CN107031968B

CN107031968B - Pollutant detection water bottle with filter and monitoring function

Info

Publication number: CN107031968B
Application number: CN201611248181.5A
Authority: CN
Inventors: 陈刚; 李智强
Original assignee: Shenzhen Yimu Technology Co ltd
Current assignee: Shenzhen Yimu Technology Co ltd
Priority date: 2016-09-02
Filing date: 2016-12-29
Publication date: 2021-06-25
Anticipated expiration: 2036-12-29
Also published as: CN107031968A

Abstract

The invention relates to the field of intelligent water bottles, in particular to a pollutant detection water bottle with a filter and a monitoring function. Including body and base, be provided with the sample room in the base, the water of pouring into in the bottle is collected to the sample room, its characterized in that: the device also comprises a pollutant detection device; a wireless controller; and a receiving and display device; the contaminant detection means for detecting the level of water contaminants in the sample chamber; the wireless controller is used for sending and receiving data; the receiving and displaying device is connected with the wireless controller and receives and displays the related information from the intelligent drinking bottle.

Description

Pollutant detection water bottle with filter and monitoring function

Technical Field

The invention relates to the field of intelligent water bottles, in particular to a pollutant detection water bottle with a filter and a monitoring function.

Background

People's life and life can not be boiled, and drinking bottles are the most common articles for people's life. Everyday drinking water bottles are generally used only for containing drinking water and have no other function. However, with the improvement of living standard and the development of technology, people also put more demands on the functions of the drinking water bottle.

China patent application publication No. 105942811A is named as an intelligent water bottle capable of monitoring water intake, relates to intelligent water bottle technical field, and it includes water bottle subassembly and the intelligent object who is used for monitoring water intake, the water bottle subassembly includes bottle end (1), body (2), bottle lid (3) and bottle (4), bottle end (1) is equipped with the electrical apparatus inner chamber, body (2) adopt non-metallic material to make, are equipped with the intermediate layer that is used for installing the sensor in body (2), and body (2) are installed on bottle end (1), bottle lid (3) are twisted soon on body (2), are equipped with touch-sensitive switch mounting groove and display screen mounting groove on bottle (4).

However, the above prior art has the technical problems that: the function is single, and only the function of monitoring the water intake is provided; lack of good reminder or interaction functions, etc.

Disclosure of Invention

The technical problem to be solved by the invention is as follows:

1. the intelligent drinking bottle solves the problem of single function of the intelligent drinking bottle in the prior art, and has multiple functions of filtering, reminding and the like;

2. the problem of unable monitoring water quality among the prior art is solved.

The technical scheme of the invention is as follows:

the utility model provides a pollutant detection water-jug with filter and monitoring function, includes body and base, be provided with the sample room in the base, the water of pouring into the bottle is collected to the sample room, its characterized in that:

the device also comprises a pollutant detection device;

a wireless controller;

and a receiving and display device;

the contaminant detection means for detecting the level of water contaminants in the sample chamber; the wireless controller is used for sending and receiving data; the receiving and displaying device is connected with the wireless controller and receives and displays the related information from the intelligent drinking bottle.

Further, the contaminant detection means is one or more optical sensors that measure the degree of absorption of UV254 or wavelengths from 200nm to 300nm in the water and determine the TOC, light passing through the vessel by an LED low power light source.

Further, the sample chamber is a quartz container.

Further, the pollutant detection device further comprises various receivers such as a photoelectric sensor, a temperature probe and/or an electrode, and other pollutant information is collected.

Further, the pollutant detecting device further comprises a gyroscope; when it is determined from the gyroscope signal that the body is being gently shaken, the sensor and measurement circuitry in the detection device are activated.

Further, the wireless controller is a bluetooth controller or other wireless modes.

Further, the receiving and displaying device is a mobile bracelet that can be attached to the bottle body or worn by the user.

Furthermore, drinking water bottle and bracelet adopt wireless charging panel to charge.

The utility model provides a pollutant detection water-jug with filter and monitor function which characterized in that:

also comprises a filter;

the filter is a 360-degree one-way filter, fills the cross section of the container, and removes impurities in water when the filter is rotated.

Further, the filter is connected to a central shaft of the bottle body, and the central shaft is connected to the base; the base is knob type, and the rotation of the filter can be completed by rotating the base.

Further, the filter comprises carbon fibers, ion exchange fibers and nanofiber membranes, which together remove pesticides, chlorine, drugs, petroleum, heavy metals, bacteria and cysts.

Furthermore, the central shaft of the filter is further connected with a cam shaft, a rotary optical wedge and a piston; when the filter is running, the rotation of the central shaft causes the cam shaft to move the rotary wedge, which in turn operates the piston, which forces the water up and out of the sample chamber, ensuring that the filtered water will be tested when the contamination detector is subsequently activated.

the device also comprises a pollutant detection device;

a wireless controller;

and a receiving and display device;

The receiving and displaying device is a mobile bracelet that can be attached to the bottle body or worn by the user.

Also comprises a filter;

Further, the information or notification that the bracelet may display includes water contamination level, filter reset, water consumption, and any typical information about other functionality.

Further, the bracelet contains one or more motion sensors, including accelerometers, gyroscopes, and altimeters, that measure the user's physical activity and display information or notifications related to the user's physical activity and remind the user to drink water while physically active.

Further, a cellphone application is included, said application receiving data from a wireless receiver on the monitoring device and relating to said water bottle, the application processing the data and displaying information relating to the water bottle including any typical information relating to pollution level, filter status, water consumption or other functionality.

The invention has the beneficial effects that:

1. the pollutant detection device can realize the detection of various pollutant information, has high accuracy and realizes low power consumption and energy conservation.

2. The mobile bracelet can be worn conveniently by a user, relevant information can be mastered in real time, and functions such as good reminding or interaction and the like are realized through the wireless module.

3. The drinking bottle and the bracelet adopt a wireless charging panel for charging or other charging modes, and are simple and convenient to carry.

4. The filter of the present invention can help remove pesticides, chlorine, drugs, petroleum, heavy metals, bacteria, cysts, and the like. Any type of filter currently available may be incorporated into the device. The water quality is safe and pollution-free.

5. The mobile phone application program can facilitate the user to master all information in real time and is associated with the self condition of the user, thereby realizing intelligent reminding and warning and the like.

Drawings

Fig. 1 is a schematic overall appearance of the present invention.

Fig. 2 is a partial structural schematic diagram of the present invention.

Fig. 3 is an exploded view of the present invention.

FIG. 4 is a schematic view of a partial structure of the present invention.

The device comprises a bottle body, a base, a sample chamber, a 4-integrated circuit, a gyroscope, a 5-moving bracelet, a 6-filter, a 7-central shaft, an 8-cam shaft, a 9-rotating optical wedge, a 10-piston, a 11-knob base and a 12-LED light source.

Detailed Description

The following further describes the embodiments of the present invention with reference to the attached drawings.

Fig. 1 is a schematic overall appearance of the present invention.

A sample chamber in the base will collect water poured into the vial, and one or more optical sensors are used to determine contaminant levels, such as Total Organic Carbon (TOC), Total Dissolved Solids (TDS), turbidity, and temperature. After the water is stabilized (e.g., its turbulence reduced) by the sample chamber, the low power photometric sensor can perform accurate measurements. Given that the amount of UV254 absorbed in water is proportional to the amount of TOC dissolved, TOC can be determined by correlation of the degree of UV254 (or wavelength of 200nm to 300 nm) absorption. In particular: the sample chamber is a quartz container to facilitate the transmission of UV 254. Light is transmitted through the container by a low power consumption light source such as an LED.

It is further noted that other contaminant information may be collected using various receivers such as photosensors, temperature probes, and/or electrodes. For example, absorption of IR (infrared) is closely related to turbidity; conductivity can be measured by the electrical resistance between two electrodes in the sample chamber, which in turn can be used to determine TDS levels. The use of temperature probes can improve the data, for example to account for distortions that occur due to temperature fluctuations.

As shown in fig. 2, the active circuitry may determine sensor, probe, and/or temperature data. The sensor and measurement circuitry will be activated when the gyroscope signal indicates that the body is being shaken gently. The aforementioned water stabilization device, low power consumption sensor and LED, efficient circuit design and efficient energy usage, result in lower device power consumption. The integrated circuit also contains a bluetooth (or other wireless) controller for sending and receiving data. Figure 2 depicts a possible arrangement of sample chambers, LEDs, sensors and integrated circuits. Circuit designs having specific functions may be readily provided by those skilled in the art and are not limited to those described.

Unlike existing TOC and other contaminant detectors used in large municipal water systems, the device is portable and rechargeable. In particular, the bottle is preferably charged by a wireless charging pad such as a magnetic resonance charger, but may be charged in any manner under the current state of the art.

Fig. 3 is an exploded view of the present invention. A 360 ° one-way filter in the bottle fills the cross-section of the container so that impurities in the water can be removed when the filter is rotated. As shown, the filter incorporates the length of the central shaft which is in turn connected to the base, so that rotation of the filter can be accomplished simply by rotating the base:

in particular, the filter comprises carbon fibers, ion exchange fibers, and nanofiber membranes that together aid in the removal of pesticides, chlorine, drugs, petroleum, heavy metals, bacteria, and cysts. Any type of filter currently available may be incorporated into the device.

As shown in FIG. 4, when the filter is running, the rotation of the shaft couples the camshaft to the rotary wedge, which in turn operates the piston, which forces water up and out of the sample chamber. This ensures that upon subsequent activation of the contamination detector, the filtered water will be tested. The following figures describe in detail how the automated sample chamber is evacuated.

As shown in fig. 1, a groove between the bases of the bottle is depicted, and a removable bracelet that can be used on both the body and the wrist of the user. The bracelet contains a display and a bluetooth (or other wireless) controller, can send to the water-jug and receive information from the water-jug. Thus, the information or notification (including vibration) that the bracelet may display, encompasses water contamination levels, filter resets, water consumption, and any other typical information that is easily designed by one of ordinary skill in the art and that is relevant to the functionality described herein. The bracelet may also be charged by magnetic resonance when attached to the body.

The bracelet may also contain one or more motion sensors that measure the user's physical activity, such as accelerometers, gyroscopes, and altimeters. Thus, the bracelet may display information or notifications (including vibrations) related to the user's physical activity and remind the user to drink water while physically active.

The invention also comprises an application program for remote monitoring equipment such as a smart phone. The application receives data from a wireless receiver on the monitoring device and the data is related to the water bottle. The application processes the data and displays information about the water bottle. For example, the application may display pollution levels, filter status, water consumption, or any other information that would be easily designed by one of ordinary skill in the art and that pertains to the functionality described herein.

Claims

1. The utility model provides a pollutant detection water-jug with filter and monitoring function, includes body and base, be provided with the sample room in the base, the water of pouring into the bottle is collected to the sample room, its characterized in that:

the device also comprises a pollutant detection device;

a wireless controller;

and a receiving and display device;

the contaminant detection means for detecting the level of water contaminants in the sample chamber; the wireless controller is used for sending and receiving data; the receiving and displaying device is connected with the wireless controller and is used for receiving and displaying relevant information from the pollutant detection water bottle;

also comprises a filter;

the filter is a 360-degree one-way filter, the cross section of the pollutant detection water bottle is filled, and impurities in water are removed when the filter is rotated; the filter is connected to the central shaft of the bottle body, and the central shaft is connected to the base; the base is of a knob type, and the filter can be rotated by rotating the base; the central shaft of the filter is further connected with a cam shaft, a rotary optical wedge and a piston; when the filter is running, the rotation of its central shaft causes the cam shaft to move the rotary wedge, which in turn operates the piston, which forces the water up and out of the sample chamber, ensuring that the filtered water will be tested when the contaminant detection means is subsequently activated.

2. A contaminant detection water bottle having a filter and a monitoring function according to claim 1, wherein:

the contaminant detection means is one or more optical sensors that measure the degree of absorption of UV254 or wavelengths from 200nm to 300nm in the water and determine TOC, light passing through the contaminant detection water bottle via an LED low power light source.

3. A contaminant detection water bottle having a filter and a monitoring function according to claim 2, wherein:

the sample chamber is a quartz container.

4. A contaminant detection water bottle having a filter and a monitoring function according to claim 1, wherein:

the contaminant detection means further comprises a photosensor, a temperature probe and/or an electrode.

5. A contaminant detection water bottle having a filter and a monitoring function according to claim 4, wherein:

the contaminant detection device further comprises a gyroscope; when it is determined from the gyroscope signal that the body is being shaken, the sensor and measurement circuitry in the contaminant detection device are activated.

6. A contaminant detection water bottle with a filter and a monitoring function according to any one of claims 1 to 5, wherein:

the wireless controller is a Bluetooth controller.

7. A contaminant detection water bottle with a filter and a monitoring function according to any one of claims 1 to 5, wherein: the receiving and displaying device is a mobile bracelet that can be attached to the bottle body or worn by the user.

8. A contaminant detection water bottle having a filter and a monitoring function according to claim 7, wherein: pollutant detection water-jug and bracelet adopt wireless charging panel to charge.

9. A contaminant detection water bottle having a filter and a monitoring function according to claim 1, wherein:

the filter comprises carbon fibers, ion exchange fibers and a nanofiber membrane, and jointly removes pesticides, chlorine, drugs, petroleum, heavy metals, bacteria and cysts.

10. The utility model provides a pollutant detection water-jug with filter and monitoring function, includes body and base, be provided with the sample room in the base, the water of pouring into the bottle is collected to the sample room, its characterized in that:

the device also comprises a pollutant detection device;

a wireless controller;

and a receiving and display device;

the receiving and displaying device is a mobile bracelet which can be connected to the bottle body or worn by a user;

also comprises a filter;

the filter is a 360-degree one-way filter, the cross section of the pollutant detection water bottle is filled, and impurities in water are removed when the filter is rotated; the filter is connected to the central shaft of the bottle body, and the central shaft of the filter is connected to the base; the base is of a knob type, and the filter can be rotated by rotating the base; the central shaft of the filter is further connected with a cam shaft, a rotary optical wedge and a piston; when the filter is running, the rotation of its central shaft causes the cam shaft to move the rotary wedge, which in turn operates the piston, which forces the water up and out of the sample chamber, ensuring that the filtered water will be tested when the contaminant detection means is subsequently activated.

11. A contaminant detection water bottle having a filter and a monitoring function according to claim 10, wherein:

the information or notification that the bracelet can show includes water pollution level, filter reset, water consumption.

12. A contaminant detection water bottle having a filter and a monitoring function according to claim 11, wherein:

the bracelet contains one or more motion sensors, including accelerometers, gyroscopes and altimeters, that measure the user's physical activity and display information or notifications related to the user's physical activity and remind the user to drink water while physically active.