CN111306378A - Pipe network intelligent pipe card wireless sensing monitoring system - Google Patents
Pipe network intelligent pipe card wireless sensing monitoring system Download PDFInfo
- Publication number
- CN111306378A CN111306378A CN202010227832.2A CN202010227832A CN111306378A CN 111306378 A CN111306378 A CN 111306378A CN 202010227832 A CN202010227832 A CN 202010227832A CN 111306378 A CN111306378 A CN 111306378A
- Authority
- CN
- China
- Prior art keywords
- temperature
- pressure
- upper half
- half tile
- integrated sensor
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16L—PIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
- F16L21/00—Joints with sleeve or socket
- F16L21/06—Joints with sleeve or socket with a divided sleeve or ring clamping around the pipe-ends
- F16L21/065—Joints with sleeve or socket with a divided sleeve or ring clamping around the pipe-ends tightened by tangentially-arranged threaded pins
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17D—PIPE-LINE SYSTEMS; PIPE-LINES
- F17D3/00—Arrangements for supervising or controlling working operations
- F17D3/01—Arrangements for supervising or controlling working operations for controlling, signalling, or supervising the conveyance of a product
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Arrangements For Transmission Of Measured Signals (AREA)
- Measuring Fluid Pressure (AREA)
Abstract
The invention discloses a wireless sensing monitoring system for a pipe network intelligent pipe card. A wireless sensing monitoring system for intelligent pipe clamps of a pipe network comprises at least one group of distributed pipe networks, intelligent pipe clamps with corresponding quantity, intelligent pipe clamp local monitors and a master monitor, wherein the intelligent pipe clamps with corresponding quantity are respectively and sequentially arranged on pipe pipelines of the at least one group of distributed pipe networks; the intelligent pipe clamp comprises an upper half tile, a lower half tile, a rubber ring, a temperature and pressure integrated sensor and a pressure wireless transmitter. The invention realizes the monitoring of the safe operation of the water pressure and the water temperature of one group of distributed pipe networks or at least two groups of distributed pipe networks, simplifies the assembly process of the pipe networks and reduces the assembly cost of the pipe networks; and the competitiveness of the intelligent pipe card product is also improved.
Description
Technical Field
The invention belongs to a pipe network monitoring system, in particular to a pipe network intelligent pipe card wireless sensing monitoring system.
Background
The existing pipe network is generally divided into a group of distributed pipe networks or at least two groups of distributed pipe networks, is used for monitoring the running dynamic conditions of water pressure and water temperature of the pipe network, and is very necessary for the safe running of the pipe network. At present, the existing water pressure and water temperature monitoring devices of pipe networks mostly need to be assembled with additional equipment, the required assembly parts are more, the assembly process is complex, and the assembly cost of the pipe networks is high; meanwhile, the pipe clamp used for the existing pipe network pipeline connection is single in variety and function, serious in market homogenization and low in product competitiveness. How to prepare a kind of pipe network pipeline connection and use the intelligent pipe strap, realize to a set of distributed pipe network or at least two sets of distributed pipe network water pressure, temperature safe operation control, how to simplify the pipe network assembly process, reduce pipe network assembly cost is the problem that needs to solve.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: a wireless sensing monitoring system for a pipe network intelligent pipe card is provided. The pipe network intelligent pipe clamp wireless sensing monitoring system can monitor a group of distributed pipe networks or at least two groups of distributed pipe networks or safe operation of water pressure and water temperature, can simplify the assembly process of the pipe networks and reduce the assembly cost of the pipe networks; and the competitiveness of the intelligent pipe card product can be improved.
The technical scheme for solving the technical problems is as follows: the utility model provides a pipe network intelligence pipe card wireless sensing monitored control system, includes at least a set of distributed pipe network, characterized by: the intelligent pipe network monitoring system further comprises a corresponding number of intelligent pipe cards which are respectively and sequentially arranged on at least one group of distributed pipe network pipelines, an intelligent pipe card local monitor which monitors the corresponding number of intelligent pipe cards arranged on one group of distributed pipe network pipelines, and a master monitor which monitors at least two intelligent pipe card local monitors which are respectively and sequentially and correspondingly arranged on at least two groups of distributed pipe networks; the intelligent pipe clamp comprises an upper half tile, a lower half tile, a bolt and a nut which are respectively used and are buckled and connected with the two sides of the upper half tile and the lower half tile, a rubber ring in a rubber ring bin which is arranged on the upper half tile and the lower half tile, and a temperature and pressure integrated sensor, wherein the temperature and pressure integrated sensor is provided with an external connection wire, the external connection end part of the temperature and pressure integrated sensor is provided with a connection plug, the arc top position of the inner wall of the upper half tile rubber ring bin is a temperature and pressure integrated sensor mounting part, the arc top of the inner wall of the upper half tile rubber ring bin is a plane, the lower bottom surface of the temperature and pressure integrated sensor mounting part is a plane, the inner concave groove is arranged on the temperature and pressure integrated sensor mounting part, the arc top of the inner wall of the upper half tile rubber ring bin is a plane, and the inner concave groove arranged on the temperature and pressure integrated sensor mounting part can accommodate the temperature and pressure integrated sensor, the upper half tile wall corresponding to the concave groove arranged on the arc top and the lower bottom surface of the inner wall of the upper half tile rubber ring bin is provided with a through hole for leading out an external connection wire of the temperature-pressure integrated sensor, and the through hole for leading out the external connection wire of the temperature-pressure integrated sensor arranged on the upper half tile wall is matched with the external connection wire of the temperature-pressure integrated sensor; the rubber ring is provided with a temperature pressure conduction part, the temperature pressure conduction part of the rubber ring is a boss with a plane, and the temperature pressure conduction part of the rubber ring with the boss with the plane is matched with an inward concave groove arranged on the temperature and pressure integrated sensor mounting part of which the lower bottom surface of the arc top of the inner wall of the upper half rubber ring bin is a plane; the temperature and pressure wireless transmitter installation part is arranged at the peripheral position of an external wiring through hole of the temperature and pressure integrated sensor led out from the top surface of the upper half tile, the partial top surface of the temperature and pressure wireless transmitter installation part is a plane, and the temperature and pressure wireless transmitter is fixedly installed on the temperature and pressure wireless transmitter installation part of which the peripheral edge of the upper half tile top surface is a plane in a bonding way; when the upper half tile and the lower half tile are buckled and connected by using bolts and nuts, and the rubber ring is arranged in a rubber ring bin arranged on the upper half tile and the lower half tile, the temperature and pressure integrated sensor can be embedded and installed in a space surrounded by a temperature and pressure transmission part with a plane boss on the rubber ring and an inner concave groove arranged on a temperature and pressure integrated sensor installation part with a plane lower bottom surface at the arc top of the inner wall of the upper half tile bin, an external connection wire of the temperature and pressure integrated sensor can be spliced and connected with a temperature and pressure input interface which is fixedly installed on the upper half tile wall and is provided with a temperature and pressure wireless transmitter installation part and a temperature and pressure input interface which are fixedly connected with the circumferential edge of a through hole on the upper top surface of the upper half tile wall by using an end wiring plug, and the temperature and pressure integrated sensor can be in contact with the temperature and pressure transmission part with the plane boss on the rubber ring and can transmit medium temperature and pressure signals to the temperature and temperature of a pipeline of a, The temperature and pressure wireless transmitter can transmit the temperature and pressure signals of the distributed pipe network group pipeline installed on the intelligent pipe card to the intelligent pipe card local monitor, and the temperature and pressure signals of the distributed pipe network group pipeline installed on the intelligent pipe card can be transmitted to the intelligent pipe card local monitor and can be transmitted to a master monitor for monitoring at least two intelligent pipe card local monitors;
the temperature and pressure wireless transmitter is one of 1 output interface temperature and pressure wireless transmitter, 2 output interface temperature and pressure wireless transmitters and 4 output interface temperature and pressure wireless transmitters.
The installation and use processes of the intelligent pipe clamp are as follows: the upper half tile and the lower half tile are buckled and connected by using bolts and nuts, a rubber ring is arranged in a rubber ring bin which is arranged on the upper half tile and the lower half tile, a temperature and pressure integrated sensor is embedded and arranged in a space which is surrounded by a temperature and pressure conducting part with a plane boss of the rubber ring and an inner concave groove which is arranged on the installing part of the temperature and pressure integrated sensor with the plane bottom surface of the arc top of the inner wall of the rubber ring bin of the upper half tile, an external connecting wire of the temperature and pressure integrated sensor is fixedly arranged in a space which is surrounded by a temperature and pressure integrated sensor which is arranged on the plane periphery of a through hole on the top surface of the upper half tile by using an end part connecting plug and strong glue, a temperature and pressure input interface which is arranged on the installing part of the pressure wireless transmitter and a through hole which is arranged on the wall of the upper half tile and is penetrated by the external connecting wire of the temperature and pressure integrated sensor in a sealing way by using the strong glue, the temperature and pressure integrated sensor and the rubber ring are in contact with each other through a plane boss temperature and pressure conducting part and conduct the temperature and pressure signals of a pipeline conveying medium of a distributed pipe network group pipeline where the intelligent pipe clamp is installed to the temperature and pressure wireless transmitter, the temperature and pressure wireless transmitter transmits the temperature and the pressure signals of the distributed pipe network group pipeline where the intelligent pipe clamp is installed to the pressure and pressure wireless transmitter, the temperature and pressure signals of the distributed pipe network group pipeline where the intelligent pipe clamp is installed transmit the temperature and the pressure signals to the intelligent pipe clamp local monitor, and the temperature and the pressure signals are transmitted to the master monitor for monitoring at least two intelligent pipe clamp local monitors.
The invention has the beneficial effects that: the intelligent pipe card local monitors are used for monitoring the intelligent pipe cards of which the quantity is correspondingly arranged on the pipeline of the distributed pipe network, and the master monitor is used for monitoring at least two intelligent pipe card local monitors of which the quantity is correspondingly arranged on the pipeline of the distributed pipe network; the intelligent pipe clamp comprises an upper half tile, a lower half tile, a rubber ring arranged in a rubber ring bin which is arranged on the upper half tile and the lower half tile in a bolt and nut buckling manner, and a temperature and pressure integrated sensor, wherein the temperature and pressure integrated sensor is provided with an external connection wire, and a through hole for leading out the external connection wire of the temperature and pressure integrated sensor is arranged on the wall of the upper half tile; the rubber ring is provided with a temperature and pressure conducting part, the temperature and pressure conducting part of the rubber ring is a boss with a plane, the temperature and pressure conducting part of the rubber ring with the boss with the plane is matched with an inner concave groove arranged on the installation part of the temperature and pressure integrated sensor with the arc top and the arc top of the inner wall of the upper half rubber ring bin and the lower bottom surface of the arc top and the lower bottom surface of the inner wall of the upper half rubber ring bin being a plane, and the temperature and pressure integrated sensor is embedded and installed in a space surrounded by the inner concave groove arranged on the installation part of the temperature and pressure integrated sensor with the plane temperature and pressure conducting part of the rubber ring and the arc top and the lower bottom; the temperature and pressure wireless transmitter is fixedly arranged on the mounting part of the temperature and pressure wireless transmitter in a bonding way, wherein the periphery of the through hole on the top surface of the upper half tile is a plane. The invention realizes the monitoring of the safe operation of the water pressure and the water temperature of one group of distributed pipe networks or at least two groups of distributed pipe networks, simplifies the assembly process of the pipe networks and reduces the assembly cost of the pipe networks; and the competitiveness of the intelligent pipe card product is also improved.
Drawings
The invention is further explained below with reference to the figures and examples;
FIG. 1 is a schematic diagram of a structure for monitoring water pressure and water temperature of a group of distributed pipe networks according to an embodiment 1 of the present invention;
fig. 2 is a schematic view of a structure for monitoring water pressure and water temperature of three groups of distributed pipe networks in embodiment 2 of the present invention;
FIG. 3 is a schematic diagram of the structure of the smart pipe card of the present invention;
FIG. 4 is a left side view of the smart pipe card of the present invention;
FIG. 5 is an enlarged view of a portion of FIG. 4 of the smart card of the present invention;
FIG. 6 is a schematic diagram of an explosion installation structure of the smart pipe clamp of the present invention;
in the drawings: 1. the intelligent pipe clamp comprises an intelligent pipe clamp body, 2 parts of an intelligent pipe clamp local monitor, 3 parts of a main monitor, 11 parts of a lower half tile, 12 parts of a lower half tile, 13 parts of bolts, 14 parts of nuts, 15 parts of rubber rings, 16 parts of a temperature and pressure integrated sensor, 111 parts of an inner concave groove, 112 parts of through holes, 151 parts of a temperature and pressure conducting part, 17 parts of a temperature and pressure wireless transmitter, 171 parts of 1 output interface temperature, a pressure wireless transmitter and 172.2 output interface temperature and pressure wireless transmitters.
Detailed Description
The present invention is described in further detail below with reference to specific examples.
Example 1
As shown in fig. 1, fig. 3, fig. 4, fig. 5, and fig. 6, a pipe network smart pipe card wireless sensing monitoring system includes a group of distributed pipe networks (not shown in the attached drawings of the specification), and is characterized in that: the intelligent pipe network monitoring system also comprises a corresponding number of intelligent pipe cards 1 which are respectively and sequentially arranged on a group of distributed pipe network pipelines (not shown in the attached drawing of the specification), and an intelligent pipe card local monitor 2 which monitors the corresponding number of intelligent pipe cards arranged on the group of distributed pipe network pipelines; the intelligent pipe clamp comprises an upper half tile 11 and a lower half tile 12, a bolt 13 and a nut 14 which are respectively used are buckled and connected on two sides of the upper half tile 11 and the lower half tile 12, a rubber ring 15 in a rubber ring bin which is arranged on the upper half tile 11 and the lower half tile 12 is buckled and connected with the bolt 13 and the nut 14, the temperature and pressure integrated sensor 16 is provided with an external connecting wire (not shown in the drawing of the specification), the external connecting wire end part of the temperature and pressure integrated sensor 16 is provided with a connecting plug (not shown in the drawing of the specification), the arc top position of the inner wall of the rubber ring bin of the upper half tile 11 is a temperature and pressure integrated sensor mounting part, the arc top of the inner wall of the rubber ring bin of the upper half tile 11 is a plane, the arc top and the lower bottom surface of the inner wall of the rubber ring bin of the upper half tile 11 are flat, a groove 111 is arranged on the concave temperature and pressure integrated sensor mounting part, and the arc top and the lower bottom surface of the inner wall of the rubber ring bin of the upper half tile 11 is flat surface The inner concave groove 111 can accommodate the temperature and pressure integrated sensor 16, a through hole 112 for leading out an external line of the temperature and pressure integrated sensor 16 is arranged on the upper half tile wall corresponding to the inner concave groove 111 arranged on the temperature and pressure integrated sensor mounting part with the arc top and the lower bottom surface of the inner wall of the rubber ring bin of the upper half tile 11 being a plane, and the through hole 112 for leading out the external line of the temperature and pressure integrated sensor 16 arranged on the wall of the upper half tile 11 is matched with the external line of the temperature and pressure integrated sensor 16; the rubber ring 15 is provided with a temperature and pressure conducting part 151, the temperature and pressure conducting part 151 of the rubber ring 15 is a boss with a plane, and the temperature and pressure conducting part of the rubber ring 15 with the boss with the plane is matched with an inward concave groove 111 arranged on a temperature and pressure integrated sensor mounting part of which the lower bottom surface of the arc top of the inner wall of the rubber ring bin of the upper half tile 11 is a plane; the peripheral position of the external wiring through hole 111 of the temperature and pressure integrated sensor led out from the top surface of the upper half tile 11 is a temperature and pressure wireless transmitter installation part, the peripheral position of the through hole 111 on the top surface of the upper half tile 11 is a plane, and the temperature and pressure wireless transmitter 17 is fixedly installed on the temperature and pressure wireless transmitter installation part of which the peripheral position of the through hole 111 on the top surface of the upper half tile 11 is a plane by using super glue; when the upper half tile 11 and the lower half tile 12 are buckled and connected by using the bolts 13 and the nuts 14, and the rubber ring 15 is arranged in a rubber ring bin arranged on the upper half tile 11 and the lower half tile 12, the temperature and pressure integrated sensor 16 can be embedded and arranged in a space enclosed by a temperature and pressure conducting part with a plane boss of the rubber ring 15 and an inner concave groove 111 arranged on the installation part of the temperature and pressure integrated sensor with a plane inner wall arc top and a plane lower bottom surface of the rubber ring bin of the upper half tile 11, an external connection wire of the temperature and pressure integrated sensor 16 can be spliced and fixedly arranged in a temperature and pressure wireless transmitter installation part with a plane periphery of a through hole 112 on the top surface of the upper half tile 11 by using an end connection plug, meanwhile, a through hole arranged on the wall of the upper half tile through which the external connection wire of the temperature and pressure integrated sensor passes is sealed and plugged by using strong glue, and the external connection wire of the temperature and pressure integrated sensor is fixedly connected in the through hole arranged on the wall of the upper half tile, the temperature and pressure integrated sensor 16 can be in contact with a temperature and pressure conducting part of the rubber ring 15 with a plane boss and can conduct a medium temperature and pressure signal transmitted by a pipeline of a distributed pipe network group pipeline where the intelligent pipe clamp 1 is installed to a temperature and pressure wireless transmitter 17, and the temperature and pressure wireless transmitter 17 can transmit the temperature and pressure signal of the distributed pipe network group pipeline where the intelligent pipe clamp 1 is installed to the intelligent pipe clamp local monitor 2; the temperature and pressure wireless transmitter 17 is a wireless transmitter 171 with 1 output interface temperature and pressure;
the number of the intelligent pipe cards 1 on the group of distributed pipe network pipes (not shown in the attached drawing of the specification) is 5.
Example 2
As shown in fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, a pipe network smart pipe card wireless sensing monitoring system includes two groups of distributed pipe networks (not shown in the attached drawings of the specification), and is characterized in that: the intelligent pipe network monitoring system further comprises a corresponding number of intelligent pipe cards 1 which are respectively and sequentially installed on two groups of distributed pipe network pipelines (not shown in the attached drawing of the specification), 2 intelligent pipe card local monitors 2 which are respectively and sequentially used for monitoring the corresponding number of intelligent pipe cards installed on the two groups of distributed pipe network pipelines, and a master monitor 3 which is used for monitoring 2 intelligent pipe card local monitors which are respectively and sequentially and correspondingly arranged on the two groups of distributed pipe networks; the intelligent pipe clamp comprises an upper half tile 11 and a lower half tile 12, a bolt 13 and a nut 14 which are respectively used are buckled and connected on two sides of the upper half tile 11 and the lower half tile 12, a rubber ring 15 in a rubber ring bin which is arranged on the upper half tile 11 and the lower half tile 12 is buckled and connected with the bolt 13 and the nut 14, the temperature and pressure integrated sensor 16 is provided with an external connecting wire (not shown in the drawing of the specification), the external connecting wire end part of the temperature and pressure integrated sensor 16 is provided with a connecting plug (not shown in the drawing of the specification), the arc top position of the inner wall of the rubber ring bin of the upper half tile 11 is a temperature and pressure integrated sensor mounting part, the arc top of the inner wall of the rubber ring bin of the upper half tile 11 is a plane, the arc top and the lower bottom surface of the inner wall of the rubber ring bin of the upper half tile 11 are flat, a groove 111 is arranged on the concave temperature and pressure integrated sensor mounting part, and the arc top and the lower bottom surface of the inner wall of the rubber ring bin of the upper half tile 11 is flat surface The inner concave groove 111 can accommodate the temperature and pressure integrated sensor 16, a through hole 112 for leading out an external line of the temperature and pressure integrated sensor 16 is arranged on the upper half tile wall corresponding to the inner concave groove 111 arranged on the temperature and pressure integrated sensor mounting part with the arc top and the lower bottom surface of the inner wall of the rubber ring bin of the upper half tile 11 being a plane, and the through hole 112 for leading out the external line of the temperature and pressure integrated sensor 16 arranged on the wall of the upper half tile 11 is matched with the external line of the temperature and pressure integrated sensor 16; the rubber ring 15 is provided with a temperature and pressure conducting part 151, the temperature and pressure conducting part 151 of the rubber ring 15 is a boss with a plane, and the temperature and pressure conducting part of the rubber ring 15 with the boss with the plane is matched with an inward concave groove 111 arranged on a temperature and pressure integrated sensor mounting part of which the lower bottom surface of the arc top of the inner wall of the rubber ring bin of the upper half tile 11 is a plane; the peripheral position of the external wiring through hole 111 of the temperature and pressure integrated sensor led out from the top surface of the upper half tile 11 is a temperature and pressure wireless transmitter installation part, the peripheral position of the through hole 111 on the top surface of the upper half tile 11 is a plane, and the temperature and pressure wireless transmitter 17 is fixedly installed on the temperature and pressure wireless transmitter installation part of which the peripheral position of the through hole 111 on the top surface of the upper half tile 11 is a plane by using super glue; when the upper half tile 11 and the lower half tile 12 are buckled and connected by using the bolts 13 and the nuts 14, and the rubber ring 15 is arranged in a rubber ring bin arranged on the upper half tile 11 and the lower half tile 12, the temperature and pressure integrated sensor 16 can be embedded and arranged in a space surrounded by a temperature and pressure conducting part with a plane boss of the rubber ring 15 and an inner concave groove 111 arranged on the installation part of the temperature and pressure integrated sensor with a plane arc top and a lower bottom surface of the inner wall of the rubber ring bin of the upper half tile 11, an external connection wire of the temperature and pressure integrated sensor 16 can be spliced and fixedly arranged in a temperature and pressure wireless transmitter installation part with a plane periphery of a through hole 112 on the top surface of the upper half tile 11 by using an end connection plug, meanwhile, a through hole arranged on the wall of the upper half tile through which the external connection wire of the temperature and pressure integrated sensor passes is sealed and plugged by using strong glue, and the external connection wire of the temperature and pressure integrated sensor is fixedly connected in the through hole arranged on the wall of the, the temperature and pressure integrated sensor 16 can be in contact with a temperature and pressure conducting part of the rubber ring 15 with a plane boss and can conduct a temperature and pressure signal of a transmission medium of a pipeline of a distributed pipe network where the intelligent pipe clamp 1 is installed to a temperature and pressure wireless transmitter 17, the temperature and pressure wireless transmitter 17 can transmit the temperature and pressure signal of the pipeline of the distributed pipe network where the intelligent pipe clamp 1 is installed to the local monitor 2 of the intelligent pipe clamp, the temperature and pressure of the pipeline of the distributed pipe network group where the intelligent pipe clamp is installed are transmitted to the local monitor 2 of the intelligent pipe clamp, and the temperature and pressure signal can be transmitted to a master monitor 3 for monitoring the local monitors 2 of the two intelligent pipe clamps; the temperature and pressure wireless transmitter 17 is one of 1 output interface temperature, pressure wireless transmitter 171 or 2 output interface temperature and pressure wireless transmitter 172;
the number of corresponding intelligent pipe clamps 1 on one group of distributed pipe network pipeline (not shown in the attached drawing of the specification) in the two groups of distributed pipe network pipelines is 3, and the temperature and pressure wireless transmitters arranged on the intelligent pipe clamps 1 are 1 output interface temperature and pressure wireless transmitters 171; the number of the corresponding intelligent pipe clamps 1 on another group of distributed pipe network pipe lines (not shown in the attached drawings of the specification) is 7, wherein the temperature and pressure wireless transmitters installed on 4 intelligent pipe clamps 1 are 1 output interface temperature and pressure wireless transmitter 171, and the temperature and pressure wireless transmitters installed on the other 3 intelligent pipe clamps 1 are 2 output interface temperature and pressure wireless transmitters 172.
From the above description, those skilled in the art can make various changes and modifications within the scope of the technical idea of the present invention without departing from the scope of the invention. The present invention is not limited to the details given herein, but is within the ordinary knowledge of those skilled in the art.
Claims (2)
1. The utility model provides a pipe network intelligence pipe card wireless sensing monitored control system, includes at least a set of distributed pipe network, characterized by: the intelligent pipe network monitoring system further comprises a corresponding number of intelligent pipe cards which are respectively and sequentially arranged on at least one group of distributed pipe network pipelines, an intelligent pipe card local monitor which monitors the corresponding number of intelligent pipe cards arranged on one group of distributed pipe network pipelines, and a master monitor which monitors at least two intelligent pipe card local monitors which are respectively and sequentially and correspondingly arranged on at least two groups of distributed pipe networks; the intelligent pipe clamp comprises an upper half tile, a lower half tile, a bolt and a nut which are respectively used and are buckled and connected with the two sides of the upper half tile and the lower half tile, a rubber ring in a rubber ring bin which is arranged on the upper half tile and the lower half tile, and a temperature and pressure integrated sensor, wherein the temperature and pressure integrated sensor is provided with an external connection wire, the external connection end part of the temperature and pressure integrated sensor is provided with a connection plug, the arc top position of the inner wall of the upper half tile rubber ring bin is a temperature and pressure integrated sensor mounting part, the arc top of the inner wall of the upper half tile rubber ring bin is a plane, the lower bottom surface of the temperature and pressure integrated sensor mounting part is a plane, the inner concave groove is arranged on the temperature and pressure integrated sensor mounting part, the arc top of the inner wall of the upper half tile rubber ring bin is a plane, and the inner concave groove arranged on the temperature and pressure integrated sensor mounting part can accommodate the temperature and pressure integrated sensor, the upper half tile wall corresponding to the concave groove arranged on the arc top and the lower bottom surface of the inner wall of the upper half tile rubber ring bin is provided with a through hole for leading out an external connection wire of the temperature-pressure integrated sensor, and the through hole for leading out the external connection wire of the temperature-pressure integrated sensor arranged on the upper half tile wall is matched with the external connection wire of the temperature-pressure integrated sensor; the rubber ring is provided with a temperature pressure conduction part, the temperature pressure conduction part of the rubber ring is a boss with a plane, and the temperature pressure conduction part of the rubber ring with the boss with the plane is matched with an inward concave groove arranged on the temperature and pressure integrated sensor mounting part of which the lower bottom surface of the arc top of the inner wall of the upper half rubber ring bin is a plane; the temperature and pressure wireless transmitter installation part is arranged at the peripheral position of an external wiring through hole of the temperature and pressure integrated sensor led out from the top surface of the upper half tile, the partial top surface of the temperature and pressure wireless transmitter installation part is a plane, and the temperature and pressure wireless transmitter is fixedly installed on the temperature and pressure wireless transmitter installation part of which the peripheral edge of the upper half tile top surface is a plane in a bonding way; when the upper half tile and the lower half tile are buckled and connected by using bolts and nuts, and the rubber ring is arranged in a rubber ring bin arranged on the upper half tile and the lower half tile, the temperature and pressure integrated sensor can be embedded and installed in a space surrounded by a temperature and pressure transmission part with a plane boss on the rubber ring and an inner concave groove arranged on a temperature and pressure integrated sensor installation part with a plane lower bottom surface at the arc top of the inner wall of the upper half tile bin, an external connection wire of the temperature and pressure integrated sensor can be spliced and connected with a temperature and pressure input interface which is fixedly installed on the upper half tile wall and is provided with a temperature and pressure wireless transmitter installation part and a temperature and pressure input interface which are fixedly connected with the circumferential edge of a through hole on the upper top surface of the upper half tile wall by using an end wiring plug, and the temperature and pressure integrated sensor can be in contact with the temperature and pressure transmission part with the plane boss on the rubber ring and can transmit medium temperature and pressure signals to the temperature and temperature of a pipeline of a, The wireless transmitter of pressure, this temperature, the wireless transmitter of pressure can transmit this intelligent pipe strap installation distributed pipe network group pipeline temperature, pressure signal for the local watch-dog of intelligent pipe strap, and this intelligent pipe strap installation distributed pipe network group pipeline temperature, pressure transmission for the local watch-dog of intelligent pipe strap can transmit temperature, pressure signal for the master monitoring ware of two at least intelligent pipe strap local watch-dogs of control.
2. The pipe network intelligent pipe card wireless sensing monitoring system according to claim 1, characterized in that: the temperature and pressure wireless transmitter is one of 1 output interface temperature and pressure wireless transmitter, 2 output interface temperature and pressure wireless transmitters and 4 output interface temperature and pressure wireless transmitters.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202010227832.2A CN111306378A (en) | 2020-03-27 | 2020-03-27 | Pipe network intelligent pipe card wireless sensing monitoring system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202010227832.2A CN111306378A (en) | 2020-03-27 | 2020-03-27 | Pipe network intelligent pipe card wireless sensing monitoring system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN111306378A true CN111306378A (en) | 2020-06-19 |
Family
ID=71157373
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202010227832.2A Withdrawn CN111306378A (en) | 2020-03-27 | 2020-03-27 | Pipe network intelligent pipe card wireless sensing monitoring system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN111306378A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022005275A1 (en) * | 2020-06-30 | 2022-01-06 | Petroliam Nasional Berhad (Petronas) | An inspection system, a clamping structure and an inspection method in association with the inspection system |
-
2020
- 2020-03-27 CN CN202010227832.2A patent/CN111306378A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022005275A1 (en) * | 2020-06-30 | 2022-01-06 | Petroliam Nasional Berhad (Petronas) | An inspection system, a clamping structure and an inspection method in association with the inspection system |
EP4172530A4 (en) * | 2020-06-30 | 2024-07-17 | Petroliam Nasional Berhad Petronas | An inspection system, a clamping structure and an inspection method in association with the inspection system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN205402250U (en) | Intelligent monitoring system of petroleum transportation pipeline | |
CN111306378A (en) | Pipe network intelligent pipe card wireless sensing monitoring system | |
CN212080415U (en) | Pipe network intelligent pipe card wireless sensing monitoring system | |
CN204962103U (en) | Pipe flange | |
CN215722601U (en) | Water supply network leakage detection device based on Internet of things | |
CN202855401U (en) | Cable and ultrasonic vibration device using cable | |
CN105371889A (en) | Pipeline fluid monitoring system | |
CN106229911B (en) | A kind of cable channel plugging device | |
CN110748718A (en) | Transmission apparatus | |
CN204269146U (en) | Pipeline fluid monitor | |
CN204269147U (en) | Pipeline fluid monitoring system | |
CN210003997U (en) | pipeline connector | |
CN211040500U (en) | Oil and natural gas transmission monitoring device | |
CN114964609A (en) | Intelligent transmitter for industrial cooling liquid conveying pressure | |
CN207961821U (en) | A kind of antiseep flange connector | |
CN212843792U (en) | Electromagnetic flowmeter based on Internet of things | |
CN103730291B (en) | Double rotating digital display pressure switch | |
CN211315429U (en) | Sealing flange with pressure check ring | |
CN209245541U (en) | A kind of multifunctional unit connector block | |
CN202548660U (en) | Intelligent mounting monitoring system for water pump pipeline | |
CN221348285U (en) | Joint for connecting pipe | |
CN110895159A (en) | Flow transmitter convenient to disassemble and assemble | |
CN201787226U (en) | Flange structure for hydraulic part | |
CN203674072U (en) | Double-rotation digital display pressure switch | |
WO2016023261A1 (en) | Pipeline fluid monitoring system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
WW01 | Invention patent application withdrawn after publication |
Application publication date: 20200619 |
|
WW01 | Invention patent application withdrawn after publication |