the mode of the operation ontology 20 and converts the container containing in the volatileness and the closed state Mode unlike, in this specific example of the container containing shown in attached drawing 13A and Figure 13 B, can pass through It rotates the mode of the operation ontology 20 and converts the container containing between the volatileness and the closed state, In this way, be conducive to control be formed in the port part 12 and it is described operation ontology 20 the channel forming portion 22 between it is described The size in first fluid channel 30, to control the gas flow of the container containing volatilization.

Another variant embodiment of the container containing shown in attached drawing 14, described in shown in attached drawing 1 to Fig. 3 B Unlike container containing, in this specific example of the container containing shown in attached drawing 14, the container containing packet The vessel 10 is included, wherein the vessel 10 includes 11, two port parts 12 of a vessel shell And two confining beds 60, wherein each port part 12 is installed in the both ends of the vessel shell 11 respectively, with The accommodating chamber 101 is formed between each port part 12 and the vessel shell 11, wherein the confining bed 60 is mounted on The port part 12, to prevent the opening 102 of the port part 12 from being connected to the accommodating chamber by the confining bed 60 101.Subsequent, described in the operating main body 20 can be first inserted by user with the closure 23 of the operating main body 20 The mode in the holding channel 141 of holding element 14 is inserted into the operating main body 20, and the operating main body 20 is described Closure 20 can penetrate the confining bed 60, so that the opening 102 of the port part 12 can be connected to the accommodating chamber 101。

It is noted that the confining bed 60 is mounted on the end in the container containing of the utility model Oral area 12 is unrestricted in a manner of closing the opening 102 of the port part 12 by the confining bed 60.Such as at this In the specific example of one of the container containing of utility model, the confining bed 60 can be passed through glue or similar Substance be directly mounted on the surface of the port part 12, to be closed described in the port part 12 by the confining bed 60 Opening 102.And in this specific example of the container containing shown in attached drawing 14, the confining bed 60 is with the closing The mode that the edge of layer 60 is clamped between the port part 12 and the vessel shell 11 is mounted on the port part 12, and The opening 102 of the port part 12 is closed by the confining bed 60, and in this way, subsequently through institute When stating the closure 23 of operating main body 20 and penetrating the confining bed 60, the confining bed 60 is not fallen out to the accommodating chamber Guarantee the aesthetics of the container containing in 101.

Attached drawing 15 shows another variant embodiment of the container containing, described in shown in attached drawing 1 to Fig. 3 B Unlike container containing, in this specific example of the container containing shown in attached drawing 15, the vessel 10 It further include an at least partition 18, wherein the integrally formed inner wall in the vessel shell 11 of the partition 18, and the partition 18 extending direction is consistent with the extending direction of the vessel shell 11, when each port part 12 is installed in the appearance respectively When each end of device shell 11, formed between each port part 12, the vessel shell 11 and the partition 18 mutually only Vertical multiple accommodating chambers 101, to be respectively used to accommodate different types of volatile substance 100, such as different odor The volatile substance can be housed inside respectively in the different accommodating chambers 101.The container containing allows any one kind The volatile substance 100 of class evaporates into the container containing 101 individually through the opening 102 of the port part 12 The external world allows user to select as needed.

It is noted that although in this specific example of the container containing shown in attached drawing 15, with described Container containing tool there are two for the accommodating chamber 101 come illustrate and disclose the utility model the container containing content and Feature, it will be understood by those skilled in the art that other in the container containing of the utility model possible show In example, the container containing can also have more mutually independent described accommodating chambers 101.

It's also worth mentioning that although in this specific example of the container containing shown in attached drawing 15, with institute State partition 18 extending direction it is consistent with the extending direction of the vessel shell 11 for illustrate and disclose the institute of the utility model The content and feature of container containing are stated, it will be understood by those skilled in the art that in the splendid attire of the utility model In other possible examples of container, the partition 18 can also be obliquely formed at the inside of the vessel shell 11, Huo Zhesuo The extending direction for stating the extending direction and the vessel shell 11 of partition 18 is mutually perpendicular to, with reference to attached drawing 16.Specifically, in attached drawing In this specific example of the container containing shown in 16, there are two the through-holes 111 for the tool of vessel shell 11, wherein often A through-hole 111 is respectively provided in the side wall of the vessel shell 11, and is respectively communicated with each accommodating chamber 101, passes through this The mode of sample, the container containing can be used for containing the two distinct types of volatile substance 100.

The container containing of the utility model is connected to a fixture 300, the fixation by the installation ontology 40 Object 300 is able to be interpreted as the component on automobile, be placed in by the installation ontology 40 in order to the container containing described in Automobile, but those skilled in the art are interpreted as, and the application environment of the container containing is not as the act to above-described embodiment Example, the application environment of the container containing are not limited only to automobile, and the container containing is able to be placed in arbitrary described solid Earnest 300, such as home environment, office space or other vehicles.The installation ontology 40 makes the container containing It is able to that there are a variety of different connection structures, the container containing is installed on the different types of fixture 300 to meet, The container containing by the installation ontology 40 suspension connection, the modes such as snap connection or be adhesively joined and be connected to the fixation Object 300.

As shown in Figure 17 A and Figure 17 B, the installation ontology 40 includes a suspension assembly 41, and the suspension assembly 41 is set It is placed in the container body 10, the container containing is connected to the fixture 300 by the suspension assembly 41 suspension.It is preferred that Ground, the suspension assembly 41 are arranged at a lateral surface 110 of the vessel shell 11, and the suspension assembly 41 is from the vessel shell 11 lateral surface 110 extends outwardly and forms a suspension space 410, and it is empty that the fixture 300 is arranged at the suspension Between 410, and then the container containing connects the fixture 300 by suspension.For example, in attached drawing 17B, the fixture 300 It may be implemented as automobile rearview mirror, so that user can be protected the container containing in a manner of hanging on automobile rearview mirror It holds in the seating space of automobile.

It is noted that the position that the suspension assembly 41 is arranged at the container body 10 is practical new not as this The limitation of type content, in addition in citing embodiment, two connection ends 4100 of the suspension assembly 41 are able to be located at the appearance The same port part 12 of device main body 10, the container containing are suspended in a vertical shapely by the suspension assembly 41 The fixture 300；Or two connection ends 4100 of the suspension assembly 41 are located at the container body 10 Each of the port part 12 so that the container containing hangs on the fixture 300.

It's also worth mentioning that in one embodiment of the container containing of the utility model, the suspension assembly 41 can be installed in the container body 10, and in another embodiment of the container containing of the utility model, institute The container body 10 can integrally be extended by stating suspension assembly 41, for example, the suspension assembly 41 integrally extend it is described The vessel shell 11 of container body 10.That is, the vessel shell of the suspension assembly 41 and the container body 10 11 can be integral structure.

Further, the suspension assembly 41 includes at least a connection piece 411, and the connector 411 is from the vessel shell 11 extend outwardly certain predetermined distance, and the connector 411 has both ends, each end difference of the connector 411 Positioned at the same side of the vessel shell 11, and between the end have certain predetermined distance, the connector 411 with it is described Vessel 10 is to form the suspension space 410, and then the container containing can be by smoothly by the connector 411 Hang on the fixture 300.When the container containing is suspended in the fixture 300, the connector 411 is connected to The fixture 300, to realize the suspension of the container containing, wherein passing through the length dimension energy for controlling the connector 411 Enough control the relative distance between the container containing and the fixture.Preferably, the connector 411 is a rope form knot Structure, the connector 411 are made of rubber, nylon or metal material.Known relevant technical staff in the field is interpreted as, institute State limitation of the material and shape not as the content of the present invention of connector 411

In above-described embodiment, as preferred embodiment, the length dimension of the connector 411 is conditioned, described The relative length of container containing and the fixture 300 depends on the length dimension of the connector 411, but different user is to institute The suspension length for stating container containing has different use demands, therefore the length of the suspension assembly 41 of the container containing Size is able to be adjusted according to the use demand of user.Specifically, the suspension assembly 41 further comprises at least one adjusting Part 412, each regulating part 412 are arranged at the connector 411 respectively, i.e., the described connector 411 passes through the regulating part The vessel shell 11 is connected to after 412, the regulating part 412 is for storing the connector 411, i.e., by described in control Regulating part 412 is scalable to enable to the connector 411, and a part of the connector 411 can be incorporated in described Regulating part 412, controls the length dimension of the connector 411 by the regulating part 412, so control the container containing with Relative length between the fixture 300.The quantity that the regulating part 412 is arranged at the connector 411 is preferably one It is a or two to control the length of the connector 411, but the quantity of the regulating part 412 is not as the content of the present invention Limitation.

Shown in Figure 18 A to Figure 19 B it is another as described in install ontology 40 embodiment, the container containing is by described Installation ontology 40 is snapped connection in the fixture 300, and in other words, the container containing is buckled by the installation ontology 40 It is connected to the air-conditioner air outlet of the automobile, the container containing snaps connection at the barrier of the air outlet, but the Sheng Packaging container, which is snapped connection, is not limited only to the example above in the position of automobile.The installation ontology 40 includes a snap component 42, institute It states snap component 42 and is arranged at the container body 10, the snap component 42 has a buckle space 420, the fixture 300 are snapped and are connected to the buckle space 420, and then the container containing is snapped and is connected to the fixture 300.It is preferred that Ground, the snap component 42 is arranged at the vessel shell 11, and is located at the centre of the vessel shell 11, so that the splendid attire Container, which is smoothly snapped, is connected to the fixture 300.

In a preferred embodiment, with reference to attached drawing 18A, the snap component 42 extends outwardly from the vessel shell 11, And the snap component 42 has certain predetermined length.The snap component 42 has an opening 423,423 connection of opening In the buckle space 410, the fixture 300 enters the buckle space 410, the buckle by the opening 423 Component 42 forms certain aid power to the fixture 300, to keep the container containing to snap connection in the fixture 300.Preferably, the snap component is made of changeable type material, and the snap component 42 has certain elasticity, the opening 423 are matched with the size of the fixture 300, and the fixture 300 enters the buckle space 420, the snap component 42 are extended, but the restoring force of the snap component 42 itself is able to act on the fixture 300, so that the buckle group Part 42 forms the clamping force to the fixture.The snap component 42 is structure as a whole in the present embodiment, the buckle The snap effect power of component 42 is determined by its material property and structure.

In a further advantageous embodiment, with reference to attached drawing 19A, the snap component 42 is compared to the area of above-described embodiment It is not characterized in that, snap component 42 described in the present embodiment is split type structure.The snap component 42 includes one first buckle Part 421, one second fastener 422 and an elastic component 424, first fastener 421 and second fastener 422 Extend outwardly respectively from the vessel shell 11, first fastener 421 is relative to second fastener 422, to be formed State opening 423 and the buckle space 420.And first fastener 421 is connected to described by the elastic component 424 Second fastener 422, and then the size of the opening 420 must be changed, so that the snap component 42 is suitable for different rulers The very little fixture 300.Apply active force in first fastener 421 and second fastener 422, so that described The size of opening 423 is conditioned, and the fixture 300 enters the buckle space 420, and bullet will occur for the elastic component 424 Property deformation so that first fastener 421 and second fastener 422 form clamping action to the fixture 300.

In another embodiment as shown in figure 18b, the connector 411 is made of metal material, so that the company Fitting 411 has plasticity, and then the connector 411 changes certain shapes under stress effect, empty to form the suspension Between 420, and the connector 411 is maintained the shape after being conditioned.Only when the connector 411 is again by outer masterpiece With can just be changed.The one end of the connector 411 is set to the vessel shell 11, and the connector 411 is from the appearance Device shell 11 extends outwardly, and the connector 411 forms the suspension space 420 for connecting the fixture 300.Pass through The connection for adjusting the connector 411 and the fixture 300, so that the container containing is connected or separated in the fixation Object 300.

Shown in Figure 20 A and Figure 20 B it is another as described in install ontology 40 embodiment, the container containing is by described Installation ontology 40 is adhesively joined in the fixture 300, and in other words, the container containing is adhered to by the installation ontology 40 It is connected to any position of the automobile, the container containing is preferably attached the middle control position for being connected to the automobile, but institute It states container containing and is adhesively joined and be not limited only to the example above in the seat of automobile.User is able to will be described according to different use demands Container containing is adhesively joined by the installation ontology 40 in the fixture 300.

The installation ontology 40 includes an adhesive component 43, and the adhesive component 43 is arranged at the container body 10, The adhesive component 43 forms an adhesive face 430, and the fixture 300, which is attached, is connected to the adhesive face 430, and then described Container containing is adhesively joined in the fixture 300.Preferably, the adhesive component 43 is arranged at the vessel shell 11, and Positioned at the centre of the vessel shell 11, so that the container containing is smoothly adhesively joined by the adhesive face 430 in institute State fixture 300.

Further, the adhesive component 43 includes a bonding piece 431, and the bonding piece 431 extends the vessel shell 11, and the bonding piece 431 forms the adhesive face 430, the bonding piece 431 be adhesion material be made be able to be adhesively joined in The fixture 300.The bonding piece 431 is able to be repeated as many times as required use, and user changes the installation site of the container containing When, need to only it apply an active force to the container containing, so that the bonding piece 431 is located away from the fixture 300, while institute Stating bonding piece 431 still has adhesiveness, to meet the multiple adhesion process of the container containing.Known this field the relevant technologies Personnel are interpreted as, different according to the material of the fixture 300, and the bonding piece 431 is able to attached using different adherency Part, so that the bonding piece 431 adapts to the fixture 300.In above-described embodiment, the bonding piece 431 and the appearance Device main body 10 is structure as a whole, and the bonding piece 431 integrally extends the container body 10.

The distinguishing characteristics that preferred embodiment as shown in fig. 22a and 22b is compared to above-described embodiment is, described viscous Attached component 43 be it is split type, the adhesive component 43 include at least one first adhesive 431 and at least one second adhesive 432, Each first adhesive 431 is arranged at the vessel shell 11, and each second adhesive 432 is arranged at the fixture 300, first adhesive 431 is adhesively joined in second adhesive 432, and then the container containing is adhesively joined in institute State fixture 300.Preferably, first adhesive 431 is arranged at the centre of the vessel shell 11, so that the splendid attire Container is smoothly adhesively joined in the fixture 300.Known relevant technical staff in the field is interpreted as, and described first is viscous Not as the limitation of the content of the present invention, described first is viscous for quantity that attachment 431 is set to the container body 10 and position Attachment 431 is matched with second adhesive 432, to realize that the container containing is adhesively joined in the fixture 300.

In another preferred embodiment as shown in figs. 21 a and 21b, the adhesive component 43 includes an at least sucker 434, each sucker 434 is arranged at the vessel shell 11, and the sucker 434 forms the adhesive face 430, the sucker 434, which are able to absorption, is connected to the fixture 300, and then container containing absorption is connected to the fixture 300.By right The container containing applies an active force, and the adhesive face 430 that the sucker 434 is formed is connected to the fixture 300, and The gas of the adhesive face 430 is discharged, so that external pressure is greater than 434 internal pressure of sucker, to realize the splendid attire Container adsorption is connected to the fixture 300；When the container containing is located away from the fixture 300, to the container containing Apply an active force, so that the sucker 434 is located away from the fixture 300.434 structure of sucker is conducive to the splendid attire The absorption that container is repeated is connected to the different fixtures 300.Preferably, the sucker 434 is made of rubber material, with So that the sucker 434 is in stress effect, deformation occurs, and the sucker 434 forms pressure absorption and is connected to the fixture 300. Known relevant technical staff in the field is interpreted as, positioned at the quantity and material of the sucker 434 of the container body 10 Not as the limitation of the content of the present invention.

It is noted that the different structures of implementing of the installation ontology 40 are able to be applied to such as Fig. 1 to Figure 16 respectively With the container containing of different type structure shown in any, i.e., the feature of the described container containing is not as practical new to this The limitation of type content, the container containing are able to be connected to the fixture of the automobile using the different installation ontologies 40 300, in order to the use of user.

It is noted that the suspension assembly 41, the snap component 42 and the adhesive component 43 are distinguished One or more combinations is carried out according to different use demands and is installed on the container containing, so that the container containing is with more The connection type of kind and the fixture 300.

It is noted that the installation ontology 40 and the container containing are integrated connection structure, in above-described embodiment The suspension assembly 41, the snap component 42 and the adhesive component 43 respectively in 10 injection molding of container body The container containing is integrally connected in journey, and then the installation ontology 40 and the container containing are non-removable structure.It changes For it, the connector 411 or first fastener 421 or second fastener 422 or the bonding piece 431 or First adhesive 432 distinguishes integrated injection molding in the container body 10.

It is noted that the installation ontology 40 is split type connection structure, above-described embodiment with the container containing In the suspension assembly 41, the snap component 42 and the adhesive component 43 respectively in 10 injection molding of container body Carry out Multi-step injection molding process afterwards to be installed on the container body 10, and then the installation ontology 40 and the container containing is can Detaching structure, in order to which the installation ontology 40 is replaced respectively with the container body 10.When the container containing used When Cheng Zhong, the container body 10 or the installation ontology 40 are damaged, without replacing the whole container containing, only It needs to replace the container body 10 of damage or the installation ontology 40, to reduce the use cost of user.Change and Yan Zhi, the connector 411 or first fastener 421 or second fastener 422 or the bonding piece 431 or described Multi-step injection molding takes shape in the container body 10 to first adhesive 432 respectively.

In one embodiment as shown in figure 23, the suspension assembly 41 includes a suspension shell 413, the suspension shell 413 have a containing cavities 4130, and the suspension assembly 41 further comprises a suspender 414, and the suspender 414 extends The suspension shell 413, the container containing are able to be embedded into the containing cavities 4130, so that the container containing disposes In the suspension shell 413, the container containing is hung on described again by the suspension shell 413 and the suspender 414 Fixture 300.It is compared to above-described embodiment, suspension shell 413 described in the present embodiment is split type with the container containing Structure, the suspension shell 413 and the container containing are able to be used by replacement respectively, enhance practicability.

As shown in Figure 24 to Figure 27, the another of the utility model is technically characterized in that the volatile matter in the container containing The rate of volatilization of matter is able to be regulated and controled according to different use requirements.Different users to the concentration necessary of perfume in environment all Not identical, user can adjust the volatile quantity of the volatile substance according to different environment temperature or mood.The container of traditional technology In the open state or closed state can only be controlled, the rate of volatilization for the perfume being stored in container can not be conditioned, therefore It is unable to satisfy the use demand of user, and the utility model is addressed the defect of the prior art.

It is noted that the container containing includes a rush volatilization device 70, the rush volatilization device 70 is arranged at The container body 10, the volatilization device 70 that promotees are used to control the pressure of the accommodating chamber 101 to adjust the volatile substance Rate of volatilization or the control volatile substance be in two kinds of different technologies features of flow velocity of air-flow in volatilization process to realize State the regulation of volatile substance rate of volatilization.

In a preferred embodiment, the rush volatilization device 70 is able to adjust the pressure of the accommodating chamber 101, when described When container body 10 is in the open state, the in running order rush volatilization device 70 is to change in the accommodating chamber 101 Pressure, to realize the regulation of the volatile substance rate of volatilization.When the rush volatilization device 70 controls in the accommodating chamber 101 Pressure when increasing, the pressure in the accommodating chamber 101 is higher than the external pressure of the container body 10, and then is stored in described The volatile substance in accommodating chamber 101 increases from the air-flow velocity in the externally discharged space of the container body 10, described to wave The rate of volatilization for sending out substance is improved quickly to adjust environment smell.When the rush volatilization device 70 controls the accommodating chamber 101 When pressure reduces, the pressure in the accommodating chamber 101 is lower than the external pressure of the container body 10, and then the volatile substance Weaken from the air-flow velocity in the externally discharged space of the container body, the process that the volatile substance adjusts environment smell subtracts It is slow.The intensity that the rush volatilization device 70 increases or decreases pressure is conditioned, and then user is able to according to different needs Regulate and control the rate of volatilization of the volatile substance.

Further, the rush volatilization device 70 includes a temperature control device 71, and the temperature control device 71 is arranged at described Container body 10,71 Electricity Federation of temperature control device are described when the temperature control device 71 is in heated condition in an external power supply The heat that temperature control device 71 generates increases the pressure in the accommodating chamber 101, and then the rate of volatilization of the volatile substance Increase.It is noted that the size that the temperature control device 71 generates heat is conditioned, and then the volatile substance is waved The speed of hair rate is adjusted.

Further, with reference to attached drawing 27, the temperature control device 71 includes an at least temperature regulating part 711, each temperature Degree regulating part 711 is arranged at the accommodating chamber 101 of the container body 10, and 711 Electricity Federation of temperature regulating part is in institute External power supply is stated, the temperature adjusts 711 and is able to generate temperature change in the state that power supply is connected, to regulate and control the accommodating chamber Pressure in 101.When the temperature regulating part 711 is in heated condition, the pressure in the accommodating chamber 101 increases, the Sheng When packaging container is in the open state, the flow velocity that the volatile substance is discharged from the container body 10 increases；When the temperature tune Section part 711 is in described in cooling state, and the volatile substance is in reduced velocity flow in the accommodating chamber 101, and then the volatilization The reduced velocity flow that substance is discharged from the container body 10.It is noted that the temperature regulating part 711 is according to according to user Demand be adjusted to different temperature so that controlling the accommodating chamber 101 is in different pressure values, and then the volatilization Substance has different volatilization flow velocitys.Known those skilled in the art are interpreted as, and the temperature regulating part 711 is set to institute The value volume and range of product for stating accommodating chamber 101 is not limited by the content of the present invention, and the temperature regulating part 711, which preferably has, to be risen Temperature or the regulating device of cooling, for adjusting the pressure in the accommodating chamber 101.

Known those skilled in the art are interpreted as, and the temperature regulating part 711 is set to the accommodating chamber 101 Value volume and range of product is not limited by the content of the present invention, and the temperature regulating part 711 is preferably the tune with heating or cooling Regulating device, for adjusting the pressure in the accommodating chamber 101.

In another preferred embodiment, with reference to attached drawing 24, the temperature control device 71 includes an at least temperature control film 712, each institute It states temperature control 712 and is arranged at the container body 10, and 712 Electricity Federation of temperature control film is in the external power supply, the temperature control film 712 are able to generate temperature change in the state that power supply is connected, to regulate and control the pressure in the accommodating chamber 101.When the temperature control Film 712 is in heated condition, and pressure in the accommodating chamber 101 increases, described to wave when the container containing is in the open state The flow velocity that hair substance is discharged from the container body 10 increases；When the temperature control film 712 is in the volatilization described in cooling state Substance is in reduced velocity flow in the accommodating chamber 101, and then the volatile substance subtracts from the flow velocity that the container body 10 is discharged It is slow.It is noted that the temperature control film 712 is according to being adjusted to different temperature according to the demand of user, so that control The accommodating chamber 101 is in different pressure values, and then the volatile substance has different volatilization flow velocitys.

It is noted that as shown in Figure 25, the temperature control film 712 is arranged at the outside of the vessel shell 11 Face 110, the temperature that the control film 712 generates are transmitted to the accommodating chamber 101 by the vessel shell 11, and then described in control Pressure in accommodating chamber 101.In 10 injection moulding process of container body, the temperature control film 712 is pasted the temperature control film 712 Together in the lateral surface.

It is noted that as shown in Figure 24, the temperature control film 712 is arranged at the inside of the vessel shell 11 Face 130, the temperature that the control film 712 generates are transmitted to the accommodating chamber 101 by the vessel shell 11, and then described in control Pressure in accommodating chamber 101.In 10 injection moulding process of container body, the temperature control film 712 is pasted the temperature control film 712 Together in the medial surface.

It is noted that as shown in Figure 26, the temperature control film 712 is arranged at the inside of the vessel shell 11, i.e., Between the lateral surface 110 and the medial surface 130, the temperature that the control film 712 generates passes through the temperature control film 712 The vessel shell 11 is transmitted to the accommodating chamber 101, and then controls the pressure in the accommodating chamber 101.The temperature control film 712 exists In 10 injection moulding process of container body, the temperature control film 712 is by completely set up in the vessel shell 11.

Promote the embodiment of volatilization device 70 as described in one kind shown in Figure 27 to Figure 28 B, the rush volatilization device 70 wraps An air flow production device 72 is included, the air flow production device 72 is arranged at the container body 10, the air flow production device 72 Electricity Federations in an external power supply, the air flow production device 72 for generating air-flow, with improve in the container chamber 101 gas in The conducting of exterior space.Known those skilled in the art are interpreted as, and the type of the air flow production device 72 is not as this The limitation of utility model content, the air flow production device 72 with to be driven by electricity producing method or unpowered driving generation side Formula, and the principle of the air-flow of the generation of the air flow production device 72 is equally not as the limitation of the content of the present invention.

A kind of way of example of above-mentioned unpowered driving method is illustrated, and the air flow production device 72 includes at least one fan Leaf component 721 and a connecting shaft 722, respectively rotatably axis is connected in the connecting shaft 722 to each flabellum component 721, described Connecting shaft 722 is located at the accommodating chamber 101, and the air-flow that the rotation of flabellum component 721 generates is located at the receiving to improve The rate of volatilization of the volatile substance of chamber 101.When the container containing is in the open state, the accommodating chamber 101 with it is external Space forms airflow convection, and to drive the rotation of the flabellum component 721,721 rotary course of flabellum component generates air-flow The flowing for further promoting air-flow accelerates the volatile substance to be transferred to exterior space from the container containing.Preferably, described Flabellum component 721 is relative to the port part 12, so that the air-flow that generates of the flabellum component 721 is to port part described in person 12 flow and are discharged by the through-hole 111.Known relevant technical staff in the field is interpreted as, the flabellum component 721 Structure or quantity or the position being installed in the accommodating chamber 101 not as the content of the present invention limitation.

Another way of example of unpowered driving method as shown in figs. 28 a and 28b is illustrated, and the air-flow generates Equipment 72 is arranged at the container body 10, and the air flow production device 72 is located at the outside of the container body 10, institute It states air flow production device 72 and is located at the port part 12.In other words, the connecting shaft 722 is arranged at the port part 12, Respectively rotatably axis is connected in the connecting shaft 722, the gas that the rotation of flabellum component 721 generates to each flabellum component 721 It flows to improve the rate of volatilization for the volatile substance for being located at the accommodating chamber 101.When the container containing is in opening state State, the accommodating chamber 101 forms airflow convection with exterior space, to drive the rotation of the flabellum component 721, the flabellum group 721 rotary course of part generates the flowing that air-flow further promotes air-flow, and the volatile substance is accelerated to transmit from the container containing To exterior space.The air-flow that the flabellum component 721 generates is able to drive and is located at the port part 12 to external space drainage Gas flowing, and then the volatile substance transmitted out from the through-hole 111 rate increase.Certainly, those skilled in the art Member is it should be understood that in other possible examples of the container containing of the utility model, the air flow production device 72 can also be with dynamic source.

Preferably, the flabellum component 721 has two panels fan page, and each fan page is in same straight line, the wind It fans component 721 and the vessel shell 11, driving backspin of the fan component 721 in gas is set to by the connecting shaft 722 Turn.But relevant technical staff in the field is interpreted as, and the flabellum component 721 has the quantity of fan page practical not as this The limitation of new content, each fan page are regularly set to the connecting shaft 722.

A kind of way of example of above-mentioned dynamic driving method is illustrated, and with reference to attached drawing 29A and Figure 29 B, the air-flow is produced Generating apparatus 72 includes an at least flabellum component 721 and a driving motor 723, each flabellum component 721 respectively rotatably axis It is connected in the driving motor 723, the driving motor 723 is located at the allocation space 16 and Electricity Federation in an external power supply, institute The air-flow that driving motor 721 drives the rotation of flabellum component 721 to generate is stated to wave to improve to be located at described in the accommodating chamber 101 Send out the rate of volatilization of substance.When the container containing is in the open state, the driving motor 723 drives the flabellum component 721 rotation, 721 rotary course of flabellum component generate the flowing that air-flow promotes air-flow, accelerate the volatile substance from institute It states container containing and is transferred to exterior space.Preferably, the flabellum component 721 is relative to the port part 12, so that described The air-flow that flabellum component 721 generates is flowed to end 12 described in person and is discharged by the through-hole 111.Known this field correlation skill Art personnel are interpreted as, and the structure or quantity of the flabellum component 721 or the position being installed in the accommodating chamber 101 are not made For the limitation of the content of the present invention.Preferably, the air flow production device 72 is arranged at the allocation space 16, but described Air flow production device 72 is able to be arranged at least one end oral area 12 of the container body 10.

Another way of example of dynamic driving method is illustrated, and the air flow production device 72 is arranged at the appearance Device main body 10, and the air flow production device 72 is located at the outside of the container body 10, the air flow production device 72 is located at The port part 12.In other words, the driving motor 723 is arranged at the port part 12, and each flabellum component 721 divides The not rotatable earth's axis is connected in the driving motor 723, and the air-flow that the rotation of flabellum component 721 generates is located at the appearance to improve Receive chamber 101 the volatile substance rate of volatilization.When the container containing is in the open state, the driving motor 723 is driven The rotation of the flabellum component 721 is moved, 721 rotary course of flabellum component generates the flowing that air-flow further promotes air-flow, The volatile substance is accelerated to be transferred to exterior space from the container containing.The air-flow that the flabellum component 721 generates is to outside Space drainage, but be able to drive be located at the port part 12 gas flow, and then from the through-hole 111 transmit out described in wave The rate for sending out substance increases.

The technical characteristic that the driving motor 723 drives the flabellum component 721 to rotate is compared to above-mentioned unpowered drive The advantage of flowing mode is, the rotation of the flabellum component 721 is controllably driven by the driving motor 723 for being able to Turn, in order to practical.On the other hand, the driving motor 723 drives the rotary rpm of the flabellum component 721 to be controlled System, and then control the rate of volatilization of the volatile substance.

It is noted that air flow production device 72 described in above-described embodiment be located at the container body 10 one end or Both ends, in other words, the installation number positioned at the air flow production device 72 of the container containing are one or two.Work as institute When the quantity for stating air flow production device 72 is one, the air flow production device 72 is installed on the port part 12, the splendid attire When container is in the open state, the volatile substance is able to evaporate into external sky from the one or both sides of the container body 10 Between, and wherein the air flow production device 72 in port part 12 described in side be able to the performance rate of the volatile substance into Row accelerator.When the quantity of the air flow production device 72 is two, each air flow production device 72 is mounted respectively In two port parts 12, when the container containing is in the open state, the volatile substance from the container body 10 two The port part 12 evaporate into exterior space, and the air flow production device 72 is respectively to the institute of the opposite port part 12 It states volatile substance and carries out accelerator.

It is noted that the rush volatilization device 70 further comprises a power-supply device with reference to attached drawing 24 to Figure 29 B 73, the power-supply device 73 distinguishes Electricity Federation in the temperature control device 71 and/or the air flow production device 72, the power-supply device 73 for providing electric energy in the temperature control device 71 and/or the air flow production device 72, for the temperature control device 71 and/or The air flow production device 72 is in running order.The installation site of the power-supply device 73 and the container containing is unrestricted System, the power-supply device 73 are able to be connected to the container containing, and the power-supply device 73 is with the container containing in one Structure.Or the power-supply device 73 by an electric wire Electricity Federation in the temperature control device 71 and/or the air flow production device 72, And then the power-supply device 73 is able to be located away from the container containing, the power-supply device 73 will not be to the knot of the container containing It is configured to influence.

Further, the power-supply device 73 includes that a power elements 731, one are electrically connected part 732 and a control piece 733, the control piece 733 and the rush volatilization device 70 are respectively by 732 Electricity Federation of electric connection part in the power elements 731.User controls the power elements 731 by the control piece 733 and transmits to the electric energy for promoting volatilization device 70, drives institute It is in running order to state rush volatilization device 70.In other words, the temperature regulating part 711 and/or temperature adjusting film 712 and/or The driving motor 723 is respectively by 732 Electricity Federation of electric connection part in the power elements 731, by manipulating the control Part 733 controls the power elements 731 to the temperature regulating part 711 and/or temperature adjusting film 712 and/or the driving motor 723 electric energy transmission.

Known relevant technical staff in the field is able to be interpreted as the type of the power elements 731 not as to the utility model The limitation of content, the power elements 731 are obtained with the vehicle power supply or additional power supply device for automobile, and the power supply device obtains Think rechargeable power source device or disposable power supply device.The power elements 731 are solar energy charging battery, the power elements 731 still keep charged state in using process, to meet the use of user.

733 another aspect of control piece is controlled the temperature regulating part 711 and the temperature adjusting film 712 generates The changing value of temperature, and the rotation speed of the control driving motor 723, to control the rate of volatilization of the volatile substance.

Another preferred embodiment for being used to control 101 pressure of accommodating chamber as shown in figure 30, the container body 10 It is made of flexible material, such as the materials such as plastics or rubber.The container body 10 has certain changeable type, when the container When main body 10 is by external force, the container body 10 is able to that deformation occurs to change the pressure in the accommodating chamber 101.It changes For it, user apply active force in the container body 10, deformation occurs for the container body 10, and the container containing is in Open state, since the container body 10 is squeezed effect so that the pressure in the accommodating chamber 101 increases, the appearance The pressure received in chamber 101 is greater than the pressure of the exterior space, and then the volatilization speed in the externally discharged space of the volatile substance Rate increases.

The container containing controls the another embodiment of the volatile substance rate of volatilization, the rush volatilization device 70 are arranged at the container body 10 to change gas flow rate in the volatile substance volatilization process.At the container containing In open state, and it is in running order to control the rush volatilization device 70, and the rush volatilization device 70 is able to generate air-flow, with The accommodating chamber 101 and the air of the exterior space is promoted to flow, the volatile substance is transferred to the flow velocity of exterior space Increase.

The utility model is related to a kind of manufacturing method of container containing simultaneously, comprising:

(a) one operating main body 20 of assembly is in a container body 10, to control the container master by the operating main body 20 Body 10 is in volatileness or closed state；

(b) ontology 40 is installed in the container body, with by the installation ontology 40 by the container containing It is installed on a fixture；And

(c) installation one promotees volatilization mechanism 70 in the container body 10, described in controlling by rush volatilization mechanism 70 The rate of volatilization of a volatile substance in container containing.

It is noted that 40 integrated injection molding of installation ontology is in the container body in the method (b) 10, and then the installation ontology 40 and the container body 10 are unremovably integral structure.

It is noted that the installation ontology 40 takes shape in the appearance by Multi-step injection molding mode in the method (b) Device main body 10, and then the installation ontology 40 is removably attachable to the container body 10.

It is noted that a connection piece 411 is arranged in the container body 10, the container master in the method (b) Body 10 hangs on the fixture 300 by the connector 411.

It is noted that the method (b) further comprise b.1, one regulating part 412 of setting in the connector 411, The regulating part 412 is used to adjust the relative length of the connector 411.

It is noted that forming a buckle space 420 in the installation ontology 40, a fixture in the method (b) 300 are able to be snapped and are connected to the buckle space 420, to realize that the container containing is snapped connection in the fixture 300.

It is noted that a snap component 42 integrally extends the container body 10, in the method (b) with shape At the buckle space 420, the container containing is snapped connection by the buckle space 420 in the fixture 300.

It is noted that in the method (b), one first fastener 421, one second fastener 422 and an elasticity Part 424 is arranged at the container body 10 respectively, and first fastener 421 is connected to described by the elastic component 424 Second fastener 422, to form the buckle space 420, the container containing is connected to described by the buckle space 420 Fixture 300.

It is noted that forming an adhesive face 430 in the installation ontology 40, the splendid attire holds in the method (b) Device is adhesively joined by the adhesive face 430 in the fixture 300.

It is noted that a binder 431 is arranged in the vessel shell 11, the container containing in the method (b) It is adhesively joined by the binder 431 in the fixture 300.

It is noted that a sucker 432 is arranged in the container casing 11, the container containing in the method (b) The fixture 300 is connected to by the sucker 432 absorption.

It is noted that in the method (b), one first adsorption piece 433 of setting is in the container casing 11, one second Adsorption piece 434 is arranged at the fixture 300, and the container containing is inhaled by first adsorption piece 433 with described second The absorption of attachment 434 connects and is fixed on the fixture 300.

It is noted that the method (c) further comprises (c.1) one temperature control device 71 of setting in the container body 10, to control the temperature of an accommodating chamber 101 of the container containing, and then control the rate of volatilization of the volatile substance.

It is noted that an injection moulding and attaching at least temperature adjusting film 711 is in the vessel shell in the method (c.1) 11 outer layer, the temperature adjusting film 711 are in heated condition to adjust the pressure in the accommodating chamber 101, into promote The rate of volatilization of the volatile substance.

It is noted that an injection moulding and attaching at least temperature adjusting film 711 is in the vessel shell in the method (c.1) 11 la m, the temperature adjusting film 711 are in heated condition to adjust the pressure in the accommodating chamber 101, into promote The rate of volatilization of the volatile substance.

It is noted that in the method (c.1), a setting at least temperature regulating part 712 in the container body 10, The temperature regulating part 712 is in heated condition to adjust the pressure in the accommodating chamber 101, into promote the volatile substance Rate of volatilization.

It is noted that the method (c) further comprises (c.2) one air flow production device 72 of setting in the appearance Device main body 10, the air-flow that the air flow production device 72 generates promote the air-flow velocity of the volatile substance.

It is noted that a flabellum component 721 is set to the appearance by a connecting shaft 722 in the method (c.2) Device shell 11, and the flabellum component 721 is located at the outside of the vessel shell 11, the container containing is in the open state, described Described in the air-flow adjusting that volatile substance is generated from the externally discharged space of the container body 10, the rotation of flabellum component 721 Accommodate the air-flow velocity of 10 1 fluid channel of main body, and then the rate of volatilization for adjusting the volatile substance.

It is noted that a flabellum component 721 is set to the appearance by a connecting shaft 722 in the method (c.2) Device shell 11, and the flabellum component 721 is located at the accommodating chamber 101, the container containing is in the open state, the volatile matter For matter from the externally discharged space of the container body 10, the air-flow that the rotation of flabellum component 721 generates adjusts the receiving master The air-flow velocity of 10 1 fluid channel of body, and then the rate of volatilization for adjusting the volatile substance.

It is noted that a flabellum component 721 and a driving motor 723 are arranged at respectively in the method (c.2) One allocation space 16, the driving motor 723 drives the rotation of flabellum component 721 one to generate air-flow, and then waves described in promotion Send out the rate of volatilization of substance.

It is noted that the method (c) further comprises (c.3) that one power elements 731 of Electricity Federation are adjusted in the temperature Part 711 and/or the temperature adjusting film 712 and/or the driving motor 723, with drive the temperature regulating part 711 and/or The working condition of the temperature adjusting film 712 and/or the driving motor 723.

It is noted that the method (c) further comprises (c.4) one control piece 733 of Electricity Federation in the power elements 731, to adjust the transimission power of the power elements 731, and then control the rate of volatilization of the volatile substance.

It is noted that the method (b) further comprises (b.1) that the container containing is arranged to hang shell in one, The fixture is connected to by the suspension shell.

The utility model is related to a kind of method of diffusion of volatile substance in container containing simultaneously, comprising:

(A) it controls the container containing and is in volatileness；With

(B) pressure of an accommodating chamber 101 in the container containing is adjusted, and then controls the volatilization speed of the volatile substance Rate.

It is noted that the method (B) further comprises (B.1) applying an active force to a container body 10, with Adjust the pressure of the accommodating chamber 101.

It is noted that the method (B) further comprises (B.2) adjusting the temperature of the accommodating chamber 101, with control Pressure in the accommodating chamber.

It is noted that the method (B) further comprises (B.3) air-flow velocity for adjusting the accommodating chamber 101, with Control the rate of volatilization of a volatile substance.

It is noted that the container body 10 is made in the method (B.1) of flexible material.

It is noted that being adjusted in the accommodating chamber 101 in the method (B.2) by a temperature adjusting film 711 Temperature, to change the pressure in the accommodating chamber 101, the container containing is in the open state, and the volatile substance is from described The rate of volatilization in the externally discharged space of container body 10 increases.

It is noted that the temperature adjusting film 711 is in the outside of the vessel shell 11 in the method (B.2) Layer, the temperature adjusting film 711 are in heated condition to adjust the pressure in the accommodating chamber 101, into promote the volatilization The rate of volatilization of substance.

It is noted that the temperature adjusting film 711 is in the inside of the vessel shell 11 in the method (B.2) Layer, the temperature adjusting film 711 are in heated condition to adjust the pressure in the accommodating chamber 101, into promote the volatilization The rate of volatilization of substance.

It is noted that being adjusted in the accommodating chamber 101 in the method (B.2) by a temperature regulating part 712 Temperature, to change the pressure in the accommodating chamber 101, the container containing is in the open state, and the volatile substance is from described The rate of volatilization in the externally discharged space of container body 10 increases.

It is noted that in the method (B.2), a power elements 731 drive the heating component 71 in heated condition.

(1) it controls the container containing and is in volatileness；With

(2) air-flow velocity in the container containing is adjusted, and then controls the rate of volatilization of the volatile substance.

It is noted that ambient windstream drives a flabellum component 721 to be in the production of rotation status one in the method (2) Anger stream, and then promote the rate of volatilization in the externally discharged space of volatile substance.

It is noted that the flabellum component 721 is set to the appearance by a connecting shaft 722 in the method (2) Device shell 11, and the flabellum component 721 is located at the outside of the vessel shell 11, the container containing is in the open state, described Described in the air-flow adjusting that volatile substance is generated from the externally discharged space of the container body 10, the rotation of flabellum component 721 Accommodate the air-flow velocity of 10 1 fluid channel of main body, and then the rate of volatilization for adjusting the volatile substance.

It is noted that the flabellum component 721 is set to the appearance by a connecting shaft 722 in the method (2) Device shell 11, and the flabellum component 721 is located at the accommodating chamber 101, the container containing is in the open state, the volatile matter For matter from the externally discharged space of the container body 10, the air-flow that the rotation of flabellum component 721 generates adjusts the receiving master The air-flow velocity of 10 1 fluid channel of body, and then the rate of volatilization for adjusting the volatile substance.

It is noted that the flabellum component 721 and a driving motor 723 are arranged at respectively in the method (2) One allocation space 16, the driving motor 723 drives the rotation of flabellum component 721 one to generate air-flow, and then waves described in promotion Send out the rate of volatilization of substance.

It is noted that in the method (2).Driving motor 723 described in one power elements 731 of Electricity Federation, described in driving The working condition of driving motor 723, so that the flabellum component 721 is in rotation status.

It is noted that one control piece 733 of Electricity Federation is in the power elements 731, described in adjusting in the method (2) The transimission power of power elements 731, and then control the speed of rotation of the driving motor 723.

The utility model is related to a kind of application method of container containing simultaneously, comprising:

(I) manipulate that the container containing is in the open state or closed state；

(II) container containing is connected in a fixture 300 by an installation ontology 40；And

(III) regulation is located at the rate of volatilization in the externally discharged space of a volatile substance in the container containing.

It is noted that in the method (I), the opposite position of manipulation one operating main body 20 and the container body 10 State is set, the container containing is in the open state or closed state to control.

It is worth one, in the method (II), the installation ontology 40 is removable installed in the container master Body 10.

It is worth one, in the method (II), the installation ontology 40 and the container body 10 are integrated note Mould structure.

It is noted that the method (II) further comprises that the fixture 300 is arranged in a suspension sky in (II.1) Between 410, and then the container containing suspension be connected to the fixture 300.

It is noted that the method (II) further comprises that the fixture 300 is arranged in a buckle sky in (II.2) Between 420, and then the container containing is snapped connection in the fixture 300.

It is noted that the method (II) further comprises that the fixture 300 is arranged in an adhesive face in (II.3) 430, and then the container containing is adhesively joined in the fixture 300.

It is noted that the method (III) further comprises the pressure that (III.1) regulates and controls the container body 10, When the container containing is in the open state, regulate and control the pressure in the accommodating chamber 101, to regulate and control waving for the volatile substance Send out rate.

It is noted that the method (III) further comprises that (III.2) regulation volatile substance evaporate into outside The gas flow rate in space adjusts the air-flow of the container body 10 and exterior space when the container containing is in the open state Flow velocity, into the rate of volatilization for regulating and controlling the volatile substance.

It is noted that the method (III) further comprises that (III.3) regulation volatile substance is different Rate of volatilization.

It is noted that the method (II.1) further comprise (II.11) adjust the container containing with it is described solid Relative length between earnest 300.

It is noted that a connection piece 411 is set to the container body 10 in the method (II.1), to be formed Suspension space 410 is stated, the container containing is connected to the fixture 300 by the suspension space 410 suspension.

It is noted that a snap component 42 integrally extends the container body 10 in the method (II.2), with The buckle space 420 is formed, the container containing is snapped connection by the buckle space 420 in the fixture 300.

It is noted that in the method (II.2), one first fastener 421, one second fastener 422 and one Elastic component 424 is arranged at the container body 10 respectively, and first fastener 421 is connected to by the elastic component 424 Second fastener 422, to form the buckle space 420, the container containing is connected to by the buckle space 420 The fixture 300.

It is noted that a binder 431 is arranged in the vessel shell 11, the splendid attire in the method (II.3) Container is adhesively joined by the binder 431 in the fixture 300.

It is noted that a sucker 432 is arranged in the container casing 11, the splendid attire in the method (II.3) Container is connected to the fixture 300 by the sucker 432 absorption.

It is noted that in the method (II.3), one first adsorption piece 433 of setting is in the container casing 11, one Second adsorption piece 434 is arranged at the fixture 300, and the container containing passes through first adsorption piece 433 and described the The absorption of two adsorption pieces 434 connects and is fixed on the fixture 300.

It is noted that an injection moulding and attaching at least temperature adjusting film 711 is in the container in the method (III.1) The outer layer of shell 11, the temperature adjusting film 711 are in heated condition to adjust the pressure in the accommodating chamber 101, into promote The rate of volatilization of the volatile substance.

It is noted that an injection moulding and attaching at least temperature adjusting film 711 is in the container in the method (III.1) The internal layer of shell 11, the temperature adjusting film 711 are in heated condition to adjust the pressure in the accommodating chamber 101, into promote The rate of volatilization of the volatile substance.

It is noted that an at least temperature regulating part 712 is arranged in the container body in the method (III.1) 10, the temperature regulating part 712 is in heated condition to adjust the pressure in the accommodating chamber 101, into promote the volatilization The rate of volatilization of substance.

It is noted that a flabellum component 721 is set to described by a connecting shaft 722 in the method (III.2) Vessel shell 11, and the flabellum component 721 is located at the outside of the vessel shell 11, the container containing is in the open state, institute Volatile substance is stated from the externally discharged space of the container body 10, the air-flow that the rotation of flabellum component 721 generates adjusts institute State the air-flow velocity for accommodating 10 1 fluid channel of main body, and then the rate of volatilization for adjusting the volatile substance.

It is noted that a flabellum component 721 is set to described by a connecting shaft 722 in the method (III.2) Vessel shell 11, and the flabellum component 721 is located at the accommodating chamber 101, the container containing is in the open state, the volatilization For substance from the externally discharged space of the container body 10, the air-flow that the rotation of flabellum component 721 generates adjusts the receiving The air-flow velocity of 10 1 fluid channel of main body, and then the rate of volatilization for adjusting the volatile substance.

It is noted that a flabellum component 721 and a driving motor 723 are set respectively in the method (III.2) In an allocation space 16, the driving motor 723 drives the rotation of flabellum component 721 one to generate air-flow, and then described in promotion The rate of volatilization of volatile substance.

It is noted that one power elements 731 of the Electricity Federation the method (III.3) and a control piece 733 are in the temperature tune Save part 711 and/or the temperature adjusting film 712 and/or the driving motor 723, with drive the temperature regulating part 711 and/ Or the working condition of the temperature adjusting film 712 and/or the driving motor 723.

It will be appreciated by those skilled in the art that above embodiments are only for example, wherein the feature of different embodiments It can be combined with each other, do not explicitly pointed out in the accompanying drawings with obtaining being readily conceivable that according to the content that the utility model discloses Embodiment.

It should be understood by those skilled in the art that foregoing description and the embodiments of the present invention shown in the drawings are only used as It illustrates and is not intended to limit the utility model.The purpose of this utility model completely and effectively realizes.The function of the utility model Energy and structural principle show and illustrate in embodiment, under without departing from the principle, the embodiments of the present invention Can there are any deformation or modification.

Claims

1. a container containing characterized by comprising

One promotees volatilization device；With

One container body, wherein the container body includes:

An at least volatile layer；

At least one end oral area, wherein the port part forms an at least allocation space, the volatile layer is closed with the volatile layer The mode of the allocation space is arranged at the port part；And

One vessel shell, wherein the port part is arranged at the vessel shell, between the port part and the vessel shell An accommodating chamber is formed, for accommodating a volatile substance, wherein the allocation space can be connected to the accommodating chamber,

So that the container containing is in a volatileness, wherein rush volatilization device regulation is housed inside the accommodating chamber The rate of volatilization that the volatile substance volatilizees via the allocation space.

2. container containing according to claim 1, wherein the rush volatilization device includes a temperature control device, wherein the temperature Regulate and control to be housed inside described in the accommodating chamber in a manner of the pressure for controlling the accommodating chamber of the equipment to adjust the container body The rate of volatilization that volatile substance volatilizees via the allocation space.

3. container containing according to claim 1, wherein the rush volatilization device includes an air flow production device, wherein institute Air flow production device is stated to regulate and control to be housed inside the accommodating chamber in a manner of adjusting an air-flow and flow through the speed of the container body The rate of volatilization that volatilizees via the allocation space of the volatile substance.

4. container containing according to claim 2, wherein the temperature control device includes an at least temperature regulating part, the temperature Degree regulating part is maintained at the accommodating chamber of the container body.

5. container containing according to claim 2, wherein the temperature control device includes an at least temperature adjusting film, wherein institute State the lateral surface that temperature adjusting film is arranged at the vessel shell.

6. container containing according to claim 2, wherein the temperature control device includes an at least temperature adjusting film, wherein institute State the medial surface that temperature adjusting film is arranged at the vessel shell.

7. container containing according to claim 2, wherein the temperature control device includes an at least temperature adjusting film, wherein institute It states temperature adjusting film and is embedded into the vessel shell.

8. container containing according to claim 1 further comprises an installation ontology, wherein the installation ontology is set In the vessel shell of the container body.

9. container containing according to claim 2 further comprises an installation ontology, wherein the installation ontology is set In the vessel shell of the container body.

10. container containing according to claim 3 further comprises an installation ontology, wherein the installation ontology is set It is placed in the vessel shell of the container body.

11. container containing according to claim 4 further comprises an installation ontology, wherein the installation ontology is set It is placed in the vessel shell of the container body.

12. container containing according to claim 5 further comprises an installation ontology, wherein the installation ontology is set It is placed in the vessel shell of the container body.

13. container containing according to claim 6 further comprises an installation ontology, wherein the installation ontology is set It is placed in the vessel shell of the container body.

14. container containing according to claim 7 further comprises an installation ontology, wherein the installation ontology is set It is placed in the vessel shell of the container body.

15. container containing according to claim 8, wherein the installation ontology includes a suspension assembly, the suspension group Part is arranged at the vessel shell of the container body, to form a suspension between the suspension assembly and the vessel shell Space.

16. container containing according to claim 9, wherein the installation ontology includes a suspension assembly, the suspension group Part is arranged at the vessel shell of the container body, to form a suspension between the suspension assembly and the vessel shell Space.

17. container containing according to claim 10, wherein the installation ontology includes a suspension assembly, the suspension group Part is arranged at the vessel shell of the container body, to form a suspension between the suspension assembly and the vessel shell Space.

18. container containing according to claim 11, wherein the installation ontology includes a suspension assembly, the suspension group Part is arranged at the vessel shell of the container body, to form a suspension between the suspension assembly and the vessel shell Space.

19. container containing according to claim 12, wherein the installation ontology includes a suspension assembly, the suspension group Part is arranged at the vessel shell of the container body, to form a suspension between the suspension assembly and the vessel shell Space.

20. container containing according to claim 13, wherein the installation ontology includes a suspension assembly, the suspension group Part is arranged at the vessel shell of the container body, to form a suspension between the suspension assembly and the vessel shell Space.

21. container containing according to claim 14, wherein the installation ontology includes a suspension assembly, the suspension group Part is arranged at the vessel shell of the container body, to form a suspension between the suspension assembly and the vessel shell Space.

22. container containing according to claim 8, wherein the installation ontology includes a snap component, the buckle group Part is arranged at the vessel shell of the container body, and the snap component has a buckle space.

23. container containing according to claim 9, wherein the installation ontology includes a snap component, the buckle group Part is arranged at the vessel shell of the container body, and the snap component has a buckle space.

24. container containing according to claim 10, wherein the installation ontology includes a snap component, the buckle group Part is arranged at the vessel shell of the container body, and the snap component has a buckle space.

25. container containing according to claim 11, wherein the installation ontology includes a snap component, the buckle group Part is arranged at the vessel shell of the container body, and the snap component has a buckle space.

26. container containing according to claim 12, wherein the installation ontology includes a snap component, the buckle group Part is arranged at the vessel shell of the container body, and the snap component has a buckle space.

27. container containing according to claim 13, wherein the installation ontology includes a snap component, the buckle group Part is arranged at the vessel shell of the container body, and the snap component has a buckle space.

28. container containing according to claim 14, wherein the installation ontology includes a snap component, the buckle group Part is arranged at the vessel shell of the container body, and the snap component has a buckle space.

29. container containing according to claim 8, wherein the installation ontology includes an adhesive component, the adherency group Part is arranged at the vessel shell of the container body.

30. container containing according to claim 9, wherein the installation ontology includes an adhesive component, the adherency group Part is arranged at the vessel shell of the container body.

31. container containing according to claim 10, wherein the installation ontology includes an adhesive component, the adherency group Part is arranged at the vessel shell of the container body.

32. container containing according to claim 11, wherein the installation ontology includes an adhesive component, the adherency group Part is arranged at the vessel shell of the container body.

33. container containing according to claim 12, wherein the installation ontology includes an adhesive component, the adherency group Part is arranged at the vessel shell of the container body.

34. container containing according to claim 13, wherein the installation ontology includes an adhesive component, the adherency group Part is arranged at the vessel shell of the container body.

35. container containing according to claim 14, wherein the installation ontology includes an adhesive component, the adherency group Part is arranged at the vessel shell of the container body.

36. according to claim 1 to any container containing in 35, wherein the container body has an at least second Body channel, the second fluid channel are connected to the accommodating chamber and the allocation space.

37. container containing according to claim 36 further comprises an at least operating main body, wherein the operating main body It is operably disposed in the opening of the port part, and is capable of forming one between the operating main body and the port part First fluid channel, for being connected to the accommodating chamber and the second fluid channel, wherein described in being closed when the operating main body When opening, the container containing is in a closed state, and works as between the operating main body and the port part described in formation When first fluid channel, the container containing is in a volatileness, and the container containing can be in the closed state It is converted between the volatileness.

38. the container containing according to claim 37, wherein the container body further comprises an at least holding element, Wherein the port part has Single port space, and the port space is connected to the opening, wherein the holding element is set In the port space of the port part, and the second fluid is formed between the holding element and the port part Channel and the allocation space.

39. the container containing according to claim 38, wherein the holding element has one to keep channel, the holding member Part is arranged at the end in such a way that the holding channel of the holding element corresponds to the opening of the port part The port space of oral area, wherein the holding that the operating main body is operably disposed in the holding element is led to Road.

40. container containing according to claim 39, wherein the operating main body is by being slidably mounted in State the holding channel of holding element.

41. container containing according to claim 39, wherein the operating main body is to be rotatably mounted in institute State the holding channel of holding element.

42. container containing according to claim 40, wherein the operating main body has an at least notch, wherein when described When the notch of operating main body corresponds to the opening of the port part, between the operating main body and the port part Form the first fluid channel.

43. container containing according to claim 41, wherein the operating main body has an at least notch, wherein when described When the notch of operating main body corresponds to the opening of the port part, between the operating main body and the port part Form the first fluid channel.

44. container containing according to claim 42, wherein the operating main body includes an operation portion, a channel forming portion And a closure, the operation portion and the closure are respectively formed in the both ends of the channel forming portion, wherein described lack Mouthful be formed in the channel forming portion, wherein one in the channel forming portion and the closure can be maintained at it is described The opening of port part.

45. container containing according to claim 42, wherein the operating main body includes an operation portion and is formed in described One channel forming portion of the end of operation portion, wherein the notch is formed in the channel forming portion, wherein the operation portion and One in the channel forming portion can be maintained at the opening of the port part.