阅读说明：本技术 一种支持无线缆的工控机平台 (industrial personal computer platform supporting no cable ) 是由 王灿 董林 杨清祥 杜延坡 张路平 于 2019-10-31 设计创作，主要内容包括：一种支持无线缆的工控机平台,包括箱体,箱体包括底板和盖板,底板和盖板的两侧设置侧板,箱体的后部设置后板,箱体内部具有母板,母板的一侧设置多个插槽,插槽一侧的箱体下部设置风扇单元,母板另一侧还连接电源后插件。本发明通过一块标准的电源后插件,代替AC220V电源插座与母板之间的线缆,并可将输入电源接口保护电路设计到后插件上,就近保护,不仅仅省去了线缆设计,而且可以进行就近电源保护,设计更合理。(IPC platform supporting no cable, including the box, the box includes bottom plate and cover plate, the both sides of bottom plate and cover plate set up the curb plate, the rear portion of the box sets up the back plate, there are motherboards in the box, side of the motherboard sets up multiple slots, the lower part of the box of slot side sets up the fan unit, the motherboard side still connects the back plug-in unit of power in addition, the invention, through standard back plug-ins of power, replace the cable between AC220V supply socket and the motherboard, and can design the input power interface protection circuit on the back plug-in unit, protect nearby, save not merely the cable design, and can carry on the protection of nearby power, the design is more rational.)

The industrial personal computer platform capable of supporting the cable-free is characterized by comprising a box body, wherein the box body comprises a bottom plate (1) and a cover plate (3), side plates (2) are arranged on two sides of the bottom plate (1) and the cover plate (3), a rear plate (9) is arranged on the rear portion of the box body (1), a mother board (7) is arranged inside the box body (1), a plurality of slots are arranged on the side of the mother board (7) , a fan unit (6) is arranged on the lower portion of the box body (1) on the side of a slot , and a power supply rear plug-in unit (10) is further connected to the other side of.

2. The IPC platform supporting no cable according to claim 1, wherein the power supply rear plug-in (10) includes a plug-in panel (15) with a three-core socket at the front, and a PCB (16) is fixed on the plug-in panel and plugged on the board-to-board connector (17).

3. The IPC platform supporting no cable according to claim 2, wherein the PCB printed board has a protection circuit and a filter circuit, the socket pins of the three-core socket at the front of the plug-in panel are connected with the protection circuit, the protection circuit is connected with the filter circuit, and the filter circuit is connected with the board-to-board connector (17).

4. The IPC platform supporting no cable according to claim 1, wherein a flange (4) is provided on the side plate (2), and a handle (5) is fixed on the flange (4).

5. The IPC platform supporting no cables according to claim 1, wherein slot rails are fixed on the base plate (1), the slot rails are located on the upper portion of the fan unit (6), and each slot rail corresponds to a motherboard connector on slots on the motherboard (7).

6. The IPC platform supporting no cable according to claim 1, wherein the fan unit (6) and the power supply rear plug-in (10) are connected to the motherboard (7) through a board-to-board connector I (13) and a board-to-board connector II (14), respectively.

7. IPC platform supporting no cable according to claim 1, wherein the fan unit (6) includes a plurality of heat dissipating fans.

8. The IPC platform supporting no cable according to claim 1, wherein the motherboard (7) is vertically installed in the box body, the box body is divided into a front space and a rear space, the bottom of the motherboard (7) is completely contacted with the bottom plate (1), and a gap capable of forming a front ventilation channel and a rear ventilation channel is formed between the top of the motherboard (7) and the cover plate (3).

Technical Field

The invention belongs to the field of plug-in type cases, and particularly relates to industrial personal computer platforms supporting no cables.

Background

The -type inner part of the industrial personal computer platform in the existing market is provided with a cable connection design, particularly a power supply part, a case heat dissipation part and the like, the cable design not only causes troubles for batch production and assembly of the industrial personal computer platform, but also is not beneficial to later maintenance, repair and the like, so that the development of industrial personal computer platforms supporting no cables is particularly important.

Most products of the current industrial personal computer mainly have the following defects:

1) most industrial personal computers directly adopt standard CPCI power supplies or ATX power supplies. The CPCI power supply plug-in needs to connect the AC220V three-core power socket with the CPCI input power connector on the motherboard through a cable so as to supply power to the CPCI power supply plug-in; each output power supply of the ATX power supply needs to be connected with each power supply connector of the motherboard through a cable to provide power for the whole machine. The cable connection brings great inconvenience to the production and assembly of the power supply part, and the cable needs to be firstly dismantled and pulled out in a machine box during maintenance, and then the module can be taken out for maintenance or replacement, which wastes time.

2) The heat dissipation air duct in the industrial personal computer is simple in design, generally an upper air duct, a lower air duct or a backward air duct, wherein the upper air duct and the lower air duct are easily blocked by equipment on the upper portion or equipment on the lower portion of a case, denier multiple pieces of equipment are placed in a stacked mode, a gap between the equipment and the device is small, heat dissipation of the industrial personal computer is not facilitated, a fan is designed at the rear end of the case to exhaust air outwards and is easily blocked by a mother board, and heat dissipation efficiency of a front.

3) The design cost of the internal heat dissipation air duct of the industrial personal computer is high, and some industrial personal computers need to be divided through different structural parts for pursuing the expected complex heat dissipation air duct, or are designed into complex internal structures, so that the overall design and production cost are improved.

4) The inside radiator fan of industrial computer maintains inconveniently, inside radiator fan that can install of like industrial computer, and the fan passes through the cable lug connection to the connector that corresponds of mother board, causes the fan later maintenance inconvenient.

5) The internal radiator fan of industrial computer can not be intelligently programmed, all fans in the industrial computer can only work at a fixed rotating speed after being powered on, or all fans can be set through software to be simultaneously regulated in speed, the automatic speed regulation according to internal temperature can not be realized, and whether board card automatic control is inserted into a corresponding peripheral slot position to start and stop and the like can not be realized.

Disclosure of Invention

The invention provides an industrial personal computer platform without cables, which aims to solve the problems in the prior art.

The invention adopts the following technical scheme:

support industrial computer platform of no cable, including the box, the box includes bottom plate and apron, and the both sides of bottom plate and apron set up the curb plate, and the rear portion of box sets up the back plate, and the box is inside to have the mother board, and mother board side sets up a plurality of slots, and the box lower part of slot side sets up fan unit, and the plug-in components behind the power is still connected to the side of in addition of the mother board.

, the power supply rear plug-in comprises a plug-in panel, the front part of the plug-in panel is provided with a three-core socket, a PCB printed board is fixed on the plug-in panel, and the PCB printed board is plugged on the board-to-board connector.

And , a protection circuit and a filter circuit are arranged on the PCB, socket pins of the three-core socket at the front part of the plug-in panel are connected with the protection circuit, the protection circuit is connected with the filter circuit, and the filter circuit is connected with a board-to-board connector.

And , arranging a flange on the side plate, and fixing a handle on the flange.

, slot rails are fixed on the bottom plate and located at the upper part of the fan unit, and each slot rail corresponds to a motherboard connector on slots on the motherboard.

And , connecting the fan unit and the power supply rear plug-in unit with the motherboard through a board-to-board connector and a board-to-board connector respectively.

, the fan unit includes a plurality of heat dissipation fans.

And , vertically installing the mother board in the box body, dividing the box body into a front space and a rear space, completely contacting the bottom of the mother board with the bottom plate, and forming a front ventilation channel and a rear ventilation channel by a gap between the top of the mother board and the cover plate.

The invention has the beneficial effects that:

1) the industrial computer platform replaces cables between an AC220V power socket and a motherboard through standard power supply rear plug-ins, and can design an input power supply interface protection circuit to the rear plug-ins, so that the cable design is omitted, the power supply can be protected nearby, and the design is more reasonable.

2) The industrial personal computer platform is provided with air inlets at the lower end and the front end, so that the air inlets are prevented from being blocked due to installation mode; the interior of the case is isolated by the motherboard printed circuit board, so that wind current can only be blown into the case from bottom to top through the front end plug-in part to take away heat around each plug-in, then reaches the rear end of the case through a gap between the motherboard and the upper cover plate, and is discharged through the rear end heat dissipation holes, and the purpose of system heat dissipation is achieved.

3) The platform heat dissipation part is designed into whole fan units, and the fan unit passes through the board to the board connector and is connected with the motherboard, can wholly pull out and insert, easy to assemble, dismantlement.

4) The fan unit is horizontally arranged at the lower end of each plug-in unit, the fan unit comprises a plurality of fans, and each fan can automatically control whether to work or not according to whether the plug-in unit is inserted into the slot corresponding to the upper end of the fan; not only control is more nimble, and the heat dissipation is more intelligent, has reduced the fan loss moreover.

Drawings

Fig. 1 is a schematic diagram of an external structure of a chassis according to the present invention.

FIG. 2 is a schematic diagram of a backplane of an industrial personal computer platform.

FIG. 3 is a schematic diagram of a backplane of an industrial personal computer platform.

FIG. 4 is a schematic view of the internal installation of an industrial personal computer platform.

FIG. 5 is a schematic diagram of a power supply rear plug-in of an industrial personal computer.

FIG. 6 is a schematic diagram of internal heat dissipation of an industrial personal computer platform.

FIG. 7 is a schematic diagram of a motherboard.

Fig. 8 is a schematic view of a slot guide.

Detailed Description

The invention is further described in detail in connection with the figures and the detailed description.

The invention provides industrial personal computer platforms supporting no cables, which comprise a box body as shown in figure 1, wherein the box body is provided with a bottom plate 1 and a cover plate 3, two sides of the bottom plate 1 and the cover plate 3 are provided with side plates 2, the outer side parts of the two side plates 2 are respectively provided with a flange 4, the two flanges 4 are respectively fixed with a handle 5, and the rear part of the box body 1 is provided with a rear plate 9 and a power supply rear plug-in 10.

The box body 1 is internally provided with a motherboard 7, the side of the motherboard 7 is provided with a plurality of slots, and the slots are connected with power supply plug-ins and other functional plug-ins through board-to-board connectors.

In or more possible embodiments, the case 1 is further provided with a fan unit 6, the fan unit 6 is horizontally installed at the bottom of the chassis and connected with the motherboard through the board-to-board connector 13, and the fan unit 6 can be integrally plugged and unplugged, as shown in fig. 1, and is arranged at the lower part of the plug-in guide rail to dissipate heat of the plug-in inserted on the plug-in guide rail.

The fan unit 6 comprises a plurality of cooling fans, as shown in fig. 4, the fan unit 6 comprises a unit support, each fan is fixedly installed on the unit support, a control signal wire of each fan is connected to a board-to-board connector 13 and then connected to a motherboard 7 through the board-to-board connector 13, an air inlet hole 8 is formed in the front end of the unit support, when the air inlet hole in the bottom is blocked, heat can be dissipated through the air inlet hole in the front end, the fan unit 6 can be integrally plugged and unplugged as whole bodies, when the fan unit is plugged into a case, the fan unit can be plugged into the case through a slot guide rail and then locked through fixing screws at two ends of the fan unit, and when the case is unplugged for maintenance, the fixing screws.

Whether the fan control signal in the fan unit 6 is enabled or not is related to whether the slot position is inserted into the detection signal of the plug-in, when the plug-in is inserted into the slot corresponding to the upper end of the fan, the fan control signal is enabled, the fan starts to work, and when the plug-in is pulled out from the slot, the fan control signal is forbidden, and the fan stops working.

In or more possible embodiments, the other side of the motherboard 7 is connected to the power supply rear plug-in 10 through the board-to-board connector 14, the power supply rear plug-in 10 is a plug-in power supply structure, the power supply rear plug-in 10 is composed of a plug-in panel 15, a PCB printed board 16 and a board-to-board connector 17, wherein the plug-in panel is provided with an AC220V input power supply three-core socket, the PCB printed board is a circuit board, an external input power supply enters the PCB printed board through the socket, a protection circuit can be selectively arranged in the PCB printed board, the protection circuit can select a fuse and a safety capacitor, the input power supply passes through the protection circuit and then is filtered by a filter circuit, the filter circuit is composed of an AC220V common mode inductor, the AC220V power supply passes through the protection circuit and the filter circuit and then is led to the board-to-board connector, and then the power supply is provided to the power supply plug-in the motherboard through the.

In or more possible embodiments, the bottom plate is designed with bottom air inlet holes 12 to increase the air inlet amount and facilitate heat dissipation inside the case.

In or more possible embodiments, the motherboard 7 is vertically installed inside the box body 1, the internal space is divided into a front part and a rear part, wherein the motherboard is completely contacted with the bottom plate 1, the lower ends of the front part and the rear part are completely sealed by the motherboard printed board, distance is reserved between the motherboard and the cover plate 3, so that -fixed ventilation gaps are reserved in the front part and the rear part, when the fan unit works, the fan draws air upwards through the air inlet hole 8 and the air inlet hole 12, cold air passes through each plug-in unit from right to down and upwards to take away heat dissipated by each plug-in unit to become hot air, and the hot air enters the rear side of the case through the ventilation gaps between the front part and the rear part of the case after reaching the top of.

The air inlet holes of the heat dissipation air duct are respectively designed at the bottom and the front end, the air inlet amount is increased in the aspect of , the air inlet holes can be prevented from being completely blocked by other equipment in the aspect of , and the air outlet holes are designed at the rear end, so that the air outlet holes can be prevented from being blocked by other equipment when the cabinet is installed.

The heat dissipation air duct is flexibly divided by the motherboard, so that the wind direction can only be right, downward and upward, the maximum wind quantity is ensured to pass through each plug-in, and the best heat dissipation effect is achieved.

In the description herein, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any of or more embodiments or examples.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the scope of the present invention should be covered by the present invention.