CN218484259U - Intelligent water cup with water quality detection function - Google Patents

Abstract

The utility model discloses a take intelligent drinking cup of water quality testing function, including the bowl cover assembly, cup and bottom of cup assembly, the bowl cover assembly, cup and bottom of cup assembly set up to the syllogic, and threaded connection in proper order, the bottom of cup assembly includes the module support, the TDS electrode, temperature sensitive resistor, first mount pad, detector PCBA, light source PCBA, second mount pad and mainboard, be provided with the concave groove on the module support, and be provided with two coaxial through-holes on the lateral wall of concave groove, the TDS electrode, temperature sensitive resistor installs respectively in the concave groove of module support, first mount pad, detector PCBA installs in the through-hole of one side of module support, light source PCBA and second mount pad are installed in the through-hole of the opposite side of module support. The utility model utilizes the spectrum analysis technology to detect the COD value and the TDS value of the water body, and can more comprehensively reflect the water body quality; the temperature compensation function is designed aiming at the sensitivity of TDS and COD values to temperature change, and the real data can be accurately measured.

Description

Intelligent water cup with water quality detection function

Technical Field

The utility model relates to an intelligence drinking cup technical field specifically is a take intelligent drinking cup of water quality testing function.

Background

Along with the continuous improvement of living standard of people, the requirements on high-quality living quality and healthy drinking water are higher and higher. However, in the drinking water of life, the water supply and the pipeline pollution of the water purifier are directly carried out in a water factory, various factors can cause secondary pollution to barreled water, and people can not judge whether the water quality is abnormal or not in the drinking water process, so that the development of the intelligent water cup capable of conveniently detecting the water quality is very important.

Most of intelligent water cups with water quality detection functions in the current market can only detect the TDS value of water by using a method of measuring conductivity by using electrodes, the higher the TDS value is, the more impurities are contained in the water, the impurities usually refer to the concentrations of Ca < 2+ >, mg < 2+ >, na < + >, K < + > and the like in the water, and the water quality cannot be directly represented. High TDS (over 600, etc.) does indicate poor water quality, but the lower the TDS, the better the quality of water, so it is impossible to determine whether the quality of water is good or bad simply from the TDS value. There are 106 indexes for water quality detection in national standard, wherein more than 30 indexes are related to organic pollution of water body. Application number CN 201520936846.6's utility model discloses an intelligent drinking cup of detectable quality of water, its intelligence detects the water TDS value, and unable accuracy judges that quality of water is good bad. Meanwhile, the structural design is inconvenient for cleaning the probe of the cup body, and the detection accuracy is influenced after long-time use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a take intelligent drinking cup of water quality testing function, when detecting the water TDS parameter, increase and utilize the spectral analysis technique to the detection of water COD, more can accurately detect and judge that quality of water is good or bad, also optimize on cup structural design simultaneously for it is more convenient to wash and maintain, with the problem of proposing in solving above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a take water quality testing function's intelligent drinking cup, includes bowl cover assembly, cup and bottom of cup assembly, bowl cover assembly, cup and bottom of cup assembly set up to the syllogic, and threaded connection in proper order, bowl cover assembly includes bowl cover and first sealed pad, first sealed pad sets up in the bowl cover, the bottom of cup assembly includes module support, TDS electrode, temperature sensitive resistance, first mount pad, detector PCBA, light source PCBA, second mount pad and mainboard, be provided with the concave groove on the module support, and be provided with two coaxial through-holes on the lateral wall of concave groove, TDS electrode, temperature sensitive resistance are installed respectively in the concave groove of module support, first mount pad, detector A install in the one side through-hole of module support, light source PCBA and second mount pad are installed in the opposite side through-hole of module support, the mainboard is fixed in the module support below.

Preferably, the second mount pad outside is provided with light source PCBA, light source PCBA installs on module support, the first mount pad outside is provided with detector PCBA, be provided with the quartz sphere in the second mount pad, the luminous process quartz sphere of light source assembles the back and launches on detector PCBA.

Preferably, window sheets are arranged at one ends, close to the concave grooves, in the two through holes of the module support, and first sealing rings are arranged on contact surfaces of the window sheets and the through holes of the module support.

Preferably, the mainboard is provided with a USB charging port and an induction button.

Preferably, a second sealing ring is arranged between the module support and the bottom shell assembly, and a second sealing gasket is arranged between the cup bottom assembly and the cup body.

Preferably, the bottom shell assembly comprises a lithium battery, a bottom shell, a bottom cover and a display screen, the lithium battery is arranged below the mainboard, the bottom shell is provided with a key, the display screen and the window are arranged on the bottom shell, the bottom cover is arranged on the bottom shell, and the bottom cover is further provided with an anti-slip pad.

Preferably, the mainboard is connected with light source PCBA, detector PCBA with the wire, the mainboard is used for the power supply with the wire connection with the lithium cell, the mainboard is connected with the display screen and is used for showing measured data, the mainboard connection has the response button, and is located the back of button on the drain pan, mainboard and TDS electrode, temperature sensitive resistance connection.

The utility model has the advantages as follows: the utility model utilizes the spectrum analysis technology to detect the COD value and the TDS value of the water body, and can more comprehensively reflect the water body quality;

aiming at the sensitivity of TDS and COD values to temperature change, a temperature compensation function is designed, and real data can be accurately measured;

the modular design is adopted to detect the chamber, so that the disassembly, assembly, cleaning and maintenance are facilitated.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is an exploded view of the overall mechanism of the present invention;

fig. 2 is a cross-sectional view of the present invention.

Reference numerals of the above figures: 100-a cup cover assembly, 101-a cup cover, 102-a first sealing gasket, 200-a cup body, 300-a cup bottom assembly, 3010-a measuring module assembly, 30110-a module support, 3012-a first sealing ring, 3013-a window sheet, 3014-a first mounting seat, 3015-a detector PCBA, 3016-a light source PCBA, 3017-a second mounting seat, 3018-a quartz ball, 3020-a main board, 303-a second sealing ring, 304-a lithium battery, 3050-a bottom shell assembly, 3051-a second sealing gasket, 3052-a bottom shell 3053-a key, 5-an anti-slip pad, 3056-a display screen and 3057-a window.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1, an intelligent water cup with a water quality detection function includes a cup lid assembly 100, a cup body 200 and a cup bottom assembly 300, which are designed in a three-section manner and are connected with each other by threads, the cup lid assembly 100 includes a cup lid 101 and a first sealing gasket 102, the first sealing gasket 102 is used for sealing the cup lid assembly 100 and the cup body 200, a tds electrode 30111 and a temperature sensitive resistor 30112 are respectively mounted on a module support 30110, two sets of first sealing rings 3012 and window pieces 3013 are mounted on two sides of the module support 30110, a first mounting seat 3014, a detector PCBA3015 and a light source PCBA3016, a second mounting seat 3017 is respectively mounted on two sides of the module support 30110, a main board 3020 is fixed on the module support 30110, a USB charging port 3021 and an induction button 3022 are provided on the main board 3020, the second sealing ring 303 is used for sealing the module support 30110 and the bottom assembly 3050, a lithium battery 304 is mounted on the bottom case assembly 3050, the second sealing gasket 3051 is used for sealing the bottom assembly 300 and the bottom cover 3054, and the bottom cover 3054 is mounted on the bottom cover 3052, and the bottom cover 3054 is mounted on the bottom cover 3054 and the bottom cover assembly.

Referring to fig. 2, a pair of first sealing rings 3012 and a pair of window pieces 3013 are respectively installed on two sides of a module support 30110 for waterproof and light transmission, a light source PCBA3016 is installed on one side of the module support 30110, a detector PCBA3015 is installed on the other side of the module 30110, light emitted from the light source is collected by a quartz ball 3018 and emitted to the detector PCBA3015 for detection, a main board 3020 is connected to the light source PCBA3016 and the detector PCBA3015 by wires for data transmission, and connected to a lithium battery 304 by wires for power supply, and connected to a display 3056 for displaying measurement data, a sensing button 3022 of the main board 3020 is located behind a button 3053 on the bottom case 3052 for realizing a switch function by touch sensing, the button can control the main board to perform corresponding operation according to a touch sensing duration, the button is used for measurement about 1 second, calibration about 10 seconds by touch, and can be set according to different functional requirements, the main board 3020 is connected to a TDS electrode 30111, a resistor 30112 by wires for collecting TDS signals and temperature data, a USB port 3021 on the main board 3020 for charging data, and for water quality analysis and temperature-sensitive data transmission, and for checking water quality analysis and temperature-sensitive data transmission on the water cup 3057.

The working principle is as follows: after water enters a water cup, a touch key 3053 is arranged, after a model is sensed by a sensing button 3022, a mainboard 3020 drives a light source PCBA3016, light is focused by a quartz ball 3018 and then passes through a window 3013, water is stored in a cavity, after the water absorbs a part of the light, the light passes through another side window 3013 and irradiates on a detector PCBA3015, the detector PCBA3015 transmits the signal to the mainboard 3020 after receiving the signal, the mainboard 3020 processes data according to a set algorithm model to obtain a COD value, the data is transmitted to a display screen 3056 for display, the TDS electrode 30111 consists of 2 stainless steel electrode rods, receives a current signal transmitted by the mainboard 3020, the current signal reaches another electrode rod from one stainless steel electrode rod through water flow, the data is transmitted to the mainboard 3020, the mainboard 3020 calculates a value according to attenuation after the current flows through the water flow, the value is transmitted to the display screen 3056 for display, after the water enters the water contacts the resistor 30212, the resistor 30212 is different temperatures, the resistor 3020 changes, the resistor 30112 receives the temperature-sensitive value after the temperature change through the resistor 30112, the temperature-sensitive resistor 30112 is processed and the temperature-sensitive data is displayed on the mobile phone, the display screen, the temperature-sensitive display function display screen displaying data of the mobile phone, the mobile phone can be displayed by the temperature-sensitive mobile phone, the temperature-sensitive mobile phone.

Example 2:

referring to fig. 1, the cup bottom assembly 300 is used as a cup cover, can be directly used as a water quality detection module, is applied to different water cups (the connecting thread between the cup cover and the cup body is changed), and is inverted when being used, and other operation methods and functions are the same as those of the first embodiment.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the content of the present invention within the protection scope of the present invention.

Claims (7)

1. The utility model provides a take intelligent drinking cup of water quality testing function, includes bowl cover assembly (100), cup (200) and bottom of cup assembly (300), its characterized in that, bowl cover assembly (100), cup (200) and bottom of cup assembly (300) set up to the syllogic, and threaded connection in proper order, bowl cover assembly (100) include bowl cover (101) and first sealed pad (102), first sealed pad (102) set up in bowl cover (101), bottom of cup assembly (300) include module support (30110), TDS electrode (30111), temperature sensitive resistor (30112), first mount pad (3014), detector PCBA (3015), light source PCBA (3016), second mount pad (3017) and mainboard (3020), be provided with the concave groove on module support (30110), and be provided with two coaxial through-holes on the lateral wall of concave groove, TDS electrode (30111), resistor (30112) are installed respectively in the concave groove of module support (30110), install in temperature sensitive module support (3014), temperature sensitive module support (3015) and install in the concave groove of module support (30110) one side, the module support (30110) and the second through-hole (30110) and install in the second through-hole (30110) and module (30110).

2. The intelligent water cup with the water quality detection function according to claim 1, characterized in that: second mount pad (3017) outside is provided with light source PCBA (3016), install on module support (30110) light source PCBA (3016), first mount pad (3014) outside is provided with detector PCBA (3015), be provided with quartz sphere (3018) in second mount pad (3017), the luminous process quartz sphere (3018) of light source is assembled the back and is launched on detector PCBA (3015).

3. The intelligent water cup with the water quality detection function according to claim 1, characterized in that: and window sheets (3013) are arranged at one ends, close to the concave grooves, in the two through holes of the module support (30110), and first sealing rings (3012) are arranged on the contact surfaces of the window sheets (3013) and the through holes of the module support (30110).

4. The intelligent water cup with the water quality detection function according to claim 1, characterized in that: the mainboard (3020) is provided with a USB charging port (3021) and an induction button (3022).

5. The intelligent water cup with the water quality detection function according to claim 1, characterized in that: a second sealing ring (303) is arranged between the module support (30110) and the bottom shell assembly (3050), and a second sealing gasket (3051) is arranged between the cup bottom assembly (300) and the cup body (200).

6. The intelligent water cup with the water quality detection function according to claim 5, characterized in that: bottom shell assembly (3050) includes lithium cell (304), drain pan (3052), bottom cap (3054), display screen (3056), lithium cell (304) set up in mainboard (3020) below, install button (3053) on drain pan (3052), install on drain pan (3052) display screen (3056), window (3057), install on drain pan (3052) bottom cap (3054) is installed on drain pan (3052), still install slipmat (3055) on bottom cap (3054).

7. The intelligent water cup with the water quality detection function according to claim 1, characterized in that: mainboard (3020) and light source PCBA (3016), detector PCBA (3015) are connected with the wire, mainboard (3020) and lithium cell (304) are used for the power supply with wire connection, mainboard (3020) are connected with display screen (3056) and are used for showing measured data, mainboard (3020) are connected with response button (3022), and are located the back of button (3053) on drain pan (3052), mainboard (3020) are connected with TDS electrode (30111), temperature sensitive resistor (30112).

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