CN210323811U - Network wiring system - Google Patents

Abstract

The utility model provides a network wiring system, which is used in the scene of intelligent sanitation, and comprises an intelligent garbage can device, an intelligent bag-sending device, an integral exchange device and a data processing platform; the data processing platform comprises a first network device, a second network device, a third network device, a trigger control circuit and a data processing server; the utility model provides a system no longer restricts to the smart machine of single type, has effectively richened the type of smart machine. And simultaneously, the utility model discloses to diversified smart machine, configured first network equipment, second network equipment and third network equipment, usable communication line, internet and thing networking communicate with smart machine respectively, have effectively improved the compatibility of the smart machine that can insert the system to and the compatibility of the applicable environment. Furthermore, the utility model discloses still be favorable to utilizing the trigger control circuit to select the network equipment who drops into use.

Description

Network wiring system

Technical Field

The utility model relates to an intelligence sanitation field especially relates to a network wiring system.

Background

The intelligent sanitation can be understood as a process of completing the environmental protection means based on the intelligent device. It may include the environmental protection means itself, and may also include various auxiliary means implemented to promote environmental protection, and in the intelligent sanitation, it is usually necessary to perform uniform management on the intelligent device.

In the scenario of intelligent sanitation, network wiring systems are usually designed based on different intelligent devices, and then a corresponding data processing platform is used to manage a class of corresponding intelligent devices, for example, for an intelligent trash can, a network wiring system for intelligently managing a plurality of intelligent trash cans can be designed.

However, with the diversification of smart devices in smart sanitation, systems for a single class of smart devices have not been able to meet the demand.

SUMMERY OF THE UTILITY MODEL

The utility model provides a network wiring system to solve along with intelligent device's diversification in the intelligent sanitation, the problem that the system to single type of intelligent device can not satisfy the demand has.

According to a first aspect of the utility model, a network wiring system is provided, which is used for intelligent environmental sanitation scene, and comprises an intelligent garbage can device, an intelligent bag sending device, an integral exchange device and a data processing platform; the data processing platform comprises a first network device, a second network device, a third network device, a trigger control circuit and a data processing server which is respectively connected with the first network device, the second network device and the third network device by using different communication interfaces;

the first network equipment is respectively connected with at least part of the intelligent garbage can equipment, at least part of the intelligent bag sending equipment and at least part of the point exchange equipment through communication lines;

the second network equipment can access the internet in a wired or wireless mode so as to be in communication connection with at least part of the intelligent garbage can equipment, at least part of the intelligent bag sending equipment and at least part of the point exchange equipment by utilizing the internet;

the third network equipment is wirelessly accessed to NB-IoT so as to utilize the NB-IoT to be in communication connection with at least part of the intelligent garbage can equipment, at least part of the intelligent bag sending equipment and at least part of the credit exchange equipment;

the trigger control circuit is respectively connected with the first network device, the second network device and the third network device directly or indirectly so as to trigger at least one of the first network device, the second network device and the third network device to work.

Optionally, the system further includes an intelligent wearable device, and the intelligent wearable device can access the internet to be in communication connection with the second network device, and can also access the NB-IoT to be in communication connection with the third network device.

Optionally, at least one target smart device among all the smart wearable devices, all the smart trash can devices, all the smart bag sending devices, and all the credit exchange devices is powered by a battery, the target smart device accesses the internet through a mobile data communication module to be in communication connection with the second network device, and the target smart device also accesses the NB-IoT through an NB-IoT data communication module to be in communication connection with the third network device;

the battery is connected with an electric quantity detection circuit for detecting the electric quantity of the battery, and the electric quantity detection circuit is respectively and directly or indirectly connected with the mobile data communication module and the NB-IOT data communication module so as to enable: and the mobile data communication module and the NB-IOT data communication module are selected to be triggered to work according to the detected electric quantity.

Optionally, the system further includes an intelligent vehicle-mounted device, and the intelligent vehicle-mounted device can access the internet to be in communication connection with the second network device.

Optionally, the data processing platform further includes a fourth network device, and the fourth network device accesses the internet in a wireless manner to be in communication connection with the mobile terminal or the computer of the person related to the project through the internet.

Optionally, the data processing server is connected to a display device to display feedback information of the intelligent trash can device, the intelligent bag issuing device and the point redemption device by using the display device.

Optionally, the display device includes a plurality of display screens, so as to display feedback information of the intelligent trash can device, the intelligent bag issuing device and the credit exchange device in different geographic areas by using different display screens.

Optionally, the data processing server is connected to a database server, so as to store feedback information of the intelligent trash can device, the intelligent bag issuing device and the point redemption device by using the database server.

Optionally, the data processing platform further includes a first temperature detecting component for detecting a temperature of the first network device, a second temperature detecting component for detecting a temperature of the second network device, and a third temperature detecting component for detecting a temperature of the third network device, where the first temperature detecting component, the second temperature detecting component, and the third temperature detecting component are all connected to the trigger control circuit, so that the trigger control circuit controls the corresponding network device to stop working when the temperature of any one of the network devices is greater than a temperature threshold.

Optionally, the data processing platform further includes an input interaction component, where the input interaction component is connected to the trigger control circuit, so that the trigger control circuit triggers at least one of the first network device, the second network device, and the third network device to operate in response to a trigger operation.

The utility model provides a network wiring system for during intelligence sanitation scene, can send out bag equipment, total mark exchange equipment these three kinds of smart machines with intelligence garbage bin equipment, intelligence and all insert data processing server to make the data that feed back can all be unified the data processing server who transmits to the data processing platform in, so that further processing, it provides the basis for further unified management, and is visible, the utility model provides a system no longer restricts to the smart machine of single type, has effectively enriched the type of smart machine.

And simultaneously, the utility model discloses to diversified smart machine, configured first network equipment, second network equipment and third network equipment, usable communication line, internet and thing networking communicate with smart machine respectively, have effectively improved the compatibility of the smart machine that can insert the system to and the compatibility of the applicable environment. Because the communication means of the Internet and the Internet of things are combined, wiring of part of intelligent equipment is not needed, and the cost and time of wiring can be saved.

Furthermore, the utility model discloses still be favorable to utilizing the trigger control circuit to select the network equipment that drops into use, this kind of alternative can be favorable to avoiding all network equipment to drop into use always simultaneously to can avoid the power consumption because of unnecessarily dropping into use and bring, and to network equipment's loss. The present invention provides a hardware basis for just this possibility.

The utility model discloses in the alternative, the smart machine that the system was suitable for can also be compatible can only pass through internet and NB-IoT transmission data's intelligent wearing equipment to and the intelligent mobile unit that can only pass through internet transmission data. Further enriching the variety of compatible smart devices.

The utility model discloses in the alternative, can utilize electric quantity detection circuitry to come into operation in the target smart machine one time between mobile data communication module and NB-IOT data communication module, because it is the electric quantity that uses the target smart machine battery as the basis and selects, and NB-IOT data communication module's consumption is lower, and this scheme can be favorable to matcing suitable electric quantity and select communication mode to guarantee target smart machine can have longer continuation of the journey live time.

The utility model discloses in the alternative, can use the temperature that the temperature detection part detected to trigger network equipment as the foundation, can be favorable to avoiding network equipment high temperature and lead to equipment to damage or the operation unusual.

Drawings

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

Fig. 1 is a first schematic structural diagram of a network wiring system for an intelligent environmental sanitation scene in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a network wiring system for an intelligent environmental sanitation scene in an embodiment of the present invention;

FIG. 3 is a first schematic diagram of a partial configuration of a data processing platform according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a partial configuration of a network wiring system for an intelligent environmental sanitation scene in an embodiment of the present invention;

fig. 5 is a schematic diagram of a partial structure of a data processing platform according to an embodiment of the present invention.

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.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The technical solution of the present invention will be described in detail with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 1 is a first schematic structural diagram of a network wiring system for an intelligent environmental sanitation scene in an embodiment of the present invention.

Referring to fig. 1, the network cabling system is used in an intelligent environmental sanitation scenario and includes an intelligent trash can device 2, an intelligent bag issuing device 3, a point exchange device 4, and a data processing platform 1.

The data processing platform 1 includes a first network device 101, a second network device 102, a third network device 103, a trigger control circuit 105, and a data processing server 104. The data processing server 104 is connected to the first network device 101, the second network device 102, and the third network device 103 by using different communication interfaces.

The data processing server 104 may be any electronic device or combination of electronic devices configured with a processor and a memory, such as a computer or a combination of computers.

In an embodiment other than fig. 1, if the number of the devices is various, part of the devices may not be connected to the first network device 101 through a communication line, and the first network device 101 is connected to the data processing server 104 through a communication interface.

The communication line may be understood as a physical medium capable of transmitting data, and may include a line that needs to be separately arranged, or may include an existing line, as long as the physical medium can be used to transmit data, without departing from the description scope of the embodiment. The first network device 101 therein may be, for example, a gateway, a switch, a router, etc.

The second network device 102 can access the internet in a wired or wireless manner, so as to be in communication connection with at least part of the intelligent trash can device 2, at least part of the intelligent bag sending device 3, and at least part of the point redemption device 4 by using the internet. In the embodiment other than fig. 1, if the number of devices is multiple, some devices may not access the internet, and the first network device 101 is connected to the data processing server 104 through a communication interface.

The internet access mode may be any wired or wireless mode, and may be configured arbitrarily according to the requirements and conditions of the communication environment, for example, the internet may be accessed by using an optical fiber, or the internet may be accessed by using 4G, Wifi, where the second network device may be, for example, a gateway, a switch, a router, and the like.

The third network device 103 accesses to NB-IoT in a wireless manner, so as to utilize the NB-IoT to be in communication connection with at least part of the intelligent trash can device 2, at least part of the intelligent bag sending device 3, and at least part of the credit redemption device 4.

NB-IoT, specifically: narrow bandwidth internet of Things, which can be understood as a narrowband internet of Things, B-IoT is built in a cellular network, consumes only about 180KHz of bandwidth, and can be directly deployed in a GSM network, a UMTS network, or an LTE network. The corresponding third network device 103 may be any network device capable of building or accessing NB-IoT, such as a switch, gateway, etc.

The communication interfaces referred to above may be any interface or interface combination suitable for unidirectional or bidirectional data transmission, and may be different according to different data transmission modes.

The network wiring system that this embodiment provided for during intelligence sanitation scene, can send out bag equipment, total mark exchange equipment these three kinds of smart machines with intelligence garbage bin equipment, intelligence and all insert data processing server to make the data that feed back can all be unified the data processing server who transmits to in the data processing platform, so that supply further processing, it provides the basis for further unified management, it is visible, the utility model provides a system no longer restricts to the smart machine of single type, has effectively enriched the type of smart machine.

Meanwhile, in the embodiment, for various intelligent devices, a first network device, a second network device and a third network device are configured, and the intelligent devices can communicate with each other by using a communication line, the internet and the internet of things, so that the compatibility of the intelligent devices which can be accessed into the system and the compatibility of the applicable environment are effectively improved. For example, if the device accesses the internet by using signals such as GPRS and WIFI, the data processing platform cannot receive information when the signals are not good, and the embodiment has three types of network devices, which communicate by using different means, so that even if one of the means is not suitable for implementation, the other means can still be suitable for use. For example: the smart device can communicate using both means simultaneously, and this embodiment provides a hardware basis for this possibility.

Because the communication means of the Internet and the Internet of things are combined, wiring of part of intelligent equipment is not needed, and the cost and time of wiring can be saved.

In addition, since the existing data processing platform may have the first network device or the second network device already deployed, this embodiment may be suitable for improving the communication method that the existing platform can be adapted to by introducing other network devices while retaining the original device.

In this embodiment, the trigger control circuit 105 is respectively connected to the first network device 101, the second network device 102, and the third network device 103 directly or indirectly, so as to trigger at least one of the first network device 101, the second network device 102, and the third network device 103 to operate.

In one embodiment, the trigger control circuit 105 may be connected to, for example, an enable terminal of a chip of the first network device 101, an enable terminal of a chip of the second network device 102, and an enable terminal of a chip of the third network device 103, and further, outputs an enable trigger signal to the corresponding enable terminal to trigger the corresponding chip to operate, that is, trigger the corresponding network device to operate, and also outputs an inoperative trigger signal to trigger the corresponding chip to be inoperative, that is, trigger the corresponding network device to be inoperative.

In another embodiment, the trigger control circuit 105 may include a first switch, a second switch, and a third switch, where the first switch may be connected between the first network device 101 and its power source, the second switch may be connected between the second network device 102 and its power source, and the third switch may be connected between the third network device 103 and its power source, and by controlling the first switch, the second switch, and the third switch, the power supply control of the corresponding first network device 101, second network device 102, and third network device 103 may be triggered, and further, the operation thereof may be triggered, that is, the network device is triggered to be powered, so that the network device enters the operation after being powered.

In another embodiment, a first switch may be disposed between the first network device 101 and the data processing server 104, a second switch may be disposed between the second network device 102 and the data processing server 104, and a third switch may be disposed between the third network device 103 and the data processing server 104, that is, the trigger control circuit 105 includes the first switch, the second switch, and the third switch, and further, the triggering operation thereof may be understood as triggering the communication between the network device and the data processing server 104, so as to enable the network device to enter the operation.

It can be seen that, the present embodiment also utilizes the trigger control circuit to select the network devices to be put into use, and this selectivity can be beneficial to avoiding that all network devices are always put into use at the same time, so that the power consumption caused by unnecessary putting into use and the loss of the network devices can be avoided.

For example: if the intelligent equipment which is put into use at present can communicate through one of the network equipment, other network equipment can be controlled not to be put into use, and if the temperature of one of the network equipment is overhigh, the network equipment can be controlled not to be put into use; for another example: if the current time is at night and the number of people using the intelligent device is relatively small, the third network device can be controlled to transmit data through NB-IoT, and further, the NB-IoT has the characteristic of low power consumption, so that the power consumption of the intelligent device can be reduced.

It can be seen that the present embodiment can provide a hardware basis for selective control. The first switch, the second switch and the third switch can be arranged in the same box body and are respectively butted with each network device. The box body can also be provided with an interaction component to respond to the operation of personnel on each switch.

In a specific implementation process, the switches can be directly controlled by personnel through the interaction assembly, in another implementation process, the trigger control circuit 105 can further comprise a processor for controlling the on-off of the switches, and then the processor can respond to the direct operation of the personnel through the interaction assembly to control the switches, and can also receive instructions through the communication with other equipment, so that the on-off of the connected switches can be controlled according to the instructions. The processor may also be located in the housing.

Regardless of the control means, the control can be realized by combining existing devices without a newly written program flow. Therefore, its inventive contribution is not in how the program of the processor is written, but in that hardware such as switches, trigger control circuit 105 of the processor are introduced and put into use, namely: compared with the scheme that each network device is put into use, the further creative contribution of the embodiment lies in improvement on hardware, so that each network device can work selectively.

Fig. 2 is a schematic structural diagram of a network wiring system for an intelligent environmental sanitation scene in the embodiment of the present invention.

Referring to fig. 2, in an embodiment, the data processing platform 1 further includes a fourth network device 108, and the fourth network device 108 accesses the internet in a wireless manner to use the internet to connect with a mobile terminal or a computer of a person related to a project in a communication manner.

The second network device 102 and the fourth network device 108 may be understood as different network devices, but both of them may access the internet, and by distinguishing different network devices, it may be beneficial to avoid or reduce signal interference and mutual influence, meanwhile, the second network device 102 may be selected to be triggered to operate, and the fourth network device 108 may always remain in operation, which may avoid triggering control of the second network device 102 from affecting communication with a mobile terminal, a computer, or the like.

In one embodiment, the data processing server 104 is connected to the database server 107, so as to store the feedback information of the intelligent trash can device 2, the intelligent bag dispensing device 3 and the credit redemption device 4 by using the database server 107.

The intelligent trash can device 2 can be understood as a trash can that can be intelligently controlled, the intelligently controlled content can be, for example, a switch of the trash can, wherein intelligent components that detect the weight, position, temperature, etc. of the trash can also be configured. Which may be any intelligent trash can device 2 known in the art.

The intelligent bag distribution device 3 is understood to be a device for distributing bags capable of being intelligently controlled, in which, for example, a plurality of bags for goods, trash, etc. can be arranged and can be distributed externally in response to control, and in which an intelligent means for detecting the number, size, type, etc. of bags can be arranged. Which may be any intelligent bag-issuing device 3 in the art.

The credit exchange device 4, which may be understood as a trash credit exchange device, may be used with, for example, an IC card, and during daily use, a user may collect recyclable trash (such as pop-top cans, cartons, etc.), may take the exchange station to exchange credits, and then exchange the points for daily use such as towels, soaps, etc. The points redemption device 4 is an intelligent electronic device for implementing the process, which may be any point redemption device 4 known in the art.

The feedback information may be, for example, at least one of:

the feedback information corresponding to the intelligent trash can device 2 can be weighing information generated by automatic weighing, information for calculating integral in real time, overflow warning information, temperature monitoring information, position information and the like;

the feedback information corresponding to the intelligent bag sending device 3 can be, for example, code scanning information, event information of a multifunctional fetching event, information of the number of bags, information of the sizes of the bags, position information, and the like;

the feedback information of the credit redemption device 4 may be, for example, consumption information for consuming credits, information for clearing credits, etc.

In one embodiment, the data processing server 104 is connected to the display device 106, so as to display the feedback information of the intelligent trash can device 2, the intelligent bag sending device 3 and the credit redemption device 4 by using the display device 106. In a further optional implementation mode, feedback information of the intelligent wearable device, the intelligent vehicle-mounted device and the like can be displayed.

Through the display device 106, the information can be effectively fed back on the spot, so that the manager can learn the change of the intelligent device in real time.

Fig. 3 is a schematic diagram of a partial structure of a data processing platform according to an embodiment of the present invention.

Referring to fig. 3, the display device 106 includes a plurality of display screens 1061 to display feedback information of the intelligent trash can device 2, the intelligent bag dispensing device 3 and the credit redemption device 4 in different geographic areas by using different display screens. In a further optional implementation mode, feedback information of intelligent wearable equipment, intelligent vehicle-mounted equipment and the like in different geographic areas can be correspondingly displayed.

As for part of the intelligent trash can devices 2, the intelligent bag sending devices 3 and the point redemption devices 4, since the intelligent trash can devices can be connected with the second network device 102 and the third network device 103, in other words, the positions of the intelligent trash can devices are not limited by the positions of wiring, the position information can be reported, which geographical area the intelligent trash can device belongs to can be effectively determined, and therefore the corresponding display screen can be determined.

Therefore, by distinguishing the display of different display screens, the feedback information of the intelligent equipment at a specific geographic position can be known in a targeted manner.

Fig. 4 is a schematic diagram of a partial configuration of a network wiring system for an intelligent environmental sanitation scene in an embodiment of the present invention.

Referring to fig. 4, the system further includes an intelligent wearable device 8, where the intelligent wearable device 8 can access the internet to be communicatively connected to the second network device 102, and can also access the NB-IoT to be communicatively connected to the third network device.

The smart wearable device 8 may be an intelligent electronic device worn on a human body and having a processor and a memory, such as a smart bracelet, a smart watch, smart glasses, and the like. Because it is mobile, it is usually implemented by wireless communication between the second network device 102 and the third network device 103.

The feedback information corresponding to the intelligent wearable device 8 may be, for example, position information, real-time trajectory information, step recording information, mileage information, help seeking information, sign-in information, sign-out information, and the like. It can be used to for example clean the personnel of management to the garbage bin and manage, and is concrete, and the information of registering can be convenient for learn whether personnel arrive relevant position and clean the management operation, and the information of registering can be convenient for learn whether it has left to can combine position information, real-time orbit information etc. to sign in information, sign back information and verify, still can further manage the control to its work flow.

In one embodiment, please refer to fig. 4, the system further includes an intelligent vehicle-mounted device 7, and the intelligent vehicle-mounted device 7 can access the internet to be in communication connection with the second network device 102.

The intelligent vehicle-mounted device 7 can be understood as any electronic device which can be suitable for being mounted on a vehicle and has access to the internet.

Therefore, the intelligent equipment suitable for the system can be compatible with intelligent wearable equipment which can only transmit data through the Internet and NB-IoT (NB-IoT) and intelligent vehicle-mounted equipment which can only transmit data through the Internet. Further enriching the variety of compatible smart devices.

In one embodiment, all the intelligent wearable devices 8, all the intelligent trash can devices 2, all the intelligent bag sending devices 3, and at least one target intelligent device of all the point redemption devices 4 are powered by a battery, the target intelligent device is connected to the internet through a mobile data communication module to be in communication connection with the second network device 102, and the target intelligent device is further connected to the NB-IoT through an NB-IoT data communication module to be in communication connection with the third network device 103.

It can be seen that the target device may be understood as an intelligent device in which at least one of all the intelligent devices can communicate by two means, and the following means which can contribute to saving electric energy is further designed for the intelligent device in the embodiment:

the battery is connected with an electric quantity detection circuit for detecting the electric quantity of the battery, and the electric quantity detection circuit is respectively and directly or indirectly connected with the mobile data communication module and the NB-IOT data communication module so as to enable: and the mobile data communication module and the NB-IOT data communication module are selected to be triggered to work according to the detected electric quantity.

In a specific implementation process, the electric quantity detection circuit can control the NB-IOT data communication module to work when the electric quantity is lower than a threshold value, and control the NB-IOT data communication module to work when the electric quantity is higher than the threshold value.

The electric quantity detection circuit can adopt any circuit structure capable of acquiring electric quantity information, can be suitable for any optional scheme of the prior related art, the acquired electric quantity information can be represented in a digital signal mode and also can be represented in an analog signal mode, if the analog signal mode is adopted, the electric quantity detection circuit can be connected to a first input end of a comparator, a reference voltage matched with a threshold value is accessed to a second input end of the comparator, an NB-IOT data communication module is connected to an output end of the comparator, and meanwhile, the NB-IOT data communication module is connected with a mobile data communication module through a phase inverter, or: the output end of the comparator is connected with the mobile data communication module and is also connected with the NB-IOT data communication module through an inverter, and further, the control can be realized by using a circuit mode.

Therefore, the power detection circuit can be used for selecting one of the mobile data communication module and the NB-IOT data communication module for use in the target intelligent device, and the power consumption of the NB-IOT data communication module is lower due to the fact that the power detection circuit is selected according to the power of the battery of the target intelligent device, and the scheme can be beneficial to matching with a proper power selection communication mode, so that the target intelligent device can be guaranteed to have longer endurance and service life.

Fig. 5 is a schematic diagram of a partial structure of a data processing platform according to an embodiment of the present invention.

In one embodiment, please refer to fig. 5, the data processing platform 1 further includes a first temperature detecting unit 110 for detecting a temperature of the first network device 101, a second temperature detecting unit 111 for detecting a temperature of the second network device 102, and a third temperature detecting unit 112 for detecting a temperature of the third network device 103, wherein the first temperature detecting unit 110, the second temperature detecting unit 111, and the third temperature detecting unit 112 are all connected to the trigger control circuit 105, so that the trigger control circuit 105 controls the corresponding network device to stop working when the temperature of any one of the network devices is greater than a temperature threshold.

Therefore, the above embodiment can trigger the network device according to the temperature detected by the temperature detection component, which can be beneficial to avoiding the damage or abnormal operation of the device caused by the overhigh temperature of the network device.

In one embodiment, the data processing platform 1 further includes an input interaction component 109, and the input interaction component 109 is connected to the trigger control circuit 105, so that the trigger control circuit 105 triggers at least one of the first network device 101, the second network device 102, and the third network device 103 to operate in response to a trigger operation.

Therefore, the method and the device can be suitable for personnel to actively control the work of each network device according to the real-time situation, and are favorable for meeting more various situations.

To sum up, the utility model provides a network wiring system for during the intelligent sanitation scene, can send out bag equipment, total mark exchange equipment these three kinds of smart machines with intelligent garbage bin equipment, intelligence and all insert data processing server to make the data of feedback can all be unified the data processing server who transmits to the data processing platform in, so that supply further processing, it provides the basis for further unified management, and is visible, the utility model provides a system no longer confines to the smart machine of single type, has effectively enriched smart machine's type.

And simultaneously, the utility model discloses to diversified smart machine, configured first network equipment, second network equipment and third network equipment, usable communication line, internet and thing networking communicate with smart machine respectively, have effectively improved the compatibility of the smart machine that can insert the system to and the compatibility of the applicable environment. Because the communication means of the Internet and the Internet of things are combined, wiring of part of intelligent equipment is not needed, and the cost and time of wiring can be saved.

Furthermore, the utility model discloses still be favorable to utilizing the trigger control circuit to select the network equipment that drops into use, this kind of alternative can be favorable to avoiding all network equipment to drop into use always simultaneously to can avoid the power consumption because of unnecessarily dropping into use and bring, and to network equipment's loss.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A network wiring system is used for a scene of intelligent sanitation and is characterized by comprising intelligent garbage can equipment, intelligent bag sending equipment, point exchanging equipment and a data processing platform; the data processing platform comprises a first network device, a second network device, a third network device, a trigger control circuit and a data processing server which is respectively connected with the first network device, the second network device and the third network device by using different communication interfaces;

the first network equipment is respectively connected with at least part of the intelligent garbage can equipment, at least part of the intelligent bag sending equipment and at least part of the point exchange equipment through communication lines;

the second network equipment can access the internet in a wired or wireless mode so as to be in communication connection with at least part of the intelligent garbage can equipment, at least part of the intelligent bag sending equipment and at least part of the point exchange equipment by utilizing the internet;

the third network equipment is wirelessly accessed to NB-IoT so as to utilize the NB-IoT to be in communication connection with at least part of the intelligent garbage can equipment, at least part of the intelligent bag sending equipment and at least part of the credit exchange equipment;

the trigger control circuit is respectively connected with the first network device, the second network device and the third network device directly or indirectly so as to trigger at least one of the first network device, the second network device and the third network device to work.

2. The system of claim 1, further comprising a smart wearable device that has access to the internet to communicatively connect with the second network device and that has access to the NB-IoT to communicatively connect with the third network device.

3. The system of claim 1, wherein at least one target smart device of all the smart wearable devices, all the smart trash can devices, all the smart bag sending devices and all the credit exchange devices is powered by a battery, the target smart device accesses the internet through a mobile data communication module to be in communication connection with the second network device, and the target smart device also accesses the NB-IoT through an NB-IoT data communication module to be in communication connection with the third network device;

the battery is connected with an electric quantity detection circuit for detecting the electric quantity of the battery, and the electric quantity detection circuit is respectively and directly or indirectly connected with the mobile data communication module and the NB-IOT data communication module so as to enable: and the mobile data communication module and the NB-IOT data communication module are selected to be triggered to work according to the detected electric quantity.

4. The system of claim 1, further comprising an intelligent vehicle-mounted device capable of accessing the internet to communicatively couple with the second network device.

5. The system of claim 1, wherein the data processing platform further comprises a fourth network device, and the fourth network device wirelessly accesses the internet to be communicatively connected with the mobile terminal or the computer of the person associated with the project by using the internet.

6. The system according to any one of claims 1 to 5, wherein the data processing server is connected with a display device to display feedback information of the intelligent trash can device, the intelligent bag issuing device and the point redemption device by using the display device.

7. The system of claim 6, wherein the display device comprises a plurality of display screens to display feedback information of the intelligent trash can device, the intelligent bag dispensing device and the credit redemption device in different geographic areas using different display screens.

8. The system according to any one of claims 1 to 5, wherein the data processing server is connected with a database server to store feedback information of the intelligent trash can device, the intelligent bag sending device and the point redemption device by using the database server.

9. The system according to any one of claims 1 to 5, wherein the data processing platform further comprises a first temperature detection component for detecting a temperature of the first network device, a second temperature detection component for detecting a temperature of the second network device, and a third temperature detection component for detecting a temperature of the third network device, and the first temperature detection component, the second temperature detection component, and the third temperature detection component are all connected to the trigger control circuit, so that the trigger control circuit controls the corresponding network device to stop operating when the temperature of any one of the network devices is greater than a temperature threshold.

10. The system of any one of claims 1 to 5, wherein the data processing platform further comprises an input interaction component coupled to the trigger control circuitry to cause the trigger control circuitry to trigger operation of at least one of the first network device, the second network device, and the third network device in response to a triggering operation.

Images