CN111358300A - Drinking water monitoring system - Google Patents

Abstract

The invention discloses a drinking water monitoring system, which comprises a drinking water machine body, a bearing seat and a sensing device, wherein a water receiving barrel is embedded in the top of the drinking water machine body, the bearing seat is annularly arranged at the edge of the opening part of the water receiving barrel, the bearing seat is provided with a main control chip and a data uploading module, the sensing device is used for detecting whether barreled water exists on the drinking water machine body, the sensing device and the data uploading module are respectively electrically connected with the main control chip, and the sensing device transmits a detection signal to the main control chip and uploads the detection signal to a cloud platform through the data uploading module; the drinking water monitoring system detects the water changing action of the barreled water through the induction device, and counts the water changing frequency and water using condition of a client, so that the client is actively and uniformly supplied with water without waiting for calling, manpower and material resources are saved, and the cost is reduced; the traditional passive water changing and passive service mode is switched into the active water changing and active service operation mode, so that the water dispenser can keep water for a long time, and the service quality and the customer experience are improved.

Description

Drinking water monitoring system

Technical Field

The invention particularly relates to a drinking water monitoring system.

Background

The water dispenser becomes an essential part in modern life, and the use amount of public places such as office buildings, organs, enterprise units, factories and the like in cities is quite large. The water changing mode of the current water dispenser is that a user drinks a barrel of water and manually calls to inform a water supplier to change the water. The traditional operation mode firstly causes the water dispenser to lack water for a long time to bring inconvenience to life; secondly, the water changing worker needs to increase a large amount of time to patrol the water using state of the water dispenser, and according to statistics, the water changing time is almost equal to the patrol time, which is equivalent to two workers needed for water changing once, so that the labor cost is greatly increased; in addition, the problem of poor user experience can be caused by the fact that the water dispenser is in a water shortage state for a long time due to the fact that water is not changed timely.

Therefore, there is a particular need for a drinking water monitoring system that addresses the problems of the prior art.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a drinking water monitoring system which can save manpower and material resources, reduce cost and improve service quality and customer experience.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the drinking water monitoring system comprises a water dispenser body and a bearing seat, wherein a water receiving barrel is embedded in the top of the water dispenser body, the bearing seat is annularly arranged at the edge of the opening of the water receiving barrel and is provided with a main control chip and a data uploading module, an induction device is arranged on the bearing seat on the water dispenser body and is used for detecting whether barreled water exists on the water dispenser body, the induction device and the data uploading module are respectively electrically connected with the main control chip, and the induction device transmits a detection signal to the main control chip and transmits the detection signal to a cloud platform through the data uploading module.

In order to further realize the invention, the sensing device is a mechanical pressure switch, and the mechanical pressure switch is arranged on the inner side surface of the bearing seat.

In order to further realize the invention, the sensing device is a gravity sensor which is arranged at the bottom of the bearing seat.

In order to further implement the present invention, the sensing device is an ultrasonic sensor, and a probe of the ultrasonic sensor faces the barreled water.

In order to further realize the invention, the sensing device is an infrared emission sensor and an infrared receiving sensor, and a straight line where a generating end of the infrared emission sensor and a receiving end of the infrared receiving sensor are located penetrates through the barreled water.

In order to further realize the invention, the sensing device is an image recognition camera, and a probe of the image recognition camera faces the barreled water.

In order to further implement the present invention, the data uploading module employs a WiFi module.

In order to further realize the invention, the data uploading module adopts an NB-IOT module.

In order to further realize the invention, the data uploading module adopts a Bluetooth module.

Advantageous effects

According to the invention, the water changing action of the barreled water is detected by the sensing device, and the water changing frequency and the water using condition of the client are counted, so that the client is initiatively and uniformly supplied with water without waiting for calling, manpower and material resources are saved, and the cost is reduced; the traditional passive water changing and passive service mode is switched into the active water changing and active service operation mode, so that the water dispenser can keep water for a long time, and the service quality and the customer experience are improved.

Drawings

FIG. 1 is a schematic diagram of a drinking water monitoring system according to a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a drinking water monitoring system according to a second embodiment of the present invention;

FIG. 3 is a schematic diagram of a drinking water monitoring system according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a drinking water monitoring system according to a fourth embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a drinking water monitoring system according to an embodiment of the present invention;

fig. 6 is a schematic connection diagram of the drinking water monitoring system of the present invention.

Description of reference numerals:

1. a water dispenser body; 11. a water receiving barrel; 2. a bearing seat; 3. a main control chip; 4. a data uploading module; 5. a mechanical pressure switch; 6. a gravity sensor; 7. an ultrasonic sensor; 8. an infrared emission sensor; 9. an infrared receiving sensor; 10. and an image recognition camera.

Detailed Description

The invention will be described in further detail below with reference to the accompanying drawings, which are simplified schematic drawings and illustrate only the basic structure of the invention in a schematic manner.

Example one

As shown in fig. 1 and 6, the drinking water monitoring system of the present invention includes a water dispenser body 1 and a socket 2, wherein:

water dispenser body 1 top is inlayed and is equipped with water receiving bucket 11, 11 oral area edges of water receiving bucket are located to accept 2 rings of seat, it is provided with main control chip 3 to accept seat 2, data upload module 4 and mechanical pressure switch 5 respectively with main control chip 3 electric connection, mechanical pressure switch 5 sets up in accepting 2 medial surfaces of seat, be used for surveying there is no bottled water on the water dispenser body, when bottled water places on the water dispenser body, it can touch mechanical pressure switch, when bottled water takes out, mechanical pressure switch release, thereby form once trade the water frequency and survey.

The data uploading module 4 may upload data by using a WiFi module, an NB-IOT module, or a bluetooth module.

The main control chip 3 is HH-N05S, HH-N20S, HH-N40S, HH-DA10D, MT8516, etc., it should be noted that the main control chip is not a main inventive point of the present application, as long as the main control chip can realize the functions of the working conditions such as data transmission, etc., the type of the main control chip can be selected by the conventional person skilled in the art, and the details are not described herein.

During the use, mechanical pressure switch can detect this operation when the customer trades water, and mechanical pressure switch is with signal transmission to main control chip this moment, then uploads the cloud platform through data upload module with data, and the cloud platform inserts backstage management system and carries out record and control to above-mentioned data to can count customer and trade water frequency, water use condition.

Example two

As shown in fig. 2 and 6, the drinking water monitoring system of the present invention includes a water dispenser body 1 and a socket 2, wherein:

water dispenser body 1 top is inlayed and is equipped with water receiving bucket 11, 11 oral area edges of water receiving bucket are located to accept 2 rings of seat, it is provided with main control chip 3 to accept seat 2, data upload module 4 and gravity sensor 6 respectively with 3 electric connection of main control chip, gravity sensor 6 sets up in accepting 2 bottoms of seat, be used for surveying whether barreled water has on the water dispenser body, when the barreled water is placed on the water dispenser body, pressure signal can be sensed to gravity sensor 6, when the barreled water is taken out, pressure signal can't be sensed to gravity sensor 6, thereby it surveys to form water frequency once trades.

The data uploading module 4 may upload data by using a WiFi module, an NB-IOT module, or a bluetooth module.

The main control chip 3 is HH-N05S, HH-N20S, HH-N40S, HH-DA10D, MT8516, etc., it should be noted that the main control chip is not a main inventive point of the present application, as long as the main control chip can realize the functions of the working conditions such as data transmission, etc., the type of the main control chip can be selected by the conventional person skilled in the art, and the details are not described herein.

During the use, this operation can be detected to gravity sensor when the customer trades water, and gravity sensor is with signal transmission to main control chip this moment, then uploads the cloud platform through data upload module with data, and the cloud platform inserts backstage management system and records and control above-mentioned data to can count customer and trade water frequency, water use condition.

EXAMPLE III

As shown in fig. 3 and 6, the drinking water monitoring system of the present invention includes a water dispenser body 1 and a socket 2, wherein:

the top of the water dispenser body 1 is embedded with a water receiving barrel 11, the receiving seat 2 is annularly arranged at the edge of the opening part of the water receiving barrel 11, and the receiving seat 2 is provided with a main control chip 3 and a data uploading module 4.

The water dispenser is characterized by also comprising an ultrasonic sensor, wherein a probe of the ultrasonic sensor faces the barreled water and is used for detecting whether the barreled water exists on the water dispenser body, and specifically, the ultrasonic sensor is arranged on the top surface of the water dispenser body; of course, the ultrasonic sensor can also be arranged on the periphery (wall surface, cabinet and the like) of the water dispenser body, and the probe of the ultrasonic sensor faces the barreled water.

Data upload module 4 and ultrasonic sensor 7 respectively with main control chip 3 electric connection, when the bottled water was placed on the water dispenser body, ultrasonic signal can be received to ultrasonic sensor 7's receiver, when the bottled water was taken away, ultrasonic signal can't be received to ultrasonic sensor 7's receiver to form and once trade the water frequency and survey.

The data uploading module 4 may upload data by using a WiFi module, an NB-IOT module, or a bluetooth module.

The main control chip 3 is HH-N05S, HH-N20S, HH-N40S, HH-DA10D, MT8516, etc., it should be noted that the main control chip is not a main inventive point of the present application, as long as the main control chip can realize the functions of the working conditions such as data transmission, etc., the type of the main control chip can be selected by the conventional person skilled in the art, and the details are not described herein.

During the use, ultrasonic sensor can detect this operation when the customer trades water, and ultrasonic sensor sends signal to main control chip this moment, then uploads the cloud platform through data upload module with data, and the cloud platform inserts backstage management system and records and control above-mentioned data to can count customer and trade water frequency, water use condition.

Example four

As shown in fig. 4 and 6, the drinking water monitoring system of the present invention includes a water dispenser body 1 and a socket 2, wherein:

the top of the water dispenser body 1 is embedded with a water receiving barrel 11, the bearing seat 2 is annularly arranged at the edge of the opening part of the water receiving barrel 11, the bearing seat 2 is provided with a main control chip 3 and a data uploading module 4,

the water dispenser is further provided with an infrared transmitting sensor 8 and an infrared receiving sensor 9, a straight line where a generating end of the infrared transmitting sensor 8 and a receiving end of the infrared receiving sensor 9 are located penetrates through the barreled water and is used for detecting whether the barreled water exists on the water dispenser body 1, and specifically, the infrared transmitting sensor 8 and the infrared receiving sensor 9 are installed on the opposite inner side surfaces of the bearing seats 2; certainly, the infrared emission sensor 8 and the infrared receiving sensor 9 can also be arranged on the top surface of the water dispenser body and positioned at the two sides of the barreled water; of course, the infrared emission sensor 8 and the infrared receiving sensor 9 may also be mounted on the surroundings (wall surface, cabinet, etc.) of the water dispenser body, so that the straight line where the generation end of the infrared emission sensor 8 and the receiving end of the infrared receiving sensor 9 are located passes through the barreled water.

Data upload module 4, infrared emission sensor 8 and infrared receiving sensor 9 respectively with main control chip 3 electric connection, when the bottled water was placed on the water dispenser body, infrared receiving sensor 9 can't receive infrared signal, when the bottled water was taken away, infrared receiving sensor 9 can receive infrared signal to form once trade the water frequency and survey.

The data uploading module 4 may upload data by using a WiFi module, an NB-IOT module, or a bluetooth module.

The main control chip 3 is HH-N05S, HH-N20S, HH-N40S, HH-DA10D, MT8516, etc., it should be noted that the main control chip is not a main inventive point of the present application, as long as the main control chip can realize the functions of the working conditions such as data transmission, etc., the type of the main control chip can be selected by the conventional person skilled in the art, and the details are not described herein.

During the use, the infrared receiving sensor of water changing of the customer can detect the operation, and at the moment, the infrared receiving sensor sends a signal to the main control chip, and then uploads the data to the cloud platform through the data uploading module, and the cloud platform is accessed to the background management system to record and monitor the data, so that the water changing frequency and the water using condition of the customer can be counted.

EXAMPLE five

As shown in fig. 5 and 6, the drinking water monitoring system of the present invention includes a water dispenser body 1 and a socket 2, wherein:

the top of the water dispenser body 1 is embedded with a water receiving barrel 11, the bearing seat 2 is annularly arranged at the edge of the opening part of the water receiving barrel 11, the bearing seat 2 is provided with a main control chip 3 and a data uploading module 4,

the water dispenser is also provided with an image recognition camera 10, a probe of the image recognition camera 10 faces the barreled water and is used for detecting whether the barreled water exists on the water dispenser body, and particularly, the image recognition camera 10 is installed on the top surface of the water dispenser body 1; of course, the image recognition camera 10 may also be mounted on the surroundings (wall surface, cabinet, etc.) of the water dispenser body 1, so that the probe of the image recognition camera 10 faces the barreled water.

Data upload module 4, image recognition camera 10, respectively with main control chip 3 electric connection, when bottled water places on water dispenser body 1 or when taking away, image recognition camera 10 all can detect image signal to form once trade water frequency and detect.

The data uploading module 4 may upload data by using a WiFi module, an NB-IOT module, or a bluetooth module.

The main control chip 3 is HH-N05S, HH-N20S, HH-N40S, HH-DA10D, MT8516, etc., it should be noted that the main control chip is not a main inventive point of the present application, as long as the main control chip can realize the functions of the working conditions such as data transmission, etc., the type of the main control chip can be selected by the conventional person skilled in the art, and the details are not described herein.

During the use, this operation can be detected to the image recognition camera when the customer trades water, and this moment image recognition camera is with signal transmission to main control chip, then uploads the cloud platform through data upload module with data, and the cloud platform inserts backstage management system and records and control above-mentioned data to can count customer and trade water frequency, water use condition.

According to the invention, the water changing action of the barreled water is detected by the sensing device, and the water changing frequency and the water using condition of the client are counted, so that the client is initiatively and uniformly supplied with water without waiting for calling, manpower and material resources are saved, and the cost is reduced; the traditional passive water changing and passive service mode is switched into the active water changing and active service operation mode, so that the water dispenser can keep water for a long time, and the service quality and the customer experience are improved.

The above description is only a preferred embodiment of the present invention, the present invention is not limited to the above embodiment, and there may be some slight structural changes in the implementation, and if there are various changes or modifications to the present invention without departing from the spirit and scope of the present invention, and within the claims and equivalent technical scope of the present invention, the present invention is also intended to include those changes and modifications.

Claims (9)

1. A drinking water monitoring system comprises a drinking water machine body, wherein a water receiving barrel is embedded in the top of the drinking water machine body, and the drinking water monitoring system is characterized by further comprising a bearing seat, wherein the bearing seat is annularly arranged at the edge of the opening of the water receiving barrel, and is provided with a main control chip and a data uploading module;

the water dispenser also comprises a sensing device for detecting whether the water dispenser body is filled with barreled water or not, and the sensing device and the data uploading module are respectively and electrically connected with the main control chip;

the sensing device transmits the detection signal to the main control chip and uploads the detection signal to the cloud platform through the data uploading module.

2. The drinking water monitoring system according to claim 1, wherein the sensing device is a mechanical pressure switch disposed on an inner side of the socket.

3. The drinking water monitoring system of claim 1, wherein the sensing device is a gravity sensor disposed at a bottom of the receptacle.

4. The potable water monitoring system of claim 1, wherein the sensing device is an ultrasonic sensor having a probe facing the bottled water.

5. The drinking water monitoring system according to claim 1, wherein the sensing device is an infrared emission sensor and an infrared receiving sensor, and a straight line between a generation end of the infrared emission sensor and a receiving end of the infrared receiving sensor passes through the barreled water.

6. The potable water monitoring system of claim 1, wherein the sensing device is an image recognition camera, a probe of the image recognition camera facing the bottled water.

7. The potable water monitoring system of claim 1, wherein the data upload module employs a WiFi module.

8. The potable water monitoring system of claim 1, wherein the data upload module employs an NB-IOT module.

9. The potable water monitoring system of claim 1, wherein the data upload module is a bluetooth module.

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