CN212670713U - Pipeline pressure detection equipment capable of being remotely controlled and automatically powered - Google Patents

Abstract

The utility model provides a pipeline pressure detection device which can be remotely controlled and automatically powered, which is characterized by comprising a water delivery pipeline and a pressure sensor, wherein the pressure sensor is arranged inside the water delivery pipeline and also comprises a hydroelectric generator and a battery; the water inlet of the hydroelectric generator is communicated with the water delivery pipeline through a water inlet pipe, and the water outlet of the hydroelectric generator is communicated with the water delivery pipeline through a water outlet pipe; the joint of the water inlet pipe and the water delivery pipeline is positioned at the upstream of the joint of the water outlet pipe and the water delivery pipeline; the power output end of the hydroelectric generator is electrically connected with the input end of the battery, and the output end of the battery is electrically connected with the power supply input end of the pressure sensor. The utility model aims at providing a but pipeline pressure check out test set of remote control and automatic power supply to prior art's defect exactly.

Description

Pipeline pressure detection equipment capable of being remotely controlled and automatically powered

Technical Field

The utility model relates to a pipeline pressure monitoring equipment makes, concretely relates to but pipeline pressure check out test set of remote control and automatic power supply.

Background

The traditional pipeline pressure monitoring equipment mainly comprises a power supply system and a pressure transmitter, wherein the power supply system mainly comprises a mains supply, a solar cell, a storage battery, a lithium battery and the like, the mains supply has the problem of inconvenient traction, the solar cell increases the installation and maintenance cost, the failure rate is high, the storage battery needs to be charged periodically, the service life of the lithium battery is limited, and the service life is shorter when the data acquisition and transmission frequency is high; in addition, because the traditional pressure monitoring equipment has low automation degree, and related data of monitoring and recording can only be observed and read manually, a lot of inconvenience is brought to management and operation of pipeline pressure monitoring, the labor intensity of workers is increased, and the operating cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a but pipeline pressure check out test set of remote control and automatic power supply to prior art's defect exactly.

The utility model provides a pipeline pressure detection device which can be remotely controlled and automatically powered, which is characterized by comprising a water delivery pipeline and a pressure sensor, wherein the pressure sensor is arranged inside the water delivery pipeline and also comprises a hydroelectric generator and a battery; the water inlet of the hydroelectric generator is communicated with the water delivery pipeline through a water inlet pipe, and the water outlet of the hydroelectric generator is communicated with the water delivery pipeline through a water outlet pipe; the joint of the water inlet pipe and the water delivery pipeline is positioned at the upstream of the joint of the water outlet pipe and the water delivery pipeline; the power output end of the hydroelectric generator is electrically connected with the input end of the battery, and the output end of the battery is electrically connected with the power supply input end of the pressure sensor.

In the technical scheme, the battery power supply device further comprises a signal collector, wherein the output end of the battery is electrically connected with the power supply input end of the signal collector; and the signal end of the pressure sensor is electrically connected with the signal end of the signal collector.

In the above technical scheme, the signal end of the signal collector is electrically connected with the signal end of the signal transceiving unit, and the signal end of the signal transceiving unit is electrically connected with the remote control system.

In the above technical solution, the signal transceiver unit includes a first signal transceiver unit and a second signal transceiver unit connected in series.

In the above technical solution, the first signal transceiver unit and the second signal transceiver unit adopt an RS485 communication unit, a network cable communication unit, a GSM communication unit, a 4G communication unit, or a 5G communication unit.

The utility model discloses a branch's rivers of conduit drive the generator electricity generation, and data processing system is supplied with to the electric energy, arranges rationally, and simple structure reduces electrical power generating system construction investment. The utility model discloses automatic acquisition, sending pressure monitoring data to remote control system, it is easy and simple to handle, improve work efficiency. The utility model discloses safe and reliable, installation, maintenance are more convenient, save the operation administrative cost.

Drawings

FIG. 1 is a system configuration diagram of the present invention;

FIG. 2 is a layout structure of the present invention;

wherein, 1-power supply system; 2-a data processing system; 3-a first signal transceiving unit; 4-a second signal transceiving unit; 5-remote control system; 1-water pipeline; 1-2-water inlet pipe; 1-3-generator; 1-4-water outlet pipe; 2-1-a battery; 2-a pressure sensor; 2-3-signal collector.

Detailed Description

The invention will be further described in detail with reference to the drawings and the following detailed description, which are provided for the purpose of clearly understanding the invention and are not intended to limit the invention.

As shown in the figure, the utility model provides a but pipeline pressure monitoring facilities of remote control and automatic power supply, including data processing system 2 and remote control system 5, data processing system 2 loops through first signal transceiver unit 3 and second signal transceiver unit 4 and is connected with remote control system 5. The data processing system 2 comprises a battery 2-1, a pressure sensor 2-2 and a signal collector 2-3. The pressure sensor and the signal collector adopt integrated equipment: such as 0-5V signal output and 12VDC power supply pressure transmitter. The remote control system may employ a computer.

As shown in fig. 2, the power supply system 1 includes a water inlet pipe 1-2, a hydro-generator 1-3, and a water outlet pipe 1-4. The hydroelectric generator 1-3 is respectively communicated with the upstream and the downstream of the water pipeline 1-1 through a water inlet pipe 1-2 and a water outlet pipe 1-4, and the hydroelectric generator 1-3 is also connected with a battery 2-1 of the data processing system.

Water in the water conveying pipeline 1-1 flows through the hydroelectric generator 1-3 through the water inlet pipe 1-2 and flows back to the water conveying pipeline 1-1 from the water outlet pipe 1-4 to finish closing. The water flows through the hydro-generator 1-3 to generate electrical energy, which supplies electricity to the battery 2-1. The battery 2-1 is respectively and electrically connected with the power supply input ends of the pressure sensor 2-2 and the signal collector 2-3 and is used for supplying power to the pressure sensor 2-2 and the signal collector 2-3. The battery, the signal collector, the sensor, the signal collector and the battery form a closed loop. The signal end of the pressure sensor is electrically connected with the signal end of the signal collector, and the pressure sensor 2-2 transmits the measured water pressure signal to the signal collector 2-3. The battery can adopt any battery product with charging and discharging functions on the market.

As shown in fig. 1, the signal collector 2-3 collects basic data and transmits the data to the second signal transceiver unit 4 through the first signal transceiver unit 3 after primary processing, and the second signal transceiver unit 4 transmits the data to the remote control system 5 after processing, so as to finally complete the collection of the water pressure signal. The first signal transceiving unit is used for a data transmission system, and the second signal transceiving unit is used for cloud processing. The hydroelectric generator can adopt a 12V direct-current small-sized water wheel DIY permanent magnet pipeline type brushless generator with a voltage-stabilizing hydroelectric generator.

The first signal transceiver unit 3 and the second signal transceiver unit 4 can be wired or wireless signal transceiver units, such as an RS485 communication unit, a network cable communication unit, a GSM communication unit, a 4G communication unit, a 5G communication unit, etc

The utility model discloses according to pipeline pressure monitoring's operating characteristics, utilize the mode of automatic acquisition signal to adopted the technique of hydroelectric generator power supply, realized pipeline pressure monitoring equipment's automatic power supply. And based on the modern computer control technology and the wireless network communication technology, an advanced management mode is adopted, and the remote control of the pipeline pressure monitoring is realized. The utility model discloses reduce the construction investment, reduced staff's intensity of labour, improved work efficiency, saved the operation administrative cost, made the product have more market competition.

Details not described in this specification are within the skill of the art that are well known to those skilled in the art.

Claims (5)

1. A pipeline pressure detection device capable of being remotely controlled and automatically powered is characterized by comprising a water pipeline and a pressure sensor, wherein the pressure sensor is arranged inside the water pipeline and further comprises a hydroelectric generator and a battery; the water inlet of the hydroelectric generator is communicated with the water delivery pipeline through a water inlet pipe, and the water outlet of the hydroelectric generator is communicated with the water delivery pipeline through a water outlet pipe; the joint of the water inlet pipe and the water delivery pipeline is positioned at the upstream of the joint of the water outlet pipe and the water delivery pipeline; the power output end of the hydroelectric generator is electrically connected with the input end of the battery, and the output end of the battery is electrically connected with the power supply input end of the pressure sensor.

2. The pipeline pressure detection device capable of being remotely controlled and automatically powered according to claim 1, characterized by further comprising a signal collector, wherein the output end of the battery is electrically connected with the power supply input end of the signal collector; and the signal end of the pressure sensor is electrically connected with the signal end of the signal collector.

3. The pipeline pressure detection device capable of being remotely controlled and automatically powered according to claim 2, wherein a signal end of the signal collector is electrically connected with a signal end of the signal transceiving unit, and the signal end of the signal transceiving unit is electrically connected with a remote control system.

4. The remotely controllable and automatically powerable pipe pressure detecting apparatus according to claim 3, wherein the signal transceiving unit comprises a first signal transceiving unit and a second signal transceiving unit connected in series.

5. The pipeline pressure detection device capable of being remotely controlled and automatically powered according to claim 4, wherein the first signal transceiver unit and the second signal transceiver unit adopt an RS485 communication unit, a network cable communication unit, a GSM communication unit, a 4G communication unit or a 5G communication unit.

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