CN210347900U - Modularized automatic alignment device based on wireless communication - Google Patents
Modularized automatic alignment device based on wireless communication Download PDFInfo
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- CN210347900U CN210347900U CN201920774273.XU CN201920774273U CN210347900U CN 210347900 U CN210347900 U CN 210347900U CN 201920774273 U CN201920774273 U CN 201920774273U CN 210347900 U CN210347900 U CN 210347900U
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Abstract
The utility model discloses an automatic to line device of modularization based on wireless communication, the device include terminal display module, wireless primary module, wireless slave module, output module and collection module. The terminal display module and the wireless master module are in WiFi or Bluetooth wireless connection, and the wireless master module and the wireless slave module are in LoRa wireless connection or the terminal display module and the wireless slave module are in WiFi connection. And the terminal display module returns the acquisition result through the acquisition module according to the level of the pins in the control output module one by one, and the terminal display module performs matching verification. The utility model has the advantages that: the cable structure corresponding to one-to-one automatic detection can be realized without accessing the cable harness in the cable into the interface of the input and acquisition module according to a fixed number, and the marking is carried out, so that the detection time is greatly saved.
Description
Technical Field
The utility model relates to a multicore cable line and equipment detection area among vehicle manufacturing, the electric power system especially relate to the device and the cable that the sinle silk does not have the number detect.
Background
In vehicle manufacturing and power systems, a large number of multi-core cables are provided, and the multi-core cables are required to be aligned in both new vehicle or new station acceptance and fault detection. At present, the method commonly adopted is to use a multimeter (or a display lamp) for calibration. Due to the fact that the field environment is noisy, management is complex and disordered, the serial numbers of the wire cores are complex, the fineness of wire alignment work of wire alignment personnel is greatly challenged, and once errors occur, engineering construction work is greatly disturbed.
Disclosure of Invention
In order to solve the technical problem, the utility model provides an automatic to line device of modularization based on wireless communication, the device include terminal display module, wireless primary module, wireless slave module, output module and collection module. The terminal display module is connected with the wireless main module in a wired or wireless mode, or the terminal display module is simultaneously connected with the wireless main module and the wireless slave module in a wireless mode; the wireless master module needs to be in wireless connection with the wireless slave module when the terminal display module is not connected with the wireless slave module; the wireless main module is connected with the output module; the wireless slave module is connected with the acquisition module; the output module is connected with an input port of the tested device or the cable; the acquisition module is connected with the output port of the tested device or the cable. The terminal display module is used for controlling the level of pins in the output module one by one, returning the acquisition result through the acquisition module, performing matching verification and verifying the on-off of each wire core of the cable or the device.
The terminal display module is realized by loading software in a PC (personal computer) end, a mobile phone end or display equipment; when the terminal display module is a display device, the device needs to be provided with a CPU, a display screen, a memory, a WiFi or Bluetooth module connected with the wireless master module and the wireless slave module, or an Ethernet interface; the terminal display module is used for displaying the output signal state, the signal acquisition result and the detection result and storing the result; the wireless slave module is used for setting the connection relation among the terminal display module, the wireless master module, the wireless slave module, the output module and the acquisition module; the device is used for sequentially generating output signal control commands according to data in the output signal state table and sending the output signal control commands; the device is used for sending out a control instruction of collecting signals; the device is used for receiving the signal acquisition result, matching and verifying the on-off of each wire core in the cable or the device.
The wireless main module comprises a power supply module, a CPU module, a WiFi or Bluetooth module connected with the terminal display module, a LoRa module connected with the wireless slave module, an Ethernet interface required for connection with the terminal display module, a 485 interface connected with the output module or the acquisition module, a 232 interface connected with the output module or the acquisition module, a CAN interface connected with the output module or the acquisition module, and an Ethernet interface connected with the output module or the acquisition module. The wireless main module is used for sending the output signal control instruction sent by the terminal display module to the output module; the terminal display module is used for sending the output success information sent by the output module to the terminal display module; the wireless main module is used for sending an acquisition signal control instruction sent by the terminal display module to the acquisition module; the terminal display module is used for sending the signal acquisition result information sent by the acquisition module to the terminal display module; when the terminal display module is not connected with the wireless slave module, the wireless master module needs to be connected with the wireless slave module and serves as a bridge for forwarding information of the terminal display module and the wireless slave module, and the information is used for forwarding information sent to the wireless slave module by the terminal display module and information sent to the terminal display module by the wireless slave module.
The wireless slave module comprises a power module, a CPU module, a WiFi module connected with the terminal display module, a LoRa module connected with the wireless master module, a 485 interface connected with the output module or the acquisition module, a 232 interface connected with the output module or the acquisition module, a CAN interface connected with the output module or the acquisition module, and an Ethernet interface connected with the output module or the acquisition module. The wireless slave module is used for sending the output signal control instruction sent by the terminal display module to the output module; the terminal display module is used for sending the output success information sent by the output module to the terminal display module; the wireless slave module is used for sending an acquisition signal control instruction sent by the terminal display module to the acquisition module; the terminal display module is used for sending the signal acquisition result information sent by the acquisition module to the terminal display module;
the output module comprises a power supply module, a CPU module, an IO output, a 485 interface connected with the wireless master module or the wireless slave module, a CAN interface connected with the wireless master module or the wireless slave module, a 232 interface connected with the wireless master module or the wireless slave module, an Ethernet interface connected with the wireless master module or the wireless slave module, a public ground end and an output result display lamp. The output module is used for generating an electric signal according to an output signal control command sent by the wireless master module connected with the output module, transmitting the electric signal to the device to be tested or the cable through a line connected with the device to be tested or the cable, and returning output success information to the wireless master module or the wireless slave module connected with the output module.
The acquisition module comprises a power supply module, a CPU module, an IO input, a 485 interface connected with the wireless master module or the wireless slave module, a CAN interface connected with the wireless master module or the wireless slave module, a 232 interface connected with the wireless master module or the wireless slave module, an Ethernet interface connected with the wireless master module or the wireless slave module, a public ground terminal and an acquisition result display lamp. The acquisition module is used for detecting an electric signal on a line connected with a tested device or a cable according to an acquisition signal control instruction sent by the wireless slave module connected with the acquisition module, generating a signal acquisition result and then sending the signal acquisition result to the wireless master module or the wireless slave module connected with the acquisition module.
In the using process, the following method is adopted:
1) when the terminal display module is simultaneously connected with the wireless main module and the wireless slave module, the wireless main module is connected with the output module, the wireless slave module is connected with the acquisition module, a wire core at one end of a tested device or a cable is randomly connected with a pin of the output module, and a wire core at the other end of the tested device or the cable is randomly connected with a pin of the acquisition module;
the terminal display module generates output signal control instructions for controlling pins in the output module one by one and sends the output signal control instructions to the wireless main module;
the wireless main module sends the received output signal control instruction to an output module connected with the wireless main module;
the output module controls the instruction output according to the output signal and returns the successful output information of the wireless main module connected with the output module;
the wireless main module returns output success information to the terminal display module;
the terminal display module sends the acquisition signal control instruction to a wireless slave module connected with the acquisition module;
the wireless slave module sends an acquisition signal control instruction to the acquisition module which is correspondingly connected;
the acquisition module returns the signal acquisition result information to the wireless slave module connected with the acquisition module;
the wireless slave module returns the signal acquisition result information to the terminal display module;
and the terminal display module performs matching verification on the output signal and the acquisition result. If only one pin outputs high level and only one pin is acquired as high level, the two ends of one wire core are indicated; if only one pin outputs a high level, and any pin is not acquired as the high level, the wire core connected with the pin of the output module is disconnected; if only one pin outputs high level, more than one pin is collected to be high level, which indicates that the wire core connected with the pin of the output module is short-circuited. And when all the pins connected with the output modules are detected completely, displaying correct results according to the pin numbers of the output modules and the acquisition modules.
2) When the terminal display module is only connected with the wireless main module, the wireless main module is connected with the wireless slave module, the wireless main module is connected with the output module, the wireless slave module is connected with the acquisition module, a wire core at one end of the tested device or cable is randomly connected with a pin of the output module, and a wire core at the other end of the tested device or cable is randomly connected with a pin of the acquisition module;
the terminal display module generates output signal control instructions for controlling pins in the output module one by one and sends the output signal control instructions to the wireless main module;
the wireless main module sends the output signal control instruction sent to the wireless main module by the terminal display module to the output module connected with the wireless main module,
the output module controls the instruction output according to the output signal and returns the successful output information of the wireless main module connected with the output module;
the wireless main module returns output success information to the terminal display module;
the terminal display module generates an acquisition signal control instruction to be sent to the wireless slave module and sends the acquisition signal control instruction to the wireless master module;
the wireless master module transmits the acquisition signal control instruction to the wireless slave module connected with the acquisition module;
the wireless slave module sends the acquisition signal control instruction sent to the wireless slave module by the terminal display module to the acquisition module connected with the wireless slave module,
the acquisition module returns acquisition result information to the wireless slave module connected with the acquisition module;
the wireless slave module returns the acquired result information to the wireless master module, and the acquired result information is forwarded to the terminal display module;
and the terminal display module performs matching verification on the output signal and the acquisition result. If only one pin outputs high level and only one pin is acquired as high level, the two ends of one wire core are indicated; if only one pin outputs a high level, and any pin is not acquired as the high level, the wire core connected with the pin of the output module is disconnected; if only one pin outputs high level, more than one pin is collected to be high level, which indicates that the wire core connected with the pin of the output module is short-circuited. And when all the pins connected with the output modules are detected completely, displaying correct results according to the pin numbers of the output modules and the acquisition modules.
3) When the terminal display module is simultaneously connected with the wireless main module and the wireless slave module, the wireless main module is connected with the acquisition module, the wireless slave module is connected with the output module, a wire core at one end of a tested device or a cable is randomly connected with a pin of the output module, and a wire core at the other end of the tested device or the cable is randomly connected with a pin of the acquisition module;
the terminal display module generates output signal control instructions for controlling pins in the output module one by one and sends the output signal control instructions to the wireless slave module;
the wireless slave module sends the received output signal control instruction to an output module connected with the wireless slave module;
the output module controls the instruction output according to the output signal and returns the instruction output to the wireless slave module connected with the output module to output success information;
the wireless slave module returns the output success information to the terminal display module;
the terminal display module sends the acquisition signal control instruction to a wireless main module connected with the acquisition module;
the wireless main module sends an acquisition signal control instruction to the acquisition modules which are correspondingly connected;
the acquisition module returns signal acquisition result information to the wireless main module connected with the acquisition module;
the wireless main module returns the signal acquisition result information to the terminal display module;
and the terminal display module performs matching verification on the output signal and the acquisition result. If only one pin outputs high level and only one pin is acquired as high level, the two ends of one wire core are indicated; if only one pin outputs a high level, and any pin is not acquired as the high level, the wire core connected with the pin of the output module is disconnected; if only one pin outputs high level, more than one pin is collected to be high level, which indicates that the wire core connected with the pin of the output module is short-circuited. And when all the pins connected with the output modules are detected completely, displaying correct results according to the pin numbers of the output modules and the acquisition modules.
4) When the terminal display module is only connected with the wireless main module, the wireless main module is connected with the wireless slave module, the wireless slave module is connected with the output module, the wireless main module is connected with the acquisition module, a wire core at one end of a tested device or a cable is randomly connected with a pin of the output module, and a wire core at the other end of the tested device or the cable is randomly connected with a pin of the acquisition module;
the terminal display module generates output signal control instructions for controlling pins in the output module one by one and sends the output signal control instructions to the wireless main module;
the wireless master module sends the received output signal control instruction to the wireless slave module connected with the wireless master module;
the wireless slave module sends the received output signal control instruction to an output module connected with the wireless slave module;
the output module controls the instruction output according to the output signal and returns the instruction output to the wireless slave module connected with the output module to output success information;
the wireless slave module returns the output success information to the wireless master module, and the output success information is sent to the terminal display module and stored;
the terminal display module generates an acquisition signal control instruction and sends the acquisition signal control instruction to the wireless main module;
the wireless main module transmits the acquisition signal control instruction to the acquisition module;
the acquisition module returns acquisition result information to the wireless main module;
the wireless main module returns the acquired result information to the terminal display module;
and the terminal display module performs matching verification on the output signal and the acquisition result information. If only one pin outputs high level and only one pin is acquired as high level, the two ends of one wire core are indicated; if only one pin outputs a high level, and any pin is not acquired as the high level, the wire core connected with the pin of the output module is disconnected; if only one pin outputs high level, more than one pin is collected to be high level, which indicates that the wire core connected with the pin of the output module is short-circuited. And when all the pins connected with the output modules are detected completely, displaying correct results according to the pin numbers of the output modules and the acquisition modules.
The utility model provides an automatic to line device of wireless communication's modularization and method need not to insert the input according to fixed serial number in with the pencil in the cable and collection module's interface, can realize the cable structure of automated inspection one-to-one to carry out the mark, practiced thrift check-out time greatly.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
FIG. 1 is a schematic diagram of a wireless master module structure
FIG. 2 is a schematic diagram of a wireless slave module
FIG. 3 is a schematic diagram of an output module
FIG. 4 is a schematic view of the structure of the collection module
FIG. 5 is a schematic diagram of a detection structure when the terminal display module is connected with the wireless master module and the wireless master module is connected with the wireless slave module;
in the figure, 1-terminal display module; 2-a wireless master module; 21-a first power supply module; 22-a first WiFi or bluetooth module connected to the terminal display module; 23-a first ethernet interface required for connection with a terminal display module; 24-a first LoRa module connected to the wireless slave module; 25-a first CPU module; 26-a second Ethernet interface required for connecting with the output module or the acquisition module; 27-a first CAN interface required for connecting with an output module or an acquisition module; 28-first 232 interface required for connection with output module or input module; 29-a first 485 interface required for connecting with an output module or an input module; 3-a wireless slave module; 31-a second power supply module; 32-a second WiFi module connected to the terminal display module; 33-a second LoRa module connected to the wireless master module; 34-a second CPU module; 35-a third Ethernet interface required for connecting with the output module or the input module; 36-a second CAN interface required for connecting with the output module or the input module; 37-a second 232 interface required for connection with an output module or an input module; 38-a second 485 interface required for connecting with an output module or an input module; 4-an output module; 41-a third power supply module; 42-third 485 interface required for connection with wireless master or wireless slave; 43-third 232 interface required for connection with wireless master or wireless slave; 44-a third CAN interface required for connection with a wireless master module or a wireless slave module; 45-a fourth ethernet interface required for connection with a wireless master module or a wireless slave module; 46-output result display lamp; 47-a third CPU module; 48-IO output module; 49-first common ground; 5-an acquisition module; 51-a fourth power supply module; 52-fourth 485 interface required for connection with wireless master or wireless slave; 53-fourth 232 interface required for connection with wireless master or wireless slave; 54-a fourth CAN interface required for connection with a wireless master module or a wireless slave module, 55-a fifth ethernet interface required for connection with a wireless master module or a wireless slave module; 56-acquisition result display lamp; 57-a fourth CPU module; 58-IO input module; 59-a second common ground; 6-device under test or cable; 61-an input interface; 62-output interface.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
The core of the utility model is to provide wireless communication's automatic to line device of modularization and method, need not according to with in the cable pencil inserts input and collection module's interface according to fixed serial number, can realize the cable structure of automated inspection one-to-one to carry out the mark, practiced thrift check-out time greatly.
In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and specific embodiments.
Referring to fig. 1 to fig. 5,
FIG. 1 is a schematic diagram of a wireless master module structure
FIG. 2 is a schematic diagram of a wireless slave module
FIG. 3 is a schematic diagram of an output module
FIG. 4 is a schematic view of the structure of the collection module
FIG. 5 is a schematic diagram of a detection structure when the terminal display module is connected with the wireless master module and the wireless master module is connected with the wireless slave module;
example 1:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, and 5
In specific embodiment 1, the utility model provides an automatic to line device of modularization based on wireless communication, as shown in fig. 1, fig. 2, fig. 3 and fig. 4, automatic to line device includes terminal display module 1, a wireless master module 2, a plurality of wireless slave module 3, a plurality of output module 4 and a plurality of collection module 5.
In specific embodiment 1, as shown in fig. 1, the utility model provides a wireless main module 2, including first power module 21, first WiFi or bluetooth module 22, with terminal display module 1 wired connection required first ethernet interface 23, first LoRa module 24, first CPU module 25, with output module 4 or input module 5 connection required second ethernet interface 26, with output module 4 or input module 5 connection required first CAN interface 27, with output module 4 or input module 5 connection required first 232 interface 28, with output module 4 or input module 5 connection required first 485 interface 29.
In specific embodiment 1, as shown in fig. 2, the utility model provides a wireless slave module 3, including second power module 31, second WiFi module 32, second LoRa module 33, second CPU module 34, be connected required third ethernet interface 35 with output module 4 or input module 5, be connected required second CAN interface 36 with output module 4 or input module 5, be connected required second 232 interface 37 with output module 4 or input module 5, be connected required second 485 interface 38 with output module 4 or input module 5.
In specific embodiment 1, as shown in fig. 3, the present invention provides an output module 4, which includes a third power module 41, a third 485 interface 42 required for connecting with the wireless master module 2 or the wireless slave module 3, a third 232 interface 43 required for connecting with the wireless master module 2 or the wireless slave module 3, a third CAN interface 44 required for connecting with the wireless master module 2 or the wireless slave module 3, a fourth ethernet interface 45 required for connecting with the wireless master module 2 or the wireless slave module 3, an output result display lamp 46, a third CPU module 47, an IO output module 48, and a first common ground 49.
In specific embodiment 1, as shown in fig. 4, the present invention provides a collection module 5, which includes a fourth power module 51, a fourth 485 interface 52 required for connecting with the wireless master module 2 or the wireless slave module 3, a fourth 232 interface 53 required for connecting with the wireless master module 2 or the wireless slave module 3, a fourth CAN interface 54 required for connecting with the wireless master module 2 or the wireless slave module 3, a fifth ethernet interface 55 required for connecting with the wireless master module 2 or the wireless slave module 3, a collection result display lamp 56, a fourth CPU module 57, an IO input module 58, and a second common ground 59.
In the embodiment 1, as shown in fig. 5, the tested device or cable 6 has 2 interfaces 61 and 62, and the distance between the two interfaces is very long, for example, the distance between the output interface and the input interface is 500 meters or there is a wall barrier.
The utility model provides a terminal display module 1 is connected with wireless master module 2's wiFi module, wireless master module 2 is connected with wireless slave module 3's loRa module through loRa module, wireless master module 2 is connected with output module 4's 485 interface through its 485 interface, wireless slave module 3 is connected with acquisition module 5's 232 interface through its 232 interface, output module 4's IO output module is connected with input interface 61 of device under test or cable 6, acquisition module 5's IO input module is connected with output interface 62 that device under test or cable 6 are connected;
the IO output module of the output module 4 and the IO input module of the acquisition module 5 are quick-connection plugs such as plug-in buckle connection ports, and the quick connection is facilitated.
The terminal display module 1 controls the level of the pins in the output module one by one, and it is assumed that the control instruction of the output signal sent to the wireless main module 2 connected with the output module for the first time is as follows: (1000) (ii) a
The wireless main module 2 sends an output signal control instruction (1000) sent to the wireless main module 1 to an output module 4 connected with the wireless main module;
the output module 4 outputs according to the output signal control instruction (1000) and returns to the wireless main module 2 connected with the output module to output success information;
the wireless main module 2 returns the output success information to the terminal display module 1;
the terminal display module 1 generates a signal acquisition control instruction and sends the signal acquisition control instruction to the wireless main module 2;
the wireless master module 2 forwards the data to the wireless slave module 3;
the wireless slave module 3 sends the acquisition signal control instruction sent to the wireless slave module to the acquisition module 5 connected with the wireless slave module,
the acquisition module 5 returns the acquisition result information to the wireless slave module 3 connected with the acquisition module;
the wireless main module 3 returns the acquired result information to the wireless main module 2, and the acquired result information is forwarded to the terminal display module 1;
and the terminal display module performs matching verification on the output signal and the acquisition result. If only one pin outputs a high level and only one pin is acquired as the high level, if only one pin outputs the high level and any pin is not acquired as the high level, the wire core connected with the pin of the output module is disconnected; if only one pin outputs high level, more than one pin is collected to be high level, which indicates that the wire core connected with the pin of the output module is short-circuited. And when all the pins connected with the output modules are detected completely, displaying correct results according to the pin numbers of the output modules and the acquisition modules.
If the collection information returned by the collection module is (1000), the 1 pin of the output module and the 1 pin of the collection module are two ends of one wire core; if the acquisition information returned by the acquisition module is (0100), the 1 pin of the output module and the 2 pin of the acquisition module are two ends of one wire core; if the acquisition information returned by the acquisition module is (0000), the core connected with the 1 pin of the output module is broken; if the collection information returned by the collection module is (1100), the 1 pin of the output module and the 1 pin and the 2 pin of the collection module are short-circuited.
As can be taken from the present example, the device under test or cable 6 comprises the following features:
1) the output module and the acquisition module are not required to be accessed according to the serial number sequence of the wire cores
2) The distance of a plurality of interfaces is long, and the use of the device is not influenced by the isolated wall
Automatic to the wire device of modularization based on radio communication can all be realized detecting to the line personnel by one to the testing process is automatic completely, and the result is also automatic to be preserved.
Claims (11)
1. A modularization automatic alignment device based on wireless communication is characterized in that: the device comprises a terminal display module, a wireless main module, a wireless slave module, an output module and an acquisition module;
wherein,
the terminal display module is connected with the wireless main module in a wired or wireless mode, or the terminal display module is simultaneously connected with the wireless main module and the wireless slave module in a wireless mode;
the wireless master module needs to be in wireless connection with the wireless slave module when the terminal display module is not connected with the wireless slave module;
the wireless main module is connected with the output module or the acquisition module;
the wireless slave module is connected with the output module or the acquisition module;
the output module is connected with an input port of the tested device or the cable;
the acquisition module is connected with an output port of the tested device or the cable;
the terminal display module is used for controlling the level of pins in the output module one by one, returning the acquisition result through the acquisition module, performing matching verification and verifying the on-off of each wire core of the cable or the device.
2. The automatic alignment device of claim 1, wherein:
the terminal display module is a display device, and the device needs to be provided with a CPU, a display screen, a memory, a WiFi or Bluetooth module connected with the wireless master module and the wireless slave module, and an Ethernet interface connected with the wireless master module.
3. The automatic alignment device of claim 1, wherein: the wireless main module comprises a power supply module, a CPU module, a WiFi or Bluetooth module connected with the terminal display module, a LoRa module connected with the wireless slave module, an Ethernet interface required for connection with the terminal display module, a 485 interface connected with the output module or the acquisition module, a 232 interface connected with the output module or the acquisition module, a CAN interface connected with the output module or the acquisition module, and an Ethernet interface connected with the output module or the acquisition module.
4. The automatic alignment device of claim 1, wherein:
the wireless main module is used for sending an output signal control instruction sent by the terminal display module to the output module when being connected with the output module; the output success information sent by the output module can be sent to the terminal display module;
the wireless main module is used for sending an acquisition signal control instruction sent by the terminal display module to the acquisition module when being connected with the acquisition module; the signal acquisition result information sent by the acquisition module can be sent to the terminal display module;
when the terminal display module is not connected with the wireless slave module, the wireless master module needs to be connected with the wireless slave module and serves as a bridge for forwarding information of the terminal display module and the wireless slave module, and the information is used for forwarding information sent to the wireless slave module by the terminal display module and information sent to the terminal display module by the wireless slave module.
5. The automatic alignment device of claim 1, wherein: the wireless slave module comprises a power module, a CPU module, a WiFi module connected with the terminal display module, a LoRa module connected with the wireless master module, a 485 interface connected with the output module or the acquisition module, a 232 interface connected with the output module or the acquisition module, a CAN interface connected with the output module or the acquisition module, and an Ethernet interface connected with the output module or the acquisition module.
6. The automatic alignment device of claim 1, wherein: the wireless slave module is used for sending an output signal control instruction sent by the terminal display module to the output module when being connected with the output module; the output success information sent by the output module can be sent to the terminal display module;
the wireless slave module is used for sending an acquisition signal control instruction sent by the terminal display module to the acquisition module when being connected with the acquisition module; the signal acquisition result information sent by the acquisition module can be sent to the terminal display module.
7. The automatic alignment device of claim 1, wherein: the output module comprises a power supply module, a CPU module, an IO output, a 485 interface connected with the wireless master module or the wireless slave module, a CAN interface connected with the wireless master module or the wireless slave module, a 232 interface connected with the wireless master module or the wireless slave module, an Ethernet interface connected with the wireless master module or the wireless slave module, a public ground terminal and an output result display lamp.
8. The automatic alignment device of claim 1, wherein: output module and collection module, its characterized in that wiring mouth is plug-in buckle wiring mouth.
9. The automatic alignment device of claim 1, wherein:
and the output module is used for generating an electric signal according to an output signal control command sent by the wireless master module or the wireless slave module connected with the output module, transmitting the electric signal to the tested object through a line connected with the tested object, and returning output success information to the wireless master module or the wireless slave module connected with the output module.
10. The automatic alignment device of claim 1, wherein: the acquisition module comprises a power supply module, a CPU module, an IO input, a 485 interface connected with the wireless master module or the wireless slave module, a CAN interface connected with the wireless master module or the wireless slave module, a 232 interface connected with the wireless master module or the wireless slave module, an Ethernet interface connected with the wireless master module or the wireless slave module, a public ground terminal and an acquisition result display lamp.
11. The automatic alignment device of claim 1, wherein: the acquisition module is used for detecting an electric signal on a line connected with the object to be tested according to an acquisition signal control instruction sent by the wireless master module or the wireless slave module connected with the acquisition module, generating a signal acquisition result and then sending the signal acquisition result to the wireless master module or the wireless slave module connected with the acquisition module.
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CN201920774273.XU Expired - Fee Related CN210347900U (en) | 2019-05-27 | 2019-05-27 | Modularized automatic alignment device based on wireless communication |
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