CN218482864U - Intelligent gateway with multiple protocols and multiple interfaces - Google Patents
Intelligent gateway with multiple protocols and multiple interfaces Download PDFInfo
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- CN218482864U CN218482864U CN202223063029.3U CN202223063029U CN218482864U CN 218482864 U CN218482864 U CN 218482864U CN 202223063029 U CN202223063029 U CN 202223063029U CN 218482864 U CN218482864 U CN 218482864U
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Abstract
The utility model discloses an intelligent gateway with many interfaces of multiprotocol, data relay module, storage module, data conversion module in including the shell and locating the shell the front side of shell is provided with status indication module the left side of shell has set gradually debugging serial port module, communication serial port module, module and antenna module after to in the past the right side of shell has set gradually power source, net gape module and USB interface after to in the past the rear side center of shell is provided with the guide rail buckle the both ends of shell trailing flank all are fixed with a fixed block, at least one fixed orifices has been seted up on the fixed block. The remarkable effects are as follows: the structure is simple, the installation is easy, the multi-interface and multi-protocol are provided, and the multifunctional device can be used for multiple purposes and has wide applicability.
Description
Technical Field
The utility model relates to industrial gateway technical field, concretely relates to intelligent gateway with many interfaces of multiprotocol.
Background
The industrial internet is an important technical support for intelligent manufacturing, and is already incorporated into the new infrastructure category of national push. The industrial internet is mentioned, and a lot of people naturally think of industrial big data, industrial cloud platforms and the like. However, we need to think that the industrial cloud platform is good, the industrial big data is good, and the data is the basis or the industrial data/machine data is the basis. From where did the data come? From our production, the industrial internet must be sunk into various actual manufacturing industries to solve the problem of the last kilometer.
However, data in actual production is complex and not easy to collect, and new and old equipment are mixed to use, and most of the data are not available for surfing the internet, not to mention data collection. Therefore, the acquisition of industrial/machine data is rather difficult and expensive. Meanwhile, the types of equipment used in different industries are different, each industry has own industry characteristics and standards, various protocols are interspersed among the industries, and a communication mechanism is five-door and eight-door, so that a great deal of difficulty is brought to front-end data acquisition and equipment monitoring.
Disclosure of Invention
The utility model aims at providing an intelligent gateway with many interfaces of multiprotocol, have the multiple interface that is adapted to different communication protocol, application scope is wide and facilitate the use.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
an intelligent gateway with multiple protocols and multiple interfaces is characterized in that: the intelligent power supply comprises a shell, and a data relay module, a storage module and a data conversion module which are arranged in the shell, wherein a state indication module is arranged on the front side of the shell, a debugging serial port module, a communication serial port module, a reset module and an antenna module are sequentially arranged on the left side of the shell from front to back, a power supply interface, a network port module and a USB interface are sequentially arranged on the right side of the shell from front to back, a guide rail buckle is arranged at the center of the rear side of the shell, two fixing blocks are fixed at two ends of the rear side of the shell, and at least one fixing hole is formed in each fixing block;
the debugging serial port module is sequentially connected with the USB-to-serial port module in series and connected with the isolation module, the antenna module is connected with the wireless communication module, the storage module, the isolation module and the wireless communication module are connected with the data relay module, the communication serial port module, the reset module, the network port module and the USB interface are connected with the data relay module, the power interface is connected with the first power module and the second power module, the first power module is used for providing 5V working power for the storage module, the USB-to-serial port module and the isolation module, and the second power module is used for providing 3.3V working power for the state indication module, the debugging serial port module, the communication serial port module, the reset module, the network port module and the data conversion module.
Further, the first power module includes that a voltage input end of the voltage reduction chip U1 is connected to a positive electrode of the dc power supply through a voltage stabilizing diode D1, a voltage output end of the voltage reduction chip U1 is connected to a first working voltage output end after being connected to an inductor L1, the first working voltage output end outputs a 5V working power supply, the voltage input end of the voltage reduction chip U1 is further connected to an enable end of a resistor R6 in series and then connected to an enable end of the voltage reduction chip U1, the enable end of the voltage reduction chip U1 is further connected to a resistor R9 and then connected to the ground, the voltage input end of the voltage reduction chip U1 is further connected to the ground through a bidirectional diode D2, a capacitor C3, a capacitor C4 and a capacitor C5 which are arranged in parallel and then connected to the ground, a common end of the inductor L1 and the first working voltage output end is connected to one end of the resistor R7, the other end of the resistor R7 is connected to a feedback end of the voltage reduction chip U1 through a capacitor C11 and a resistor R8 in parallel and the feedback end of the voltage reduction chip U1 is further connected to the ground through a resistor R10, and the common end of the inductor L1 and the first working voltage output are also connected to the capacitor C6, C7, C8, C9 and then connected in parallel and then connected to the ground.
Further, the second power module includes a voltage reduction chip U2, a voltage input end of the voltage reduction chip U2 is connected to the positive electrode of the dc power supply, a voltage output end of the voltage reduction chip U2 is connected to the second working voltage output end after being connected with the inductor L2, the second working voltage output end outputs 3.3V working power supply, the voltage input end of the voltage reduction chip U2 is grounded through the parallel capacitors C13, C14 and C15, the voltage input end of the voltage reduction chip U2 is connected with the enabling end after being connected with the resistor R11 in series, the enabling end of the voltage reduction chip U2 is grounded after being connected with the resistor R14 in series, a common end of the inductor L2 and the second working voltage output end is connected to one end of the resistor R12, the other end of the resistor R12 is connected with the feedback end of the voltage reduction chip U2 through the parallel capacitors C21 and R13, the feedback end of the voltage reduction chip U2 is grounded through the resistor R15, and a common end of the inductor L2 and the second working voltage output end is grounded through the parallel capacitors C16, C17, C18, C19 and C20.
Furthermore, the reset module comprises a reset switch, a first wiring terminal and a second wiring terminal of the reset switch are connected and then connected to the first power module through a resistor R5, the first wiring terminal and the second wiring terminal of the reset switch are connected and then respectively connected with the reset signal input end of the data relay module and one end of a capacitor C1, the other end of the capacitor C1 is grounded, and a third wiring terminal and a fourth wiring terminal of the reset switch are grounded.
Further, the communication serial port module adopts an RS232 serial port module and/or an RS485 serial port module.
Furthermore, the status indication module comprises a power indicator, a use status indicator, a wireless communication status indicator and a network interface status indicator.
Further, the guide rail buckle is including fixing bottom plate on the shell and connecting in the first block tongue and the second block tongue of bottom plate both sides, first block tongue is connected with the bottom plate is perpendicular, and forms first draw-in groove between first block tongue and bottom plate, one side that first block tongue is close to first draw-in groove is outstanding, the second block tongue is connected with the bottom plate slope, forms the second draw-in groove between second block tongue and bottom plate, be formed with on the bottom plate between first draw-in groove and second draw-in groove with installation guide rail matched with spacing arch.
The utility model discloses a show the effect and be:
1. the structure is simple, the installation is easy, a plurality of interfaces and a plurality of protocols are provided, and the machine can be used for multiple purposes and has wide applicability;
2. the protocol interfaces are more, so that the method is suitable for occasions with complex access interface requirements;
3. the state indicating module comprises a plurality of indicating lamps for indicating a plurality of states respectively, so that the use and state observation of a user are facilitated;
4. and the data conversion module is adopted to integrate various data sources, the structure is complete, and the application range of the gateway is improved.
Drawings
FIG. 1 is a schematic view of the structure of a viewing angle of the present invention;
FIG. 2 is a schematic view of the present invention;
fig. 3 is a top view of the present invention;
fig. 4 is a schematic block diagram of the present invention;
FIG. 5 is a circuit schematic of a first power supply module;
FIG. 6 is a circuit schematic of a second circuit block;
FIG. 7 is a circuit schematic of a reset module;
FIG. 8 is a circuit schematic of a data conversion module;
fig. 9 is a circuit schematic of a memory module.
Detailed Description
The following describes the embodiments and the operation principle of the present invention in detail with reference to the accompanying drawings.
As shown in fig. 1-2, an intelligent gateway with multiprotocol multi-interface, including shell 1 and locate data relay module, storage module, the data conversion module in shell 1 the front side of shell 1 is provided with status indication module 2 the left side of shell 1 has set gradually debugging serial module 3, communication serial module 4, reset module 5 and antenna module 6 after to in the past the right side of shell 1 has set gradually power source 7, net gape module 8 and USB interface 9 after to in the past the rear side center of shell 1 is provided with guide rail buckle 10 the both ends of shell 1 trailing flank all are fixed with a fixed block 11, at least one fixed orifices 12 has been seted up on the fixed block 11.
Referring to fig. 3, the guide rail fastener 10 includes a bottom plate 101 fixed on the housing 1, and a first tongue 102 and a second tongue 103 connected to two sides of the bottom plate 10, the first tongue 102 is perpendicularly connected to the bottom plate 101, a first engaging groove 104 is formed between the first tongue 102 and the bottom plate 101, one side of the first tongue 102 close to the first engaging groove 104 protrudes, the second tongue 103 is obliquely connected to the bottom plate 102, and has an acute angle, a second engaging groove 105 is formed between the second tongue 103 and the bottom plate 101, and a limiting protrusion 106 engaged with the mounting guide rail is formed on the bottom plate 101 between the first engaging groove 102 and the second engaging groove 103, so that the mounting is more stable, and the occurrence of shaking is avoided.
Originally the circuit diagram of gateway is as shown in fig. 4, debugging serial module 3 concatenates USB commentaries on classics serial module in proper order and links to each other with isolation module, antenna module 6 links to each other with wireless communication module, storage module, isolation module and wireless communication module pass through data conversion module all is connected to data relay module, communication serial module 4, module 5 that resets, net gape module 8, USB interface 9 with data relay module links to each other, be connected with first power module and second power module on power interface 7, first power module is used for storage module, USB commentaries on classics serial module and isolation module provide 5V working power supply, second power module is used for state indication module 2, debugging serial module 3, communication serial module 4, module 5 that resets, net gape module 8, data conversion module provide 3.3V working power supply.
In this example, the data relay module adopts a TR7628AD routing module with a WIFI function; the network port module 8 comprises 2 lan network ports and 1 and wan network ports; the communication serial port module adopts an RS232 serial port and an RS485 serial port; the data conversion module adopts a GL850G hub module, and the storage module comprises a USB module and an SD card module (shown in FIG. 8); the communication module adopts a 4G or 5G communication module; the state indicating module 2 comprises a power supply indicating lamp, a use state indicating lamp, a wireless communication state indicating lamp and a network port state indicating lamp.
Referring to fig. 5, the first power module includes a voltage input end of a voltage-reducing chip U1 connected to an anode of the dc power supply through a zener diode D1, a voltage output end of the voltage-reducing chip U1 connected to an inductor L1 and then connected to a first working voltage output end, the first working voltage output end outputting a 5V working power supply, the voltage input end of the voltage-reducing chip U1 further connected in series to a resistor R6 and then connected to an enable end thereof, the enable end of the voltage-reducing chip U1 further connected to a resistor R8 and then grounded, the voltage input end of the voltage-reducing chip U1 further connected in parallel to a bidirectional diode D2, a capacitor C3, a capacitor C4 and a capacitor C5 and then grounded, a common end of the inductor L1 and the first working voltage output end is connected to one end of a resistor R7, the other end of the resistor R7 is connected to a feedback end of the voltage-reducing chip U1 through a capacitor C10 and a resistor R8, a feedback end of the voltage-reducing chip U1 is further connected to ground through a resistor R9, and a common end of the inductor L1 and the first working voltage output end are further connected in parallel to a capacitor C6, C7, a C8, a capacitor C8, a C9 and a ground.
Referring to fig. 6, the second power module includes a voltage-dropping chip U2, a voltage input end of the voltage-dropping chip U2 is connected to an anode of the dc power supply, a voltage output end of the voltage-dropping chip U2 is connected to a second working voltage output end after being connected to an inductor L2, the second working voltage output end outputs a 3.3V working power supply, the voltage input end of the voltage-dropping chip U2 is further grounded through parallel capacitors C12, C14, and C15, the voltage input end of the voltage-dropping chip U2 is connected in series with a resistor R10 and then connected to an enable end thereof, the enable end of the voltage-dropping chip U2 is further connected in series with the resistor R14 and then grounded, a common end of the inductor L2 and the second working voltage output end is connected to one end of a resistor R11, the other end of the resistor R11 is connected to a feedback end of the voltage-dropping chip U2 through a parallel capacitor C21 and a resistor R12, the feedback end of the voltage-dropping chip U2 is further grounded through a resistor R15, and a common end of the inductor L2 and the second working voltage output end is further grounded through parallel capacitors C16, C17, C18, C20.
As shown in fig. 7, the reset module 5 includes a reset switch, the first and second connection terminals of the reset switch are connected to the first power module through a resistor R5, the first and second connection terminals of the reset switch are connected to the reset signal input terminal of the data relay module and one end of a capacitor C1, respectively, the other end of the capacitor C1 is grounded, and the third and fourth connection terminals of the reset switch are grounded.
As shown in fig. 8, the GL850G has four interfaces, two of the four interfaces of the hub module are respectively used for accessing a miniSD card and connecting a USB module as an external USB2.0, and the GL850G has four interfaces, two of the four interfaces of the hub module are respectively used for accessing a miniSD card and connecting a USB module as an external USB 2.0.
In specific implementation, the network port module 8 is used for acquiring data of network type equipment, the communication serial port module is used for acquiring data of serial port type equipment, the data relay module is used for uploading or storing the acquired data to the storage module through the wireless communication module after the data format conversion is performed on the acquired data through the data conversion module, the state indication module 2 is used for indicating various states in the gateway operation process, and the reset module 5 is used for resetting the gateway; the debugging serial port module 3 is used for debugging the gateway, and debugging data are input to the data conversion module after passing through the USB serial port conversion module and the isolation module.
The gateway has multiple interfaces and multiple protocols, is suitable for one machine with multiple purposes, has an excessive cost performance and is suitable for occasions with multiple access interfaces/protocols; the cloud 4G/5G wireless communication supports cloud WIFI communication and cloud wired Ethernet communication.
The technical scheme provided by the utility model is introduced in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.
Claims (7)
1. An intelligent gateway with multiple protocols and multiple interfaces is characterized in that: the intelligent power supply comprises a shell, and a data relay module, a storage module and a data conversion module which are arranged in the shell, wherein a state indication module is arranged on the front side of the shell, a debugging serial port module, a communication serial port module, a reset module and an antenna module are sequentially arranged on the left side of the shell from front to back, a power supply interface, a network port module and a USB interface are sequentially arranged on the right side of the shell from front to back, a guide rail buckle is arranged at the center of the rear side of the shell, two fixed blocks are fixed at two ends of the rear side of the shell, and at least one fixed hole is formed in each fixed block;
the debugging serial port module is sequentially connected with the USB-to-serial port module in series and connected with the isolation module, the antenna module is connected with the wireless communication module, the storage module, the isolation module and the wireless communication module are connected with the data relay module, the communication serial port module, the reset module, the network port module and the USB interface are connected with the data relay module, the power interface is connected with the first power module and the second power module, the first power module is used for providing 5V working power for the storage module, the USB-to-serial port module and the isolation module, and the second power module is used for providing 3.3V working power for the state indication module, the debugging serial port module, the communication serial port module, the reset module, the network port module and the data conversion module.
2. The intelligent gateway with multiprotocol and multi-interface of claim 1, wherein: the first power module comprises a voltage input end of a voltage reduction chip U1, wherein the voltage input end of the voltage reduction chip U1 is connected to the positive electrode of a direct-current power supply through a voltage stabilizing diode D1, a voltage output end of the voltage reduction chip U1 is connected to a first working voltage output end after being connected with an inductor L1, the first working voltage output end outputs a 5V working power supply, the voltage input end of the voltage reduction chip U1 is further connected with an enabling end of the voltage reduction chip U1 in series after being connected with a resistor R6, the enabling end of the voltage reduction chip U1 is further connected with a resistor R9 and then grounded, the voltage input end of the voltage reduction chip U1 is further connected with a bidirectional diode D2, a capacitor C3, a capacitor C4 and a capacitor C5 in parallel, the common end of the inductor L1 and the first working voltage output end is connected to one end of a resistor R7, the other end of the resistor R7 is connected with a feedback end of the voltage reduction chip U1 through a capacitor C11 and a resistor R8 in parallel, the feedback end of the voltage reduction chip U1 is further connected with the ground through a resistor R10, and the common end of the inductor L1 and the first working voltage output end are further connected with the capacitor C6, the capacitor C7, the C8, the capacitor C9 and then grounded through the capacitor C10 in parallel.
3. The intelligent gateway with multiprotocol and multiple interfaces according to claim 2, characterized in that: the second power module comprises a voltage reduction chip U2, a voltage input end of the voltage reduction chip U2 is connected to the positive pole of a direct-current power supply, a voltage output end of the voltage reduction chip U2 is connected to a second working voltage output end after being connected with an inductor L2, the second working voltage output end outputs a 3.3V working power supply, the voltage input end of the voltage reduction chip U2 is grounded through parallel capacitors C13, C14 and C15, the voltage input end of the voltage reduction chip U2 is connected with an enabling end of a resistor R11 in series and then is connected with the enabling end of the voltage reduction chip U2, the enabling end of the voltage reduction chip U2 is grounded after being connected with the resistor R14 in series, a common end of the inductor L2 and the second working voltage output end is connected to one end of a resistor R12, the other end of the resistor R12 is connected with a feedback end of the voltage reduction chip U2 through parallel capacitors C21 and the resistor R13, the feedback end of the voltage reduction chip U2 is grounded through a resistor R15, and the common end of the inductor L2 and the second working voltage output end are grounded through parallel capacitors C16, C17, C18, C19 and C20.
4. The intelligent gateway with multiprotocol and multi-interface of claim 1, wherein: the reset module comprises a reset switch, a first wiring terminal and a second wiring terminal of the reset switch are connected and then connected to the first power module through a resistor R5, the first wiring terminal and the second wiring terminal of the reset switch are connected and then respectively connected with a reset signal input end of the data relay module and one end of a capacitor C1, the other end of the capacitor C1 is grounded, and a third wiring terminal and a fourth wiring terminal of the reset switch are grounded.
5. The intelligent gateway with multiprotocol and multi-interface of claim 1, wherein: and the communication serial port module adopts an RS232 serial port module and/or an RS485 serial port module.
6. The intelligent gateway with multiprotocol and multiple interfaces of claim 1, wherein: the state indicating module comprises a power supply indicating lamp, a use state indicating lamp, a wireless communication state indicating lamp and a network port state indicating lamp.
7. The intelligent gateway with multiprotocol and multi-interface according to any of claims 1-6, characterized in that: the guide rail buckle is including fixing bottom plate on the shell and connect in first block tongue and the second block tongue of bottom plate both sides, first block tongue is connected with the bottom plate is perpendicular, and forms first draw-in groove between first block tongue and bottom plate, one side that first block tongue is close to first draw-in groove is outstanding, the second block tongue is connected with the bottom plate slope, forms the second draw-in groove between second block tongue and bottom plate, be formed with on the bottom plate between first draw-in groove and second draw-in groove with installation guide rail matched with spacing arch.
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Denomination of utility model: An intelligent gateway with multiple protocols and interfaces Granted publication date: 20230214 Pledgee: Bank of Chengdu science and technology branch of Limited by Share Ltd. Pledgor: Chengdu naishite Technology Co.,Ltd. Registration number: Y2024980013419 |
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