CN214380298U - Automatic monitoring distributed industrial personal computer monitoring device for iron-involved - Google Patents
Automatic monitoring distributed industrial personal computer monitoring device for iron-involved Download PDFInfo
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- CN214380298U CN214380298U CN202120165852.1U CN202120165852U CN214380298U CN 214380298 U CN214380298 U CN 214380298U CN 202120165852 U CN202120165852 U CN 202120165852U CN 214380298 U CN214380298 U CN 214380298U
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Abstract
The utility model relates to an automatic monitoring distributed industrial computer monitoring device of iron-related, including upper and lower two superpose encapsulation boxes, wherein the inside of upper encapsulation box is provided with the PVC box body, the inside of PVC box body is provided with transformer and industrial computer and is connected through the circuit line between the two, be provided with the dc-to-ac converter in the upper space of lower encapsulation box, be provided with the storage battery in the lower space, seted up the circuit hole on the baffle, through the circuit line looks electrical connection that passes the circuit hole between storage battery and the dc-to-ac converter, be provided with power source between upper encapsulation box and the lower encapsulation box, the dc-to-ac converter is connected with power source through the circuit line, power source is connected with the transformer through the circuit line; one side of the PVC box body is provided with a plurality of functional interfaces for butting with the industrial personal computer. The utility model has the advantages that: the integrated framework is built in a distributed mode, the purpose of integrating the automatic monitoring hardware part is achieved, the use is convenient, and the operation process is improved.
Description
Technical Field
The utility model belongs to the technical field of the automatic monitoring technique of high-speed railway and specifically relates to an it automatic monitoring distributing type industrial computer monitoring devices to wade iron.
Background
With the annual increase of the safe investment scale of railway equipment management units in high-speed rail operation, the number and types of automatic monitoring of adjacent high-speed railways are continuously increased, the measurement data volume is greatly increased, the traditional manual measurement mode is gradually inapplicable, and huge technical pressure is brought to monitoring data gateways and acquisition devices of two parties serving as monitoring parties.
The traditional mode for solving the automatic monitoring problem is to introduce an industrial personal computer technology, interact an instrument acquisition port, and transmit real-time monitoring data to a corresponding data platform in a network connection mode for data analysis of a monitoring party. Traditional automatic monitoring industrial computer interconnecting link is loaded down with trivial details, on-the-spot circuit is netted comparatively in a jumble, does not form distribution module, if hardware system breaks down or unable normal operation, on-the-spot often need to spend a large amount of time to carry out investigation work, the adjacent automatic all ring edge borders of monitoring of existing high-speed railway lack alternating current power supply simultaneously, must convert portable battery into the alternating current, consequently, the monitoring industrial control machine of non-distribution modularization can be carried out the scene and is executed and survey under the trouble condition, how to go the problem of solving and just cause great puzzlement.
Disclosure of Invention
The utility model aims at providing a wade iron automatic monitoring distributing type industrial computer monitoring devices according to above-mentioned prior art not enough, through the structural design of distributing type, realize data acquisition, transmission, power supply function distributed management, this management mode is different from the integrated form, if certain link has unusually, the mode that the distributing type was built can fix a position fast and solve the site problem, reaches the emergent benefit of synthesizing of "some line, line one-tenth", and the monitoring task is accomplished to the high efficiency.
The utility model discloses the purpose is realized accomplishing by following technical scheme:
the utility model provides a wade iron automatic monitoring distributing type industrial computer monitoring devices which characterized in that: the transformer and the industrial personal computer are connected through circuit lines, the interior of the lower packaging box body is divided into an upper space and a lower space through a partition plate, an inverter is arranged in the upper space of the lower packaging box body, a storage battery is arranged in the lower space, a circuit hole is formed in the partition plate, the storage battery and the inverter are electrically connected through the circuit lines penetrating through the circuit hole, a power interface is arranged between the upper packaging box body and the lower packaging box body, the inverter is connected with the power interface through the circuit lines, and the power interface is connected with the transformer through the circuit lines; one side of the PVC box body is provided with a plurality of functional interfaces for butting with the industrial personal computer; and through grooves for leading in a circuit are respectively formed on the side surfaces of the upper packaging box body and the lower packaging box body.
The functional interface comprises one or a combination of two or more than two of an LEMO interface, a USB interface, a COM interface, an HDMI interface and a LAN interface.
The bottom of lower encapsulation box is provided with the base, be provided with the mounting on the base.
And a charging port connected with the solar battery is arranged on one side of the storage battery.
The industrial personal computer is connected with a 4G module.
The utility model has the advantages that:
1) the whole structure is simple, and the iron-involved monitoring field is convenient to use.
2) The problem that a traditional automatic monitoring industrial personal computer is complicated in circuit, so that the industrial personal computer system fails to find out quickly is solved, and the on-site operation personnel can conveniently and rapidly conduct troubleshooting operation on the hardware system. The industrial personal computer is effectively protected from being influenced by the surrounding environment through external packaging, the service life of the industrial personal computer is prolonged, and fault troubleshooting hierarchy in the data transmission process is guaranteed through interlayer distribution management. The management mode of the power supply module avoids sudden main board hardware damage of an instrument in the power utilization process and also avoids power utilization operation safety of the testing personnel.
3) The gateway data of the iron-related monitoring system are accurately collected and transmitted in real time by taking the distributed industrial personal computer as a platform, the network layout complexity of a field line is reduced, interaction with instrument equipment of various external interfaces is realized, various faults in an automatic monitoring link under various emergency environments in the field can be solved, the continuity of data in the processes of acquisition, transmission and analysis is ensured, and the situation that the problems cannot be found is avoided.
Drawings
Fig. 1 is a schematic structural view of the present invention;
fig. 2 is a schematic diagram of the comprehensive application scene structure of the present invention.
Detailed Description
The features of the present invention and other related features are described in further detail below by way of example in conjunction with the accompanying drawings to facilitate understanding by those skilled in the art:
as shown in fig. 1-2, reference numerals 1-30 are respectively shown as: the device comprises a rain cover 1, a PVC box body 2, a transformer 3, an industrial personal computer 4, an LEMO interface 5, a USB interface 6, a COM interface 7, an HDMI interface 8, a LAN interface 9, a charging port 10, a three-hole interface 11, a battery jar 12, an upper packaging box body 13, a fixing part 14, a circuit line 15, an inverter 16, a positive electrode interface 17, a negative electrode interface 18, an industrial personal computer power supply port 19, a through groove 20, a 4G module 21, a partition plate 22, a line hole 23, a solar cell 24, a measuring robot 25, a weather correction sensor 26, an observation pier 27, a function sensor 28, a lower packaging box body 29 and a base 30.
Example (b): the automatic monitoring distributing type industrial computer monitoring devices that relate to iron in this embodiment, it adopts the framework system of distributing type, has solved that traditional automation monitoring industrial computer circuit is loaded down with trivial details and has leaded to industrial computer system to break down and can't discover the problem fast, and convenient field operation personnel are to hardware system investigation operation.
As shown in fig. 1, the main body of the automatic iron-involved monitoring distributed industrial personal computer monitoring device in the embodiment includes an upper packaging box 13 and a lower packaging box 29, wherein the upper packaging box 13 is arranged above the lower packaging box 29, and a rain cover 1 is further arranged at the top of the upper packaging box 13 to prevent the industrial personal computer monitoring device from being affected by rainwater.
A partition 22 is provided in the lower packing case 29, the inner space of the lower packing case 29 is partitioned into an upper space and a lower space by the partition 22, a battery 12 serving as a power source of the industrial personal computer monitoring device is provided in the lower space of the lower packing case 29, and an inverter 16 for converting direct current output from the battery 12 into alternating current is provided in the upper space of the lower packing case 29. The battery 12 and the inverter 16 are electrically connected through a circuit line 15. Specifically, a positive electrode interface 17 of the battery 12 is connected with a positive electrode of the inverter 16, and a negative electrode interface 18 of the battery 12 is connected with a negative electrode of the inverter 16; the partition 22 is provided with a circuit hole 23, and a circuit line 15 connecting the battery 12 and the inverter 16 passes through the partition 22 to form an electrical connection.
At this time, the batteries 12 and the inverter 16 are distributed in the lower packaging box 29, so that problems can be quickly eliminated when the batteries 12 and the inverter 16 are in failure.
As shown in fig. 1, a PVC case 2 is provided in the upper package case 13, and the PVC case 2 is used for insulation protection. Be provided with transformer 3 and industrial computer 4 in the inside of PVC box body 2, wherein transformer 3's input passes through circuit line and constitutes electric connection with dc-to-ac converter 16, and the output passes through circuit line and industrial computer power port 19 looks electric connection of industrial computer 4. When the device is used, the inverter 16 converts direct current of the storage battery 12 into alternating current and transmits the alternating current to the transformer 3, the transformer 3 reduces the voltage according to working voltage required by the industrial personal computer 4 and transmits the reduced alternating current to the industrial personal computer 4 for the industrial personal computer to work and use.
At this time, the transformer 3 and the industrial personal computer 4 in the upper packaging box body 13 and the battery 12 and the inverter 16 in the lower packaging box body 29 below also form a distributed arrangement structure, so that rapid troubleshooting during fault occurrence is realized.
In the present embodiment, as shown in fig. 1, a charging port 10 and a three-hole port 11 are provided at a position between an upper enclosure 13 and a lower enclosure 29, wherein the charging port 10 is opened at the bottom of the upper enclosure 13 and communicates with the inside of the lower enclosure 29, the charging port 10 is connected to an input terminal of the transformer 3, the three-hole port 11 is connected to the inverter 16, and the charging port 10 and the three-hole port 11 are connected by a circuit line.
As shown in fig. 1, the industrial personal computer 4 is provided with an LEMO interface 5, a USB interface 6, a COM interface 7, an HDMI interface 8, and a LAN interface 9, wherein the LEMO interface 5 is used for charging a total station used for iron-related automatic monitoring; the USB interface 6 is used for connecting with functional equipment of an industrial personal computer such as a computer keyboard, a mouse, a wireless network card, a U disk and the like; the COM interface 7 is respectively used for interacting with data communication of the total station, accessing a meteorological element sensor and accessing a later static leveling system; the HDMI 8 is used for on-site screen projection interaction of a display; the LAN interface 9 is used for network testing in an indoor environment. The industrial personal computer 4 is also provided with a 4G module 21, so that the industrial personal computer 4 can have two network interaction modes, one mode is that wireless network connection can be realized by inserting a mobile phone card through the 4G module 21, or wireless network connection can be realized by inserting a wireless network card at the position of the USB interface 6.
As shown in fig. 1, a through groove 20 is formed at one end of the upper package box 13, and the through groove 20 is a hollow-out formed in the upper package box 13, so that an external circuit is introduced into the upper package box 13 and is connected with the industrial personal computer 4, thereby realizing the use of the industrial personal computer. In this embodiment, the size of the slot of the through groove 20 meets the requirement that a technician holds a line to pass through, so that the technician can insert the line on a corresponding interface of the industrial personal computer 4.
As shown in fig. 1, a base 30 is provided at the bottom of the lower enclosure 29, the base 30 has a certain strength to support the structure above, and a fixing member 14 is provided on the base 30, and the fixing member 14 can be anchored into the ground, so that the entire industrial personal computer monitoring device can be stably and firmly installed at a desired position on the site. In the specific implementation, the fixing piece 14 is driven into the ground after the hole is drilled in the fixing piece position, and then the bar planting glue is poured for fixing.
As shown in fig. 2, when the embodiment is applied in a comprehensive scene, the solar energy monitoring device can be connected with a solar cell 24, the solar cell 24 can be connected with a storage battery 12 through a circuit line, and the storage battery 12 is charged in a solar energy storage manner, so that the storage battery 12 of the industrial personal computer monitoring device can be used for a long time and the problem of field commercial power access is solved; when the solar cell 24 cannot obtain electric energy at night, the storage battery 12 can supply power to the industrial personal computer 4 through the electric energy stored by the storage battery.
Meanwhile, one side of the industrial personal computer monitoring device is provided with an observation pier 27 and a measuring robot 25 is arranged above the observation pier, so that automatic iron-involved unmanned monitoring is realized. This measuring robot 25's cable accessible link up the recess and is connected with LEMO interface 5 and COM interface 7 of industrial computer 4 to realize the no battery ization power supply of measuring robot 25 body through LEMO interface 5, realize simultaneously through COM interface 7 with the information interaction between industrial computer 4. When in use, the weather correction sensor 26 and the function sensor 28 can be connected to the industrial personal computer 4 through the through notch 20, so that the monitoring precision of the measuring robot 25 in automatic monitoring is improved.
Although the conception and the embodiments of the present invention have been described in detail with reference to the drawings, those skilled in the art will recognize that various changes and modifications can be made therein without departing from the scope of the appended claims, and therefore, the description thereof is not repeated herein.
Claims (5)
1. The utility model provides a wade iron automatic monitoring distributing type industrial computer monitoring devices which characterized in that: the transformer and the industrial personal computer are connected through circuit lines, the interior of the lower packaging box body is divided into an upper space and a lower space through a partition plate, an inverter is arranged in the upper space of the lower packaging box body, a storage battery is arranged in the lower space, a circuit hole is formed in the partition plate, the storage battery and the inverter are electrically connected through the circuit lines penetrating through the circuit hole, a power interface is arranged between the upper packaging box body and the lower packaging box body, the inverter is connected with the power interface through the circuit lines, and the power interface is connected with the transformer through the circuit lines; one side of the PVC box body is provided with a plurality of functional interfaces for butting with the industrial personal computer; and through grooves for leading in a circuit are respectively formed on the side surfaces of the upper packaging box body and the lower packaging box body.
2. The automatic monitoring distributed industrial personal computer monitoring device of the wading iron of claim 1, characterized in that: the functional interface comprises one or a combination of two or more than two of an LEMO interface, a USB interface, a COM interface, an HDMI interface and a LAN interface.
3. The automatic monitoring distributed industrial personal computer monitoring device of the wading iron of claim 1, characterized in that: the bottom of lower encapsulation box is provided with the base, be provided with the mounting on the base.
4. The automatic monitoring distributed industrial personal computer monitoring device of the wading iron of claim 1, characterized in that: and a charging port connected with the solar battery is arranged on one side of the storage battery.
5. The automatic monitoring distributed industrial personal computer monitoring device of the wading iron of claim 1, characterized in that: the industrial personal computer is connected with a 4G module.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120165852.1U CN214380298U (en) | 2021-01-21 | 2021-01-21 | Automatic monitoring distributed industrial personal computer monitoring device for iron-involved |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120165852.1U CN214380298U (en) | 2021-01-21 | 2021-01-21 | Automatic monitoring distributed industrial personal computer monitoring device for iron-involved |
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CN214380298U true CN214380298U (en) | 2021-10-08 |
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CN202120165852.1U Active CN214380298U (en) | 2021-01-21 | 2021-01-21 | Automatic monitoring distributed industrial personal computer monitoring device for iron-involved |
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2021
- 2021-01-21 CN CN202120165852.1U patent/CN214380298U/en active Active
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