CN110796793A - Steam flow monitoring heat supply network system and steam flow monitoring method - Google Patents

Abstract

The invention discloses a steam flow monitoring heat supply network system and a steam flow monitoring method, which relate to the technical field of heat supply network monitoring, and have the technical scheme that: the system comprises a user side, a network service platform and a service side, wherein the user side and the service side are respectively provided with a user account and a service account, the user account and the service account are respectively provided with a recharging button for recharging the steam allowance of a user, a steam control device is arranged on the network service platform, and the network service platform controls the user side to allow steam to be used and stop steam to be used through the steam control device after identifying the steam allowance of the user side. The invention solves the technical problem of large workload of manual meter reading, and has the advantage of reducing the workload of workers.

Description

Steam flow monitoring heat supply network system and steam flow monitoring method

Technical Field

The invention relates to the technical field of heat supply network monitoring, in particular to a steam flow monitoring heat supply network system and a steam flow monitoring method.

Background

In the prior art, the urging of the steam requires the notification of each family, and the default of part of the users will affect the insufficient economic fund flow of the steam supply unit.

In order to keep the capital of the steam gas supply company operating adequately, some companies choose to charge first and then supply gas, but users are more, and each household needs to carry out statistics, which is troublesome.

In the prior art, the gas consumption and the steam allowance recharged in advance in each user are counted in a mode of regularly checking a table, manual counting is carried out, and the workload is large.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to: the steam flow monitoring heat supply network system and the steam flow monitoring method have the advantage of more convenience in monitoring the steam consumption of a user.

The technical scheme includes that the steam flow monitoring heat supply network monitoring system comprises a user side, a network service platform and a service side, wherein the user side and the service side are respectively provided with a user account and a service account, the user account and the service account are respectively provided with a recharging button for recharging the steam allowance of a user, the network service platform is provided with a steam control device, and the network service platform controls the user side to allow steam to be used and stop steam to be used through the steam control device after recognizing the steam allowance of the user side.

Through the technical scheme, the control of the steam use of the user can be conveniently carried out by recharging through the recharging button, when the allowance is larger than zero, the service end supplies steam for the user side, and when the steam allowance is smaller than zero, the service end stops supplying steam for the user side.

A steam flow monitoring method is provided with a network service platform, wherein the network service platform judges whether the steam allowance of a user side is larger than zero, when the steam allowance of the user side is larger than zero, the network service platform allows the service side to supply steam to the user side, and when the network service platform judges that the steam allowance is smaller than zero, the service side stops supplying steam to the user side.

Through the technical scheme, the arrangement of the network platform reduces the work that the user staff at the server side visits to read the meter, record and control the valve, and reduces the workload of the staff.

Furthermore, a display window is arranged on the network service platform, a user side is provided with a user account, a service side is provided with a service account, and the user account and the service account look up the steam allowance of the user through the display window after logging in the network service platform.

Through above-mentioned technical scheme, can let the user conveniently look over own steam surplus through the display window, reduce because not knowing the influence that the sudden stop vapour that the steam surplus leads to caused the user to use vapour, the server looks up the display window and learns behind the steam surplus, conveniently pays the fee to the user and reminds.

Furthermore, the payment mode of the user side also comprises bank account recharging payment, after the transfer is successful, the telephone informs the service side, and service personnel receives the telephone and inquires the account, and then recharges the user side through the service account.

By the technical scheme, the bank transfer and telephone communication modes can enable the user to pay more conveniently.

Further, the user side is provided with an APP, and the user side logs in a user account through the APP and enters a display window to inquire the steam allowance.

Through above-mentioned technical scheme, remove APP, carry and login convenience, the inquiry steam surplus does not receive geographical position's restriction.

Furthermore, the mobile APP user side is provided with a recharging button, and the recharging button is clicked to recharge the user side.

Through the technical scheme, the recharging is more convenient through the mobile APP.

Furthermore, a steam supply pipeline of the user side is provided with one or a combination of a plurality of sensors of a pressure sensor, a temperature sensor and a flow sensor, and the network service platform receives detection signals sent by one or a plurality of sensors of the three sensors and then displays the detected data on a display window.

Through the technical scheme, the faults of steam supply can be predicted in advance by looking up the pressure, the temperature and the flow on the display window, and the faults are eliminated, so that the danger is reduced.

Further, when the detection signal received by the network service platform is abnormal, the abnormal data and other data show different colors.

Through the technical scheme, the alarm is realized through the setting of different colors, and convenience is brought to users and staff of the server side to look up.

Furthermore, an alarm preview window is arranged on the network service platform and used for showing all abnormal data.

Through the technical scheme, the server can look up data of all the clients, and can screen alarm data in a plurality of data through the alarm preview window, so that the data can be read more conveniently.

In conclusion, the invention has the following technical effects:

1. the network service platform can replace manual work such as on-site meter reading, lookup and the like, and a user can also remotely recharge at different places without being in butt joint with a worker on site, so that the work of the user is reduced;

2. remote recharging and APP recharging are more convenient;

3. through the mode of recharging in advance, the server-side is reduced because the user side does not recharge in time to cause the self detention, and the fund pressure is reduced.

Drawings

FIG. 1 is a flowchart of the method in example 1;

FIG. 2 is a diagram showing an operation of embodiment 1;

fig. 3 is a schematic diagram of the operation of another implementation manner in embodiment 1.

Detailed Description

Embodiment 1, a method for monitoring steam flow, refer to fig. 1 and 2.

The user using the steam is named as a user side, and the unit monitoring each index of the steam is named as a service side.

The first step is as follows: and (4) recharging.

In this embodiment, the payment mode includes field payment, mobile phone APP payment, remote payment, and rechargeable card recharging.

In order to facilitate payment, a network service platform is arranged, the network service platform is provided with an administrator account and a user account, a user side holds the user account, the server side holds the administrator account, the user account can only log in and inquire the information of the affiliated account, and the administrator account can inquire the information of all users after logging in.

The network service platform can log in through a PC (personal computer) end and also can log in through a mobile phone APP (application), and is provided with a recharging button and a balance inquiry button.

The field payment mode is that the user pays the fee to the server side from the server side, and the staff of the server side logs in the administrator account to recharge.

The APP payment mode is that a user account is logged in through a mobile phone APP, and recharging is carried out on the network service platform.

The remote payment method includes two payment methods, one is to log in a user account through a PC terminal and recharge on a network platform, the other is to transfer the fee to a server terminal through bank transfer, and a worker at the server terminal recharges the user through logging in the service account.

The rechargeable card payment method has two types, one type is as follows: the network service platform is provided with a rechargeable card account and a password, and the account corresponding to the rechargeable card account is charged with quantitative gas charge and is associated with the user side, so that the charge of the rechargeable card account is consumed in the steam using process of the user.

The network service platform is remotely connected with an account password identification terminal through GPRS, the account password identification terminal is provided with a radio frequency receiving device, the rechargeable card is provided with a radio frequency chip, and after the radio frequency chip is in contact with the radio frequency receiving device, the account password identification terminal identifies a password on the rechargeable card and logs in an account of the rechargeable card.

After the user purchases the rechargeable card at the service end, the rechargeable card is placed on the radio frequency receiving device, and the steam amount is obtained through the rechargeable card account.

With reference to fig. 3, another charging method for the rechargeable card is that the account number of the rechargeable card and the user account number are the same account, a radio frequency chip is disposed in the rechargeable card, the user account number and the user password are carried on the radio frequency chip, the user side is provided with a radio frequency sensing device, and the radio frequency sensing device, when the user side enters the login interface, the rechargeable card contacts the radio frequency sensing device, and the radio frequency sensing device identifies the account password on the radio frequency chip and then logs in the user side.

Because the account of the rechargeable card and the user account are the same account, account balance information on the rechargeable card can be inquired through the mobile phone APP.

And secondly, metering the allowance.

After recharging, the user starts to use steam, the user side is provided with a reading device for calculating the steam usage amount, the steam usage amount of the user side is sent to the network service platform by the steam reading device in real time, and the steam usage amount is recorded by a user account or a rechargeable card account corresponding to the user side on the network service platform.

In the network service platform, the usage calculating unit and the calculating method of the calculating unit are that the usage read by the reading device is subtracted from the steam usage obtained by payment to obtain the steam allowance, and a allowance display window is arranged for a user at the user end or a worker at the service end to log in an account for reference.

And thirdly, alarming for surplus and stopping steam due to arrearage.

Presetting a margin alarm value, when the steam margin is less than the margin alarm value, alarming, wherein the alarming mode can be as follows: the alarm system comprises a sound alarm, an indicator light alarm, a screen flashing alarm and a display color change alarm, wherein in the embodiment, the alarm mode is that the color of the residual amount information displayed on the residual amount display window changes.

And when the steam allowance is less than or equal to zero, performing steam stop processing on the user side corresponding to the user account.

The processing method of the steam stop treatment in the embodiment comprises the following steps: the steam supply end of the user side is provided with a valve, the valve is provided with a valve control device for controlling the valve by a user, the valve control device is in signal connection with the network service platform, when the steam allowance is less than zero, the network service platform sends a stop signal to the valve control device, and the valve control device controls the valve to be closed after receiving the stop signal.

And fourthly, safety monitoring.

A display window is arranged in a user account of a user side in the network service platform, and a detection device for detecting each index of the steam pipeline is arranged on the steam pipeline of the user side.

The detection device comprises a pressure sensor for detecting the pressure in the pipeline, a temperature sensor for detecting the temperature of steam in the pipeline and a flow sensor for detecting the use flow of the steam.

The pressure sensor, the temperature sensor and the flow sensor are all connected with a remote transmission chip and send out data signals, and the network service platform receives the data signals and displays the data signals on the display window.

In order to better facilitate the observation of the alarm information, a chart window is arranged on the account number of the server side, and the use information of all the clients is collected.

And an alarm preview button is also arranged in the server account, an alarm preview window is generated after the alarm preview button is clicked, all user accounts generating alarms and alarm information are displayed on the preview window, and the alarm information comprises the alarm information detected by the detection device and the residual alarm information.

The cloud storage and the information received on the network service platform are stored in the cloud storage in real time and used for looking up historical data.

The network service platform is provided with a printing button, the printing button is associated with a computer for logging in a user account or a service account, the printing button is clicked, and the printing function is realized through the computer.

The specific implementation process comprises the steps that a user downloads an APP, applies for a user account on the APP, a network service platform receives the application with the user and then sends a signal to a service end, a worker of the service end generates a service account after the service account is approved, the user charges at a user end, the service end stores steam consumption for the user account, and in the process of using steam by the user, after the temperature sensor, the pressure sensor and the flow sensor detect various data of the steam pipeline at the user end, the data is transmitted to the network service platform through the wireless transmission chip, the service account number and the user account number can be consulted through a display window on the network service platform, when any one of the data is abnormal, the data displayed on the network service platform is generated in different colors from other data, and inquiring through the user account and the service account, and looking up all alarm information through an alarm preview window.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a steam flow control heat supply network monitored control system which characterized in that: the system comprises a user side, a network service platform and a service side, wherein the user side and the service side are respectively provided with a user account and a service account, the user account and the service account are respectively provided with a recharging button for recharging the steam allowance of a user, a steam control device is arranged on the network service platform, and the network service platform controls the user side to allow steam to be used and stop steam to be used through the steam control device after identifying the steam allowance of the user side.

2. A steam flow monitoring method is characterized in that: and setting a network service platform, wherein the network service platform judges whether the steam allowance of the user side is larger than zero, when the steam allowance of the user side is larger than zero, the network service platform allows the service side to supply steam to the user side, and when the network service platform judges that the steam allowance is smaller than zero, the service side stops supplying steam to the user side.

3. The steam flow monitoring method of claim 2, wherein: the network service platform is provided with a display window, the user side sets a user account, the server side sets a service account, and the user account and the service account look up the steam allowance of the user through the display window after logging in the network service platform.

4. A steam flow monitoring method according to claim 3, characterized in that: the payment mode of the user side also comprises bank account recharging and payment, after the transfer is successful, the telephone informs the service side, and service personnel receives the telephone, inquires the account and recharges the user side through the service account.

5. The steam flow monitoring method of claim 2, wherein: the user side is provided with an APP, logs in a user account through the APP, and enters a display window to inquire the steam allowance.

6. The steam flow monitoring method of claim 5, wherein: the mobile APP user side is provided with a recharging button, and the recharging button is clicked to recharge the user side.

7. The steam flow monitoring method of claim 2, wherein: the network service platform receives detection signals sent by one or more sensors of the three sensors and displays the detected data on the display window.

8. The steam flow monitoring method of claim 7, wherein: when the detection signal received by the network service platform is abnormal, the abnormal data and other data show different colors.

9. The steam flow monitoring method of claim 8, wherein: and an alarm preview window is arranged on the network service platform and used for showing all abnormal data.

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