CN212747934U - Internet of things municipal pipe network non-full pipe flowmeter - Google Patents
Internet of things municipal pipe network non-full pipe flowmeter Download PDFInfo
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- CN212747934U CN212747934U CN202021558416.2U CN202021558416U CN212747934U CN 212747934 U CN212747934 U CN 212747934U CN 202021558416 U CN202021558416 U CN 202021558416U CN 212747934 U CN212747934 U CN 212747934U
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- 230000005540 biological transmission Effects 0.000 claims abstract description 32
- 230000006855 networking Effects 0.000 claims abstract description 5
- 230000005284 excitation Effects 0.000 claims description 12
- 239000007788 liquid Substances 0.000 claims description 12
- 238000000034 method Methods 0.000 description 5
- 238000001514 detection method Methods 0.000 description 2
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Abstract
The utility model discloses a non-full pipe flowmeter of thing networking municipal pipe network, include: the system comprises a converter, a sensor, a central server and a data transmission module; the converter is respectively connected with the sensor and the data transmission module; the data transmission module is connected with the central server; the utility model realizes the centralized management of the geographical positions of all the non-full pipe flow meters, the operation parameters of the equipment and other information through the central server, thereby facilitating the fault location of the equipment, improving the management efficiency and increasing the security guarantee of the equipment; and the data transmission module automatically uploads the related metering parameters of the non-full pipe flowmeter to the central server, so that the effective transmission of data is realized.
Description
Technical Field
The utility model belongs to the technical field of detection device and specifically relates to non-full pipe flowmeter of thing networking municipal pipe network.
Background
The traditional non-full pipe flowmeter generally comprises a sensor module, a converter module and an external power supply module, and the converter module is used for acquiring data in the sensor, calculating and acquiring flow speed and flow data.
Non-full pipe flow meters have been widely used in various industries, and their basic functions are well developed, but they have some disadvantages in terms of environmental suitability, equipment safety, and after-sales maintenance:
1. the device positioning function is not provided, the device is easy to lose, and the management is inconvenient.
2. The operation parameters of the equipment can only be checked on the instrument, and the checking in a narrow place is inconvenient.
3. The overhaul of the equipment needs to be tested after the material object is taken, and the advance prejudgment cannot be carried out.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a: aiming at the existing problems, the non-full pipe flowmeter of the municipal pipe network of the Internet of things is provided; the utility model solves the problem that the equipment is easy to lose; the problem that the equipment is inconvenient to manage is solved; the problem of inconvenient parameter viewing is solved; the problem of inconvenient maintenance is solved.
The utility model adopts the technical scheme as follows:
non-full pipe flowmeter of thing networking municipal pipe network includes: the system comprises a converter, a sensor, a central server and a data transmission module; the converter is respectively connected with the sensor and the data transmission module; the data transmission module is connected with the central server.
By adopting the structure, the sensor can detect various data and then start the data to the converter, the converter can calculate the data and generate a detection result, the result information can be sent to the central server through the data transmission module, and the central server can store and analyze the data to prevent equipment from breaking down.
Furthermore, the converter consists of a control module, a power supply module, an excitation module, an acquisition module, a signal output module and a data display module; the control module is respectively connected with the power supply module, the excitation module, the acquisition module, the signal output module and the data display module.
By adopting the structure, the excitation module can activate the sensor to detect data, the detected data can be sent to the acquisition module, the acquisition module sends the data to the control module, the control module calculates and processes the data information, the calculated result is transmitted to the data transmission module through the signal output module, and the data information can be sent to the data display module to be displayed.
Further, the acquisition module comprises: the device comprises an induced electromotive force acquisition module and a liquid level acquisition module.
Further, the sensor includes: electromagnetic sensors and dielectric constant sensors.
Further, the electromagnetic sensor is connected with an induced electromotive force acquisition module; the dielectric constant sensor is connected with the liquid level acquisition module.
By adopting the structure, the electromotive force acquisition module is used for acquiring flow velocity data, and the liquid level acquisition module is used for acquiring liquid level data.
Further, the system also comprises a receiving end; the receiving end is connected with the central server
Further, the receiving end comprises a mobile phone, a tablet and a computer.
By adopting the structure, the data information in the central server can be called through the receiving end, various data of the flow meter can be checked in real time,
to sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:
1. the utility model discloses a central server realizes the centralized management to information such as all non-full pipe flowmeter geographical position, equipment operating parameter, and the equipment trouble of being convenient for fixes a position, improves the managerial efficiency, increases the equipment security guarantee.
2. The utility model discloses a data transmission module automatically uploads central server with the relevant measurement parameter of non-full pipe flowmeter, realizes the effective transmission of data.
3. The utility model discloses a receiving terminal can convenience of customers use, makes to have stronger adaptive capacity to environment.
Drawings
The invention will now be described, by way of example, with reference to the accompanying drawings, in which:
FIG. 1 is a diagram of a non-full pipe flow meter configuration.
Wherein, 1-converter; 2-a sensor; 3-a data transmission module; 4-a central server; 5-a receiving end; 11-a control module; 12-an acquisition module; 13-an excitation module; 14-a signal output module; 15-a data display module; 16-a power supply module; 21-an electromagnetic sensor; 22-a dielectric constant sensor; 121-an induced electromotive force acquisition module; 122-liquid level collection module.
Detailed Description
All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.
Any feature disclosed in this specification (including any accompanying claims, abstract) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.
Example 1
Non-full pipe flowmeter of thing networking municipal pipe network includes: the system comprises a converter 1 for controlling and operating the flow meter, a sensor 2 for sensing flow data, a central server 4 for storing and transmitting data and a data transmission module 3 for communication; the converter 1 is respectively connected with the sensor 2 and the data transmission module 3; the data transmission module 3 is connected to a central server 4.
The converter 1 is composed of a control module 11, a power module 16, an excitation module 13, an acquisition module 12, a signal output module 14 and a data display module 15; the control module 11 is respectively connected with the power supply module 16, the excitation module 13, the acquisition module 12, the signal output module 14 and the data display module 15; the control module 11 is an MCU module, and is configured to perform operations on data entering the converter 1 and control the whole converter 1; the acquisition module 12 is configured to receive data information sent by the sensor 2 and send the information to the control module 11, and the acquisition module 12 includes an induced electromotive force acquisition module 121 and a liquid level acquisition module 122, which are respectively capable of acquiring a flow rate and a liquid level of the non-full pipe electromagnetic flowmeter; the excitation module 13 is connected with the sensor 2 and used for activating the sensor 2; the signal output module 14 is connected with the data transmission module 3 and is used for transmitting data information to the transmission module; the data display module 15 is configured to display the data information acquired by the acquisition module 12 in real time, and in this embodiment, the data display module 15 is a display; the power supply module 16 is connected to an external power supply for supplying the converter 1 with electrical energy.
The sensor 2 includes: an electromagnetic sensor 21 and a dielectric constant sensor 22; the electromagnetic sensor 21 is connected with the induced electromotive force acquisition module 121 and is used for enabling the induced electromotive force acquisition module 121 to acquire flow speed data information of the flowmeter; the electromagnetic sensor 21 is also connected with the excitation module 13, and the excitation module 13 can activate the electromagnetic sensor 21; the dielectric constant sensor 22 is connected to the liquid level collection module 122 for collecting liquid level data information of the flowmeter.
The data transmission module 3 is connected with the signal output module 14 and is used for transmitting the data information processed by the converter 1 to the central server 4; in this embodiment, the data transmission module 3 may be wired transmission or wireless transmission, and the wireless transmission may be performed through wifi, 4G or 5G; in this embodiment, the data transmission module 3 can transmit the IP address information of the device in real time, and the central server 4 performs positioning and map display on the device by combining the base station position, thereby improving the device safety and facilitating management.
The central server 4 is used for receiving the data information sent by the data transmission module 3, storing and analyzing the data information, and finding problems through data analysis to realize early positioning of faults; meanwhile, the central server 4 is also connected with the receiving terminal 5, and the data information in the central server 4 can be called through the receiving terminal 5; in this embodiment, the receiving end 5 is a mobile phone, a tablet, or a computer.
When the device is in use, the transducer 1 activates the sensor 2 through the excitation module 13, the sensor 2 starts to detect the flow rate and the liquid level, the detected data information is sent to the acquisition module 12 in the transducer 1 to be acquired, the acquisition module 12 sends the data information to the control module 11, the control module 11 calculates the data information, and the calculation results are respectively sent to the data display module 15 and the signal output module 14; the data display module 15 is a display screen and displays the calculated data information on the display screen; the signal output module 14 sends the data information to the data transmission module 3, the data transmission module 3 sends the data information to the central server 4, and the central server 4 stores and analyzes the data information after receiving the data information, so that the receiving module can conveniently call and check the data and judge whether the flow meter is in fault.
The utility model realizes the centralized management of the geographical positions of all the non-full pipe flow meters, the operation parameters of the equipment and other information through the central server 4, thereby facilitating the fault location of the equipment, improving the management efficiency and increasing the security guarantee of the equipment; the data transmission module 3 automatically uploads the related metering parameters of the non-full pipe flowmeter to the central server 4, so that the effective transmission of data is realized; the receiving end 5 can be used conveniently by users, so that the device has stronger environment adaptability.
The present invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification, and to any novel method or process steps or any novel combination of features disclosed.
Claims (7)
1. Non-full pipe flowmeter of thing networking municipal pipe network, its characterized in that includes: the system comprises a converter (1), a sensor (2), a central server (4) and a data transmission module (3); the converter (1) is respectively connected with the sensor (2) and the data transmission module (3); the data transmission module (3) is connected with the central server (4).
2. The Internet of things municipal pipe network non-full pipe flow meter according to claim 1, wherein the converter (1) is composed of a control module (11), a power module (16), an excitation module (13), an acquisition module (12), a signal output module (14) and a data display module (15); the control module (11) is respectively connected with the power supply module (16), the excitation module (13), the acquisition module (12), the signal output module (14) and the data display module (15).
3. The internet of things municipal pipe network non-full pipe flow meter according to claim 2, wherein said acquisition module (12) comprises: the device comprises an induced electromotive force acquisition module (121) and a liquid level acquisition module (122).
4. The internet of things municipal pipe network non-full pipe flow meter according to claim 1, wherein said sensor (2) comprises: an electromagnetic sensor (21) and a dielectric constant sensor (22).
5. The Internet of things municipal pipe network non-full pipe flowmeter according to claim 4, wherein the electromagnetic sensor (21) is connected to an induced electromotive force acquisition module (121); the dielectric constant sensor (22) is connected with the liquid level acquisition module (122).
6. The internet of things municipal pipe network non-full pipe flow meter according to claim 1, further comprising a receiving end (5); the receiving end (5) is connected with the central server (4).
7. The Internet of things municipal pipe network non-full pipe flow meter according to claim 6, wherein the receiving end (5) comprises a cell phone, a tablet and a computer.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021558416.2U CN212747934U (en) | 2020-07-31 | 2020-07-31 | Internet of things municipal pipe network non-full pipe flowmeter |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202021558416.2U CN212747934U (en) | 2020-07-31 | 2020-07-31 | Internet of things municipal pipe network non-full pipe flowmeter |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN212747934U true CN212747934U (en) | 2021-03-19 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202021558416.2U Active CN212747934U (en) | 2020-07-31 | 2020-07-31 | Internet of things municipal pipe network non-full pipe flowmeter |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN212747934U (en) |
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2020
- 2020-07-31 CN CN202021558416.2U patent/CN212747934U/en active Active
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Address after: 2107, Tower B, Maoye center, No.28, north section of Tianfu Avenue, high tech Zone, Chengdu, Sichuan 610041 Patentee after: Sichuan Zhongda Huarui Energy Group Co.,Ltd. Address before: 2107, Tower B, Maoye center, No.28, north section of Tianfu Avenue, high tech Zone, Chengdu, Sichuan 610041 Patentee before: Sichuan Huarui High Energy Technology Co.,Ltd. |
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| CP01 | Change in the name or title of a patent holder |