SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an intelligent regulation device and governing system for air-vent valve to solve the problem of how to realize remote monitoring, control air-vent valve.
In order to solve the technical problem, the utility model provides an intelligent regulating device for air-vent valve, it includes: the monitoring mechanism, the valve mechanism and the central control room; the monitoring mechanism is suitable for detecting pressure information in a pipeline in the pressure regulating valve body and sending the pressure information to the central control chamber, namely the central control chamber is suitable for controlling the valve mechanism to adjust the on-off of the inlet and the outlet of the pressure regulating valve body according to the pressure information.
Further, the valve mechanism includes: an inlet valve arranged at the inlet of the pressure regulating valve body and an outlet valve arranged at the outlet of the pressure regulating valve body; the inlet valve is suitable for adjusting the on-off of the inlet of the pressure regulating valve body; the outlet valve is suitable for adjusting the on-off of the outlet of the pressure regulating valve body.
Further, the monitoring mechanism includes: the monitoring processor, the pressure transmitter and the communication circuit are electrically connected with the monitoring processor; the pressure transmitter is suitable for collecting pressure data in a pipeline and sending the pressure data to the monitoring processor, namely the monitoring processor is suitable for transmitting the pressure data to a central control room through a communication circuit.
Further, the monitoring mechanism further comprises: the temperature transmitter is electrically connected with the monitoring processor; the temperature transmitter is suitable for collecting temperature data in a pipeline and sending the temperature data to the monitoring processor, namely the monitoring processor is suitable for transmitting the temperature data to a central control room through a communication circuit.
Further, the monitoring mechanism further comprises: a flow meter electrically connected to the monitoring processor; the flow meter is adapted to collect flow data in the pipeline for transmission to the monitoring processor, i.e. the monitoring processor is adapted to transmit the flow data to a central control room via a communication circuit.
Further, the intelligent adjusting device further comprises: the filter is arranged in the pipeline of the pressure regulating valve body, and the filter valve and the filter pipeline are electrically connected with the monitoring processor; the monitoring processor is suitable for controlling the filtering valve to be opened so as to discharge impurities filtered by the filter on the fuel gas in the pipeline through the filtering pipeline.
Further, the intelligent adjusting device further comprises: the bleeding valve and the bleeding pipeline are arranged inside the pipeline of the pressure regulating valve body and electrically connected with the monitoring processor; when the pressure data in the pipeline exceeds a set value, the monitoring processor is suitable for controlling the relief valve to be opened, namely the air pressure in the pipeline is released through the relief pipeline.
In another aspect, the present invention provides a regulating system, which includes: the intelligent regulating device comprises a pressure regulating valve body, a cabinet body and a control device, wherein the intelligent regulating device is used for regulating the pressure regulating valve; the monitoring mechanism in the intelligent regulating device is suitable for detecting pressure information in a pipeline in the pressure regulating valve body and sending the pressure information to the central control chamber, namely the central control chamber is suitable for controlling the valve mechanism to adjust the on-off of the inlet and the outlet of the pressure regulating valve body according to the pressure information.
The beneficial effects of the utility model are that, the utility model discloses a pressure information in the pipeline in the monitoring mechanism real-time supervision air-vent valve body, and through the break-make of the inlet of central control room long-range back and the adjustment air-vent valve body of control flap mechanism, export, realized the function of pressure-vent valve remote monitoring, avoided the risk of site operation to can alleviate the manpower that needs the on-the-spot observation in the industrial production, practice thrift the cost.
Example 1
Fig. 1 is a schematic block diagram of an intelligent regulating device for a pressure regulating valve according to the present invention;
FIG. 2 is a structural diagram of the pressure regulating valve of the present invention;
in the present embodiment, as shown in fig. 1, the present embodiment provides a smart regulation device for a pressure regulating valve, including: the monitoring mechanism, the valve mechanism and the central control room; the monitoring mechanism is suitable for detecting pressure information in a pipeline in the pressure regulating valve body 1 and sending the pressure information to the central control chamber, namely the central control chamber is suitable for controlling the valve mechanism to adjust the on-off of the inlet and the outlet of the pressure regulating valve body 1 according to the pressure information.
In this embodiment, the central control room may be an industrial personal computer, Siemens s71500 PLC.
In this embodiment, the pressure information includes pressure data, temperature data, and flow data in the pipeline.
In this embodiment, the pressure information in the pipeline of the pressure regulating valve body 1 is monitored in real time through the monitoring mechanism, and after the pressure information is remotely monitored through the central control chamber, the valve mechanism is controlled to adjust the on-off of the inlet and the outlet of the pressure regulating valve body 1, so that the function of remotely monitoring the pressure regulating valve is realized, the risk of field operation is avoided, the manpower required for field observation in industrial production can be reduced, and the cost is saved.
In this embodiment, in order to control the inlet and outlet of the pipeline, as an optional implementation, the valve mechanism includes: an inlet valve 201 provided at an inlet 101 of the pressure regulating valve body 1 and an outlet valve 202 provided at an outlet 102 of the pressure regulating valve body 1; the inlet valve 201 is suitable for adjusting the on-off of the inlet 101 of the pressure regulating valve body 1; the outlet valve 202 is suitable for adjusting the on-off state of the outlet 102 of the pressure regulating valve body 1.
In the present embodiment, the inlet valve 201 and the outlet valve 202 can be, but are not limited to, q41f-16p ball valves.
In this embodiment, the central control room is directly connected to the inlet valve 201 and the outlet valve 202 through the communication cable, so as to share the operating pressure of the monitoring mechanism, and meanwhile, the fault tolerance of the equipment can be improved by distributing the acquisition and control functions.
In the present embodiment, in order to monitor the internal pressure of the pipeline in the pressure regulating valve body 1, as an optional embodiment, the monitoring mechanism includes: the monitoring processor, the pressure transmitter and the communication circuit are electrically connected with the monitoring processor; the pressure transmitter is suitable for collecting pressure data in a pipeline and sending the pressure data to the monitoring processor, namely the monitoring processor is suitable for transmitting the pressure data to a central control room through a communication circuit.
In the present embodiment, the monitoring processor may employ, but is not limited to, an STM32 series processor.
In this embodiment, the pressure transmitter may be, but is not limited to, a Rosmont 3051T pressure transmitter.
In the present embodiment, the communication circuit may be, but is not limited to, a communication cable, a longshang a 95004G wireless communication module.
In this embodiment, in order to monitor the internal temperature of the pipeline in the pressure regulating valve body 1, as an optional implementation, the monitoring mechanism further includes: the temperature transmitter is electrically connected with the monitoring processor; the temperature transmitter is suitable for collecting temperature data in a pipeline and sending the temperature data to the monitoring processor, namely the monitoring processor is suitable for transmitting the temperature data to a central control room through a communication circuit.
In this embodiment, the temperature transmitter may be, but is not limited to, a Rosemont 3144P temperature transmitter.
In this embodiment, in order to monitor the flow rate inside the pipeline in the pressure regulating valve body 1, as an optional implementation manner, the monitoring mechanism further includes: a flow meter electrically connected to the monitoring processor; the flow meter is adapted to collect flow data in the pipeline for transmission to the monitoring processor, i.e. the monitoring processor is adapted to transmit the flow data to a central control room via a communication circuit.
In the present embodiment, the flow meter may be, but is not limited to, a TZ DN100 PN40 flow meter.
In this embodiment, through monitoring pressure regulating valve internal pressure, temperature, flow, can conveniently in time adjust pressure regulating valve, avoid the pressure regulating valve unstability out of control.
Fig. 3 is a control block diagram of the intelligent adjustment device of the present invention.
In this embodiment, as shown in fig. 3, as an optional implementation, the intelligent adjusting apparatus further includes: the filter is arranged in the pipeline of the pressure regulating valve body 1, and the filter valve 301 and the filter pipeline 302 are electrically connected with the monitoring processor; the monitoring processor is adapted to control the filter valve 301 to open to discharge the impurities filtered by the filter on the gas in the pipeline through the filter pipeline 302.
In the present embodiment, the filter may be, but is not limited to, an LSG-80/50S1.6G1.5 type filter.
In this embodiment, the filtering valve 301 can be, but is not limited to, a q41f-16p ball valve.
In this embodiment, filter in to the pipeline through the filter, avoid piling up the unstable risk that causes the gas transportation because of impurity to in time the blowdown can further improve equipment stability, promotes life.
In this embodiment, as an optional implementation manner, the intelligent adjusting apparatus further includes: the bleeding valve 401 and the bleeding pipeline 402 are arranged in the pipeline of the pressure regulating valve body 1 and are electrically connected with the monitoring processor; when the pressure data in the pipeline exceeds the set value, the monitoring processor is suitable for controlling the relief valve 401 to open, namely, the air pressure in the pipeline is released through the relief pipeline 402.
In this embodiment, the bleed valve 401 may be implemented as, but is not limited to, a q41f-16p ball valve.
In this embodiment, through real time monitoring, in time control the valve 401 of diffusing and open when the pipeline takes place unstability, can further promote the security and the intelligent degree of this equipment.