CN222203277U - Conductive luminous container for liquid packaging - Google Patents

Abstract

The utility model relates to the technical field of luminous containers, and discloses a conductive luminous container for liquid packaging, comprising: a bottle body, a bottom of which is provided with a groove, and an upper cover of the bottle body is provided with a cover body; a first luminous component, which is provided in the groove; a second luminous component, which is fixed on the outer wall of the bottle body; a power supply control component, which is provided in the groove, and the power supply control component is electrically connected to the first luminous component and the second luminous component respectively; a light sensor, which is fixed on the outer wall of the bottle body, and the light sensor is electrically connected to the power supply control component; and an identification component, which is provided on the side of the second luminous component away from the bottle body. The utility model arranges the first luminous component in the groove, so that the user can grasp the liquid level in the bottle at any time; secondly, the power supply control component adjusts the brightness of the second luminous component in real time according to the light intensity information detected by the light sensor, so that the identification component reaches the best viewing brightness, and has strong practicality.

Description

Conductive luminous container for liquid packaging

Technical Field

The utility model relates to the technical field of luminous containers, in particular to a conductive luminous container for liquid packaging.

Background

Liquid packaging containers refer to specialized containers for storing and transporting liquids. These containers are typically made of various materials, such as plastics, glass, metals, etc., which are designed and constructed to ensure the safety, stability and convenience of the liquid. There are various types of liquid packaging containers, each type being optimized for a particular liquid and application scenario. The design of the liquid packaging container is not only to consider the physical and chemical properties of the liquid, but also to consider the usage habits and safety of consumers. For example, the opening design of the container should facilitate pouring of the liquid while avoiding leakage, the size and shape of the container should be convenient to carry and store, and the labeling and identification of the container should be clear and easy to view so that the consumer can know the information and method of use of the product.

In the prior art, although many luminous containers appear so that a user can clearly check the container identification and the label in a dark environment, the brightness of light emitted by the luminous containers is constant, the luminous containers cannot adapt to environments with different brightness, the brightness cannot be automatically adjusted, the practicability is poor, and in the prior art, when the liquid level of liquid in a bottle needs to be checked, the bottle body is checked under the light with higher brightness or the container is taken up by hands for estimation, and the two methods are not accurate enough.

Therefore, a conductive luminous container for liquid packaging is urgently needed to solve the problems that the luminous container in the prior art has constant light brightness, can not adjust the self brightness according to the brightness of different environments, has poor practicability and can not enable a user to accurately grasp the liquid level in a bottle at any time in the prior art.

Disclosure of utility model

In view of the above, the utility model provides a conductive luminous container for liquid packaging, which aims to solve the problems that the luminous container in the prior art has constant light brightness, can not adjust the brightness of the luminous container according to the brightness of different environments and has poor practicability, and a user can not accurately grasp the liquid level in a bottle at any time in the prior art.

The utility model provides a conductive luminous container for liquid packaging, which comprises:

the bottle body is provided with a groove at the bottom, and a cover body is covered at the upper part of the bottle body;

A first light emitting component disposed within the recess;

The second light-emitting component is fixed on the outer side wall of the bottle body;

The power supply control assembly is arranged in the groove and is electrically connected with the first light-emitting assembly and the second light-emitting assembly respectively;

The light sensor is fixed on the outer side wall of the bottle body and is electrically connected with the power supply control assembly;

The identification component is arranged on one side, far away from the bottle body, of the second light-emitting component.

Further, the first light emitting component includes:

The LED lamp is fixed on the lamp strip, the LED lamp is electrically connected with the lamp strip, the lamp strip is fixed at the top of the power supply control assembly, and the lamp strip is electrically connected with the power supply control assembly.

Further, the second light emitting assembly includes:

The conductive film is embedded on the outer side wall of the bottle body and is electrically connected with the power supply control assembly;

the light-emitting plate is arranged on one side, far away from the bottle body, of the conductive film, and the light-emitting plate is electrically connected with the conductive film.

Further, the identification component includes:

the adhesive layer is fixed at the edge of one side of the light-emitting plate far away from the bottle body;

a fixing support, one side of which is fixed with the adhesive layer;

and the identification layer is fixed on one side of the fixing support away from the adhesive layer.

Further, the power supply control assembly includes:

a control board fixed in the groove;

a first battery fixed on the control board and electrically connected with the control board;

and the first switch piece is arranged on the control board and is electrically connected with the first battery.

Further, at least one second light emitting component and at least one identification component are arranged.

Further, the conductive luminescent container for liquid packaging further comprises:

and the third light-emitting component is fixed in the cover body.

Further, the third light emitting assembly includes:

A light emitting sheet fixed in the middle of the cover body;

the second battery is fixed on one side of the light-emitting sheet far away from the bottle body and is electrically connected with the light-emitting sheet;

and a second switching member electrically connected with the second battery.

Further, the conductive luminescent container for liquid packaging further comprises:

and the first elastic film is laid on the top of the cover body.

Further, the conductive luminescent container for liquid packaging further comprises:

The second elastic film is laid on the groove and is far away from the cavity of the bottle body, and the second elastic film is matched with the groove to form a closed space.

The utility model has the advantages that firstly, the first luminous component is arranged in the groove at the bottom of the bottle body, so that a user can master the liquid level of liquid in the bottle at any time, secondly, the second luminous component and the light sensor are arranged and are electrically connected with the power supply control component, the light sensor monitors the light intensity of the surrounding environment of the bottle body in real time, the light intensity information is transmitted to the power supply control component, the power supply control component adjusts the brightness of the second luminous component in real time according to the light intensity information, and after the light emitted by the second luminous component irradiates the identification component, the identification component can achieve the best watching brightness, and the practicability is strong.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

Fig. 1 is a perspective view of a conductive luminescent container for packaging liquid according to an embodiment of the present utility model;

FIG. 2 is an exploded view of a bottle, a second light assembly and a sign assembly provided in an embodiment of the present utility model;

Fig. 3 is a schematic structural diagram of a conductive luminescent container for packaging liquid according to an embodiment of the present utility model.

100 Parts of bottle body, 110 parts of groove, 120 parts of cover body, 200 parts of first luminous component, 210 parts of light bar, 220 parts of LED lamp, 300 parts of second luminous component, 310 parts of conductive film, 320 parts of light emitting plate, 400 parts of power supply control component, 410 parts of control board, 420 parts of first battery, 430 parts of first switch component, 500 parts of light sensor, 600 parts of identification component, 610 parts of adhesive layer, 620 parts of fixing support, 630 parts of identification layer, 700 parts of third luminous component, 710 parts of light emitting plate, 720 parts of second battery, 730 parts of second switch component, 800 parts of first elastic film, 900 parts of second elastic film.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-3, the embodiment provides a conductive light emitting container for packaging liquid, which comprises a bottle body 100, a groove 110 arranged at the bottom, a cover 120 arranged on the upper cover of the bottle body 100, a first light emitting component 200 arranged in the groove 110, a second light emitting component 300 fixed on the outer side wall of the bottle body 100, a power supply control component 400 arranged in the groove 110, wherein the power supply control component 400 is electrically connected with the first light emitting component 200 and the second light emitting component 300 respectively, a light sensor 500 fixed on the outer side wall of the bottle body 100, the light sensor 500 is electrically connected with the power supply control component 400, and a marking component 600 arranged on the side of the second light emitting component 300 away from the bottle body 100.

It can be understood that, firstly, the first light emitting component 200 is disposed in the groove 110 at the bottom of the bottle body 100, so that a user can grasp the liquid level of the liquid in the bottle at any time, secondly, the second light emitting component 300 and the light sensor 500 are disposed, and the second light emitting component 300 and the light sensor 500 are electrically connected with the power supply control component 400, the light sensor 500 monitors the light intensity of the surrounding environment of the bottle body 100 in real time, and transmits the light intensity information to the power supply control component 400, and the power supply control component 400 adjusts the brightness of the second light emitting component 300 in real time according to the light intensity information, so that the marker component 600 can achieve the best viewing brightness after the light emitted by the second light emitting component 300 is irradiated on the marker component 600, and the practicability is strong.

In one embodiment of the present application, the first light emitting assembly 200 includes a light bar 210 and an LED lamp 220, the LED lamp 220 is fixed on the light bar 210, the LED lamp 220 is electrically connected with the light bar 210, the light bar 210 is fixed on top of the power supply control assembly 400, and the light bar 210 is electrically connected with the power supply control assembly 400.

It can be understood that the LED lamps 220 are connected in series or in parallel to the light bar 210, and the power supply control assembly 400 controls the LED lamps 220 to be turned on or off, so that the light emitted by the LED lamps 220 irradiates the liquid in the bottle 100, and the liquid level in the bottle can be displayed. Preferably, the color of the LED lamp 220 can be changed at will.

In one embodiment of the present application, the second light emitting assembly 300 includes a conductive film 310 embedded on the outer sidewall of the bottle body 100, the conductive film 310 being electrically connected to the power supply control assembly 400, and a light emitting plate 320 disposed on a side of the conductive film 310 away from the bottle body 100, the light emitting plate 320 being electrically connected to the conductive film 310.

It can be understood that, the conductive film 310 is disposed, the electricity of the power supply control assembly 400 is led into the light emitting plate 320, so that the light emitting plate 320 generates electricity, the light source emitted by the light emitting plate 320 irradiates the identification assembly 600, so that a user can see the characters and the patterns on the identification assembly 600 clearly in a dark environment, and the second light emitting assembly 300 can adjust the light emitting intensity of the light emitting plate 320 according to the light intensity monitored by the light sensor 500, so that the characters and the patterns on the identification assembly 600 reach the most clear state, and the practicability is strong.

In one embodiment of the present application, the label assembly 600 includes an adhesive layer 610 fixed to an edge of a side of the light emitting panel 320 remote from the bottle body 100, a fixing support 620 fixed to the adhesive layer 610 at one side, and a label layer 630 fixed to the fixing support 620 remote from the adhesive layer 610.

It can be appreciated that the fixing support 620 is adhered to the edge of the light-emitting plate 320 through the adhesive layer 610, that is, the fixing support 620 is annular, so as to avoid blocking the light emitted by the light-emitting plate 320, and the emitted light irradiates the identification layer 630, so that the user can conveniently view the characters or the patterns on the identification layer 630.

In one embodiment of the present application, the power supply control assembly 400 includes a control board 410 fixed in the recess 110, a first battery 420 fixed on the control board 410 and electrically connected to the control board 410, and a first switching member 430 provided on the control board 410, the first switching member 430 being electrically connected to the first battery 420.

It can be understood that the control board 410 is used for controlling whether the first light emitting assembly 200 and the second light emitting assembly 300 emit light, and also for adjusting the light emitting intensity of the second light emitting assembly 300 according to the light intensity monitored by the light sensor 500, and the first switch 430 is used for controlling whether the battery supplies power to the control board 410. Preferably, the control board 410 includes a PCB circuit board having a control chip disposed thereon.

In one embodiment of the present application, at least one of the second light emitting assembly 300 and the identification assembly 600 is provided.

It will be appreciated that when a plurality of labels are required for the bottle 100, the same number of second light emitting assemblies 300 are provided to emit light.

In one embodiment of the present application, the conductive luminescent container for packaging liquids further includes a third luminescent assembly 700 secured within the cover 120.

It can be understood that the third light emitting assembly 700 is disposed in the cover 120, can irradiate from the upper portion of the liquid, can be used simultaneously or alternatively with the first light emitting assembly 200, and the first light emitting assembly 200 and the second light emitting assembly 300 independently control light emission, so that the light emission is not hindered by each other, and when one of the light emitting assemblies cannot be used, the other light emitting assembly can still be used normally, so that the practicability is strong.

In one embodiment of the present application, the third light emitting assembly 700 includes a light emitting sheet 710 fixed at the middle of the cover 120, a second battery 720 fixed at a side of the light emitting sheet 710 remote from the bottle 100, the second battery 720 electrically connected to the light emitting sheet 710, and a second switch 730 electrically connected to the second battery 720.

It can be understood that the second switch 730 is used for controlling whether the second battery 720 supplies electricity to the light emitting sheet 710, and pressing the second switch 730 to achieve light emitting and extinguishing of the light emitting sheet 710 is simple in operation.

In one embodiment of the present application, the conductive luminescent container for liquid packaging further includes a first elastic film 800 disposed on top of the cover 120.

It can be appreciated that the first elastic membrane 800 covers the top of the cover 120, which not only can shield dust and prevent dust from entering the bottle body 100 of the cover 120, but also can press the second switch member 730 conveniently through the first elastic membrane 800 without affecting the use of the second switch member 730.

In one embodiment of the present application, the conductive luminescent container for packaging liquid further includes a second elastic film 900 disposed on the groove 110 and away from the cavity of the bottle body 100, and cooperates with the groove 110 to form a closed space.

It can be appreciated that the second elastic membrane 900 can not only prevent dust from entering the groove 110 and affecting the use of the components in the groove 110, but also press the first switch member 430 via the second elastic membrane 900, which is convenient and practical. Preferably, the first elastic membrane 800 and the second elastic membrane 900 include, but are not limited to, rubber membranes.

The utility model has the working principle that the cover body 120 is opened, liquid is put into the bottle body 100, the cover body 120 is covered at the opening at the upper part of the bottle body 100, the liquid is sealed, the first switch element 430 is opened, the light sensor 500 monitors the light intensity of the environment in real time, the control panel 410 controls the second light emitting component 300 to emit light in real time according to the light intensity, so that characters or patterns on the identification component 600 can be displayed, and when the liquid level in the bottle body 100 needs to be checked, the first switch element 430 and/or the second switch element 730 are pressed, so that the first light emitting component 200 and/or the second switch component emit light.

In summary, firstly, the first light emitting component 200 is arranged in the groove 110 at the bottom of the bottle body 100, so that a user can master the liquid level of the liquid in the bottle at any time, secondly, the second light emitting component 300 and the light sensor 500 are arranged, the second light emitting component 300 and the light sensor 500 are electrically connected with the power supply control component 400, the light sensor 500 monitors the light intensity of the surrounding environment of the bottle body 100 in real time, the light intensity information is transmitted to the power supply control component 400, the power supply control component 400 adjusts the brightness of the second light emitting component 300 in real time according to the light intensity information, so that the identification component 600 can achieve optimal watching brightness after the light emitted by the second light emitting component 300 irradiates the identification component 600, and the practicability is high.

Further, the LED lamps 220 are connected in series or in parallel to the light bar 210, and the power supply control assembly 400 controls the on/off of the LED lamps 220, so that the light emitted by the LED lamps 220 irradiates the liquid in the bottle 100, and the liquid level in the bottle can be displayed. Preferably, the color of the LED lamp 220 can be changed at will. The conductive film 310 is arranged, the electricity of the power supply control assembly 400 is led into the light emitting plate 320, the light emitting plate 320 generates electricity, a light source emitted by the light emitting plate 320 irradiates the identification assembly 600, a user can clearly see characters and patterns on the identification assembly 600 in a dark environment, the second light emitting assembly 300 can adjust the light emitting intensity of the light emitting plate 320 according to the light intensity monitored by the light sensor 500, the characters and the patterns on the identification assembly 600 reach the most clear state, and the practicability is high.

Further, the fixing support 620 is adhered to the edge of the light-emitting plate 320 through the adhesive layer 610, so as to avoid blocking the light emitted by the light-emitting plate 320, and the emitted light irradiates the identification layer 630, so that the user can check the characters or the patterns on the identification layer 630 conveniently. The control board 410 is used for controlling whether the first light emitting assembly 200 and the second light emitting assembly 300 emit light, and also for adjusting the light emitting intensity of the second light emitting assembly 300 according to the light intensity monitored by the light sensor 500, and the first switch 430 is used for controlling whether the battery supplies power to the control board 410. Preferably, the control board 410 includes a PCB circuit board having a control chip disposed thereon. When a plurality of marks are required for the bottle body 100, the same number of the second light emitting assemblies 300 are provided to emit light.

Further, the third light emitting module 700 is disposed in the cover 120, can irradiate from the upper portion of the liquid, can be used simultaneously or alternately with the first light emitting module 200, and the first light emitting module 200 and the second light emitting module 300 independently control light emission, so that the light emission is not hindered, and when one of the two light emitting modules cannot be used, the other light emitting module can still be used normally, so that the practicability is strong. The second switch 730 is used for controlling whether the second battery 720 supplies electricity to the light emitting sheet 710, and pressing the second switch 730 to realize light emission and extinction of the light emitting sheet 710 is simple in operation.

Further, the first elastic membrane 800 covers the top of the cover 120, which not only can shield dust and prevent dust from entering the bottle body 100 of the cover 120, but also can press the second switch member 730 conveniently through the first elastic membrane 800 without affecting the use of the second switch member 730. The second elastic membrane 900 is arranged, so that dust can be prevented from entering the groove 110, the use of components in the groove 110 is affected, and the first switch piece 430 can be pressed through the second elastic membrane 900, so that the device is convenient and practical.

It will be understood by those skilled in the art that the foregoing description is only a preferred embodiment of the present utility model, and that the present utility model is not limited to the above-described embodiment, but may be modified or substituted for some of the features described in the above-described embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. An electrically conductive luminescent container for packaging liquids, comprising:

the bottle body is provided with a groove at the bottom, and a cover body is covered at the upper part of the bottle body;

A first light emitting component disposed within the recess;

The second light-emitting component is fixed on the outer side wall of the bottle body;

The power supply control assembly is arranged in the groove and is electrically connected with the first light-emitting assembly and the second light-emitting assembly respectively;

The light sensor is fixed on the outer side wall of the bottle body and is electrically connected with the power supply control assembly;

The identification component is arranged on one side, far away from the bottle body, of the second light-emitting component.

2. The electrically conductive luminescent container for packaging liquids as recited in claim 1, wherein said first luminescent assembly comprises:

The LED lamp is fixed on the lamp strip, the LED lamp is electrically connected with the lamp strip, the lamp strip is fixed at the top of the power supply control assembly, and the lamp strip is electrically connected with the power supply control assembly.

3. The electrically conductive luminescent container for packaging liquids as recited in claim 1, wherein said second luminescent assembly comprises:

The conductive film is embedded on the outer side wall of the bottle body and is electrically connected with the power supply control assembly;

the light-emitting plate is arranged on one side, far away from the bottle body, of the conductive film, and the light-emitting plate is electrically connected with the conductive film.

4. A conductive luminescent container for packaging liquids as recited in claim 3, wherein said identification assembly comprises:

the adhesive layer is fixed at the edge of one side of the light-emitting plate far away from the bottle body;

a fixing support, one side of which is fixed with the adhesive layer;

and the identification layer is fixed on one side of the fixing support away from the adhesive layer.

5. The electrically conductive light emitting container for liquid packaging as set forth in claim 1, wherein the power supply control assembly comprises:

a control board fixed in the groove;

a first battery fixed on the control board and electrically connected with the control board;

and the first switch piece is arranged on the control board and is electrically connected with the first battery.

6. The electrically conductive luminescent container for packaging liquids as claimed in claim 1, wherein,

The second light emitting component and the identification component are at least one.

7. The electrically conductive luminescent container for packaging liquids as claimed in claim 1, further comprising:

and the third light-emitting component is fixed in the cover body.

8. The electrically conductive luminescent container for packaging liquids as recited in claim 7, wherein said third luminescent assembly comprises:

A light emitting sheet fixed in the middle of the cover body;

the second battery is fixed on one side of the light-emitting sheet far away from the bottle body and is electrically connected with the light-emitting sheet;

and a second switching member electrically connected with the second battery.

9. The electrically conductive luminescent container for packaging liquids as claimed in claim 1, further comprising:

and the first elastic film is laid on the top of the cover body.

10. The electrically conductive luminescent container for packaging liquids as claimed in claim 1, further comprising:

The second elastic film is laid on the groove and is far away from the cavity of the bottle body, and the second elastic film is matched with the groove to form a closed space.