CN214151454U - Remote control device and platform - Google Patents

Abstract

The embodiment of the utility model discloses remote control device and platform, the device includes: the device comprises a control panel, a plurality of adapter plate assemblies, a line concentration plate and a sampling plate; wherein the control panel comprises a plurality of buttons; the buttons are electrically connected with the quick terminal interfaces of the adapter plate assembly in a one-to-one correspondence manner; the output interfaces of the adapter plate assemblies are electrically connected with the input interfaces of the line concentration plates in a one-to-one correspondence manner; the line concentration board output interface of the line concentration board is electrically connected with the sampling board input interface of the sampling board. Carry out the electricity through setting up a plurality of keysets subassemblies and line concentration board and be connected between control panel and the sampling board for need not realize the electricity between control panel and the sampling board through the mode of artifical line of walking and be connected, and then avoided the artifical problem of easily makeing mistakes of walking the line, increased the reliability of circuit simultaneously, be convenient for the maintenance and the troubleshooting in later stage.

Description

Remote control device and platform

Technical Field

The utility model relates to an engineering equipment technical field especially relates to a remote control device and platform.

Background

The general underwater operation mode in the technical field of ocean engineering equipment is to use a large-scale underwater Robot (ROV), the ROV needs to be configured with a control platform placed in a container, the control platform is used for information acquisition and entity ROV equipment control, the wiring mode commonly used by the traditional control platform equipment is manual wiring, in a line with extremely high density, wiring errors are extremely easy to occur, and therefore faults are caused, and even circuits can be seriously burnt.

Disclosure of Invention

Based on this, it is necessary to provide a remote control device and platform to above-mentioned problem, the utility model discloses the purpose is connected carrying out the electricity between control panel and the sampling board through setting up a plurality of keysets subassemblies and line concentration board for need not realize the electricity between control panel and the sampling board through the mode of artifical line of walking and be connected, and then reached and avoided the artifical problem of easily makeing mistakes of walking the line, increased the reliability of circuit simultaneously, be convenient for the maintenance and the troubleshooting in later stage.

A remote control device, the device comprising: the device comprises a control panel, a plurality of adapter plate assemblies, a line concentration plate and a sampling plate; wherein the control panel comprises a plurality of buttons;

the buttons are electrically connected with the quick terminal interfaces of the adapter plate assembly in a one-to-one correspondence manner;

the output interfaces of the adapter plate assemblies are electrically connected with the input interfaces of the line concentration plates in a one-to-one correspondence manner;

and the line concentration plate output interface of the line concentration plate is electrically connected with the sampling plate input interface of the sampling plate.

In one embodiment, the button is electrically connected with the fast terminal interface of the adapter plate assembly in a one-to-one correspondence manner through a first connection cable, one end of the first connection cable is a fast plug, the other end of the first connection cable is a fast terminal, the fast plug is in direct-insert connection with the button, and the fast terminal is in direct-insert connection with the fast terminal interface of the adapter plate assembly.

In one embodiment, the interposer assembly includes a first interposer and a second interposer, each of the first interposer and the second interposer including: the adapter plate comprises an adapter plate input interface, an adapter plate output interface and a plurality of quick terminal interfaces; the button is electrically connected with the quick terminal interface in a one-to-one correspondence mode, the adapter plate output interface of the first adapter plate is electrically connected with the adapter plate input interface of the second adapter plate, and the adapter plate output interface of the second adapter plate is electrically connected with the line concentration plate input interface of the line concentration plate in a one-to-one correspondence mode.

In one embodiment, the hub output interface of the hub is a horn socket.

In one embodiment, the sampling plate input interface of the sampling plate is a bullhorn socket.

In one embodiment, the sampling plate further comprises: the system comprises a main control chip and a plurality of expansion chips;

one end of the expansion chip is electrically connected with the sampling board input interface, and the other end of the expansion chip is electrically connected with the main control chip.

In one embodiment, the sampling plate further comprises: a communication module;

the communication module is electrically connected with the main control chip.

In one embodiment, the communication module comprises: a communication chip and a serial port;

the master control chip, the communication chip and the serial port are electrically connected in sequence.

In one embodiment, the sampling plate further comprises: a plurality of analog-to-digital converter modules;

the analog-to-digital converter modules are electrically connected with the main control chip.

A remote control platform comprising the remote control device of any of the above embodiments.

Adopt the embodiment of the utility model provides a, following beneficial effect has:

adopt the utility model discloses a remote control device and platform, the device includes: the device comprises a control panel, a plurality of adapter plate assemblies, a line concentration plate and a sampling plate; wherein the control panel comprises a plurality of buttons; the buttons are electrically connected with the quick terminal interfaces of the adapter plate assembly in a one-to-one correspondence manner; the output interfaces of the adapter plate assemblies are electrically connected with the input interfaces of the line concentration plates in a one-to-one correspondence manner; the line concentration board output interface of the line concentration board is electrically connected with the sampling board input interface of the sampling board. Carry out the electricity through setting up a plurality of keysets subassemblies and line concentration board and be connected between control panel and the sampling board for need not realize the electricity between control panel and the sampling board through the mode of artifical line of walking and be connected, and then avoided the artifical problem of easily makeing mistakes of walking the line, increased the reliability of circuit simultaneously, be convenient for the maintenance and the troubleshooting in later stage.

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.

Wherein:

FIG. 1 is a block diagram of a remote control device in one embodiment;

FIG. 2 is another block diagram of the remote control device according to an embodiment;

FIG. 3 is a circuit diagram of a button in one embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, a block diagram of a remote control device in an embodiment is shown, the remote control device includes: a control panel 101, a plurality of adapter plate assemblies 102, a hub plate 103 and a sampling plate 104; wherein the control panel 101 comprises a plurality of buttons; the buttons are electrically connected with the quick terminal interfaces of the adapter plate assembly 102 in a one-to-one correspondence manner; the output interface of the adapter plate assembly 102 is electrically connected with the input interface of the line concentration plate 103 in a one-to-one correspondence manner; the hub output interface of the hub 103 is electrically connected with the sampling plate input interface of the sampling plate 104.

In the embodiment of the present application, in particular, the control panel 101 is a plane for mounting buttons, in which the buttons may be metal waterproof buttons, after each button is mounted on the control panel 101, the upper surface of the button facing the user is used for user control operation, the lower surface of the button is used for connecting a cable, the control panel 101 is provided with a plurality of buttons, each button needs to be connected with 3 cables and comprises 2 power lines and 1 signal line, concretely, the principle that the button sends a control signal when the user performs control operation on the button is shown in fig. 3, the button is a circuit diagram of the button in one embodiment, any one of the plurality of buttons arranged on the control panel 101 is a button S1, one end of the button S1 is simultaneously electrically connected with the cathode of the photodiode D1 and the signal line, the anode of the photodiode D1 is an input end with preset voltage +5V, and the other end of the button S1 is grounded; when the button S1 is in an off state without being pressed, the photodiode D1 is in a high-resistance state, the button circuit is not turned on, and the signal line outputs a high-level signal; when the button S1 is pressed to be in the on state, the cathode of the photodiode D1 is grounded, the photodiode D1 is lit, and the signal line outputs a low level signal. Therefore, the portion of the control panel 101 where the buttons are mounted needs to be connected with the number of cables 3 times the number of the mounted buttons.

Further, the other ends of the 3 cables connected to each of the plurality of buttons mounted on the control panel 101 are connected to the quick terminal interfaces of the patch panel assembly 102 in a one-to-one correspondence. It will be appreciated that each patch panel assembly 102 includes a plurality of quick terminal interfaces, each quick terminal interface being electrically connected to 3 cables connected to a respective button at the same time, and to ensure that all of the cables connected to the buttons are connected to the quick terminal interfaces in a one-to-one correspondence, the number of patch panel assemblies 102 should be the ratio of the number of buttons to the number of quick terminal interfaces included in each patch panel assembly 102 or the ratio of the number of buttons to the number of quick terminal interfaces included in each patch panel assembly 102 plus 1.

Further, the adapter board assembly 102 is electrically connected to the hub input interface of the hub 103 in a one-to-one correspondence manner through the adapter board assembly output interface. It will be appreciated that after all cables connected by the plurality of buttons mounted on the control panel 101 pass through the plurality of patch panel assemblies 102, the number of cables is reduced to the number of patch panel assemblies 102, and the hub 103 includes the same number of hub input interfaces as the number of patch panel assemblies 102.

Further, a hub output interface of the hub 103 is electrically connected with a sampling plate input interface of the sampling plate 104. It is understood that the hub 103 includes a hub output interface, the sampling plate 104 includes a sampling plate input interface, and the number of cables decreases to one after the number of cables of the patch panel assembly 102 are electrically connected in one-to-one correspondence with the hub input interface of the hub 103.

Specifically, for example, 60 buttons are installed on the control panel 101, each button is connected with 3 cables, 60 buttons need to be connected with 180 cables, each adapter plate assembly 102 includes 12 fast terminal interfaces, then 5 adapter plate assemblies 102 need to be set up to be electrically connected with 60 buttons, at this time, after the 60 buttons are electrically connected with 5 adapter plate assemblies 102, originally, 180 cables are reduced to 5 cables, 5 adapter plate assembly output interfaces of 5 adapter plate assemblies 102 are respectively electrically connected with the hub input interface of the hub 103 through 5 cables in a one-to-one correspondence manner, the 5 cables are reduced to 1 cable through the electrical connection of 5 adapter plate assemblies 102 and the hub 103, and finally, the hub output interface of the hub 103 is electrically connected with the sampling plate input interface of the sampling plate 104 through 1 cable.

In an embodiment of the present application, the apparatus includes: a control panel 101, a plurality of adapter plate assemblies 102, a hub plate 103 and a sampling plate 104; wherein the control panel 101 comprises a plurality of buttons; the buttons are electrically connected with the quick terminal interfaces of the adapter plate assembly 102 in a one-to-one correspondence manner; the output interface of the adapter plate assembly 102 is electrically connected with the input interface of the line concentration plate 103 in a one-to-one correspondence manner; the hub output interface of the hub 103 is electrically connected with the sampling plate input interface of the sampling plate 104. Carry out the electricity through setting up a plurality of adapter plate subassemblies 102 and line collecting plate 103 and be connected between control panel 101 and the sampling board 104 for need not realize the electricity between control panel 101 and the sampling board 104 through the mode of artifical line of walking and be connected, and then avoided the artifical easy problem of makeing mistakes of walking, increased the reliability of circuit simultaneously, be convenient for the maintenance and the troubleshooting in later stage.

In order to further understand the technical solution of the present application, as shown in fig. 2, it is another structural block diagram of the remote control device in an embodiment, in the embodiment of the present application, the button is electrically connected to the fast terminal interface 205 of the adapter plate assembly 102 in a one-to-one correspondence manner through a first connection cable, one end of the first connection cable is a fast plug, the other end of the first connection cable is a fast terminal, the fast plug is directly connected to the button, and the fast terminal is directly connected to the fast terminal interface 205 of the adapter plate assembly 102.

In the embodiment of the present application, the first connection cable is a three-core cable, so that each button can be electrically connected to the quick terminal interface 205 of the patch panel assembly 102 through one first connection cable in a one-to-one correspondence, for example, 60 buttons are installed on the control panel 101, each button is connected to 3 cables, and 60 buttons need to be connected to 60 first connection cables. Specifically, one end of the first connection cable is a quick plug, the quick plug can be a button universal connector, the quick plug is in direct-insert connection with the button, the other end of the first connection cable is a quick terminal, the quick terminal can be a KF2EDG connection terminal, and the quick terminal is in direct-insert connection with the quick terminal interface 205 of the adapter plate assembly 102; the quick plug and the quick terminal are welding-free terminals, so that a circuit can be connected through direct plug connection.

In the embodiment of the present application, the interposer assembly 102 includes a first interposer 201 and a second interposer 202, and each of the first interposer 201 and the second interposer 202 includes: an interposer input interface 203, an interposer output interface 204, and a plurality of quick terminal interfaces 205; the buttons are electrically connected with the quick terminal interfaces 205 in a one-to-one correspondence manner, the adapter plate output interface 204 of the first adapter plate 201 is electrically connected with the adapter plate input interface 203 of the second adapter plate 202, and the adapter plate output interface 204 of the second adapter plate 202 is electrically connected with the line concentration plate input interface 206 of the line concentration plate 103 in a one-to-one correspondence manner.

In the embodiment of the present application, the first interposer 201 and the second interposer 202 are the same interposer, and the first interposer 201 and the second interposer 202 are connected in series to form the interposer assembly 102. For example, the control panel 101 is installed with 60 buttons, 5 adapter plate assemblies 102 are provided, and for the first adapter plate assembly 102, the first adapter plate 201 and the second adapter plate 202 each include: an adapter plate input interface 203, an adapter plate output interface 204 and 6 fast terminal interfaces 205, a first group of 6 buttons in 60 buttons are electrically connected with 6 fast terminal interfaces 205 of the first adapter plate 201 through 6 first connection cables in a one-to-one correspondence manner, a second group of 6 buttons in 60 buttons is electrically connected with 6 fast terminal interfaces 205 of the second adapter plate 202 through 6 first connection cables in a one-to-one correspondence manner, the adapter plate output interface 204 of the first adapter plate 201 is electrically connected with the adapter plate input interface 203 of the second adapter plate 202, the adapter plate output interface 204 of the second adapter plate 202 is electrically connected with a line concentration plate input interface 206 of the line concentration plate 103 through a second connection cable, wherein the second connection cable is a 12PIN line, and the specific model of the 12PIN line can be: FC2.54-12P, can output 12 output signals of 12 buttons electrically connected to the adapter board assembly 102, and the rest buttons, the adapter board assembly 102 and the hub input interface 206 of the hub 103 are electrically connected in the same manner.

In the embodiment of the present application, by providing a plurality of adapter plate assemblies 102, the number of cables connected to the plurality of buttons included in the control panel 101 is effectively reduced, and the distance of cable connection is also reduced to the maximum extent.

It should be noted that, a connection manner between the first interposer 201 and the second interposer 202 in the interposer assembly 102 is bridging, and the interposer input interface 203 of the second interposer 202 is used for acquiring a signal output by the interposer output interface 204 of the first interposer 201. And the first adapter plate 201 and the second adapter plate 202 in the adapter plate assembly 102 are provided with fuses, so that when a certain button fails, a part of the circuit can be cut off without influencing the use function of most circuits.

In the embodiment of the present application, the hub output interface 207 of the hub 103 is a horn socket.

In the present embodiment, the sampling plate input interface 208 of the sampling plate 104 is a bullhorn socket.

In this embodiment of the application, the hub output interface 207 of the hub 103 is electrically connected to the sampling board input interface 208 of the sampling board 104 through a third connection cable, the hub 103 sends a signal sent by a signal line of each button to the sampling board 104 through the third connection cable in real time, and the sampling board 104 reads a button signal transmitted by the third connection cable in real time. The line concentration board output interface 207 of the line concentration board 103 and the sampling board input interface 208 of the sampling board 104 are both ox horn sockets, the line concentration board 103 comprises a plurality of line concentration board input interfaces 206 and a line concentration board output interface 207, the second connecting cables connected with the plurality of line concentration board input interfaces 206 are gathered into a line cable by the line concentration board output interface 207 and are electrically connected with the sampling board input interface 208 of the sampling board 104 through the line concentration board output interface 207 and a third connecting cable, and therefore the third connecting cable is a flat cable with two ends matched with the line concentration board output interface 207 and the sampling board input interface 208 for use.

For example, the control panel 101 is installed with 60 buttons, 5 adapter plate assemblies 102 are provided, and for the first adapter plate assembly 102, the first adapter plate 201 and the second adapter plate 202 each include: the test device comprises a patch panel input interface 203, a patch panel output interface 204 and 6 quick terminal interfaces 205, wherein the patch panel 103 comprises 5 patch panel input interfaces 206 and a patch panel output interface 207, and the sampling panel 104 comprises a sampling panel input interface 208; 60 buttons are electrically connected with 60 quick terminal interfaces 205 in a one-to-one correspondence manner through a first connecting cable, 5 adapter plate output interfaces 204 are electrically connected with 5 hub plate input interfaces 206 in a one-to-one correspondence manner through a second connecting cable, and a hub plate output interface 207 is electrically connected with a sampling plate input interface 208 through a third connecting cable. Therefore, it can be understood that the first connection cable is a three-core cable, and 60 first connection cables are required in total; the second connecting cable is 12PIN winding displacement, 5 12PIN winding displacement are totally required, the second connecting cable is equivalent to that signals sent by 60 signal lines of 60 buttons are divided into 5 groups through 5 adapter plate assemblies 102, each group has 12 paths of signals, 5 groups of 12 paths of signals are respectively sent to 5 line concentration board input interfaces 206 from adapter plate output interfaces 204 in a one-to-one correspondence mode through 5 second connecting cables, the line concentration board 103 can collect the received 60 paths of signals together and send the signals to a line concentration board output interface 207, the line concentration board output interface 207 sends the 60 paths of signals to a sampling board input interface 208 through a third connecting cable, therefore, the third connecting cable is 1 PIN winding displacement, and the specific model of the 60PIN winding displacement can be as follows: FC2.54-60P, the ox horn socket adopted by the hub output interface 207 of the hub 103 and the sampling plate input interface 208 of the sampling plate 104 is an ox horn socket with 60 pins. Therefore, by arranging a plurality of patch panel assemblies 102 and patch panels 103 between the control panel 101 and the sampling panel 104, the number of cables connected between the panels is reduced from 60 first connecting cables to 5 second connecting cables and from 5 second connecting cables to 1 third connecting cable. Through set up a plurality of adapter plate subassemblies 102 and collection line board 103 between control panel 101 and sampling board 104 and replace directly to be connected the other end of a large amount of cables that control panel 101 is connected through artifical line is directly to be connected with sampling board 104 electricity, and then has avoided the problem that artifical line was easily makeed mistakes, has increased the reliability of circuit simultaneously, is convenient for the maintenance and the troubleshooting in later stage.

In an embodiment of the present application, the sampling plate 104 further comprises: a main control chip 209 and a plurality of expansion chips 210; one end of each expansion chip 210 is electrically connected with the sampling board input interface 208, and the other end of each expansion chip 210 is electrically connected with the main control chip 209.

In the embodiment of the present application, the main control chip 209 included in the sampling board 104 is a conventional 51-chip microcomputer, and since the number of buttons installed on the control panel 101 is large, the number of button signals to be read by the main control chip 209 is large, and far exceeds the number of input/output I/O interfaces of the 51-chip microcomputer, a plurality of expansion chips 210 are provided in the sampling board 104, the expansion chips 210 may specifically be expansion chips 8255A, each expansion chip 8255A may provide 3 8-bit I/O interfaces for the main control chip 209 to use, the main control chip 209 may set the states of the 3 8-bit I/O interfaces of each expansion chip 8255A by configuring a control sub-register of the expansion chip 8255A, and finally, by reading the state of each I/O interface, the on-off condition of the button connected to the corresponding I/O interface may be obtained, the switching value of the present application is on at a low level and off at a high level.

In an embodiment of the present application, the sampling plate 104 further comprises: a communication module 211; the communication module 211 is electrically connected to the main control chip 209. The main control chip 209 that includes of sampling board 104 generally can't directly communicate with host computer (computer), consequently, this application has set up communication module 211 in sampling board 104 to make sampling board 104 can carry out the electricity through communication module 211 and host computer (computer) and be connected, and then realize the communication between sampling board 104 and the host computer (computer).

In the embodiment of the present application, the communication module 211 includes: a communication chip 212 and a serial port 213; the main control chip 209, the communication chip 212 and the serial port 213 are electrically connected in sequence. The communication chip 212 may specifically adopt a communication chip MAX232, the serial port 213 may specifically be an RS232 serial port, and specifically may adopt a commonly-used DB9 welding plate type female head, and the communication chip 212 may convert a Universal Asynchronous Receiver/Transmitter (UART) signal sent by the main control chip 209 into a serial port signal RS232 recognizable by the upper computer (computer), and communicate with the upper computer (computer) through the serial port 213. The communication baud rate of the sampling board 104 is 9600bps, and if the communication baud rate is required to be changed, the communication baud rate can be changed by changing the initial loading value of the timer/counter of the main control chip 209.

In an embodiment of the present application, the sampling plate 104 further comprises: a plurality of analog-to-digital converter modules 214; the analog-to-digital converter modules 214 are all electrically connected with the main control chip 209.

In the embodiment of the application, besides a large number of buttons, a certain number of control components such as knobs and push rods can be installed on the control panel 101, therefore, in the working process of the remote control device, the sampling board 104 can read level signals output by all the buttons on the control panel 101 in real time, namely on-off signals of switches in a button circuit, and can also read level signals output by all the knobs and push rods on the control panel 101 in real time, and finally, the information is integrated, converted into RS232 serial port signals through the communication chip 212, and sent to an upper computer (computer) through the serial port 213 for processing and displaying.

Specifically, for the main control chip 209 to read the level signals output by all the knobs and push rods, the present application provides a plurality of analog-to-digital converter modules 214 in the sampling board 104, and in a possible implementation manner, the analog-to-digital converter modules 214 may include: an analog-to-digital converter chip ADC0832 and a voltage division circuit. All knobs and push rods installed in the control panel 101 are electrically connected with the analog-to-digital converter modules 214 in a one-to-one correspondence manner, specifically, all the knobs and push rods are electrically connected with the voltage dividing circuit and the analog-to-digital converter chips ADC0832 in a one-to-one correspondence manner, and finally, all the analog-to-digital converter chips ADC0832 are electrically connected with the main control chip 209.

Specifically, each analog-to-digital converter chip ADC0832 can provide two paths of analog quantity reading channels, the reference voltage of the analog-to-digital converter chip ADC0832 is usually the working voltage, i.e., +5V, because the maximum output voltage of the knob and the push rod is +24V, the voltage division circuit is needed to be used for voltage division of the level signal reading channel of each knob or push rod in the sampling plate 104, specifically, each voltage division circuit can include 5 same resistors for voltage division, the voltage value read by the analog-to-digital converter chip ADC0832 only needs to be multiplied by 5, and the level signal output by the knob and the push rod can be obtained. Furthermore, the main control chip 209 only needs to configure the ADC chip ADC0832 according to the timing chart provided by the data manual of the ADC0832, so as to control the ADC0832 to read the analog quantity and output the result.

In one embodiment, the present application provides a remote control platform including any one of the remote control devices of the embodiments shown in fig. 1-3.

In this application embodiment, through installing remote control device in remote control platform, set up a plurality of adapter plate subassembly 102 and collection line board 103 and replace directly to carry out the electricity with sampling board 104 through the other end of the direct a large amount of cables that will control panel 101 be connected of manual line between control panel 101 and sampling board 104 and be connected, and then avoided the problem that the manual line was easily made mistakes of business, increased the reliability of circuit simultaneously, be convenient for the maintenance and the troubleshooting in later stage. Moreover, the remote control platform provided by the application can be quickly detached through the first connecting cable, the second connecting cable and the third connecting cable in the installed remote control device by installing the remote control device, and meanwhile, the integration level of the remote control platform is increased; when the remote control platform is miniaturized, ordered connection of a large number of cables can be realized in a narrow space of the remote control platform through a plurality of adapter plate assemblies 102 and a line collecting plate 103 in the remote control device; the remote control platform uses the small-sized non-standard cabinet and the small-sized engineering host to replace a large standard cabinet, saves space, does not need to be fixed on the container body, and can be manually and quickly installed at any position of a deck.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A remote control apparatus, characterized in that the apparatus comprises: the device comprises a control panel, a plurality of adapter plate assemblies, a line concentration plate and a sampling plate; wherein the control panel comprises a plurality of buttons;

the buttons are electrically connected with the quick terminal interfaces of the adapter plate assembly in a one-to-one correspondence manner;

the output interfaces of the adapter plate assemblies are electrically connected with the input interfaces of the line concentration plates in a one-to-one correspondence manner;

and the line concentration plate output interface of the line concentration plate is electrically connected with the sampling plate input interface of the sampling plate.

2. The remote control device according to claim 1, wherein the button is electrically connected to the quick terminal interface of the adapter plate assembly in a one-to-one correspondence manner through a first connection cable, one end of the first connection cable is a quick plug, the other end of the first connection cable is a quick terminal, the quick plug is connected to the button in a direct-insert manner, and the quick terminal is connected to the quick terminal interface of the adapter plate assembly in a direct-insert manner.

3. The remote control device of claim 1, wherein the adapter plate assembly comprises a first adapter plate and a second adapter plate, each of the first and second adapter plates comprising: the adapter plate comprises an adapter plate input interface, an adapter plate output interface and a plurality of quick terminal interfaces; the button is electrically connected with the quick terminal interface in a one-to-one correspondence mode, the adapter plate output interface of the first adapter plate is electrically connected with the adapter plate input interface of the second adapter plate, and the adapter plate output interface of the second adapter plate is electrically connected with the line concentration plate input interface of the line concentration plate in a one-to-one correspondence mode.

4. The remote control device according to claim 1, wherein the hub output interface of the hub is a horn socket.

5. The remote control device of claim 1, wherein the sampling plate input interface of the sampling plate is a bullhorn socket.

6. The remote control device of claim 1, wherein the sampling plate further comprises: the system comprises a main control chip and a plurality of expansion chips;

one end of the expansion chip is electrically connected with the sampling board input interface, and the other end of the expansion chip is electrically connected with the main control chip.

7. The remote control device of claim 6, wherein the sampling plate further comprises: a communication module;

the communication module is electrically connected with the main control chip.

8. The remote control apparatus according to claim 7, wherein the communication module comprises: a communication chip and a serial port;

the master control chip, the communication chip and the serial port are electrically connected in sequence.

9. The remote control device of claim 6, wherein the sampling plate further comprises: a plurality of analog-to-digital converter modules;

the analog-to-digital converter modules are electrically connected with the main control chip.

10. A remote control platform, characterized in that the remote control platform comprises a remote control device according to any one of claims 1 to 9.

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