CN213750695U - Time sequence power supply manager capable of being remotely managed - Google Patents

Abstract

The utility model discloses a but remote management's chronogenesis power manager relates to the industry electrical field. The modular socket is composed of a modular socket, a core control main board, a display board, an on-off control board and a mounting assembly which are arranged in the same shell, wherein the mounting assembly comprises a front panel, a lower bottom plate, an upper cover plate and left and right mounting pieces. The core control main board, the display board and the on-off control board interact with each other to realize the on-off function of each modular socket power supply through network control, and the on-off function is displayed in a working state. This novel modularization power that adopts for the user can select power output interface effectively, and accessible RS485 communication remote control simultaneously, and the time switch function more is favorable to the effective management to the equipment power.

Description

Time sequence power supply manager capable of being remotely managed

Technical Field

The utility model relates to a power manager technical field, in particular to but timing sequence power manager of remote management.

Background

The remote-controllable sequential power supply manager is an intelligent cabinet power supply distribution socket. By using the industrial standard PDU product, the power supply safety of the informationized equipment installed in the standard cabinet can be greatly improved, and the requirements of various management controls and high reliability of power supply input of important equipment are met. Most of power managers on the market at present are manual switches and master switches, on-site observation and manual on-off function realization are required, the control mode is single, certain limitation is achieved, all devices are started together or are closed together during master switch, very large instant impact surges can be caused to circuits, and the instant surges easily cause damage to loads on the circuits and influence the service life. In the coming years, the utilization rate of electrical equipment is getting larger and larger, and as a power supply connection product, the market demand of intelligent, modularized, functional and safe power supply manager products is getting larger and larger.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a but timing sequence power manager of remote management carries out LAN or internet through long-range and carries out on-off control to power supply manager, has solved current control mode and has more singleness, the problem of limitation. The utility model discloses the product utilizes accurate MCU treater, utilizes timing management technique, and the on-off control technique, realization product are opened one by one and the mode of closing one by one manages the power, avoid producing the surge of assaulting, cause the equipment damage on the collinear.

In order to solve the technical problem, the utility model provides a following technical scheme:

a time sequence power manager capable of being remotely managed comprises a modular socket, a core control main board, a display board, an on-off control board, a front panel, a lower bottom board, an upper cover board, a left mounting piece, a right mounting piece, an RS485 interface, a cascade interface, a digital display screen, a work instruction, a function key and a power input; the front panel is provided with the modular socket, an interface, a cascade interface, a digital display screen, a work instruction and a function key; the front panel, the lower bottom plate and the upper cover plate are combined into a closed space, and a core control main board, a display board and an on-off control board are arranged in the space. The core control mainboard is provided with an RS485 communication module, an MCU processing module, a power supply module and a current and voltage detection module; the display panel is directly inserted on the core control mainboard through a connecting port of 90 degrees and is provided with a digital display screen, a work instruction and a function key; the on-off control panel is provided with a relay on-off module.

Furthermore, the modular socket and the front panel are connected in a modular combination mode, so that the modular socket is not limited to a single socket, and the modular socket can be selected from one or more of a modular socket A, a modular socket B, a modular socket C, a modular socket D, a modular socket E, a modular socket F, a modular socket G and a modular socket H in any combination.

Further, front panel, bottom plate, upper cover plate make up into an inside confined cuboid structure, the cuboid structure set up according to standard rack mounting dimension, control the installation piece and fix in bottom plate both sides face, control the installation piece and can realize standard installation with the rack.

Furthermore, the core control main board is electrically connected with the display panel through a connecting port, and the core control main board is electrically connected with the on-off control panel through a connecting terminal.

Furthermore, the core control main board, the display board and the on-off control board are typically connected with each other in advance, so that communication, power supply control and state indication are realized.

Furthermore, the 1 st relay unit in the relay on-off module is electrically connected with the 1 st modular socket unit, the 1 st work indication unit (electrically connected, the 2 nd relay unit is electrically connected with the 2 nd modular socket unit, the 2 nd work indication unit, the 3 rd relay unit is electrically connected with the 3 rd modular socket unit, the 3 rd work indication unit, the 4 th relay unit is electrically connected with the 4 th modular socket unit, the 4 th work indication unit, the 5 th relay unit is electrically connected with the 5 th modular socket unit, the 5 th work indication unit, the 6 th relay unit is electrically connected with the 6 th modular socket unit, the 6 th work indication unit, the 7 th relay unit is electrically connected with the 7 th modular socket unit, the 7 th work indication unit, the 8 th relay unit is electrically connected with the 8 th modular socket unit, 8 the work indicates individual electric connection, the power break-make of modularization socket can set up to the time delay break-make, sequential switch avoids equipment to strike the damage.

The utility model discloses the beneficial effect who reaches is the different socket form of socket modularization selectable, satisfy the customer demand, through the front panel, the lower plate, the upper cover plate, control the installation piece precision and combine, the setting accords with rack mounting dimension, the RS485 interface reaches and cascades the interface, the digital display screen, the work instruction, the function button shows in the front panel, utilize the core accuse mainboard simultaneously, display module, control break-make module realizes management functions such as long-range break-make, chronogenesis break-make, operating condition shows, measurement shows, the excess is reported to the police.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the assembly structure of the integral unit of the present invention;

FIG. 2 is a schematic view of an alternative modular jack configuration of the present invention;

FIG. 3 is a schematic view of the panel structure of the integral unit of the present invention;

fig. 4 is a schematic view of the internal structure of the present invention;

in the figure: 1. a modular jack; 2. a core control main board; 3. a display panel; 4. an on-off control panel; 5. a front panel; 6. a lower base plate; 7. an upper cover plate; 8. a left and a right mounting plate; 9. an RS485 interface and a cascade interface; 10. a digital display screen; 11. a work instruction; 12. function keys; 13. inputting a power supply; 14. an RS485 communication module; 15. an MCU processing module; 16. a power supply module; 17 a current voltage detection module; 18. a relay on-off module; 19. a connection port; 20. a connection terminal; 18a, relay item 1; 18b, 2 nd relay piece; 18c, 3 rd relay piece; 18d, 4 th relay element; 18e, 5 th relay element; 18f, 6 th relay element; 18g, 7 th relay element; 18h, 8 th relay element; 1a, 1 st modular jack piece; 1b, 2 nd modular jack piece; 1c, 3 rd modular jack piece; 1d, 4 th modular jack piece; 1e, 5 th modular jack piece; 1f, 6 th modular jack piece; 1g, 7 th modular jack piece; 1h, 8 th modular jack piece; 11a, 1 st work indication piece; 11b, 2 nd work indication piece; 11c, 3 rd work indication piece; 11d, 4 th work indication piece; 11e, 5 th work indication piece; 11f, 6 th work indication piece; 11g, 7 th work indication piece; 11h, 8 th work indication piece; 101. a modular jack A; 102. a modular jack B; 103. a modular jack C; 104. a modular jack D; 105. a modular jack E; 106. a modular jack F; 107. a modular jack G; 108. and a modular jack H.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example 1

As shown in fig. 1-4, the utility model relates to a time sequence power manager capable of remote management, which comprises a modular socket 1, a core control mainboard 2, a display panel 3, an on-off control panel 4, a front panel 5, a lower bottom plate 6, an upper cover plate 7, a left and right mounting plate 8, an RS485 interface and a cascade interface 9, a digital display screen 10, a work instruction 11, a function key 12 and a power input 13; the front panel 5 is provided with the modular socket 1, an interface and cascade interface 9, a digital display screen 10, a work instruction 11 and a function key 12; the front panel 5, the lower base plate 6 and the upper cover plate 7 form a closed space, the left and right mounting pieces 8 are fixed on the lower base plate 6 and form a structure body suitable for standard mounting of a 1U-by-1U cabinet with the closed space, and the core control main board 2, the display board 3 and the on-off control board 4 are arranged in the closed space. The core control mainboard 2 is provided with an RS485 communication module 14, an MCU processing module 15, a power supply module 16 and a current and voltage detection module 17, and the display panel 3 is directly inserted on the core control mainboard 2 in a 90-degree mode through a connecting port 19 to form an electrical link. The display panel 3 is provided with a digital display screen 10, a work instruction 11 and a function key 12; the on-off control panel 4 is provided with a relay on-off module 18. The on-off control board 4 is linked with the core control main board 2 through the connecting terminals 20a and 20 b. In the relay on-off module 18, the 1 st relay piece 18a is electrically connected with the 1 st modular socket piece 1a and the 1 st work indication piece 11a, the 2 nd relay piece 18b is electrically connected with the 2 nd modular socket piece 1b and the 2 nd work indication piece 11b, the 3 rd relay piece 18c is electrically connected with the 3 rd modular socket piece 1c and the 3 rd work indication piece 11c, the 4 th relay piece 18d is electrically connected with the 4 th modular socket piece 1d and the 4 th work indication piece 11d, the 5 th relay piece 18e is electrically connected with the 5 th modular socket piece 1e and the 5 th work indication piece 11e, the 6 th relay piece 18f is electrically connected with the 6 th modular socket piece 1f and the 6 th work indication piece 11f, the 7 th relay piece 18g is electrically connected with the 1 st modular socket piece 7g, The 7 th work indication piece 11g is electrically connected, and the 8 th relay piece 18h is electrically connected with the 8 th modular socket piece 1h and the 8 th work indication piece 11 h.

Further, as shown in fig. 2, the modular jack 1 and the front panel 5 are connected by means of a modular combination, so that the modular jack is not limited to a single jack, and the modular jack 1 may select one or more of a modular jack a101, a modular jack B102, a modular jack C103, a modular jack D104, a modular jack E105, a modular jack F106, a modular jack G107 and a modular jack H108 in any combination; i.e. the modular jack 1 comprises a plug structure commonly used on the market today.

Further, front panel 5, lower plate 6, upper cover plate 7 make up into an inside confined cuboid structure, the cuboid structure set up according to standard rack mounting dimension, install the piece 8 and fix in lower plate 6 both sides face about, install the piece 8 and can realize standard installation with the rack about.

Specifically, the utility model discloses during the use, the utility model discloses remote management's chronogenesis power manager adopts the electrical apparatus connection between core accuse mainboard 2, display panel 3, the break-make control panel 4 to realize remote management, chronogenesis switch's power management. After the product supplies power for the product through power input port 13, power module 16 begins work in the core accuse mainboard 2, be responsible for supplying power for whole product, when remote computer or server carry out the on-off communication to the product, communication signal transmits core accuse mainboard 2 through RS485 interface and cascade interface 9, and have the inside RS485 communication module 14 of core accuse mainboard 2 to receive, then transmit MCU processing module 15, decode through MCU, send corresponding switching instruction, and give the relay that on-off control panel 4 internal relay on-off module 18 corresponds with high level, and the pilot lamp that work instruction 11 corresponds above the display panel 3, realize that corresponding modularization jack 1 carries out the on-off function. After receiving a relay 1 switching instruction, the MCU processing module 15 sends a corresponding instruction to control the 1 st relay piece 18a to enable the 1 st modular socket piece 1a to be powered on and off, the 1 st work indication piece 11a is on and off to indicate that the 1 st modular socket piece 1a is powered on and the 1 st modular socket piece 1a is powered off, and similarly, after receiving a relay 2 switching instruction, the MCU processing module can control the 2 nd relay piece 18b to enable the 2 nd modular socket piece 1b to be powered on and off and indicate that the 2 nd work indication piece 11b is on and off; after a relay 3 switching instruction is received, the 3 rd relay 18c can be controlled, so that the 3 rd modular socket 1c is powered on and off, and the 3 rd work indication 11c is on and off for indication; after receiving a relay 4 switching instruction, the 4 th relay 18d can be controlled, so that the 4 th modular socket 1d is powered on and off, and the 4 th working indication 11d is on and off for indication; after receiving a relay 5 switching instruction, the 5 th relay 18e can be controlled, so that the 5 th modular socket 1e is powered on and off, and the 5 th work indication 11e is on and off for indication; after receiving a relay 6 switching instruction, the 6 th relay 18f can be controlled, so that the 8 th modular socket 1f is powered on and off, and the 6 th work indication 11f is on and off for indication; after receiving a relay 7 switching instruction, the 7 th relay 18g can be controlled, so that the 7 th modular socket 1g is powered on and off, and the 7 th working indication piece 11g is on and off for indication; after receiving a relay 8 switching instruction, the 3 rd relay piece 18h can be controlled, so that the 8 th modular socket piece 1h is powered on and powered off, and the 8 th work indication piece 11h is lighted and extinguished for indication; after receiving the relay master control switch instruction, all relay individual 18 can be controlled, all modularized sockets 1 are powered on and off, all work instructions 11 are indicated to be on and off, and when a plurality of relays receive the switch instruction at the same time, in order to avoid that a plurality of modularized socket individual power supplies are powered on and off at the same time to cause impulse pulse to damage equipment, the MCU processing module 15 can send the instruction in a delayed mode, and all the modularized sockets individually controlled by the relays are powered on and off in a delayed mode one by one. The delay time can be set by programming of an upper computer (1S-60S).

The MCU processing module can be preset with internal data through the upper computer, overload protection, voltage threshold alarm, power threshold alarm, current threshold alarm, ID, baud rate and other parameters can be changed and set.

The utility model discloses during the use, the current-voltage detection module 17 that sets up on the core accuse mainboard 2 reads out the voltage, electric current, power, frequency isoparametric of current equipment through mutual inductive mode to reach MCU processing module 15 on the parameter that will read, through MCU internal processing, will drive digital display screen 10 and switch the demonstration one by one. And the functional keys 12 can also be operated to quickly switch and display, so that the method is more intuitive and easy to operate.

The utility model discloses the beneficial effect who reaches is: the utility model discloses the beneficial effect who reaches is the different socket form of socket modularization selectable, satisfy the customer demand, through the front panel, the lower plate, the upper cover plate, control the installation piece precision and combine, the setting accords with rack mounting dimension, the RS485 interface reaches cascade interface, digital display screen, the work instruction, function button shows in the front panel, utilize the core accuse mainboard simultaneously, display module, control break-make module realizes management functions such as remote management, the chronogenesis break-make, operating condition indicates, the measurement shows, the excess is reported to the police.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A time sequence power supply manager capable of being remotely managed comprises a modular socket (1), a core control main board (2), a display panel (3), an on-off control panel (4), a front panel (5), a lower base plate (6), an upper cover plate (7), a left mounting piece, a right mounting piece (8), an RS485 interface, a cascade interface (9), a digital display screen (10), a work instruction (11), a function key (12) and a power supply input (13); the multifunctional socket is characterized in that the modular socket (1), the interface and cascade interface (9), the digital display screen (10), the work instruction (11) and the function key (12) are arranged on the front panel (5); the front panel (5), the lower bottom plate (6) and the upper cover plate (7) form a closed space, and a core control main board (2), a display panel (3) and an on-off control panel (4) are arranged in the closed space; the core control main board (2) is provided with an RS485 communication module (14), an MCU processing module (15), a power supply module (16) and a current and voltage detection module (17); the display panel (3) is inserted on the core control main board (2) in a 90-degree mode through the connecting port (19), and the display panel (3) is provided with a digital display screen (10), a work indicator (11) and a function key (12); the on-off control panel (4) is provided with a relay on-off module (18).

2. A remote manageable sequential power manager according to claim 1, wherein said modular outlet (1) is connected to said front panel (5) by a modular combination, so that the modular outlet is not limited to a single outlet, and said modular outlet (1) can select one or more of modular outlet a (101), modular outlet B (102), modular outlet C (103), modular outlet D (104), modular outlet E (105), modular outlet F (106), modular outlet G (107) and modular outlet H (108) in any combination.

3. The sequential power manager capable of being remotely managed according to claim 1, wherein the front panel (5), the lower base plate (6) and the upper cover plate (7) are combined to form a cuboid structure body with an enclosed interior, the cuboid structure body is arranged according to a standard cabinet installation size, the left and right installation pieces (8) are fixed on two side surfaces of the lower base plate (6), and the left and right installation pieces (8) can be installed with the cabinet in a standard manner.

4. The timing power manager as claimed in claim 1, wherein the core control motherboard (2) is electrically connected to the display panel (3) through a connection port (19), and the core control motherboard (2) is electrically connected to the on/off control board (4) through a connection terminal (20).

5. The sequential power manager capable of being remotely managed according to claim 1, wherein the 1 st relay unit (18a) of the relay on-off module (18) is electrically connected to the 1 st modular socket unit (1a) and the 1 st operation indication unit (11a), the 2 nd relay unit (18b) is electrically connected to the 2 nd modular socket unit (1b) and the 2 nd operation indication unit (11b), the 3 rd relay unit (18c) is electrically connected to the 3 rd modular socket unit (1c) and the 3 rd operation indication unit (11c), the 4 th relay unit (18d) is electrically connected to the 4 th modular socket unit (1d) and the 4 th operation indication unit (11d), and the 5 th relay unit (18e) is electrically connected to the 5 th modular socket unit (1e) and the 5 th operation indication unit (11e), the 6 th relay piece (18f) is electrically connected with the 6 th modular socket piece (1f) and the 6 th work indication piece (11f), the 7 th relay piece (18g) is electrically connected with the 7 th modular socket piece (1g) and the 7 th work indication piece (11g), and the 8 th relay piece (18h) is electrically connected with the 8 th modular socket piece (1h) and the 8 th work indication piece (11 h).

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