CN212906217U - Wireless starting system - Google Patents

Abstract

The utility model relates to a wireless start system, including wireless control equipment, first wireless communication subassembly, micro-processing subassembly, logic control subassembly and computer control assembly. The wireless control equipment acquires the starting operation of a user, generates a starting signal corresponding to the starting operation and sends the starting signal to the micro-processing component through the first wireless communication component; the micro-processing component initiates a signal request corresponding to the starting signal to the logic control component; the logic control assembly sends a signal request corresponding to a starting instruction to the computer control assembly so as to enable the computer control assembly to send a starting time sequence to realize the starting of the computer host. The wireless control equipment controls the starting of the computer host through wireless communication, realizes remote control of the starting of the computer host, does not need a user to start the computer at the position of the computer, and can directly carry out remote control, thereby reducing the complexity of the starting of the computer and improving the starting efficiency of the computer.

Description

Wireless starting system

Technical Field

The utility model relates to a wireless control technical field, concretely relates to wireless start system.

Background

At present, computers have become indispensable equipment in various industries, and the starting mode of the computers is that the computers are started directly by pressing physical mechanical keys or physical touch keys of the computers. However, in some industries, a computer needs to be placed in a closed environment, and a worker cannot touch a physical key, so that the worker may need to perform some preparation work and then enter the closed environment to start the computer, which results in slow start-up. Therefore, it is a technical problem to be solved by those skilled in the art how to reduce the complexity of booting a computer and improve the booting efficiency of the computer when the computer is placed in a closed environment or the computer is too far away from an operator.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a wireless start-up system, aim at overcome among the prior art when the computer is placed in the enclosed environment or the computer is too far away from the operator, the start-up complexity of computer is higher, has reduced the problem of the start-up efficiency of computer.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a wireless boot system, comprising: the system comprises wireless control equipment, a first wireless communication component, a micro-processing component, a logic control component and a computer control component;

the micro-processing assembly, the logic control assembly and the computer control assembly are all arranged in a computer host;

the wireless control equipment is connected with the microprocessor component through the first wireless communication component;

the micro-processing assembly and the computer control assembly are respectively connected with the logic control assembly;

the wireless control equipment is used for collecting the starting-up operation of a user, generating a starting-up signal corresponding to the starting-up operation and sending the starting-up signal to the micro-processing component through the first wireless communication component;

the micro-processing component is used for initiating a signal request corresponding to the starting signal to the logic control component according to the starting signal;

and the logic control assembly is used for sending a starting instruction corresponding to the signal request to the computer control assembly according to the signal request so as to enable the computer control assembly to send a starting time sequence and realize the starting of the computer host.

Further, in the above wireless booting system, the first wireless communication module includes: a wireless radio and a wireless receiver;

the wireless radio frequency device is arranged in the wireless control equipment;

the wireless receiver is connected with the microprocessing component in the host computer;

the wireless radio frequency device is used for sending the starting-up signal to the wireless receiver so that the wireless receiver sends the starting-up signal to the micro-processing assembly.

Further, in the above wireless booting system, the wireless control device includes: a wireless keyboard and/or a wireless mouse;

the wireless receiver is a USB wireless receiver;

the USB wireless receiver is connected with the micro-processing assembly through a USB interface.

Further, in the above wireless booting system, the microprocessor assembly includes: the device comprises a micro-processing unit, a power supply unit, a TVS (transient voltage suppressor) tube, a concentrator and an analog switch;

the micro-processing unit, the TVS tube, the concentrator and the analog switch are respectively connected with the power supply unit;

the power supply unit is connected with an external power supply;

the TVS tube and the analog switch are respectively connected with the concentrator;

the wireless control equipment is connected with the concentrator through the first wireless communication component;

the analog switch is connected with the micro-processing unit;

the micro-processing unit is connected with the logic control assembly.

Further, in the above wireless booting system, the microprocessor unit includes: a microprocessor chip;

the model adopted by the micro-processing chip comprises a FINTEK F75501 chip.

Further, the wireless booting system further includes: a mobile terminal;

the wireless control equipment is also provided with a second wireless communication component;

the mobile terminal performs data interaction with the wireless control equipment through the second wireless communication component;

the mobile terminal is used for sending the starting signal to the wireless control equipment through the second wireless communication component, so that the wireless control equipment sends the starting signal to the microprocessor component through the first wireless communication component.

Further, in the above wireless booting system, the first wireless communication module and the second wireless communication module each include: a WIFI component and/or a bluetooth component.

Further, in the wireless starting-up system, the wireless control equipment is also provided with a communication indicator light;

the communication indicator light is connected with the wireless control equipment;

the communication indicator light is used for indicating the communication condition of the wireless control equipment and the microprocessor assembly.

Further, in the wireless starting-up system, the wireless control device is also provided with a voice recognition component;

the voice recognition component is connected with the wireless control equipment;

the voice recognition component is used for receiving current voice information sent by the user, and if the current voice information is matched with preset target voice information, the voice recognition component sends the starting signal to the wireless control equipment, so that the wireless control equipment sends the starting signal to the micro-processing component through the first wireless communication component.

Further, in the wireless boot system, the logic control component is a chip with a model including ITE IT 8784E;

the computer control assembly employs a chip of the type including INTEL GL82B 365.

The utility model discloses a wireless starting system, which comprises a wireless control device, a first wireless communication component, a micro-processing component, a logic control component and a computer control component; the micro-processing assembly, the logic control assembly and the computer control assembly are all arranged in the computer host; the wireless control equipment is connected with the micro-processing component through the first wireless communication component; the micro-processing assembly and the computer control assembly are respectively connected with the logic control assembly; the wireless control equipment acquires the starting operation of a user, generates a starting signal corresponding to the starting operation and sends the starting signal to the micro-processing component through the first wireless communication component; the micro-processing component initiates a signal request corresponding to the starting signal to the logic control component according to the starting signal; the logic control assembly sends a starting instruction corresponding to the signal request to the computer control assembly according to the signal request so that the computer control assembly sends a starting time sequence to start the computer host. Adopt the technical scheme of the utility model, can utilize wireless control equipment to control the start of computer host computer through wireless communication to the realization is placed in the closed environment or when the computer is too far away from the operator at the computer to the remote control of computer host computer start, need not the position start of user to the computer, direct remote control can, reduced the complexity that the computer was started, improved the start efficiency of computer.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

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, and for those skilled in the art, other drawings can be obtained without creative efforts.

Fig. 1 is a circuit block diagram of one embodiment of a wireless power-on system of the present invention;

fig. 2 is a circuit block diagram of another embodiment of the wireless booting system of the present invention;

FIG. 3 is a circuit connection diagram of the power supply unit, TVS tube, hub and analog switch of FIG. 2;

fig. 4 is a circuit diagram of the micro-processing unit of fig. 2.

Detailed Description

To make the objects, aspects and advantages of the present invention clearer, exemplary embodiments will be described in detail herein, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

Fig. 1 is a circuit block diagram of an embodiment of the wireless booting system of the present invention, as shown in fig. 1, the wireless booting system of this embodiment includes: a wireless control device 11, a first wireless communication component 12, a microprocessor component 13, a logic control component 14 and a computer control component 15. The micro-processing assembly 13, the logic control assembly 14 and the computer control assembly 15 are all arranged in the computer host; the wireless control device 11 is connected with the microprocessor component 13 through the first wireless communication component 12; the microprocessor assembly 13 and the computer control assembly 15 are respectively connected with the logic control assembly 14.

The user can start the computer by the wireless control device 11, the wireless control device 11 generates a start signal corresponding to the start operation after collecting the start operation of the user, and sends the start signal to the microprocessor 13 through the first wireless communication component 12, the microprocessor 13 analyzes and processes the start signal, and sends a signal request corresponding to the start signal to the logic control component 14, and directly sends the signal request to the logic control component 14 for controlling start, the logic control component 14 sends a corresponding start instruction to the computer control component 15 after analyzing the signal request, and the computer control component 15 sends a series of start time sequences after receiving the start instruction, thereby completing the start of the whole computer host.

In this embodiment, the wireless control device 11 may be a wireless keyboard and/or a wireless mouse, and when the wireless control device 11 is a wireless keyboard, a combination key or a power-on key having a power-on function may be set, a user presses the combination key or the power-on key to perform a power-on operation, and a power-on signal corresponding to the power-on operation is a combination key signal or a power-on key signal. When the wireless control device 11 is a wireless mouse, a power-on key may be provided on the wireless mouse. In addition, in the present embodiment, the logic control component may adopt a model including, but not limited to, a chip of ITE IT 8784E; the computer control assembly may employ a chip of a type including, but not limited to, INTEL GL82B 365.

In the wireless booting system of this embodiment, the wireless control device 11 obtains a booting operation of a user, generates a booting signal corresponding to the booting operation, and sends the booting signal to the microprocessor component 13 through the first wireless communication component 12; the micro-processing component 13 sends a signal request corresponding to the starting signal to the logic control component 14 according to the starting signal; the logic control module 14 sends a boot instruction corresponding to the signal request to the computer control module 15 according to the signal request, so that the computer control module 15 sends a boot sequence to implement booting of the host computer. By adopting the technical scheme of the embodiment, the wireless control equipment 11 can be used for controlling the startup of the computer host through wireless communication, so that the remote control of the startup of the computer host is realized, when the computer is placed in a closed environment or the computer is too far away from an operator, a user does not need to start the computer at the position of the computer, the remote control can be directly realized, the complexity of the startup of the computer is reduced, and the startup efficiency of the computer is improved.

Further, fig. 2 is a circuit block diagram of another embodiment of the wireless booting system of the present invention, as shown in fig. 2, in the wireless booting system of this embodiment, the first wireless communication component 12 includes a radio frequency device 121 and a wireless receiver 122, wherein the radio frequency device 121 is disposed in the wireless control device 11, and the wireless receiver 122 is connected to the microprocessor 13 in the computer host. The radio frequency 121 may send a power-on signal to the wireless receiver 122, and after receiving the power-on signal, the wireless receiver 122 sends the power-on signal to the microprocessor 13, so that the microprocessor 13 analyzes the power-on signal. When the wireless control device 11 is a wireless keyboard and/or a wireless mouse, the wireless receiver 122 can be a USB wireless receiver, and the USB wireless receiver can be connected to the microprocessor 13 in the host computer through a USB interface, that is, the USB wireless receiver is plugged into the USB interface in the host computer.

Further, in the wireless booting system of the embodiment, the microprocessor 13 includes a TVS tube 131, a hub 132, an analog switch 133, a microprocessor unit 134 and a power supply unit 135. Wherein, the TVS tube 131, the hub 132, the analog switch 133 and the microprocessor unit 134 are respectively connected to the power supply unit 135; the power supply unit 135 is connected to the external power supply 20; the TVS tube 131 and the analog switch 133 are connected to the hub 132, respectively; the wireless control device 11 is connected to the hub 132 through the first wireless communication component 12, for example, a USB wireless receiver in the first wireless communication component 12 can be plugged into a USB interface in the hub 132. The analog switch 133 is connected to the micro-processing unit 134; the micro-processing unit 134 is connected to the logic control assembly 14. The microprocessor unit 134 includes a microprocessor chip that may be of a type including, but not limited to, the FINTEK F75501 chip.

Further, the wireless booting system of the embodiment further includes a mobile terminal 17, and the wireless control device 11 is further provided with a second wireless communication component 16. The mobile terminal 17 can perform data interaction with the wireless control device 11 through the second wireless communication component 16. The mobile terminal 17 can send a power-on signal to the wireless control device 11 through the second wireless communication component 16, so that the wireless control device 11 sends the power-on signal to the microprocessor component 13 through the first wireless communication component 12. The user can make a wireless connection with the wireless control device 11 using the mobile terminal 17 to transmit a power-on signal through the mobile terminal 17. The mobile terminal 17 is convenient to carry, the portability of the computer host startup is improved, the wireless control device 11 is in wireless connection with the computer host, the startup of the computer host can be controlled when the wireless control device is away from the computer host by a certain distance, the mobile terminal 17 is also in wireless connection with the wireless control device 11, and the startup signal can be transmitted when the wireless control device and the mobile terminal are away from each other by a certain distance, so that the startup of the computer host can be controlled by a longer distance, and the control distance is prolonged. In addition, the first wireless communication component 12 and the second wireless communication component 16 may each include a WIFI component and/or a bluetooth component.

Further, in the wireless start-up system of this embodiment, the wireless control device 11 may further be provided with a communication indicator light 18, and the communication indicator light 18 is connected to the wireless control device 11. The communication indicator light 18 can indicate the communication condition between the wireless control device 11 and the microprocessor assembly 13. For example, if the communication connection between the wireless control device 11 and the microprocessor 13 is successful, the communication indicator light 18 may display a green color; if the communication connection between the wireless control device 11 and the microprocessor 13 fails, the communication indicator light 18 may display a red color. Therefore, the user can judge the communication connection condition between the wireless control device 11 and the micro-processing assembly 13 according to the communication indicator lamp 18, so as to deal with the communication problem in time.

Further, in the wireless boot system of this embodiment, the wireless control device 11 may further be provided with a voice recognition component 19, and the voice recognition component 19 is connected to the wireless control device 11. The voice recognition component 19 can receive the current voice information sent by the user, and if the current voice information matches with the preset target voice information, send a power-on signal to the wireless control device 11, so that the wireless control device 11 sends the power-on signal to the microprocessor component 13 through the first wireless communication component 12. For example, the preset target voice information may be "on" voice. The user sends out voice information, the voice recognition component 19 receives the current voice information, if the analyzed current voice information is also 'on', it indicates that the user requests the computer host to be on, and the voice recognition component 19 sends an on signal to the wireless control device 11. Therefore, the user can directly speak and send out voice without key operation, and the convenience of starting the computer host is improved.

FIG. 3 is a circuit connection diagram of the power supply unit, TVS tube, hub and analog switch of FIG. 2; fig. 4 is a circuit diagram of the micro-processing unit of fig. 2. As shown in fig. 3 and 4, the power supply unit 135 includes: the circuit comprises a chip U1, resistors R1-R2 and capacitors C1-C4. The TVS tube 131 includes: a diode D1 and a capacitor C5. The hub 132 includes: a hub interface DUSB1 and a capacitor C6. The analog switch 133 includes: chip U2, resistance R3-R4. The microprocessing unit 134 includes: the circuit comprises a microprocessor chip U4, resistors R7-R11, capacitors C7-C10 and a crystal oscillator Y1, wherein the resistor R11 is a metal film resistor. The connection relationship between the pins of each chip and each component is shown in fig. 3 and fig. 4, which is not described in detail in this embodiment. The terminals with the same reference numbers have connection relationships, for example, the terminal USB _ D5N in fig. 3 is connected to the terminal USB _ D5N in fig. 4, that is, the pin 6 of the chip U2 is connected to the pin DM of the chip U4. The hub interface DUSB1 is connected to the wireless receiver 122 in the first wireless communication module 12, and the dashed-line frame portion in FIG. 4 is connected to the logic control module 14.

In addition, the chip U3, the resistor R5, and the resistor R6 in fig. 3 are used as analog switches to connect to another USB interface, and the USB _ D13-and the USB _ D13+ in the figure are directly connected to the computer control unit, which does not have a power-on function.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

It should be noted that, in the description of the present invention, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means at least two unless otherwise specified.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. A wireless boot system, comprising: the system comprises wireless control equipment, a first wireless communication component, a micro-processing component, a logic control component and a computer control component;

the micro-processing assembly, the logic control assembly and the computer control assembly are all arranged in a computer host;

the wireless control equipment is connected with the microprocessor component through the first wireless communication component;

the micro-processing assembly and the computer control assembly are respectively connected with the logic control assembly;

the wireless control equipment is used for collecting the starting-up operation of a user, generating a starting-up signal corresponding to the starting-up operation and sending the starting-up signal to the micro-processing component through the first wireless communication component;

the micro-processing component is used for initiating a signal request corresponding to the starting signal to the logic control component according to the starting signal;

and the logic control assembly is used for sending a starting instruction corresponding to the signal request to the computer control assembly according to the signal request so as to enable the computer control assembly to send a starting time sequence and realize the starting of the computer host.

2. The wireless boot system of claim 1, wherein the first wireless communication component comprises: a wireless radio and a wireless receiver;

the wireless radio frequency device is arranged in the wireless control equipment;

the wireless receiver is connected with the microprocessing component in the host computer;

the wireless radio frequency device is used for sending the starting-up signal to the wireless receiver so that the wireless receiver sends the starting-up signal to the micro-processing assembly.

3. The wireless boot system according to claim 2, wherein the wireless control device comprises: a wireless keyboard and/or a wireless mouse;

the wireless receiver is a USB wireless receiver;

the USB wireless receiver is connected with the micro-processing assembly through a USB interface.

4. The wireless boot system of claim 1 wherein the microprocessor component comprises: the device comprises a micro-processing unit, a power supply unit, a TVS (transient voltage suppressor) tube, a concentrator and an analog switch;

the micro-processing unit, the TVS tube, the concentrator and the analog switch are respectively connected with the power supply unit;

the power supply unit is connected with an external power supply;

the TVS tube and the analog switch are respectively connected with the concentrator;

the wireless control equipment is connected with the concentrator through the first wireless communication component;

the analog switch is connected with the micro-processing unit;

the micro-processing unit is connected with the logic control assembly.

5. The wireless boot system of claim 4 wherein the microprocessor unit comprises: a microprocessor chip;

the model adopted by the micro-processing chip comprises a FINTEK F75501 chip.

6. The wireless boot system of claim 1, further comprising: a mobile terminal;

the wireless control equipment is also provided with a second wireless communication component;

the mobile terminal performs data interaction with the wireless control equipment through the second wireless communication component;

the mobile terminal is used for sending the starting signal to the wireless control equipment through the second wireless communication component, so that the wireless control equipment sends the starting signal to the microprocessor component through the first wireless communication component.

7. The wireless boot system of claim 6 wherein the first wireless communication component and the second wireless communication component each comprise: a WIFI component and/or a bluetooth component.

8. The wireless boot system of claim 1, wherein the wireless control device further comprises a communication indicator light;

the communication indicator light is connected with the wireless control equipment;

the communication indicator light is used for indicating the communication condition of the wireless control equipment and the microprocessor assembly.

9. The wireless boot system of claim 1, wherein a voice recognition component is further disposed on the wireless control device;

the voice recognition component is connected with the wireless control equipment;

the voice recognition component is used for receiving current voice information sent by the user, and if the current voice information is matched with preset target voice information, the voice recognition component sends the starting signal to the wireless control equipment, so that the wireless control equipment sends the starting signal to the micro-processing component through the first wireless communication component.

10. The wireless boot system of claim 1, wherein the logic control component is of a type including a chip of ITE IT 8784E;

the computer control assembly employs a chip of the type including INTEL GL82B 365.

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