CN211046568U - Multifunctional UPS - Google Patents
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- CN211046568U CN211046568U CN202020036452.6U CN202020036452U CN211046568U CN 211046568 U CN211046568 U CN 211046568U CN 202020036452 U CN202020036452 U CN 202020036452U CN 211046568 U CN211046568 U CN 211046568U
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Abstract
The utility model relates to a multifunctional UPS, include: a UPS main body and a network device connected with the UPS main body; the UPS main body supplies power to the network device; the network device is used for acquiring the mobile data signal and providing a network signal for external equipment; wherein the mobile data signal is a 4G signal or a 5G signal. The connection relation between the household network equipment and an operator machine room is disconnected, and when power is off at home, the terminal equipment of a user can acquire network signals, so that the user can use the network more conveniently.
Description
Technical Field
The utility model relates to a multi-functional uninterrupted Power source (Uninterruptable Power System/Uninterrr, UPS) technical field, concretely relates to multi-functional UPS.
Background
In daily work and life, the internet becomes one of the important ways for information transfer and communication. When the internet is used in a home environment, a home network device is usually wired to an operator room to acquire wired network signals.
However, in some unexpected situations, for example, when the wired connection between the home network device and the operator room is cut off due to construction, and when the home network device fails to work due to power failure, the home network device cannot provide the network signal for the terminal device of the user. The related art also does not have a device for solving the problem, in which the home network device is a network device, such as an optical modem, adapted for a home environment for modulating and demodulating an optical signal transmitted by a network operator into a signal of another protocol.
SUMMERY OF THE UTILITY MODEL
In view of this, in order to solve the above problem, the present invention provides a multifunctional UPS.
The utility model adopts the following technical scheme: a multifunction UPS, comprising: the method comprises the following steps: a UPS main body and a network device connected with the UPS main body; the UPS main body supplies power to the network device; the network device is used for acquiring the mobile data signal and providing a network signal for external equipment; wherein the mobile data signal is a 4G signal or a 5G signal.
By adopting the technical scheme, when the wired connection relation between the household network equipment and the operator machine room is cut off due to construction, the multifunctional UPS can acquire mobile data signals in the surrounding environment through the network device, and can provide wired signals for the household network equipment by connecting the network device with the household network equipment or directly provide wired network signals or wireless network signals for the terminal equipment of a user through the network device; when the household network equipment cannot work due to power failure and the like, the multifunctional UPS can supply power to the household network equipment so as to enable the household network equipment to continue to normally operate. The connection relation between the household network equipment and an operator machine room is disconnected, and when power is off at home, the terminal equipment of a user can acquire network signals, so that the user can use the network more conveniently.
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 structural diagram of a multifunctional UPS according to an embodiment of the present invention.
Fig. 2 is a schematic structural diagram of a voltage output device according to an embodiment of the present invention.
Fig. 3 is a schematic circuit diagram of a voltage-reducing rectification circuit according to an embodiment of the present invention.
Fig. 4 is a schematic structural diagram of a paddle switch according to an embodiment of the present invention.
Fig. 5 is a schematic structural diagram of a network device according to an embodiment of the present invention.
Fig. 6 is an external schematic diagram of a multifunctional UPS according to an embodiment of the present invention.
Fig. 7 is an external schematic diagram of another multifunctional UPS according to an embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of 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.
Fig. 1 is a schematic structural diagram of a multifunctional UPS according to an embodiment of the present invention. As shown in fig. 1, the multifunctional UPS of the present embodiment includes: a UPS body 11 and a network device 12 connected to the UPS body.
Wherein, the UPS main body 11 supplies power to the network device 12; the network device 12 is used for acquiring the mobile data signal and providing a network signal for the external device; wherein the mobile data signal is a 4G signal or a 5G signal.
Specifically, the UPS main body 11 is a UPS device in the prior art, and is a system device that is configured to solve the problem of uninterruptible power supply, connects a storage battery to a host, and converts direct current power into commercial power through a module circuit such as a host inverter. The power supply device is mainly used for providing stable and uninterrupted power supply for a single computer, a computer network system or other power electronic equipment. The network device 12 may be of various types, and may be capable of acquiring the mobile data signal and providing a network signal to an external device. For example, the network device 12 may be a conventional 5G chip of cellule 765 series, and when the 5G chip is connected to a SIM card and connected to an external device such as a computer or a router, which is capable of being connected to the network device 12 by a wire, the network device may acquire a mobile data signal in the surrounding environment and transmit a network signal to the external device through a signal transmission line such as a network cable; the network signal is a wired network signal; when the SIM card is the SIM card of 4G model, the 5G chip can acquire the 4G signal in the surrounding environment, when the SIM card is the SIM card of 5G model, the 5G chip can acquire the 5G signal in the surrounding environment.
By adopting the technical scheme, when the wired connection relation between the household network equipment and the operator machine room is cut off due to construction, the multifunctional UPS can acquire mobile data signals in the surrounding environment through the network device, and can provide wired signals for the household network equipment by connecting the network device with the household network equipment or directly provide wired network signals or wireless network signals for the terminal equipment of a user through the network device; when the household network equipment cannot work due to power failure and the like, the multifunctional UPS can supply power to the household network equipment so as to enable the household network equipment to continue to normally operate. The connection relation between the household network equipment and an operator machine room is disconnected, and when power is off at home, the terminal equipment of a user can acquire network signals, so that the user can use the network more conveniently.
Further, the UPS comprises a voltage output device connected with the UPS main body 11; the voltage output device is provided with a voltage reduction rectifying circuit and a plurality of power supply interfaces connected with the voltage reduction rectifying circuit; the voltage reduction rectification circuit is provided with a plurality of output ends and is used for rectifying and reducing the current supplied by the UPS main body 11 to obtain currents under different voltage conditions and outputting the currents through different output ends; and each power supply interface is respectively connected with the output end of the voltage reduction rectification circuit.
Specifically, the voltage output device may be of various types, and may be configured to rectify and step down the current supplied by the UPS main body 11 to obtain currents of different voltage conditions, and output the currents through different output terminals. For example, fig. 2 is a schematic structural diagram of a voltage output apparatus according to an embodiment of the present invention. As shown in fig. 2, the voltage output device includes a buck rectifying circuit 21 and power supply interfaces 22, where each power supply interface 22 is connected to an output terminal 211 of the buck rectifying circuit 21, and one output terminal 211 is connected to at least one power supply interface.
Specifically, the buck rectifying circuit 21 is further connected to the UPS main body 11, and is configured to obtain the current supplied by the UPS main body 11. The step-down rectifier circuit 21 is a step-down rectifier circuit in the prior art, and can rectify and step down the current supplied by the UPS main body 11 to obtain currents under different voltage conditions. For example, fig. 3 is a schematic circuit diagram of a buck rectification circuit according to an embodiment of the present invention. As shown in fig. 3, the buck rectifying circuit is a full-wave type capacitor buck rectifying circuit, and is composed of a voltage input terminal 31, a buck module 32, a rectifying module 33, and an output terminal 211.
The voltage input terminal 31 is connected to the UPS body 11 and is configured to receive a current with a voltage value of 220V transmitted by the UPS body 11. After receiving the current with the voltage value of 220V input from the voltage input terminal, the voltage-reducing module 32 firstly reduces the voltage through the capacitor voltage-reducing module 311, and then transmits the current to the rectifying module 33 through the transformer coil module 312, and the rectifying module 33 realizes rectification through the diodes connected in a bridge manner. The output end 211 is an output end of the foregoing embodiment, and has a corresponding structure and beneficial effects, which are not described herein again.
The output voltages of the output terminals 22 are different, and the voltages output by the power supply interfaces 22 connected to the same output terminal 22 are the same. The power supply interface 22 is used for connecting with an external device through a power line to charge and/or supply power to the external device. The UPS further comprises a housing, wherein a power supply socket corresponding to the power supply interface 22 is arranged on the housing, and the power supply socket is used for inserting external equipment through a power line, so that the external equipment is connected with the corresponding power supply interface, and the purpose of charging is achieved. The voltage reduction rectification circuit 21 can provide currents with different voltage conditions for external equipment so as to meet the charging and/or power utilization requirements of various external equipment, enrich the power supply function of the UPS and enable the application range of the UPS to be wider.
Further, the power supply interface 22 is a Universal Serial Bus (USB) power supply interface and/or a square round hole power supply interface.
Specifically, at present, the type of the charging interface of the terminal device is generally a USB charging interface or a square round hole charging interface, and therefore, the power supply interface 22 is a Universal Serial Bus (USB) power supply interface and/or a square round hole power supply interface, which is beneficial to improving the power supply practicability of the UPS. For example, the charging voltage of the current terminal device such as a mobile phone is generally 5V, and the type of the charging interface is generally a USB interface, at this time, if the power supply interface 22 is a USB charging interface, and when the USB charging interface is connected to the output terminal 211 with the output voltage of 5V, the USB charging interface can be directly inserted into the charging line of the mobile phone to charge the mobile phone, so that the purpose of charging the terminal device such as the mobile phone through the UPS without a power adapter is achieved.
Furthermore, the voltage output device is also provided with a plectrum switch; the power supply interface 22 is connected to the output end 211 of the step-down rectifying circuit corresponding to the current with different voltage values through the plectrum switch.
In detail, the structure and control principle of the toggle switch are similar to those of the single-pole double-throw switch in the prior art. Fig. 4 is a schematic structural diagram of a paddle switch according to an embodiment of the present invention. As shown in fig. 4, the paddle switch includes a fixed end 41, a paddle 42, and a selected end 43.
Wherein the selected terminal 43 is provided with at least one connector terminal, and the selected terminal 43 of the corresponding toggle switch of fig. 4 is provided with two connector terminals, namely a first connector terminal 411 and a second connector terminal 412. In a specific application process, the fixed end 41 is connected to the power supply interface 22, the connector ends of the selected end 43 are respectively connected to the output ends 211 corresponding to currents with different voltage values, one end of the dial 42 is fixedly connected to the fixed end 41 and can rotate around a connection point with the fixed end 41, and the dial 42 can be connected to different connector ends when rotating, so that the power supply interface 22 is connected to the output ends 211 of the buck rectifying circuit corresponding to currents with different voltage values. Therefore, one power supply interface 22 can output current of at least one voltage condition, the number of the power supply interfaces 22 can be reduced under the condition of keeping the output voltage type unchanged, a plurality of power supply sockets corresponding to the power supply interfaces 22 do not need to be arranged on the shell of the UPS, the shell is simple in structure, and users can find the power supply sockets corresponding to different output voltages more conveniently.
Fig. 5 is a schematic structural diagram of a network device according to an embodiment of the present invention. As shown in fig. 5, the network device 12 includes: a control chip 51, a SIM module 52, a wired network input interface 53, a wired network output interface 54, and a wireless network output module 55.
The SIM module 52, the wired network input interface 53, the wired network output interface 54, and the wireless network output module 55 are respectively connected to the control chip 51. The SIM module 52 is configured to acquire the mobile data signal and send the mobile data signal to the control chip 51; the wired network input interface 53 is used for inserting an external network cable, so that the control chip 51 is connected with the external network cable, and external wired network signals are obtained through the external network cable; the control chip 51 is configured to generate the network signal according to the mobile data signal or the external network signal, provide a wired network signal to an external device through a wired network output interface 54, and provide a wireless network signal to the external device through a wireless network output module 55, where the network signal includes the wired network signal and the wireless network signal. The control port 56 is used for connecting with an intelligent terminal, and performing parameter configuration on the network device through an application program in the intelligent terminal; the parameter configuration includes setting a network type and a network priority.
In detail, as can be seen from the above, the function of the control chip 51 is the same as that of the router in the prior art, and therefore, the control chip 51 may be any type of chip used in the router in the prior art, for example, the control chip may be a chip with a model of Atheros AR 9331. The SIM module 52 may be composed of a processing unit and a SIM card unit, where the processing unit is a 5G chip in the prior art, the SIM card unit is a SIM card in the prior art, and when the SIM card is connected to the 5G chip, the 5G chip obtains identity information through the SIM card, obtains the mobile data signal according to the identity information, and sends the mobile data signal to the control chip 51, where the identity information is identity information of a SIM card client, so that communication charges generated when the 5G chip operates are recorded in an account of the SIM card client. The 5G chip may be any type of 5G chip of the prior art, such as a type Exynos5100 chip.
Considering that the number of the network devices of the user is at least one, and the network devices are in one-to-one correspondence with the wired network output interfaces 54, at least one wired network output interface 54 is provided in the network device 12 to meet the network requirements of the user. The structure of the wired network input interface 53 is the same as the input port of the router in the prior art, the structure of the wired network output interface 54 is the same as the wired output port of the router in the prior art, the wireless network output module 55 is the same as the wireless output port of the router in the prior art, and the wired network input interface 53, the wired network output interface 54 and the wireless network output module 55 can be provided by a line card, and one line card generally supports 4, 8 or 16 ports. The wired network input interface 53 is connected to the wired network output interface 54 and the wireless network output module 55, respectively, via a switch, which is a switch in a router of the prior art and can be implemented using a variety of different technologies. The most used switch technologies to date are buses, crossbars and shared memory. For example, one bus is used to connect all input and output ports, i.e. the switch is a single bus.
In addition, the intelligent terminal may be connected to the network device 12 through the wired network output interface 54 to perform parameter configuration on the network device 12, or the terminal device may be connected to the network device through a wireless network to perform parameter configuration on the network device 12. The specific operation of configuring the parameters may be to set the network device to only use the mobile data network sent by the SIM module 52, or only use an external network cable, such as an optical fiber of an operator, a wired network transmitted through the wired network input interface 53, or use both networks; when the network device is set to use the aforementioned two networks at the same time, the priorities of the two networks may be set.
The network module can be directly connected with the household network equipment to obtain an external wired network signal sent by the household network equipment, and provides a wired network signal or a wireless network signal for the terminal equipment of a user according to the external wired network signal, so that the multifunctional UPS can replace a household router; the network module can also be connected with a home router to enhance the signal coverage area of the home network. The network module can also acquire the mobile data signal through the SIM module 52, so that the multifunctional UPS of the present application can provide the network signal for the smart device of the user at any place where the mobile data signal exists, and the coverage area of the mobile data signal is wider than the coverage area of the network cable of the operator, so that the user can almost acquire the network signal through the multifunctional UPS of the present application at any time and any place.
Further, the SIM card unit of the SIM module 52 may be an in-line SIM unit, or the SIM card unit of the SIM module 52 may be a plug-in SIM unit disposed on the UPS body. Specifically, the embedded SIM unit is a SIM card arranged in the UPS main body, and the SIM is placed in the UPS main body, so that the SIM can be prevented from being interfered by the external environment. The plug-in SIM card unit can support a user to insert the SIM card without opening the UPS main body, so that the user can replace the SIM card more conveniently.
Further, a signal collecting antenna connected with the SIM module 52 is also included; the signal collection antenna is used for enhancing the mobile data signal acquired by the SIM module and sent to the control chip.
Further, the device also comprises a display device; the display device is connected with the control chip and is used for displaying the parameter data sent by the control chip; the parameter data includes remaining power data and signal quality data.
Specifically, the display device is any display device capable of displaying data sent by the control chip in the prior art, for example, the display device may be an L ED display screen in the prior art.
Fig. 6 is an external schematic diagram of a multifunctional UPS according to an embodiment of the present invention. As shown in fig. 6, a dust-proof cover 61 is disposed on the housing of the multi-function UPS, the dust-proof cover may be a pressing type dust-proof cover, one side of the pressing type dust-proof cover is fixed on the housing, the other side of the pressing type dust-proof cover is provided with a first buckle structure, and the housing is provided with a second buckle structure corresponding to the first buckle structure, so that when the pressing type dust-proof cover is pressed by the external force, the pressing type dust-proof cover can be fixedly covered on the housing by the first buckle structure and the second buckle structure, and when the pressing type dust-proof cover is pressed by the external force, the first buckle structure and the second buckle interface are connected together and opened, so that the pressing type dust-proof cover is opened. The first buckle structure and the second buckle structure are both buckle structures in the prior art. The dustproof cover plate is used for preventing the interface on the shell from being interfered by the external environment; the interface is used for being connected with external equipment on the shell.
Fig. 7 is an external schematic diagram of another multifunctional UPS according to an embodiment of the present invention. As shown in fig. 7, the multifunctional UPS includes a Wi-Fi antenna 71, a signal collecting antenna 72, a display screen 73, a SIM card socket 74, a network cable socket 75, a power output socket 76, a power input socket 77, and a paddle switch 78.
The Wi-Fi antenna 71 is an antenna for transmitting wireless network signals in the network device 12, and is a main component of the wireless network output module 55. The signal collection antenna 72 is used to enhance the mobile data signal acquired by the SIM module 52 and sent to the control chip 51. The display screen 73 is a display device of the multifunctional UPS. The housing has a SIM interface corresponding to the SIM card interface, the SIM card interface is connected to the processing unit of the SIM module 52, and the SIM card interface 74 is used for inserting an external SIM card, so that the SIM card is inserted into the SIM card interface, and the SIM card is connected to the processing unit of the SIM module 52.
The network cable jack 75 includes a network cable input jack 711 and a network cable output jack 712, the network cable input jack 53 is disposed in the housing and is disposed corresponding to the network cable input jack 711, and the network cable output jack 54 is disposed in the housing and is disposed corresponding to the network cable output jack 712. In a specific application process, an external network cable is plugged into the wired network input interface 53 through the wired network input socket 711, and is plugged into the wired network output interface 54 through the wired network output socket 712.
The power supply interface 22 is arranged in the shell and corresponds to the power supply output socket 76. The power output jack 76 is plugged in by an external power cord so that the external power cord is plugged into the power interface 22. In the embodiment shown in fig. 7, when the paddle switch 78 is toggled to the left, the output voltage of the corresponding power supply interface 22 is 9V, and when the paddle switch 78 is toggled to the right, the output voltage of the corresponding power supply interface 22 is 12V. Have the power input interface that corresponds the setting with power input socket 77 in the shell, power input interface is prior art's UPS's power input interface, and power input socket 77 supplies the plug of external power line to insert, so that the external power line inserts power input interface, when external power source still inserted external power source power supply mouth, multi-functional UPS passes through external power source obtains external power.
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 multifunctional UPS, comprising: a UPS main body and a network device connected with the UPS main body; the UPS main body supplies power to the network device;
the network device is used for acquiring the mobile data signal and providing a network signal for external equipment; wherein the mobile data signal is a 4G signal or a 5G signal.
2. A multi-function UPS according to claim 1, further comprising a voltage output device connected to said UPS body;
the voltage output device is provided with a voltage reduction rectifying circuit and a plurality of power supply interfaces connected with the voltage reduction rectifying circuit;
the voltage reduction rectification circuit is provided with a plurality of output ends and is used for rectifying and reducing the current supplied by the UPS main body to obtain currents under different voltage conditions and outputting the currents through different output ends;
and each power supply interface is respectively connected with the output end of the voltage reduction rectification circuit.
3. A multi-function UPS according to claim 2, wherein the power supply interface is a USB power supply interface and/or a square round hole power supply interface.
4. A multi-function UPS according to claim 2, wherein said voltage output means is further provided with a paddle switch;
the power supply interface is connected with the output ends of the voltage reduction rectifying circuits corresponding to the currents with different voltage values through the plectrum switch.
5. A multi-function UPS according to claim 1, wherein said network means comprises: the system comprises a control chip, an SIM module, a wired network input interface, a wired network output interface, a wireless network output module and a control port;
the SIM module, the wired network input interface, the wired network output interface and the wireless network output module are respectively connected with the control chip;
the SIM module is used for acquiring the mobile data signal and sending the mobile data signal to the control chip; the wired network input interface is used for inserting an external network cable so as to connect the control chip with the external network cable and obtain an external wired network signal through the external network cable; the control chip is used for generating the network signal according to the mobile data signal or the external network signal, providing a wired network signal for external equipment through the wired network output interface, and providing a wireless network signal for the external equipment through the wireless network output module, wherein the network signal comprises the wired network signal and the wireless network signal;
the control port is used for being connected with an intelligent terminal and carrying out parameter configuration on the network device through an application program in the intelligent terminal; the parameter configuration includes setting a network type and a network priority.
6. A multi-function UPS according to claim 5, wherein the SIM module comprises a processing unit and a SIM card unit; the SIM card unit is an embedded SIM unit, or the SIM card unit is a plug-in SIM card unit arranged on the UPS main body.
7. The multi-function UPS of claim 5, further comprising a signal collection antenna connected to the SIM module;
the signal collection antenna is used for enhancing the mobile data signal acquired by the SIM module and sent to the control chip.
8. A multi-function UPS according to claim 5, further comprising a display device;
the display device is connected with the control chip and is used for displaying the parameter data sent by the control chip; the parameter data includes remaining power data and signal quality data.
9. A multi-function UPS according to claim 5, wherein the number of wired network output interfaces is at least one.
10. A multi-function UPS according to claim 1, further comprising a housing and a dust cover plate disposed on said housing;
the UPS body and the network device are disposed within the enclosure;
the dustproof cover plate is used for preventing the interface on the shell from being interfered by the external environment; the interface is used for being connected with external equipment on the shell.
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