CN205340835U - Chemistry container - Google Patents

Abstract

The utility model relates to a chemistry container. Chemistry container include the bottle and set up in bottle plug on the bottle. The bottle includes body and volume contraction module. The chamber is accommodated to this internal being formed with. The volume contraction module is including acceping film body, miniature air pump, microprocessor and switch, accept the film body set up in accept the intracavity, and with be formed with pneumatic chamber between the body, miniature air pump reaches microprocessor is adjacent set up in this is internal, miniature air pump with pneumatic chamber is linked together, microprocessor with miniature air pump electric connection starts with control miniature air pump to pneumatic intracavity is aerifyd, thereby makes accept the film body shrink, switching system in the body the surface and with microprocessor electric connection is in order to trigger microprocessor. Chemistry container can keep the effect of reagent.

Description

Chemical vessel

Technical field

This utility model relates to a kind of container storing chemical example, particularly relates to a kind of chemical vessel.

Background technology

At chemical field, some chemical vessels are generally adopted to store various reagent.Chemical vessel includes bottle and the bottle stopper being covered on bottle.But, for some volatile or oxidizable colloidal, flow-like or pulverulent reagent, after using, need to cover in time bottle stopper, to prevent reagent from evaporating or oxidized.But, in use for some time, reagent owing to being stored in chemical vessel can tail off gradually, cause that the air in chemical vessel gets more and more, after covering bottle stopper, reagent in chemical vessel can aoxidize because of the impact of the air on chemical vessel top, or reagent is likely to and is volatized in this partial air, from the effect that have impact on reagent.

Utility model content

Based on this, it is necessary to provide a kind of chemical vessel that can keep reagent effect.

A kind of chemical vessel, including:

Bottle, including:

Body, is formed with host cavity in it；

Volume contraction module, including housing film body, micro air pump, microprocessor and switch, described collecting film body is arranged in described host cavity, and and described body between be formed with pneumatic cavity, described micro air pump and described microprocessor are disposed adjacent in described internal, described micro air pump is connected with described pneumatic cavity, it is electrically connected with micro air pump described in described microprocessor, to control to start described micro air pump to described pneumatic interacvity air-filling, so that described collecting film body shrinks, described switch is arranged at the surface of described body and is electrically connected with described microprocessor, to trigger described microprocessor；And

Heating film, is attached at the outside of described collecting film body, and described heating film is electrically connected with described microprocessor；And

Bottle stopper, is arranged on described body and closes described host cavity.

Wherein in an embodiment, described heating film is crisscross conductive grid.

Wherein in an embodiment, the thickness of described heating film is 0.2-0.5 millimeter.

Wherein in an embodiment, described collecting film body being provided with heat-conducting plastic, the grid groove that the recessed formation in described heat-conducting plastic surface is crisscross, described heating film is the conductive grid being formed in described grid groove.

Wherein in an embodiment, the thickness of described heating film is less than the degree of depth of described grid groove

Owing to this shape can be kept after housing film body extruding reagent, can not resile so that house film body, there is no unnecessary space inside it to house ambient atmos, such that it is able to prevent reagent volatilization or oxidized, keep the effect of reagent.

Accompanying drawing explanation

Fig. 1 is the front view of the chemical vessel of an embodiment；

Fig. 2 is chemical vessel shown in Fig. 1 along the sectional view of line A-A；

Fig. 3 is the partial enlarged drawing at III place in Fig. 2；

Fig. 4 is the floor map of the heating grid of chemical vessel shown in Fig. 1；

Fig. 5 is the sectional view of the chemical vessel of another embodiment；And

Fig. 6 is the partial enlarged drawing at VI place in Fig. 5.

Detailed description of the invention

For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is described more fully.Accompanying drawing gives better embodiment of the present utility model.But, this utility model can realize in many different forms, however it is not limited to embodiments described herein.On the contrary, provide the purpose of these embodiments be make disclosure of the present utility model is understood more thorough comprehensively.

It should be noted that be referred to as " being fixed on " another element when element, it can directly on another element or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements.For illustrative purposes only, being not offered as is unique embodiment for term as used herein " vertical ", " level ", "left", "right" and similar statement.

Unless otherwise defined, all of technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model are generally understood that.The purpose describing specific embodiment it is intended merely to herein, it is not intended that in restriction this utility model at term used in the description of the present utility model.Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

Refer to Fig. 1 to Fig. 3, the chemical vessel 100 of an embodiment, it is used for storing oxidizable/volatile glue/flow-like/pulverulent reagent.Chemical vessel 100 includes bottle 10 and bottle stopper 30.It is appreciated that chemical vessel 100 can also be used for general sphere of life, for instance house shampoo, the various glue/flow-like/powdered substances such as handwashing liquid.

Bottle 10 is jug, and it includes body 11, volume contraction module 13, heating film 14, sensing module 15 and touching display screen 17.Body 11 is ampuliform, it is possible to be made up of glass, plastics or pottery.Body 11 includes at the bottom of the bottle being sequentially connected with 111, resettlement section 113 and mouth cylindrical part 115.The bottle end 111 is round pie, and resettlement section 113 is ring-type, and it extends along the periphery of 111 at the bottom of bottle to the same side, and around forming host cavity 117.The diameter of resettlement section 113, along being gradually increased away from the direction of 111 at the bottom of bottle, then strongly reduces.Mouth cylindrical part 115 is arranged at resettlement section 113 away from one end of 111 at the bottom of bottle, and is formed with the bottleneck 1151 being connected with host cavity 117.The longitudinal section of bottleneck 1151 is inverted trapezoidal, namely its diameter is gradually increased along the side away from host cavity 117, so, when external tube accesses bottleneck 1151, easily external tube can be inserted, and when external tube be inserted into bottleneck 1151 internal time, what be conducive to external tube and bottleneck 1151 pushes against sealing so that reagent is not easy to leak between external tube and bottleneck 1151 sidewall.Now, reagent can be extruded from bottle 10 and flow out bottle 10 outside upward and through external tube.

Volume contraction module 13 includes housing film body 131, micro air pump 133, microprocessor 135 and switch 137.House film body 131 identical with resettlement section 113 shape of body 11, and be smaller in size than the size of resettlement section 113.Housing film body 131 and be contained in the host cavity 117 of body 11, its one end is connected at the bottom of the bottle of bottle 10 on 111, and the other end is connected on mouth cylindrical part 115.House and between film body 131 and resettlement section 113, form pneumatic cavity 1311.Such as, the volume of pneumatic cavity 1311 is 1:10-1:20 with the ratio of the volume housed within film body 131.Housing film body 131 can be the deformable foil such as flake aluminum, tinfoil paper, or is the flexible sheets such as rubber.Such as, house film body 131 be tinfoil paper and its thickness edge away from the direction progressive additive of 111 at the bottom of bottle, so that housing film body 131 when compressive deformation, its deformation quantity is along being gradually reduced away from the direction of 111 at the bottom of bottle, such that it is able to start to extrude gradually reagent from the bottom housing film body 131.Such as, house film body 113 and can set up some folds gradually in the direction of 111 at the bottom of away from bottle, to increase the surface area housing film body 113, thus reducing the pressure born in unit are, so can so that housing film body 113 and being unlikely to deform gradually towards away from the direction of 111 at the bottom of bottle.It addition, house the pliability of film body 113 to increase metal material, it is possible to the thickness housing film body 113 is designed.Such as, the thickness housing film body 113 is 0.1-0.5 millimeter.Micro air pump 133 and microprocessor 135 are disposed adjacent at the bottom of the bottle of bottle 10 in 111.Micro air pump 133 is connected with pneumatic cavity 1311 by trachea.Microprocessor 135 is arranged at the upside of micro air pump 133, and is electrically connected with micro air pump 133, to control micro air pump 133.Switch 137 is arranged at the surface, resettlement section 133 of bottle 10 and is electrically connected with microprocessor 135.When reagent is extruded by needs, 137 can triggers microprocessor 135 by compressing switch, so that microprocessor 1358 starts micro air pump 133, so that micro air pump 133 carries noble gas in pneumatic cavity 1311, such as nitrogen, to increase the air pressure in pneumatic cavity 1311, thus extruding collecting film body 131 so that it shrinks.

The shape of heating film 14 is identical with housing film body 131 shape, and is attached at the outside housing film body 131.In the present embodiment, heating film 14 and collecting film body 131 electric insulation.Heating film 14 can be made up of metal material and be electrically connected with microprocessor 135, so, can generate heat under the control of microprocessor 135, and pass to reagent by the collecting film body 131 of metal material, with in winter or the temperature keeping reagent in ice-cold environment, thus keeping the activity of reagent, it is prevented that reagent lost efficacy.Refer to Fig. 4, for instance, heating film 14 is crisscross conductive grid, is more uniformly distributed so that housing being heated of film body 131.The thickness of heating film 14 is 0.2-0.5 millimeter.Such as, house and film body 131 is provided with heat-conducting plastic, the grid groove that the recessed formation in described heat-conducting plastic surface is crisscross, heating film 14 is formed in the grid groove of described heat-conducting plastic, and the thickness of heating film 14 is less than the degree of depth of described grid groove, hence in so that heating film 14 not easily comes off from heat-conducting plastic.Such as, described heat-conducting plastic is PPS (polyphenylenesulfite, polyphenylene sulfide).It is made up of metal material owing to housing film body 131, thus the heat of heating film 14 can be transferred in the reagent of inside by preferably.

Referring to Fig. 2 and Fig. 3, sensing module 15 includes temperature-sensitive sticker 151 and gravity sensor 153.Temperature-sensitive sticker 151 is arranged on the inner surface housing film body 131, and one end of 111 at the bottom of being located remotely from bottle.Temperature-sensitive sticker 151 and microprocessor 135 are electrically connected.Temperature-sensitive sticker 151 is for sensing the temperature housed inside film body 14, and is transferred to microprocessor 135, and microprocessor 135 can judge to decide whether that starting heating film 14 is heated according to preset temperature value.Gravity sensor 153 is arranged at the bottom of the bottle of bottle 10 on 111 and is electrically connected with microprocessor 135.Gravity sensor 153 has bearing surface 1531, the flush of 111 at the bottom of bearing surface 1531 and bottle, and directly contacts with reagent, to sense the gravity of reagent.Gravity sensor 153 can by the weight transfer of sensing to microprocessor 135.

Referring to Fig. 1, touching display screen 17 is embedded on the body 11 of bottle 10, and is electrically connected with microprocessor 135.Touching display screen 17 is divided into viewing area 171 and input area 173.Touching display screen 17 is visualizingre agent title on viewing area 171, and passes over temperature and weight parameter according to microprocessor 135, shows the weight (quality) of the temperature in bottle 10 and reagent on viewing area 171.Input area 173 is in the lower section of viewing area 171, can input the preset temperature in reagent name and bottle 10 on input area 173, and microprocessor 135 receives and preserve described reagent name and preset temperature.

Referring to Fig. 2, bottle stopper 30 is made up of glass material, and it includes cover body part 31, coaxially connected plug body part 33 in cover body part 31 and wireless charging LED 35.Cover body part 31 is cylindric and gear is located on the mouth cylindrical part 115 of bottle 10.Being formed with lenticular region 311 in cover body part 31, the radial direction of lenticular region 311 is substantially concordant with at the bottom of the bottle of bottle 10 111.The diameter of plug body part 33 is less than cover body part 31 and in being inserted in the bottleneck 1151 of bottle 10, bottleneck 1151 and host cavity 137 to be sealed.In the present embodiment, the shape of plug body part 33 adapts with the mouth cylindrical part 115 of bottle 10.Cover body part 31 is also collectively forming observation mirror region 331 with plug body part 33.Observation mirror region 331 is ring-type, and its two ends diameter is more than central region, and the one end in observation mirror region 331 is connected with lenticular region 311.Observation mirror region 331 is identical with the material of lenticular region 311, and light transmittance is more than the remainder of bottle stopper 30.Wireless charging LED 35 is ring-type, and is arranged in plug body part 33.Wireless charging LED 35 is around observation mirror region 331.Break when collecting film body 131 has, or performance changes, it is impossible to when extruding reagent is full of chemical vessel 100, reagent upper surface/interval can be formed between liquid level and bottle cap 30, now can be observed by the irradiation of wireless charging LED 35, in order to pinpoint the problems in time.It addition, when testing night or use reagent, due to the irradiation of wireless charging LED 35, it is possible to remind the position that user bottle stopper 30 is placed, to prevent loss.Further, since wireless charging LED 35 can carry out wireless charging by coil so that it charges convenient.

See also Fig. 1 to Fig. 4, during assembling chemical container 100, volume contraction module 13 is installed in the body 11 of bottle 10, heating film 14 is attached on the collecting film body 131 of volume contraction module 13, sensing module 15 is arranged in body 11, touching display screen 17 is embedded on bottle 10, bottle stopper 30 is filled in bottleneck 1151.

When needs chemically container 100 take out reagent, bottle stopper 30 is opened, external tube is inserted in bottleneck 1151, by 137 triggers microprocessor 135 that compress switch, microprocessor 135 controls micro air pump 1333 to insufflation gas in pneumatic cavity 1311, thus driving collecting film body 131 to contract to extrude reagent, and making reagent enter external tube, then flowing out from external tube.After taking reagent, by compressing switch 137 so that micro air pump 1333 stops operation.Bottle stopper 30 is filled in bottleneck 1151 to close chemical vessel 100.Now house film body 131 deformed and this shape can be kept under the pressure of pneumatic cavity 1311, can not resile so that house film body 131, there is no unnecessary space inside it to house ambient atmos, such that it is able to prevent reagent volatilization or oxidized, keep the effect of reagent.

Now, touching display screen 17 is visualizingre agent title on viewing area 171, and passes over temperature and weight parameter according to microprocessor 135, shows the weight (quality) of the temperature in bottle 10 and reagent on viewing area 171.After chemical vessel 100 loads new reagent, the preset temperature in reagent name and bottle 10 can be inputted in the input area 173 of touching display screen 17.

Refer to Fig. 5 and Fig. 6, for instance, the micro air pump 133 in volume contraction module 13 can adopt the multiple promotion compression pieces 138 being electrically connected with microprocessor 135 to replace.Multiple promotion compression pieces 138 be attached at house film body 131 outside on, by compress switch 137 can triggers microprocessor 135, thus drive multiple promotion compression piece 138 compression house film body 131.Multiple promotion compression piece 138 scattering devices, inside the body 11 of bottle 10, are surrounded on, to be formed, the multi-turn housing film body 131 periphery.Described multi-turn promotes compression piece 138 to be respectively in the different distance of 111 at the bottom of distance bottle.Each circle promotes compression piece 138 to be uniformly distributed around the central axis housing film body 131.Each promotion compression piece 138 includes actuator 1381 and pressure film 1383.Actuator 1381 one end is movably set in the inner side of body 11 and is electrically connected with microprocessor 135.Pressure film 1383 is installed in one end of actuator 1381 and is attached on collecting film body 131.The shape of pressure film 1383 is suitable with the shape housing film body 131, so that pressure film 1383 fits tightly in housing on film body 131.Such as, the hardness of pressure film 1383 is more than the hardness housing film body 131.The dynamics housed on film body 131 to make pressure film 1383 put on is comparatively balanced, it is possible to the area of pressure film 1383 is carried out adaptability design.Such as, the thickness of pressure film 1383 is 0.3-0.8 millimeter, and length is 2.5-3.5 centimetre, and width is 2-2.5 centimetre.In order to increase pressure film 1383 and the frictional force housed between film body 131, can with pressure film 1383 surface configuration graininess micro structure, to form matsurface.

Such as, what other embodiments of chemical vessel of the present utility model also included each technical characteristic in the respective embodiments described above is mutually combined the chemical vessel formed.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the each piece of all possible combination of technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed several embodiments of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (5)

1. a chemical vessel, it is characterised in that including:

Bottle, including:

Body, is formed with host cavity in it；

Volume contraction module, including housing film body, micro air pump, microprocessor and switch, described collecting film body is arranged in described host cavity, and and described body between be formed with pneumatic cavity, described micro air pump and described microprocessor are disposed adjacent in described internal, described micro air pump is connected with described pneumatic cavity, described microprocessor is electrically connected with described micro air pump, to control to start described micro air pump to described pneumatic interacvity air-filling, so that described collecting film body shrinks, described switch is arranged at the surface of described body and is electrically connected with described microprocessor, to trigger described microprocessor；And

Heating film, is attached at the outside of described collecting film body, and described heating film is electrically connected with described microprocessor；And

Bottle stopper, is arranged on described body and closes described host cavity.

2. chemical vessel as claimed in claim 1, it is characterised in that described heating film is crisscross conductive grid.

3. chemical vessel as claimed in claim 1, it is characterised in that the thickness of described heating film is 0.2-0.5 millimeter.

4. chemical vessel as claimed in claim 1, it is characterised in that being provided with heat-conducting plastic, the grid groove that the recessed formation in described heat-conducting plastic surface is crisscross on described collecting film body, described heating film is the conductive grid being formed in described grid groove.

5. chemical vessel as claimed in claim 4, it is characterised in that the thickness of described heating film is less than the degree of depth of described grid groove.