CN107334644B - Container - Google Patents

Abstract

The invention relates to a container, which comprises a body (8), wherein an inner cavity for containing liquid is arranged in the body (8), and is characterized in that: the organic matter detection device is characterized in that an organic matter detection sensor used for detecting the organic matter content in the liquid in the inner cavity in real time is further arranged in the body (8), the organic matter sensor comprises a first light source (1) capable of emitting ultraviolet rays, and a detection component which is matched with the first light source (1) and capable of detecting the organic matter content in the liquid, the detection component comprises a detection cavity (2), a detection group ultraviolet receiver (3) and a circuit board (4), and the circuit board (4) is used for calculating the organic matter content in the liquid in the detection cavity (2) according to the ultraviolet intensity received by the detection group ultraviolet receiver (3). Compared with the prior art, the invention has the advantages that: the organic matter content in the liquid in the inner cavity of the container can be detected in real time, so that whether bacteria grow in the liquid in the inner cavity can be judged through the detected organic matter content in real time.

Description

Container

Technical Field

The present invention relates to a container, and more particularly to a container for holding liquids.

Background

Many containers such as cups, bottles, etc. are used in life for holding liquids such as water, tea, coffee, milk, etc. After the liquid is stored for a period of time, bacteria, germs and the like can grow, and mildew can also occur. Liquid such as tea, milk, etc. is more easy to breed bacteria and mildew. The milk warmer is a product called milk warmer in the market, the soaked milk powder is placed in the milk warmer for heat preservation, and the milk warmer can be directly taken for feeding when needed by infants, so that the milk warmer has great safety risks, and if the milk warmer is capable of monitoring whether bacteria, viruses and the like are bred in a solution in a container in real time, and whether mildewing and the like are generated, the milk warmer has great practical value for many users.

Disclosure of Invention

The invention aims to provide a container capable of detecting the content of organic matters in liquid in real time.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a container, includes the body, is equipped with the inner chamber that holds liquid in this body, its characterized in that: the organic matter detection sensor is arranged in the body and used for detecting the organic matter content in the liquid in the inner cavity in real time, the organic matter sensor comprises a first light source capable of emitting ultraviolet rays and a detection component matched with the first light source and capable of detecting the organic matter content in the liquid, and the detection component comprises

A detection cavity capable of being penetrated by ultraviolet rays emitted by the first light source, wherein liquid in the inner cavity can pass through the detection cavity;

a detection group ultraviolet receiver for detecting the intensity of ultraviolet rays emitted from the first light source and penetrating the detection chamber;

the circuit board is connected with the detection group ultraviolet receiver and is used for calculating the content of organic matters in the liquid passing through the detection cavity according to the intensity of ultraviolet rays received by the detection group ultraviolet receiver.

The inner cavity is the detection cavity, the first light source is arranged at one side of the inner cavity, and the detection group ultraviolet receiver is arranged at the other opposite side of the inner cavity.

The detection cavity is arranged below the inner cavity and is communicated with the inner cavity, the first light source is arranged on one side of the detection cavity, and the detection group ultraviolet receiver is arranged on the other opposite side of the detection cavity.

The organic matter detection sensor also comprises a comparison component, wherein the comparison component comprises:

a second light source capable of emitting ultraviolet rays;

a contrast cavity which can be penetrated by ultraviolet rays emitted by the second light source, wherein air or purified water is arranged in the contrast cavity in a vacuum manner;

a control group ultraviolet receiver for detecting the intensity of ultraviolet rays emitted from the second light source and penetrating the control chamber;

the control group ultraviolet receiver is also connected with the circuit board, and the circuit board calculates the organic matter content in the liquid passing through the detection cavity according to the ultraviolet intensity received by the detection group ultraviolet receiver and the ultraviolet intensity received by the control group ultraviolet receiver.

The second light source adopts an ultraviolet lamp with the same model as the first light source, and the second light source and the first light source are connected in series.

The inner cavity is the detection cavity, the first light source is arranged at one side of the inner cavity, and the detection group ultraviolet receiver is arranged at the other opposite side of the inner cavity; the control cavity is arranged below the detection cavity, the second light source is arranged on one side of the control cavity, and the ultraviolet receiver of the control group is arranged on the other opposite side of the control cavity.

The detection cavity is arranged below the inner cavity and is communicated with the inner cavity, the first light source is arranged on one side of the detection cavity, and the detection group ultraviolet receiver is arranged on the other opposite side of the detection cavity;

the contrast cavity is arranged below the detection cavity and isolated from the detection cavity, the second light source is arranged on one side of the contrast cavity, and the contrast group ultraviolet receiver is arranged on the other opposite side of the contrast cavity.

The body is provided with a display screen which is connected with the circuit board and used for displaying the content of organic matters in the liquid in the inner cavity.

When the organic matter detection sensor is only provided with the detection component, the organic matter detection sensor comprises the following steps of detecting the organic matter content of liquid in the inner cavity:

the method comprises the steps of (1) keeping the detection cavity full of air or flushing purified water into the detection cavity, then starting the first light source, recording the ultraviolet intensity value received by the ultraviolet receiver of the detection group by the circuit board, and recording the ultraviolet intensity value as a first ultraviolet intensity reference value;

step (2), preparing N parts of control solutions with known organic matter content and different content, keeping the light source on, respectively sequentially passing the N parts of control solutions through the detection cavity, sequentially recording the ultraviolet intensity values received by the detection group ultraviolet receivers when the N parts of control solutions flow through the detection cavity by a circuit board, and respectively recording the obtained N parts of ultraviolet intensity values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … (n+1) th ultraviolet intensity reference value, wherein N is a natural number greater than or equal to 3;

step (3), obtaining a comparison table between the organic matter content in a comparison solution and the ultraviolet intensity reference value according to the N+1 parts of the ultraviolet intensity reference values obtained in the step (1) and the step (2);

and (4) keeping the first light source on, storing the solution to be detected in the detection cavity, recording the ultraviolet intensity value received by the ultraviolet receiver of the detection group in real time by the circuit board, recording the ultraviolet intensity value as an ultraviolet intensity detection value, and obtaining the organic matter content in the solution to be detected in real time by inquiring the comparison table obtained in the step (3).

When the organic matter detection sensor is provided with the detection component and the comparison component, the organic matter detection sensor comprises the following steps of detecting the organic matter content of liquid in the inner cavity:

step (1), vacuumizing a control cavity, or keeping the control cavity full of air, or flushing purified water into the control cavity, starting the second light source, recording the ultraviolet intensity value received by the ultraviolet receiver of the control group by the circuit board, and recording the ultraviolet intensity value as a first ultraviolet intensity reference value;

step (2), preparing N parts of control solutions with known organic matter content and different content, keeping the second light source on, respectively sequentially passing the N parts of control solutions through the control cavity, sequentially recording the ultraviolet intensity values received by the ultraviolet receivers of the control group when the N parts of control solutions flow through the control cavity by a circuit board, and respectively recording the obtained N parts of ultraviolet intensity values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … (n+1) th ultraviolet intensity reference value, wherein N is a natural number greater than or equal to 3;

step (3), obtaining a comparison table between the organic matter content in a comparison solution and the ultraviolet intensity reference value according to the N parts of the ultraviolet intensity reference values obtained in the step (2);

step (4), keeping the light source and the second light source on, vacuumizing the control cavity, or keeping the control cavity full of air, or flushing purified water in the control cavity; storing the solution to be detected in the detection cavity, recording the ultraviolet intensity value received by the ultraviolet receiver of the detection group in real time by the circuit board, recording the ultraviolet intensity value as an ultraviolet intensity detection value, recording the ultraviolet intensity value received by the ultraviolet receiver of the comparison group at the same time, recording the ultraviolet intensity value as a temporary ultraviolet intensity reference value, dividing the temporary ultraviolet intensity reference value by a first ultraviolet intensity reference value to obtain a light source intensity attenuation proportion, multiplying the ultraviolet intensity detection value by the light source intensity attenuation proportion to obtain an ultraviolet intensity search value, and then adopting the ultraviolet intensity search value to obtain the organic matter content of the solution to be detected in real time by inquiring the comparison table obtained in the step (3).

Compared with the prior art, the invention has the advantages that: the organic matter content in the liquid in the inner cavity of the container can be detected in real time, so that whether bacteria grow in the liquid in the inner cavity can be judged through the detected organic matter content in real time.

Drawings

Fig. 1 is a schematic structural view of a container according to a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a container according to a second embodiment of the present invention.

Fig. 3 is a schematic structural view of a container according to a third embodiment of the present invention.

Fig. 4 is a schematic structural view of a container according to a fourth embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the embodiments of the drawings.

Example 1

The container shown in fig. 1 comprises a body 8, wherein the body 8 is a base, an inner cavity for containing liquid is arranged in the body 8, and the inner cavity is an inner container arranged in the base; an organic matter detection sensor for detecting the organic matter content in the liquid in the inner cavity in real time is also arranged in the body 8, the organic matter sensor comprises a first light source 1 capable of emitting ultraviolet rays and a detection component which is matched with the first light source 1 and can detect the organic matter content in the liquid, and the detection component comprises

The detection cavity 2 can be penetrated by ultraviolet rays emitted by the first light source 1, the detection cavity 2 is an inner cavity in the body 8, the detection cavity 2 is made of a permeable material, and a container cover 10 connected with the body 8 is arranged above the body 8;

a detection group ultraviolet receiver 3 for detecting the intensity of ultraviolet rays emitted from the first light source 1 and penetrating the detection chamber 2; the first light source 1 is arranged at one side of the detection cavity 2, and the detection group ultraviolet receiver 3 is arranged at the other opposite side of the detection cavity 2;

the circuit board 4 is connected with the detection group ultraviolet receiver 3, and the circuit board 4 is used for calculating the content of organic matters in the liquid passing through the detection cavity 2 according to the intensity of ultraviolet rays received by the detection group ultraviolet receiver 3;

the body 8 is provided with a display screen 9 which is connected with the circuit board 4 and used for displaying the content of organic matters in the liquid in the detection cavity 2 (namely the inner cavity) in real time.

In this embodiment, the organic matter detection sensor includes detecting the organic matter content of the liquid in the inner cavity by:

step (1), keeping the detection cavity 2 full of air or flushing purified water into the detection cavity 2, then starting the first light source 1, recording the ultraviolet intensity value received by the ultraviolet receiver 3 of the detection group by the circuit board 4, and recording the ultraviolet intensity value as a first ultraviolet intensity reference value;

step (2), preparing N parts of control solutions with known organic matter content and different content, keeping the light source (1) on, respectively sequentially passing the N parts of control solutions through the detection cavity 2, sequentially recording the ultraviolet intensity values received by the detection group ultraviolet receiver 3 when the N parts of control solutions flow through the detection cavity 2 by the circuit board 4, and respectively recording the obtained N parts of ultraviolet intensity values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … (n+1) th ultraviolet intensity reference value, wherein N is a natural number greater than or equal to 3;

step (3), obtaining a comparison table between the organic matter content in a comparison solution and the ultraviolet intensity reference value according to the N+1 parts of the ultraviolet intensity reference values obtained in the step (1) and the step (2);

and (4) keeping the first light source 1 on, storing the solution to be detected in the detection cavity 2, recording the ultraviolet intensity value received by the ultraviolet receiver 3 of the detection group in real time by the circuit board 4, recording the ultraviolet intensity value as an ultraviolet intensity detection value, and obtaining the organic matter content in the solution to be detected in real time by inquiring the comparison table obtained in the step (3).

Example two

Unlike the first embodiment, the detection chamber 2 is disposed below the inner chamber 2 'and is in communication with the inner chamber 2', the first light source 1 is disposed on one side of the detection chamber 2, and the detection group ultraviolet receiver 3 is disposed on the other opposite side of the detection chamber 2, as shown in fig. 2.

Example III

Unlike the first embodiment, the organic matter detection sensor further includes a control component, as shown in fig. 3, where the control component includes:

a second light source 7 capable of emitting ultraviolet rays;

a contrast chamber 6 which can be penetrated by the ultraviolet rays emitted by the second light source 7, wherein the interior of the contrast chamber 6 is vacuumized or provided with air or purified water; the contrast cavity 6 is arranged below the inner cavity 2;

a control group ultraviolet receiver 5 for detecting the intensity of ultraviolet rays emitted from the second light source 7 and penetrating the control chamber 6; the control group ultraviolet receiver 5 and the second light source 7 are respectively arranged at two opposite sides of the control cavity 6;

the control group ultraviolet receiver 5 is also connected with the circuit board 4, and the circuit board 4 calculates the content of the organic matters in the liquid passing through the detection cavity 2 according to the ultraviolet intensity received by the detection group ultraviolet receiver 3 and the ultraviolet intensity received by the control group ultraviolet receiver 5.

In the present embodiment, the second light source 7 employs an ultraviolet lamp of the same model as the first light source 1, and the second light source 7 and the first light source 1 are connected in series.

In this embodiment, the organic matter detection sensor includes detecting the organic matter content of the liquid in the inner cavity by:

step (1), vacuumizing the control cavity 6, or keeping the control cavity 6 full of air, or flushing purified water into the control cavity 6, starting the second light source 7, and recording the ultraviolet intensity value received by the ultraviolet receiver 5 of the control group by the circuit board 4 and recording the ultraviolet intensity value as a first ultraviolet intensity reference value;

step (2), preparing N parts of control solutions with known organic matter content and different organic matter content, keeping the second light source (7) on, respectively sequentially passing the N parts of control solutions through the control cavity 6, sequentially recording the ultraviolet intensity values received by the control group ultraviolet receiver 5 when the N parts of control solutions flow through the control cavity 6 by the circuit board 4, and respectively recording the obtained N parts of ultraviolet intensity values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … (n+1) th ultraviolet intensity reference value, wherein N is a natural number greater than or equal to 3;

step (3), obtaining a comparison table between the organic matter content in a comparison solution and the ultraviolet intensity reference value according to the N parts of the ultraviolet intensity reference values obtained in the step (2);

step (4), keeping the light source 1 and the second light source 7 on, vacuumizing the control cavity 6, or keeping the control cavity 6 full of air, or flushing purified water into the control cavity 6; the solution to be measured is stored in the detection cavity 2, the circuit board 4 records the ultraviolet intensity value received by the ultraviolet receiver 3 of the detection group in real time, records the ultraviolet intensity value as an ultraviolet intensity detection value, records the ultraviolet intensity value received by the ultraviolet receiver 5 of the comparison group at the same time, records the ultraviolet intensity value as a temporary ultraviolet intensity reference value, divides the temporary ultraviolet intensity reference value by a first ultraviolet intensity reference value to obtain a light source intensity attenuation proportion, multiplies the ultraviolet intensity detection value by a light source intensity attenuation proportion to obtain an ultraviolet intensity search value, and then adopts the ultraviolet intensity search value to obtain the organic matter content of the solution to be measured in real time by inquiring the comparison table obtained in the step (3).

Example IV

Unlike the third embodiment, the detection chamber 2 is disposed below the inner chamber 2 'and communicates with the inner chamber 2', and the control chamber 6 is disposed below the detection chamber 2; the first light source 1 is arranged on one side of the detection cavity 2, the detection group ultraviolet receiver 3 is arranged on the other opposite side of the detection cavity 2, the second light source 7 is arranged on one side of the contrast cavity 6, and the contrast group ultraviolet receiver 5 is arranged on the other opposite side of the contrast cavity 6; see fig. 4.

Claims (7)

1. The utility model provides a container, includes body (8), is equipped with the inner chamber that holds liquid in body (8), its characterized in that: an organic matter detection sensor for detecting the organic matter content in the liquid in the inner cavity in real time is further arranged in the body (8), the organic matter detection sensor comprises a first light source (1) capable of emitting ultraviolet rays and a detection component matched with the first light source (1) and capable of detecting the organic matter content in the liquid, and the detection component comprises

A detection cavity (2) which can be penetrated by ultraviolet rays emitted by the first light source (1), wherein liquid in the cavity can pass through the detection cavity (2);

a detection group ultraviolet receiver (3) for detecting the intensity of ultraviolet rays emitted from the first light source (1) and penetrating the detection chamber (2);

the circuit board (4) is connected with the detection group ultraviolet receiver (3), and the circuit board (4) is used for calculating the content of organic matters in the liquid passing through the detection cavity (2) according to the intensity of ultraviolet rays received by the detection group ultraviolet receiver (3);

the organic matter detection sensor also comprises a comparison component, and the comparison component comprises:

a second light source (7) capable of emitting ultraviolet rays;

a contrast cavity (6) which can be penetrated by ultraviolet rays emitted by the second light source (7), wherein the interior of the contrast cavity (6) is vacuumized or provided with air or purified water;

a control group ultraviolet receiver (5) for detecting the intensity of ultraviolet rays emitted from the second light source (7) and penetrating the control chamber (6);

the control group ultraviolet receiver (5) is also connected with the circuit board (4), and the circuit board (4) calculates the content of organic matters in the liquid passing through the detection cavity (2) according to the ultraviolet intensity received by the detection group ultraviolet receiver (3) and the ultraviolet intensity received by the control group ultraviolet receiver (5);

the organic matter detection sensor detects the organic matter content of the liquid in the inner cavity through the following steps:

step (1), vacuumizing a comparison cavity (6), or keeping the air in the comparison cavity (6) full, or flushing purified water in the comparison cavity (6), starting the second light source (7), recording the ultraviolet intensity value received by the ultraviolet receiver (5) of the comparison group by the circuit board (4), and recording the ultraviolet intensity value as a first ultraviolet intensity reference value;

step (2), preparing N parts of control solutions with known organic matter content and different organic matter content, keeping the second light source (7) on, respectively sequentially passing the N parts of control solutions through the control cavity (6), sequentially recording the ultraviolet intensity values received by the ultraviolet receiver (5) of the control group when the N parts of control solutions flow through the control cavity (6) by the circuit board (4), and respectively recording the obtained N parts of ultraviolet intensity values as a second ultraviolet intensity reference value, a third ultraviolet intensity reference value and a … … (n+1) th ultraviolet intensity reference value, wherein N is a natural number larger than or equal to 3;

step (3), obtaining a comparison table between the organic matter content in a comparison solution and the ultraviolet intensity reference value according to the N parts of the ultraviolet intensity reference values obtained in the step (2);

step (4), keeping the light source (1) and the second light source (7) on, vacuumizing the control cavity (6), or keeping the control cavity (6) full of air, or flushing purified water in the control cavity (6); storing the solution to be detected in the detection cavity (2), recording the ultraviolet intensity value received by the ultraviolet receiver (3) of the detection group in real time by the circuit board (4), recording the ultraviolet intensity value as an ultraviolet intensity detection value, recording the ultraviolet intensity value received by the ultraviolet receiver (5) of the comparison group at the same time, recording the ultraviolet intensity value as a temporary ultraviolet intensity reference value, dividing the temporary ultraviolet intensity reference value by a first ultraviolet intensity reference value to obtain a light source intensity attenuation proportion, multiplying the ultraviolet intensity detection value by the light source intensity attenuation proportion to obtain an ultraviolet intensity lookup value, and then adopting the ultraviolet intensity lookup value to obtain the organic matter content of the solution to be detected in real time by querying the comparison table obtained in the step (3).

2. A container according to claim 1, wherein: the inner cavity is the detection cavity (2), the first light source (1) is arranged at one side of the inner cavity, and the detection group ultraviolet receiver (3) is arranged at the other opposite side of the inner cavity.

3. A container according to claim 1, wherein: the detection cavity (2) is arranged below the inner cavity and is communicated with the inner cavity, the first light source (1) is arranged on one side of the detection cavity (2), and the detection group ultraviolet receiver (3) is arranged on the other opposite side of the detection cavity (2).

4. A container according to claim 3, wherein: the second light source (7) adopts an ultraviolet lamp with the same model as the first light source (1), and the second light source (7) and the first light source (1) are connected in series.

5. The container of claim 4, wherein: the inner cavity is the detection cavity (2), the first light source (1) is arranged at one side of the inner cavity, and the detection group ultraviolet receiver (3) is arranged at the other opposite side of the inner cavity; the contrast cavity (6) is arranged below the detection cavity (2), the second light source (7) is arranged on one side of the contrast cavity (6), and the contrast group ultraviolet receiver (5) is arranged on the other opposite side of the contrast cavity (6).

6. The container according to claim 5, wherein: the detection cavity (2) is arranged below the inner cavity and is communicated with the inner cavity, the first light source (1) is arranged at one side of the detection cavity (2), and the detection group ultraviolet receiver (3) is arranged at the other opposite side of the detection cavity (2);

the contrast cavity (6) is arranged below the detection cavity (2) and is isolated from the detection cavity (2), the second light source (7) is arranged on one side of the contrast cavity (6), and the contrast group ultraviolet receiver (5) is arranged on the other opposite side of the contrast cavity (6).

7. The container according to any one of claims 1 to 6, wherein: the body (8) is provided with a display screen (9) which is connected with the circuit board (4) and used for displaying the content of organic matters in the liquid in the inner cavity.