WO2018090399A1

WO2018090399A1 - Internet of things based intelligent liquid extractor system and liquid extracting method

Info

Publication number: WO2018090399A1
Application number: PCT/CN2016/107691
Authority: WO
Inventors: 钮云超
Original assignee: 今日天鸿（天津）医疗卫生科技有限公司
Priority date: 2016-11-21
Filing date: 2016-11-29
Publication date: 2018-05-24
Also published as: DE212016000286U1

Abstract

Disclosed are an Internet of Things based intelligent liquid extractor system and a liquid extracting method. The intelligent liquid extractor system comprises a plurality of intelligent liquid extractors (2), a plurality of mobile chip cards (5) and an area authorization configurator (6), wherein the intelligent liquid extractors (2) are used for driving and extruding liquid outlet nozzles of disinfectant containers (10); the mobile chip cards (5) have unique coded data, and the coded data is read by the intelligent liquid extractors (2) once every time the mobile chip cards enter card communication ranges of the intelligent liquid extractors (2); if the intelligent liquid extractors (2) receive coded signals and have driven and extruded the liquid outlet nozzles of the disinfectant containers (10), a signal indicating that liquid has been extracted is generated, and if the intelligent liquid extractors (2) receive the coded data but do not drive and extrude the liquid outlet nozzles of the disinfectant containers (10), a signal indicating that the liquid is not extracted is generated; the intelligent liquid extractors (2) send, to the corresponding mobile chip cards (5), the signal indicating that the liquid has been extracted, and the signal indicating that the liquid is not extracted; the area authorization configurator (6) is used for configuring a pre-set duration, and sending the pre-set duration into the mobile chip cards (5); the mobile chip cards (5) generate, when receiving the signal indicating that the liquid is not extracted and exceeding the pre-set duration, warning signals and carry out on-chip warning; and the mobile chip cards (5) eliminate the warning signals when receiving the signal indicating that the liquid has been extracted.

Description

IoT intelligent liquid picker system and liquid taking method

Technical field

The invention relates to the technical field of the intellectual property intelligent liquid pick-up device, in particular to an internet of things intelligent liquid pick-up system and a liquid taking method.

Background technique

In the medical field, medical workers need to use a disinfectant solution to take liquid before entering the surgical procedure. The disinfectant container used is generally a liquid discharge nozzle squeeze type or a liquid discharge nozzle open type disinfectant bottle. The traditional method of taking liquid requires the medical personnel to manually squeeze or open the disinfectant bottle, but it will bring pollution disinfectant Bottle discharge nozzles, cross-infected bacteria and other problems, leading to secondary pollution.

At present, there is also a way of directly opening the disinfectant bottle cap by a non-human hand. For example, the utility model patent "Medical and Disinfecting Bottle" disclosed by the Chinese Patent Office is CN2032890U, and the cap is controlled by the switch lever to take the liquid, but the method still needs manual Operating the switch lever to control the cap is troublesome to operate. A preferred improvement is to take the liquid by driving the motor down to squeeze the cap to avoid the trouble of manual operation, and the motor is reset after the completion of the extrusion to prepare for the next extrusion.

However, at present, there are still defects in the prosecution of disinfectant containers: there may be cases where medical personnel, pharmaceutical personnel, food processing personnel, etc. are lazy to wash their hands or forget to wash their hands. However, the existing liquid take-up device cannot solve the problem. Surgery, food, and medicine are safe and dangerous.

In addition, there are counterfeit and shoddy products in the disinfectant; the disinfectant has a certain shelf life, and there is a possibility that it will be used without being noticed. The use of the above two disinfectants can not achieve the effect of sterilization and sterilization, and the safety hazard is even greater. In addition, there is a serious problem of waste of waste liquid.

Summary of the invention

The technical problem to be solved by the invention is to provide an IoT intelligent liquid picker system and a liquid taking method, which automatically control the hand washing personnel to be taken, thereby reducing safety hazards.

To solve the above problems, the present invention provides an Internet of Things intelligent liquid picker system, including:

a plurality of intelligent liquid take-up devices are arranged in one-to-one correspondence with the disinfectant liquid container for driving the liquid discharge nozzle of the squeeze disinfectant container;

a plurality of mobile chip cards, each of which has unique encoded data, and each time the card communication range of the smart liquid picker is entered, the encoded data is read by the smart liquid picker; if the smart liquid is taken Receiving the coded signal and driving the liquid discharge nozzle of the squeeze disinfectant container, generating a liquid take-out signal, if the smart liquid picker receives the coded data and does not drive the liquid discharge nozzle of the squeeze disinfectant container, Generating an unfetched signal; the smart liquid picker sends the taken liquid signal and the liquid not taken signal to the corresponding mobile chip card;

The area authorization configurator is configured to configure a preset duration to send the preset duration to the mobile chip card; the mobile chip card generates an alert signal when the unfetched signal is received and exceeds the preset duration, and performs On-chip warning; the mobile chip card receives the received signal to eliminate the warning signal.

According to an embodiment of the present invention, the method further includes:

a plurality of electronic tags, each of which has identification information uniquely identifying a disinfectant container to which it is attached; each smart dispenser periodically resets and reads identification information of the electronic tag within its tag communication range, and outputs the latest information Identification information;

Data collector, collecting and uploading the identification information of all intelligent liquid pickers;

The control terminal is in network communication with the data collector, receives each identification information in real time, and queries the tag information base according to the received identification information for anti-counterfeiting identification, generates a genuine signal and a fake product disable signal, and stores the first generated and newly generated genuine products. The generation time of the signal generates a valid signal when the duration does not exceed the preset aging;

The control terminal feeds back the genuine signal, the fake product disable signal and the valid signal to a corresponding smart liquid picker through a data collector; each smart liquid picker enters an allowable control in response to the valid signal Use the state of the disinfectant container, otherwise enter the state of disabling the disinfectant container.

According to an embodiment of the invention, the smart liquid dispenser comprises:

The tag read/write antenna is configured to wirelessly communicate with a corresponding electronic tag to read the identification information;

The first MCU electrically connects the tag read/write antenna, periodically resets and reads the identification information of the electronic tag through the tag read/write antenna, and connects the data collector to the data collector to transmit the latest identification information to the data collector, and Waiting for the signal from the data collector to maintain or switch states.

According to an embodiment of the invention, the smart liquid picker further comprises:

The infrared sensing device senses the infrared signal in the infrared sensing range, and outputs the sensed infrared signal in real time;

a motor control module, coupled to the infrared sensing device, generating a motor control signal in response to the infrared signal, outputting the motor control signal to the first MCU; the first MCU is in a state of allowing control of use of a disinfectant container Receiving the motor control signal, generating and outputting a driving signal, otherwise not generating;

a relay device and a motor; the relay device is connected to the first MCU, and controls the motor to operate in response to the driving signal, and automatically squeezes the liquid discharge nozzle of the disinfectant container to take liquid.

According to an embodiment of the invention, the smart liquid picker comprises a first communication module in communication with the mobile chip card, the mobile chip card comprising:

a second communication module that communicates with the first communication module of the smart liquid picker within the communication range;

The second MCU is connected to the second communication module and the area authorization configurator, and has unique coded data, transmits the coded data through the second communication module, and receives the taken signal or the unfetched signal sent by the second communication module. Signal, correspondingly generating or eliminating warning signals;

The alerter is connected to the second MCU and performs an alert in response to the alert signal.

According to an embodiment of the invention, the control terminal comprises:

a third communication module, in communication with the data collector;

a first storage module, a tag information library of an electronic tag pre-stored with each disinfectant container;

a controller, connecting the third communication module and the first storage module, by using the third communication module Receiving each identification information, accessing the first storage module, querying the label information base according to the identification information, performing label information comparison, and if the label information is a valid label, generating a genuine signal, otherwise generating a fake product disable signal;

a time registration comparison module, connected to the controller, storing a first generation time for first generating a genuine signal and a second generation time for newly generating a genuine signal, and subtracting the second generation time from the first generation time, if the difference is not exceeded The preset aging time generates a valid signal, otherwise an invalid signal is generated;

The controller outputs the genuine signal, the fake disable signal, and the valid signal through the third communication module.

According to an embodiment of the present invention, when receiving the invalid signal, the controller updates the corresponding tag information of the tag information base of the storage module to be an invalid tag.

According to an embodiment of the invention, the area authorization configurator comprises:

The fourth communication module and the fifth communication module are respectively configured to connect and communicate with the mobile chip card and the control terminal;

a second storage module for storing and providing access;

a third MCU, configured to connect the second storage module, the fourth communication module, and the fifth communication module, to configure, by the control terminal, a preset duration of each mobile chip card, and set information of each mobile chip card and a preset duration The first storage module is stored in the second storage module, and the preset duration is sent to the mobile chip card through the fifth communication module.

The invention also provides a method for taking the liquidity intelligent liquid picker, comprising the following steps:

S1: The infrared sensing device of the intelligent liquid picker senses the infrared signal in the infrared sensing range, and the infrared signal triggers the generation of the motor control signal, and generates and outputs the motor control signal when the control liquid tank is in the state of allowing the control to use the disinfectant container. The driving signal drives the motor to operate, and automatically squeezes the liquid discharge nozzle of the disinfectant container to take liquid, otherwise no driving signal is generated;

S2: each time the mobile chip card enters the card communication range of the smart liquid picker, the encoded data is read by the smart liquid picker; if the smart liquid picker receives the encoded signal and has driven the squeeze disinfection The liquid discharge nozzle of the liquid container generates a liquid take-out signal if the smart liquid picker receives the encoded data And not driving the liquid discharge nozzle of the squeeze disinfectant container, generating a no liquid extraction signal; wherein the mobile chip card has unique encoded data;

S3: The area authorization configurator configures a preset duration, and sends the preset duration to the mobile chip card.

S4: The mobile chip card generates an alert signal when an unfetched signal is received and the unfetched time exceeds a preset duration, and performs an on-chip alert; the mobile chip card receives the received liquid signal to eliminate the alert signal, and stops the on-chip alert .

According to an embodiment of the present invention, before the step S1, the method further includes:

S11: Each electronic label is disposed on a liquid discharge nozzle of a disinfectant container, and each smart liquid extractor is provided with a label read/write antenna at a liquid discharge nozzle of the corresponding disinfectant liquid container; each electronic label has a unique identifier Identification information of a disinfectant container attached thereto;

S12: a plurality of intelligent liquid pickers periodically reset and read the identification information of the electronic tags in the communication range of the tag, and the data collector uploads the identification information of all the smart liquid pickers to the control terminal;

S13: The control terminal receives each identification information in real time, and queries the tag information base according to the received identification information for anti-counterfeiting identification, generates a genuine signal and a fake product disable signal, and stores the generation time of the first generated and newly generated genuine signal, in the duration A valid signal is generated when the preset aging is not exceeded;

S14: The control terminal feeds back the genuine signal, the fake product disable signal and the valid signal to the corresponding smart liquid picker through the data collector; each smart liquid picker enters and allows to control the use of the disinfectant liquid in response to the genuine signal and the valid signal. The state of the container, otherwise enter the state of the disinfectant container disabled.

According to an embodiment of the invention, the method further comprises the steps of:

S15: The control terminal counts and outputs the usage time of each disinfectant container according to the received identification information, adjusts the whole bottle dose of the disinfectant container, and/or counts and outputs the daily usage quantity of the disinfectant container, Adjust the daily supply of the disinfectant container;

or,

S16: The smart liquid picker uploads the unfetched signal of the mobile chip card to the control terminal, and the control terminal records and counts the encoded data of the corresponding mobile chip card and the unliquidized signal.

After adopting the above technical solution, the present invention has the following beneficial effects compared with the prior art:

Actively detecting whether the mobile chip card enters the corresponding area, and judging whether the corresponding medical personnel have taken the liquid according to the corresponding state of the intelligent liquid take-up device, and automatically prompting or alerting the medical staff to take the liquid, overcoming the existing liquid taking device and failing to automatically control the medical care Disadvantages of personnel to reduce the safety risks of surgery;

Ensure that the disinfectant is genuine and the product is allowed to use the disinfectant container within the shelf life. After the preset aging is exceeded or the disinfectant is a fake, the disinfectant container is disabled, and the anti-counterfeiting of the disinfectant container is realized. The disinfectant is still used if it is a fake or exceeds the shelf life;

When the infrared signal of the human body is detected, it is not necessary to take the liquid from the disinfectant container. It is necessary to detect the infrared signal when the disinfectant container is allowed to be used for control, and the motor can be controlled to start, and multiple safety lines are set for the use of the disinfectant container. In addition, the motor can be controlled to squeeze the disinfectant container to achieve automatic liquid extraction, avoid secondary pollution and reduce safety hazards.

DRAWINGS

1 is a structural block diagram of an Internet of Things intelligent liquid picker system according to an embodiment of the present invention;

2 is a structural block diagram of an intelligent liquid picker according to an embodiment of the present invention;

3 is a schematic flow chart of a method for taking an liquidity intelligent liquid picker according to an embodiment of the present invention;

FIG. 4 is a schematic flow chart of a method for taking a liquid pick-up of an Internet of Things smart pick-up device according to another embodiment of the present invention.

detailed description

The above described objects, features and advantages of the present invention will become more apparent from the aspects of the appended claims.

Numerous specific details are set forth in the description below in order to provide a thorough understanding of the invention. However, the present invention can be implemented in many other ways than those described herein, and a person skilled in the art can make a similar promotion without departing from the spirit of the invention, and thus the invention is not limited by the specific embodiments disclosed below.

In one embodiment, referring to FIG. 1, the IoT smart liquid picker system includes a plurality of smart liquid pickers 2, a mobile chip card 5 and a regional authorization configurator 6. Only two smart liquid pickers 2 are shown in the figure, which is not limited to this, and may be less than 30.

The intelligent liquid take-up device is disposed in one-to-one correspondence with the disinfectant liquid container to drive the liquid discharge nozzle of the squeeze disinfectant container.

In one embodiment, referring to FIGS. 1 and 2, the smart liquid picker 2 can include, but is not limited to, an infrared sensing device 25, a motor control module 23, a relay device 27, and a motor 28. The infrared sensing device 25 senses the infrared signal in the infrared sensing range, and outputs the sensed infrared signal in real time. The human body emits an infrared signal, and the infrared sensing device 25 is disposed at a position where the hand is extended when the liquid is taken, thereby sensing the infrared signal of the human body when the hand reaches the corresponding position. The motor control module 26 is connected to the infrared sensing device 25, receives the infrared signal, and generates a motor control signal in response to the infrared signal, and outputs the motor control signal to the first MCU 21. The first MCU 21 receives and outputs a drive signal when it is in a state in which it is allowed to control the use of the disinfectant container. Otherwise, the motor control signal is received in the state where the disinfectant container is disabled, and no drive signal is generated. The relay device 27 is connected to the first MCU 21, controls the motor 28 to operate in response to the drive signal, and automatically squeezes the liquid discharge nozzle of the disinfectant container 10 to take the liquid. The motor 28 can be, for example, a linear reciprocating motor that can drive the actuator to linearly reciprocate, squeezing or restoring the liquid discharge nozzle.

When the infrared signal of the human body is detected, it is not necessary to take the liquid from the disinfectant container 10, and it is necessary to control the start of the motor 28 when the infrared signal is detected in the state of allowing the use of the disinfectant container, and the use of the disinfectant container 10 is set. The road safety line can additionally control the motor 28 to squeeze the disinfectant container 10 to realize automatic liquid extraction, avoid secondary pollution and reduce safety hazards.

With continued reference to Figure 1, the mobile chip card 5 has unique encoded data that can be carried by a healthcare professional. The mobile chip card 5 reads the encoded data once by the smart liquid picker 2 every time it enters the card communication range of the smart liquid picker 2. If the smart liquid picker 2 receives the coded signal and has driven the liquid discharge nozzle of the squeeze disinfectant container 10, a liquid take-out signal is generated, and if the smart liquid picker 2 receives the coded data and does not drive the squeeze disinfectant The liquid discharge nozzle of the container 10 generates an unliquidted signal. In other words, the combination map 2, when the smart liquid picker 2 receives the coded signal, if the relay device 27 has controlled the motor 28 in response to the drive signal, it indicates that the hand has entered the infrared sensing area and has taken the liquid, the smart liquid take-up 2 Correspondingly, the liquid take-out signal is generated, and when the smart liquid picker 2 receives the coded signal, if the relay device 27 does not drive the motor 28 to operate, it indicates that the medical staff enters the card communication range, but the hand does not enter the infrared sensing area, and the smart take-up The liquid filter 2 generates a non-liquid extraction signal accordingly.

The area authorization configurator 6 is connected to the mobile chip card 5, and the area authorization configurator 6 and the mobile chip card 5 are wirelessly connected, and wireless communication can be realized by wireless communication chips provided in the respective areas. The area authorization configurator 6 configures a preset duration, which can be updated, and the preset duration is sent to the mobile chip card 5.

The mobile chip card 5 receives and stores the preset duration, and also receives the liquid take-out signal and the non-liquid take-off signal of the smart liquid picker 2. The mobile chip card generates an alert signal when an unfetched signal is received and the unfetched time exceeds a preset duration, and performs an on-chip alert. When the mobile chip card 5 receives the received liquid signal, the warning signal is eliminated, thereby stopping the on-chip warning. The unfetched time can be, for example, entered from the mobile chip card 5 into the card communication range of the smart liquid picker 3 and started to be timed by reading the encoded data. When the preset time is not received, the warning signal is generated. On-chip warning, the police example can be a beep.

Actively detecting whether the mobile chip card enters the corresponding area, and judging whether the corresponding medical personnel have taken the liquid according to the corresponding state of the intelligent liquid take-up device, and automatically prompting or alerting the medical staff to take the liquid, overcoming the existing liquid taking device and failing to automatically control the medical care The drawbacks of personnel reduce the safety risks of surgery.

With continued reference to FIG. 1, in one embodiment, the IoT smart dispenser system further includes a plurality of electronic tags 1, a data collector 3, and a control terminal 4.

The plurality of electronic labels 1 are respectively attached to different disinfectant containers 10, and each of the used disinfectant containers 10 is provided with an electronic tag 1 which is of a squeeze type. Each electronic tag 1 has identification information that uniquely identifies a disinfectant container 10 to which it is attached. The electronic tag 1 can be, for example, an RFID tag for information transfer by near field coupling.

These intelligent liquid pickers 2 have a one-to-one correspondence with the number of the electronic tags 1, and of course, one-to-one correspondence with the disinfectant container 10. It can be understood that the one-to-one correspondence is in the state of use, due to the disinfectant volume. The device 10 can be replaced, so after replacement, the smart liquid take-up 2 corresponds to the replaced disinfectant container 10. A smart liquid picker 2 is used to control the liquid withdrawal of a disinfectant container 10. The intelligent liquid picker 2 is periodically reset, and after reading, reads the electronic tag 1 within its tag communication range, obtains identification information, and outputs the latest obtained identification information. Since the data is read after the timer reset and the history storage data is cleared, the latest identification information read every time can be written to the storage location of the history identification information, which can reduce the space required for storage and avoid the information of the transmission error.

The data collector 3 collects the identification information of all the smart liquid pickers 2, and collects the identification information of the smart liquid pickers 2 and sends them to the control terminal 4 to prevent the control terminal 4 from communicating with the smart liquid picker 2 one by one to cause network congestion and data. The problem of transmission error. The smart liquid picker 2 can be read once at a time, and the identification information accumulated and read multiple times is sent to the data collector 3 at one time, and the data throughput burden of the data collector 3 is reduced.

The control terminal 4 is in network communication with the data collector 3, which may for example be a handheld terminal or a PC terminal. The control terminal 4 receives the identification information uploaded by the data collector 3 in real time, and searches the tag information database for anti-counterfeiting identification according to the received identification information, generates a genuine signal and a fake product disable signal, and stores the first generated and newly generated genuine products. The generation time of the signal (in the case where the same identification information generates genuine information every time the anti-counterfeiting identification is generated), a valid signal is generated when the duration between the two generation times of the storage does not exceed the preset aging; the control terminal 4 passes the data collector 3 The genuine signal, the fake disable signal and the valid signal are fed back to the corresponding smart liquid picker 2. Each of the smart liquid pickers 2 enters a state in which it is allowed to control the use of the disinfectant container in response to the respective corresponding valid signals, and otherwise enters the state in which the disinfectant container is disabled.

The preset aging can be the shelf life of the disinfectant. The disinfectant is guaranteed to be genuine and the disinfectant container 10 is allowed to be used within the shelf life. After the preset aging period is exceeded or the disinfectant is a counterfeit product, the disinfectant container is disabled, and the anti-counterfeiting of the disinfectant container 10 is achieved. Avoid using the disinfectant as a counterfeit or beyond the shelf life. The state in which the use of the disinfectant container is allowed to be controlled is, for example, a state in which the disinfectant container 10 can be used under the trigger of other signals, and the state in which the disinfectant container is disabled is the state in which the disinfectant container 10 cannot be used under the trigger of other signals.

In one embodiment, each of the electronic tags 1 is embedded in the liquid discharge nozzle of the disinfectant container 10, and the electronic tag 1 is placed on the disinfectant container 10 before being shipped, instead of being attached to the outside. The electronic tag 1 is prevented from being broken, and more importantly, the electronic tag 1 can be prevented from being used for the second counterfeiting, so that the unscrupulous merchant attaches it to the counterfeit product, and also ensures that the disinfectant container 10 is genuine when it leaves the factory. Each smart liquid picker 2 embeds a tag read/write antenna at the liquid discharge head of the corresponding disinfectant container 10. Specifically, the electronic tag 1 is an electronic tag with a communication protocol of 14443A protocol, and the tag read/write antenna of the smart liquid picker 2 is a 13M antenna, and the two are closely coupled to realize reading of the tag information, and the mounting position is such that the tag read/write antenna and the tag The distance between the electronic tags 1 is less than or equal to 20 mm, and the interference signal can be avoided.

In one embodiment, referring to FIGS. 1 and 2, the smart liquid picker 2 includes a tag read/write antenna, a first MCU (Micro Controller Unit) 21. The tag read/write antenna is shown in FIG. 2 as a 13M antenna 22 for wirelessly communicating with the corresponding electronic tag 1 to read the identification information at close range. The first MCU 21 is wired to connect the 13M antenna 22 (label read/write antenna), periodically resets and reads the identification information of the electronic tag 1 through the tag read/write antenna, and reduces the space required for storage, and can be stored by using the first MCU 21 own register. Read and write efficiency is higher. The first MCU 21 also has a line connection data collector 3. Alternatively, in FIG. 2, the first MCU 21 is connected to the data collector 3 via an RS485 module 23 (interface, connection line, etc.), and the data collector 3 is of course also provided with a corresponding RS485. Module. The first MCU 21 transmits the newly obtained identification information to the data collector 3 and waits for the signal of the data collector 3 to maintain or switch states.

In one embodiment, referring to FIG. 2, the smart liquid picker 2 further includes a first communication module in communication with the mobile chip card 5, which is shown in FIG. 2 as a 2.4G module 24, but is not limited thereto. The mobile chip card 5 may include a second communication module, a second MCU, and an alerter (not shown). The second communication module can also be a 2.4G chip that communicates with the first communication module of the smart dispenser 2 within the communication range. The second MCU is connected to the second communication module and the regional authorization configurator 6. The second MCU is provided with unique encoded data. When the read signal of the smart liquid picker 2 is received, the second MCU transmits the encoded data through the second communication module. And receiving the received liquid signal or the non-liquid sampling signal sent by the second communication module, and generating or eliminating the warning signal according to the foregoing embodiment, and details are not described herein again. Warning device The second MCU is connected to perform an alert in response to the warning signal, such as a buzzer.

In one embodiment, the control terminal 4 includes a third communication module, a first storage module, a controller, and a time registration comparison module (not shown). The third communication module is in communication with the data collector 3, such as an RS485 interface. The first storage module prestores the tag information library of the electronic tag 1 of each disinfectant container 10, and can be pre-recorded. The controller is connected to the third communication module and the first storage module, and receives the identification information through the third communication module, accesses the first storage module, queries the label information base according to the identification information, and performs label information comparison. If the label information is a valid label, Then generate a genuine signal, otherwise generate a fake disable signal. The time registration comparison module is connected to the controller, and stores the first generation time of generating the genuine signal for the first time and the second generation time of the latest generation of the genuine signal, and subtracts the second generation time from the first generation time, and can be combined by the subtractor and the register. Realization, if the difference of the subtraction does not exceed the preset aging, a valid signal is generated, otherwise an invalid signal is generated. The controller outputs the genuine signal, the fake disable signal and the valid signal through the third communication module, and is sent to each smart liquid take-up 2 through the data collector 3.

In an embodiment, when receiving the invalid signal, the controller updates the corresponding tag information of the tag information base of the first storage module to be an invalid tag, so that when the corresponding tag information is read next time, the query tag information database is invalid. The information of the label cannot be verified by anti-counterfeiting, and the corresponding disinfectant container is a fake to prevent the electronic label from being stolen. Of course, the tag information base can be modified for update maintenance.

In an embodiment, the area authorization configurator 6 and the control terminal 4 may be connected by wire, for example, by RS485, but is not limited thereto, and may be a wireless connection. The area authorization configurator 6 includes: a fourth communication module and a fifth communication module, a second storage module, and a third MCU. The fourth communication module and the fifth communication module are respectively configured to connect and communicate with the mobile chip card and the control terminal. The fourth communication module is, for example, a 2.4G module, and the fifth communication module is, for example, an RS485 module. The second storage module is used to store and provide access, such as an Eeprom module. The third MCU is connected to the second storage module, the fourth communication module, and the fifth communication module, for configuring the preset duration of each mobile chip card 5 by the control terminal 4, and setting each mobile chip card information and preset The duration is stored in the second storage module, and the preset duration is sent to the mobile chip card 5 through the fifth communication module.

Referring to FIG. 3, the present invention further provides a method for taking an IoT intelligent liquid picker, comprising the following steps:

S2: each time the mobile chip card enters the card communication range of the smart liquid picker, the encoded data is read by the smart liquid picker; if the smart liquid picker receives the encoded signal and has driven the squeeze disinfection The liquid discharge nozzle of the liquid container generates a liquid take-out signal, and if the smart liquid picker receives the coded data and does not drive the liquid discharge nozzle of the squeeze disinfectant container, an unliquid extraction signal is generated; wherein the movement The chip card has unique encoded data;

In a further embodiment, referring to FIG. 4, the IoT smart liquid picking method further comprises the following steps before step S1:

S14: The control terminal feeds back the authentic signal, the fake product disable signal, and the valid signal to the corresponding smart liquid picker through the data collector; each smart liquid picker advances in response to the genuine signal and the valid signal Into the allowable control to use the state of the disinfectant container, otherwise enter the state of disabling the disinfectant container.

In a further embodiment, the IoT smart liquid picking method further comprises the following steps:

or,

Wherein, by counting the usage time of each disinfectant container, the average daily dose can be calculated according to the dose of the whole bottle, thereby performing the whole bottle dose of the disinfectant container, thereby rationalizing the dose of the disinfectant container and avoiding The waste used, the dose can be directly output for the manager's reference after calculation in the control terminal, of course, only the statistical data can be output; by counting the number of bottles used in the daily disinfectant container, the daily supply of the disinfectant container can be adjusted. Avoid the waste caused by the provision of more, or provide less problems such as the inability to take liquid.

For the other content of the IoT intelligent liquid pick-up device of the embodiment of the present invention, refer to the description of the specific embodiment of the foregoing IoT smart liquid picker system, and details are not described herein again.

The present invention is disclosed in the above preferred embodiments, but it is not intended to limit the scope of the invention, and the present invention may be made without departing from the spirit and scope of the invention. The scope of protection should be determined by the scope defined by the claims of the present invention.

Claims

An Internet of Things intelligent liquid picker system, comprising:

a plurality of intelligent liquid take-up devices are arranged in one-to-one correspondence with the disinfectant liquid container for driving the liquid discharge nozzle of the squeeze disinfectant container;

a plurality of mobile chip cards, each of which has unique encoded data, and each time the card communication range of the smart liquid picker is entered, the encoded data is read by the smart liquid picker; if the smart liquid is taken Receiving the coded signal and driving the liquid discharge nozzle of the squeeze disinfectant container, generating a liquid take-out signal, if the smart liquid picker receives the coded data and does not drive the liquid discharge nozzle of the squeeze disinfectant container, Generating an unfetched signal; the smart liquid picker sends the taken liquid signal and the liquid not taken signal to the corresponding mobile chip card;

The area authorization configurator is configured to configure a preset duration to send the preset duration to the mobile chip card; the mobile chip card generates an alert signal when the unfetched signal is received and exceeds the preset duration, and performs On-chip warning; the mobile chip card receives the received signal to eliminate the warning signal.
The IoT smart liquid dispensing device system of claim 1 further comprising:

a plurality of electronic tags, each of which has identification information uniquely identifying a disinfectant container to which it is attached; each smart dispenser periodically resets and reads identification information of the electronic tag within its tag communication range, and outputs the latest information Identification information;

Data collector, collecting and uploading the identification information of all intelligent liquid pickers;

The control terminal is in network communication with the data collector, receives each identification information in real time, and queries the tag information base according to the received identification information for anti-counterfeiting identification, generates a genuine signal and a fake product disable signal, and stores the first generated and newly generated genuine products. The generation time of the signal generates a valid signal when the duration does not exceed the preset aging;

The control terminal feeds back the genuine signal, the fake product disable signal and the valid signal to the corresponding smart liquid picker through the data collector; each intelligent liquid picker enters a state allowing the control to use the disinfectant container in response to the valid signal, Otherwise enter the disable disinfectant container state.
The intelligent internetware system for an internet of things according to claim 2, wherein said smart fetching system The liquid device includes:

The tag read/write antenna is configured to wirelessly communicate with a corresponding electronic tag to read the identification information;

The first MCU electrically connects the tag read/write antenna, periodically resets and reads the identification information of the electronic tag through the tag read/write antenna, and connects the data collector to the data collector to transmit the latest identification information to the data collector, and Waiting for the signal from the data collector to maintain or switch states.
The intelligent liquid dispensing device of the invention of claim 3, wherein the smart liquid dispenser further comprises:

The infrared sensing device senses the infrared signal in the infrared sensing range, and outputs the sensed infrared signal in real time;

a motor control module, coupled to the infrared sensing device, generating a motor control signal in response to the infrared signal, outputting the motor control signal to the first MCU; the first MCU is in a state of allowing control of use of a disinfectant container Receiving the motor control signal, generating and outputting a driving signal, otherwise not generating;

a relay device and a motor; the relay device is connected to the first MCU, and controls the motor to operate in response to the driving signal, and automatically squeezes the liquid discharge nozzle of the disinfectant container to take liquid.
The IoT smart liquid picker system according to any one of claims 1 to 4, wherein the smart liquid picker comprises a first communication module in communication with the mobile chip card, the mobile chip card include:

a second communication module that communicates with the first communication module of the smart liquid picker within the communication range;

The second MCU is connected to the second communication module and the area authorization configurator, and has unique coded data, transmits the coded data through the second communication module, and receives the taken signal or the unfetched signal sent by the second communication module. Signal, correspondingly generating or eliminating warning signals;

The alerter is connected to the second MCU and performs an alert in response to the alert signal.
The IoT smart liquid picker system according to any one of claims 1 to 4, wherein the control terminal comprises:

a third communication module, in communication with the data collector;

a first storage module, a tag information library of an electronic tag pre-stored with each disinfectant container;

The controller is configured to connect the third communication module and the first storage module, receive the identification information by using the third communication module, access the first storage module, query the tag information base according to the identification information, and perform tag information comparison. If the tag information is a valid tag, a genuine signal is generated, otherwise a fake disable signal is generated;

a time registration comparison module, connected to the controller, storing a first generation time for first generating a genuine signal and a second generation time for newly generating a genuine signal, and subtracting the second generation time from the first generation time, if the difference is not exceeded The preset aging time generates a valid signal, otherwise an invalid signal is generated;

The controller outputs the genuine signal, the fake disable signal, and the valid signal through the third communication module.
The IoT smart liquid picker system according to claim 6, wherein the controller updates the corresponding tag information of the tag information base of the storage module as an invalid tag when receiving the invalid signal.
The IoT smart liquid picker system according to any one of claims 1 to 4, wherein the area authorization configurator comprises:

The fourth communication module and the fifth communication module are respectively configured to connect and communicate with the mobile chip card and the control terminal;

a second storage module for storing and providing access;

a third MCU, configured to connect the second storage module, the fourth communication module, and the fifth communication module, to configure, by the control terminal, a preset duration of each mobile chip card, and set information of each mobile chip card and a preset duration The first storage module is stored in the second storage module, and the preset duration is sent to the mobile chip card through the fifth communication module.
An internet of things intelligent liquid picking method, characterized in that the method comprises the following steps:

S1: The infrared sensing device of the intelligent liquid picker senses the infrared signal in the infrared sensing range, and the infrared signal triggers the generation of the motor control signal, and generates and outputs the motor control signal when the control liquid tank is in the state of allowing the control to use the disinfectant container. The drive signal drives the motor to act, automatically squeezing the disinfectant container out The liquid nozzle takes liquid, otherwise no drive signal is generated;

S2: each time the mobile chip card enters the card communication range of the smart liquid picker, the encoded data is read by the smart liquid picker; if the smart liquid picker receives the encoded signal and has driven the squeeze disinfection The liquid discharge nozzle of the liquid container generates a liquid take-out signal, and if the smart liquid picker receives the coded data and does not drive the liquid discharge nozzle of the squeeze disinfectant container, an unliquid extraction signal is generated; wherein the movement The chip card has unique encoded data;

S3: The area authorization configurator configures a preset duration, and sends the preset duration to the mobile chip card.

S4: The mobile chip card generates an alert signal when an unfetched signal is received and the unfetched time exceeds a preset duration, and performs an on-chip alert; the mobile chip card receives the received liquid signal to eliminate the alert signal, and stops the on-chip alert .
The method for extracting the liquidity intelligent liquid picker according to claim 9, wherein before the step S1, the method further comprises:

S11: Each electronic label is disposed on a liquid discharge nozzle of a disinfectant container, and each smart liquid extractor is provided with a label read/write antenna at a liquid discharge nozzle of the corresponding disinfectant liquid container; each electronic label has a unique identifier Identification information of a disinfectant container attached thereto;

S12: a plurality of intelligent liquid pickers periodically reset and read the identification information of the electronic tags in the communication range of the tag, and the data collector uploads the identification information of all the smart liquid pickers to the control terminal;

S13: The control terminal receives each identification information in real time, and queries the tag information base according to the received identification information for anti-counterfeiting identification, generates a genuine signal and a fake product disable signal, and stores the generation time of the first generated and newly generated genuine signal, in the duration A valid signal is generated when the preset aging is not exceeded;

S14: The control terminal feeds back the genuine signal, the fake product disable signal and the valid signal to the corresponding smart liquid picker through the data collector; each smart liquid picker enters and allows to control the use of the disinfectant liquid in response to the genuine signal and the valid signal. The state of the container, otherwise enter the state of the disinfectant container disabled.
The method of claim 10, wherein the method further comprises the following steps:

S15: The control terminal counts and outputs the usage time of each disinfectant container according to the received identification information, adjusts the whole bottle dose of the disinfectant container, and/or counts and outputs the daily usage quantity of the disinfectant container, Adjust the daily supply of the disinfectant container;

or,

S16: The smart liquid picker uploads the unfetched signal of the mobile chip card to the control terminal, and the control terminal records and counts the encoded data of the corresponding mobile chip card and the unliquidized signal.