CN106641985B

CN106641985B - Bottle lamp

Info

Publication number: CN106641985B
Application number: CN201611010887.8A
Authority: CN
Inventors: 何新霞
Original assignee: 林斯
Current assignee: Zhengyang Hexing Lighting Co.,Ltd.
Priority date: 2016-11-17
Filing date: 2016-11-17
Publication date: 2020-04-28
Anticipated expiration: 2036-11-17
Also published as: CN106641985A

Abstract

The invention relates to the technical field of ornamental toys, in particular to a bottle lamp. A bottle lamp comprises a bottle body and a bottle cap. The bottle body is made of transparent materials; the bottle body is arranged in a double-layer mode and comprises an outer bottle body and an inner bottle body, a closed cavity is formed between the outer bottle body and the inner bottle body, reversible thermosensitive decoloring ink is filled in the cavity, and a lighting lamp is arranged inside the inner bottle body. The upper surface of the bottle cap is provided with a photovoltaic panel, and an inverter and a storage battery are arranged inside the bottle cap; the photovoltaic panel, the inverter and the storage battery are connected through wires; the electric energy converted by the photovoltaic panel is converted into current by the inverter and then stored in the storage battery; and a switch is arranged on the side surface of the bottle cap and used for turning on or off the illuminating lamp. The invention can enhance the visual effect of the bottle lamp, so that the whole bottle lamp looks more colorful.

Description

Bottle lamp

Technical Field

The invention relates to the technical field of ornamental toys, in particular to a bottle lamp.

Background

The bottle lamp can be used as an illuminating object, a decoration or a toy. It mainly comprises a transparent bottle, a lighting lamp, a battery, a switch and a plurality of wires. During operation, the illuminating lamp arranged in the bottle is turned on, and the whole bottle is filled with the light emitted by the illuminating lamp, so that the whole bottle achieves a transparent effect, and a person looks like the whole bottle can emit light, thereby having better ornamental performance and simultaneously having very good visual effect.

However, in the prior art, the bottle used by the bottle lamp is a transparent glass bottle, so that only one tone of light appears when the lighting lamp irradiates the whole bottle, the appearance color of the whole bottle lamp looks dull, a colorful effect is not provided, and the visual impact force is not strong.

Disclosure of Invention

The invention aims to: to the problem that above-mentioned exists, provide a bottle lamp, can strengthen the visual effect of bottle lamp for whole bottle lamp looks more dazzles various.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows: a bottle lamp comprises a bottle body and a bottle cap.

The bottle body is made of transparent materials; the bottle body is double-deck setting, including outer bottle body and inner bottle body, constitute an inclosed cavity between outer bottle body and the inner bottle body, be full of reversible temperature sensing achromatism printing ink in the cavity, the inside of inner bottle body is provided with light and temperature sensor.

The photovoltaic panel is arranged on the upper surface of the bottle cap, and the inverter and the storage battery are arranged inside the bottle cap; the photovoltaic panel, the inverter and the storage battery are connected through conducting wires; the electric energy converted by the photovoltaic panel is converted into current by the inverter and then stored in the storage battery; a switch device is arranged on the side surface of the bottle cap and comprises a temperature processor, a controller, a Bluetooth sensor, an internal switch and an external switch button; the internal switch is used for automatically controlling the lighting lamp to be turned on or off; the external switch button is used for manually controlling the lighting lamp to be turned on or turned off.

The temperature processor is connected with the temperature sensor, the controller and the Bluetooth sensor; the temperature sensor is used for sensing the temperature inside the inner bottle body and sending temperature data to the temperature processor; the Bluetooth sensor wireless connection terminal is controlled by the terminal, the temperature processor is used for setting a temperature threshold value, the temperature threshold value is compared with the temperature value received by the temperature sensor, the comparison result is fed back to the terminal through the Bluetooth sensor, and the temperature processor is used for controlling the controller to turn on or off the built-in switch so as to control the lighting lamp to be turned on or turned off.

Furthermore, the cavities are arranged in a double-layer mode and comprise a first cavity and a second cavity, and reversible thermosensitive decoloring ink with different colors is filled in the first cavity and the second cavity respectively.

Further, a plurality of illuminating lamps are arranged inside the inner bottle body, wherein the switch can respectively control the on or off of each illuminating lamp.

Further, the illuminating lamp is a tungsten lamp.

Further, the illuminating lamp is fixedly arranged inside the inner bottle body.

Further, the thickness of the cavity is 5mm to 15 mm.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that: this technical scheme is through the photovoltaic board at the upper surface mounting of bottle lid with solar energy conversion electric energy storage in locating the battery in the bottle lid, then the battery gives the light that sets up in the bottle and supplies power, makes its luminous whole bottle of illuminating. In addition, the bottle body of the bottle lamp is arranged in a double-layer mode of the outer bottle body and the inner bottle body, then the sealed cavity formed by the outer bottle body and the inner bottle body is filled with the reversible thermosensitive decoloring ink, and when the illuminating lamp irradiates the bottle body, the outer surface of the bottle lamp can transmit light with the color which is the same as the color of the injected reversible thermosensitive decoloring ink. Along with the increase of the working time of the illuminating lamp, the generated heat can also be increased, so that the temperature of the whole bottle body is also increased under the action of heat transfer. The temperature of the bottle body rises to act on the reversible thermosensitive decoloring ink, so that the color of the thermosensitive decoloring ink gradually becomes lighter; the higher the temperature rise, the more pronounced the phenomenon of discoloration. Therefore, in the color fading process, the light transmitted by the whole bottle lamp is changed all the time, and the effect of dazzling the light is achieved. In addition, the invention is also added with a system for automatically controlling the illuminating lamp, when the temperature in the bottle is higher, the system can enable a user to receive information and take measures, thereby ensuring the safety of the bottle.

Drawings

Fig. 1 is a schematic structural diagram of a bottle lamp according to the present invention.

Fig. 2 is a connection diagram of a method of automatically controlling an illumination lamp according to the present invention.

Description of the main elements

In the figure, 1, a bottle body; 11. an outer bottle body; 12. an inner bottle body; 13. a cavity; 131. a first cavity; 132. a second cavity; 14. reversible thermosensitive decolorizing inks; 15. an illuminating lamp; 2. a bottle cap; 21. a photovoltaic panel; 22. an inverter; 23. a storage battery; 24. a switching device; 241. a peripheral switch button; 25. a temperature sensor.

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

Referring to fig. 1, a bottle lamp includes a bottle body 1 and a bottle cap 2; the bottle body 1 is made of transparent materials; the bottle body 1 is arranged in a double-layer mode and comprises an outer bottle body 11 and an inner bottle body 12, a closed cavity 13 is formed between the outer bottle body 11 and the inner bottle body 12, and the purpose is that reversible thermosensitive decoloring ink 14 can be filled in the cavity 13; the reversible thermosensitive decoloring ink 14 is also called reversible temperature-change decoloring ink, shows a certain specific color at normal temperature, disappears and becomes colorless after being heated, and immediately returns to the original color after being cooled, and the change process is reversible. An illuminating lamp 15 and a temperature sensor 25 are arranged inside the inner bottle body 12; the illuminating lamp can play a role in emitting light; the upper surface of the bottle cap 2 is provided with a photovoltaic panel 21, and the photovoltaic panel 21 is a power generation device which can generate direct current when exposed to the sun; an inverter 22 and a battery 23 are provided therein; the inverter 22 converts the direct current electric energy into alternating current; the photovoltaic panel 21, the inverter 22 and the storage battery 23 are connected through wires; the electric energy converted by the photovoltaic panel 21 is converted into current by the inverter 22 and then stored in the storage battery 23; a switch device 24 is arranged on the side surface of the bottle cap 2, and comprises a temperature processor, a controller, a Bluetooth sensor, an internal switch and an external switch button 241, wherein the internal switch is used for automatically controlling the on or off of an illuminating lamp; the peripheral switch button 241 is used for manually controlling the lighting lamp to be turned on or off.

Referring to fig. 2, the temperature processor is connected to the temperature sensor 25, the controller and the bluetooth sensor; the temperature sensor is used for sensing the temperature inside the inner bottle body and sending temperature data to the temperature processor; the Bluetooth sensor wireless connection terminal is controlled by the terminal, the temperature processor sets a temperature threshold value, the temperature threshold value is compared with the temperature value received by the temperature sensor, the comparison result is fed back to the terminal through the Bluetooth sensor, and the temperature processor controls the controller to turn on or off an internal switch so as to control the lighting lamp to be turned on or turned off.

As an optimization of the above scheme, the present invention provides a method for automatically controlling an illumination lamp, comprising the steps of:

1) setting a threshold value; first, the temperature is set to a temperature at which the reversible thermosensitive decoloring ink 14 completely fades.

2) An information sending stage; when the temperature of the inner bottle body 12 reaches the temperature set in the step 1), the temperature sensor 25 monitors and sends temperature information to the temperature processor; after receiving the temperature information, the temperature processor sends the temperature information to the terminal through the Bluetooth sensor; and 3) the terminal enters the step 3) after receiving the temperature information, and if the terminal does not receive the temperature information, the temperature sensor, the temperature processor and the Bluetooth sensor are checked and updated.

3) A feedback stage; and the terminal receives the temperature information sent in the step 2), and selects to reply the feedback information, thereby controlling the built-in switch. Replying the message off, and entering the step 4); reply message "on", enter step 5).

4) A control stage I; the built-in switch can be closed, so that the lighting lamp is controlled to be closed.

5) A control phase II; the internal switch keeps on the open state, and the illuminating lamp continues to illuminate.

According to the technical scheme, the photovoltaic panel 21 arranged on the upper surface of the bottle cap 2 converts solar energy into electric energy to be stored in the storage battery 23 arranged in the bottle cap 2, and then the storage battery 23 supplies power to the illuminating lamp 15 arranged in the bottle, so that the illuminating lamp can emit light to illuminate the whole bottle. In addition, the bottle body 1 of the bottle lamp is arranged as an outer bottle body 11 and an inner bottle body 12 in a double-layer mode, then the sealed cavity 13 formed by the outer bottle body 11 and the inner bottle body 12 is filled with reversible thermosensitive achromatic ink 14, and when the illuminating lamp 15 irradiates the bottle body, the outer surface of the bottle lamp can transmit light with the same color as the injected inverse thermosensitive achromatic ink 14. As the operation time of the illumination lamp 15 increases, the amount of heat generated also increases, so that the temperature of the entire bottle body 1 also rises by the heat transfer. The temperature of the bottle body 1 rises to act on the reversible thermosensitive decoloring ink 14, so that the color of the thermosensitive decoloring ink 14 gradually becomes lighter; the higher the temperature rise, the more pronounced the phenomenon of discoloration. Therefore, in the color fading process, the light transmitted out of the whole bottle body 1 is changed all the time, and the effect of dazzling the light is achieved. Further, by providing the switching device 24, the lighting lamp can be turned off easily.

In order to obtain the effect of more colorful light and more changeable colors, the cavity 13 is arranged in a double layer, and includes a first cavity 131 and a second cavity 132, and the first cavity 131 and the second cavity 132 are filled with reversible thermosensitive decoloring ink 14 with different colors respectively. In this case, the two reversible thermosensitive decoloring inks 14 different in color need different temperatures at the time of complete decoloring. Specifically, after the reversible thermosensitive decoloring ink 14 with different colors is filled in the first cavity 131 and the second cavity 132, the light of the mixed color is transmitted out of the bottle by illumination; as the temperature increases, the mixed color will also follow; secondly, one of the colors will fade slowly and completely; finally, when the two colors are completely faded, the bottle lamp emits light in the color of the light emitted by the illuminating lamp 15 itself. Therefore, in the whole temperature change process, the color of the light transmitted by the bottle lamp can be changed along with the change of the temperature, and the variety of the color change is more abundant.

The inner bottle body 12 is provided with a plurality of illuminating lamps 15 therein, wherein the switch device 24 can control the on/off of each illuminating lamp 15, so that the user can control the temperature in the bottle by controlling the number of the illuminating lamps 15, thereby changing the color of the reversible thermosensitive decoloring ink 14 and changing the color of the light emitted from the outside of the bottle. For example, the number of the illumination lamps 15 is two. When the two illuminating lamps are turned on simultaneously, the temperature in the bottle can gradually rise, and the color of the reversible thermosensitive decoloring ink 14 can also gradually become lighter, so that the color of light transmitted by the bottle is changed all the time in the whole temperature rising process. When the temperature reaches a certain height, the temperature in the bottle will slowly drop by turning off one of the illuminating lamps 15 through the function of the independent control of the switch device 24, and the color of the reversible thermosensitive decoloring ink 14 will approach the original color, that is, the color of the reversible thermosensitive decoloring ink 14 will become darker during the temperature drop. Therefore, after turning off one of the illuminating lamps 15, the color of the bottle lamp will change; thereby the light that makes the bottle lamp send has reached more dazzling various and changeable effect. Considering that the heating effect of the illumination lamp 15 is better, the illumination lamp 15 is a tungsten lamp.

The illuminating lamp 15 is fixedly arranged inside the inner bottle body 12, and in order to prevent the bottle lamp from being damaged due to collision with the inner bottle body 12 in the moving process of the bottle lamp, the illuminating lamp 15 is arranged in the inner bottle body 12.

Further, since the cavity 13 is formed to have a thickness that increases resistance to light from the lamp 15 penetrating the bottle 1, the cavity 13 is formed to have a thickness of 5mm to 15mm, preferably 7mm, 8mm, and 9 mm.

The above description is intended to describe in detail the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the claims of the present invention, and all equivalent changes and modifications made within the technical spirit of the present invention should fall within the scope of the claims of the present invention.

Claims

1. A bottle light, comprising:

the bottle body is made of transparent materials; the bottle body is arranged in a double-layer mode and comprises an outer bottle body and an inner bottle body, a closed cavity is formed between the outer bottle body and the inner bottle body, reversible thermosensitive decoloring ink is filled in the cavity, and an illuminating lamp and a temperature sensor are arranged inside the inner bottle body;

the photovoltaic panel is arranged on the upper surface of the bottle cap, and the inverter and the storage battery are arranged inside the bottle cap; the photovoltaic panel, the inverter and the storage battery are connected through conducting wires; the electric energy converted by the photovoltaic panel is converted into current by the inverter and then stored in the storage battery; a switch device is arranged on the side surface of the bottle cap and comprises a temperature processor, a controller, a Bluetooth sensor, an internal switch and an external switch button; the internal switch is used for automatically controlling the lighting lamp to be turned on or off; the external switch button is used for manually controlling the on or off of the illuminating lamp;

the temperature processor is connected with the temperature sensor, the controller and the Bluetooth sensor; the temperature sensor is used for sensing the temperature inside the inner bottle body and sending temperature data to the temperature processor; the Bluetooth sensor is wirelessly connected with the terminal, the temperature processor is controlled by the terminal to set a temperature threshold value, the temperature threshold value is compared with a temperature value received by the temperature sensor, a comparison result is fed back to the terminal through the Bluetooth sensor, and the controller is controlled by the terminal through the temperature processor to turn on or off an internal switch so as to control the turn-on or turn-off of an illuminating lamp;

the cavity is arranged in a double-layer mode and comprises a first cavity and a second cavity, and reversible thermosensitive decoloring ink with different colors is filled in the first cavity and the second cavity respectively; a plurality of illuminating lamps are arranged inside the inner bottle body, wherein the switch device can respectively control the on or off of each illuminating lamp; the illuminating lamp is fixedly arranged inside the inner bottle body; the thickness of the cavity is 5mm to 15 mm; the user controls the temperature in the bottle by controlling the number of the lighting lamps (15) to change the color of the reversible thermosensitive decoloring ink (14), so that the color of light transmitted out of the bottle is changed; the bottle lamp control steps are as follows:

1) setting a threshold value; firstly, setting the temperature, wherein the set temperature is the temperature for completely fading the reversible thermosensitive decoloring ink (14);

2) an information sending stage; when the temperature of the inner bottle body (12) reaches the temperature set in the step 1), the temperature sensor (25) monitors and sends temperature information to the temperature processor; after receiving the temperature information, the temperature processor sends the temperature information to the terminal through the Bluetooth sensor; the terminal enters step 3) after receiving the temperature information, and if the terminal does not receive the temperature information, the temperature sensor, the temperature processor and the Bluetooth sensor are checked and updated;

3) a feedback stage; the terminal receives the temperature information sent in the step 2), and selects to reply the feedback information, so as to control the built-in switch; replying the message off, and entering the step 4); replying the information 'on', and entering the step 5);

4) a control stage I; the internal switch can be turned off, so that the lighting lamp is controlled to be turned off;

5) a control phase II; the internal switch keeps on, and the illuminating lamp continues to illuminate;

the solar energy is converted into electric energy through a photovoltaic panel (21) arranged on the upper surface of the bottle cap (2) and stored in a storage battery (23) arranged in the bottle cap (2), and then the storage battery (23) supplies power to an illuminating lamp (15) arranged in the bottle to enable the illuminating lamp to illuminate the whole bottle; then, the bottle body (1) of the bottle lamp is arranged as an outer bottle body (11) and an inner bottle body (12) in a double-layer mode, then reversible thermosensitive decoloring ink (14) is filled in a closed cavity (13) formed by the outer bottle body (11) and the inner bottle body (12), and when the illuminating lamp (15) irradiates the bottle body, the outer surface of the bottle lamp can transmit light with the color of the injected inverse thermosensitive decoloring ink (14); along with the increase of the working time of the illuminating lamp (15), the generated heat can also be increased, so that the temperature of the whole bottle body (1) is also increased along with the increase of the heat transfer; the temperature rise of the bottle body (1) can act on the reversible thermosensitive decoloring ink (14) to slowly lighten the color of the thermosensitive decoloring ink (14); the higher the temperature rise, the more obvious the phenomenon of fading is; in the process of color fading, the light transmitted out of the whole bottle body (1) is gradually increased.

2. The bottle lamp as set forth in claim 1, wherein the illumination lamp is a tungsten lamp.