CN204945876U - Virtual instrument platform - Google Patents

Abstract

The utility model relates to a kind of virtual instrument platform, comprises shell, board and mainboard.Wherein, mainboard and board removably connect, and board and mainboard are all positioned at shell, case surface preformed plate clamping oral pore, outside the board interface that board is connected with external unit is exposed to by board interface holes.This virtual instrument platform also comprises touching display screen, and touching display screen is arranged on shell, jointly forms slab construction with shell.In embodiment of the present utility model, shell also comprises body and side cover, and side cover and body removably connect, and side cover is positioned at the side of board.Compared with the existing technology, the built-in board of virtual instrument platform provided by the utility model, has higher movability, stability, and has weak three anti-abilities preferably, is not subject to the restriction in applied environment and place.

Description

Virtual instrument platform

Technical field

The utility model relates to a kind of electronic equipment, specifically a kind of virtual instrument platform.

Background technology

Virtual instrument technique utilizes high performance modularized hardware, and the computer software in conjunction with high efficient and flexible completes the technology of various test, measurement and automation application.The advantage of virtual instrument technique is for user provides a kind of higher than instrumentation dirigibility, customizable, performance can promote with computer software and hardware, price is more preferential instrument scheme.Virtual instrument technique utilizes has possessed the board of several functions, and these boards and computing machine form virtual instrument platform, in industries such as space flight and aviation navigation, electric power, robotizations, are widely used in the fields such as data acquisition, test, measurement.

Existing virtual instrument platform adopts mass computing machine enclosure usually, and board is installed in cabinet, need the utility appliance such as keyboard, mouse, cabinet, wire rod due to this prior art, if when using two or more module simultaneously, just need to use more support equipment.Make its accessory complexity, line various, system does not possess portability, and stability is also lower.And because needs are by cable connecting component, thus make the movability of existing scheme virtual instrument, anti-drop, waterproof is also relative poor with dirt exclusion capabilities.

Utility model content

The purpose of this utility model is to provide a kind of virtual instrument platform, make it can built-in board, and the computing machine such as notebook or desktop computer can be replaced, make it have higher movability, stability, and there are weak three anti-abilities preferably, be not subject to the restriction in any applied environment and place.

To achieve these goals, embodiment of the present utility model provides a kind of virtual instrument platform, comprises shell, board and mainboard.Wherein, mainboard and board removably connect, and board and mainboard are all positioned at shell, case surface preformed plate clamping oral pore, outside the board interface that board is connected with external unit is exposed to by board interface holes.This virtual instrument platform also comprises touching display screen, and touching display screen is arranged on shell, jointly forms slab construction with shell.In embodiment of the present utility model, shell also comprises body and side cover, and side cover and body removably connect, and side cover is positioned at the side of board.

Embodiment of the present utility model in terms of existing technologies, because touching display screen is arranged on shell, a slab construction is together constituted with shell, whole equipment is made to constitute a panel computer, eliminate the functional unit that keyboard, mouse etc. are conventional, greatly reduce the volume of equipment, improve the portability of equipment, and then improve the movability of whole equipment.In embodiment of the present utility model, be reserved with board interface holes on the surface of shell, facilitate the connection of board and external unit.And side cover and body removably connect, side cover is positioned at the side of board.Thus, side cover, as the seal closure of board, not only can keep the integrality of equipment appearance, but also can play dustproof effect.In addition, in embodiment of the present utility model, airtight and the shielding properties produced is coordinated by shell and side cover, can ensure that whole virtual instrument platform has higher anti-interference, dust-proof and weak three anti-abilities, work can be carried out under various rugged environment, and guarantee that virtual instrument platform is operationally, mutually can not produce electromagnetic interference (EMI) between the computing machine electronic unit in shell and board, ensure virtual instrument platform reliability and stability operationally.

Because the interface volume between existing board and mainboard is excessive, in order to further reduction equipment volume, as preferably, mainboard and board are removably connected by adaptor.

In addition, the conveniently plug of board, as preferably, side cover is bent to form two sides, and board interface holes is positioned at wherein on a side.Thus, by outwards stirring the side of board, board can be made to skid off in fuselage.

After device miniaturization, because board has larger heat in operational process, therefore heat dissipation problem just becomes the technical matters needing most solution.As preferably, virtual instrument platform also comprises radiating gasket, and radiating gasket is located on mainboard.Mainboard sets up radiating gasket, and the central processor core that can give on mainboard, particularly mainboard provides enough area of dissipations, thus improves the heat dissipation capacity of mainboard.

As preferably, virtual instrument platform also comprises fan, and the side in shell is located at by fan.In virtual instrument platform, increase air-cooled radiating device, equipment can be made to have good radiating effect.Further, when fan and radiating gasket with the use of time, utilize fan can blow away the heat on radiating gasket surface quickly.

Further, as preferably, virtual instrument platform also comprises power supply, and fan is connected by switch with power supply, and case surface is located at by switch.In traditional computer equipment, fan is all connected with power supply by mainboard.And in embodiment of the present utility model, after fan and power supply are directly connected by switch, the operation of fan can be made to obtain independent control.After equipment shutdown, fan still can continue running, makes the temperature of equipment obtain continuing to reduce, improves the operation stability of equipment.

Further, as preferably, fan is at least two, and multiple fan forms fan group; Wherein: fan group at least comprises mainboard fan and board fan; Mainboard fan is just arranged mainboard; Board fan is just arranged board.

Slab construction due to virtual instrument platform equipment has the longer and characteristic of thinner thickness of length.Therefore, utilize multiple fan that the coverage of radiation air can be made more extensive.Further, further get on very well, virtual instrument platform can also comprise power supply, and board fan is connected by switch with power supply, and case surface is located at by switch.The power supply of board fan group is controlled separately, can make only can also continue heat radiation for the fan of board part after equipment shutdown, thus make heat radiation have more specific aim, for the scheme that all fans all carry out lasting heat radiation, also more save battery electric quantity.

Because the direct position all interfaces being all located at the corresponding shell side of mainboard is comparatively difficulty, therefore, as preferably, the side of shell can be provided with interface, and these interfaces are connected with mainboard by winding displacement.So arranging can conserve space, simplifies the circuit design of mainboard.

As preferably, these boards can be PCI board or PCI-E board.

Accompanying drawing explanation

Fig. 1 is the external structure schematic diagram of the virtual instrument platform of the utility model embodiment;

Fig. 2 is the explosive view of the virtual instrument platform of the utility model embodiment.

Fig. 3 is the system chart of the virtual instrument platform of the utility model embodiment.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, each embodiment of the present utility model is explained in detail.But, persons of ordinary skill in the art may appreciate that in each embodiment of the utility model, proposing many ins and outs to make reader understand the application better.But, even without these ins and outs with based on the many variations of following embodiment and amendment, each claim of the application technical scheme required for protection also can be realized.

First embodiment of the present utility model relates to a kind of virtual instrument platform, as shown in Fig. 1 and Fig. 2 combine, comprises shell 1, board 2 and mainboard 8.Wherein, mainboard 8 and board 2 removably connect, and board 2 and mainboard 8 are all positioned at shell 1, shell 1 surperficial preformed plate clamping oral pore 5, outside board 2 interface 12 that board 2 is connected with external unit is exposed to by board interface holes 5.This virtual instrument platform also comprises touching display screen 11, and touching display screen 11 is arranged on shell 1, jointly forms slab construction with shell 1.In the present embodiment, shell 1 also comprises body and side cover 3, and side cover 3 and body removably connect, and side cover 3 is positioned at the side of board 2.

The conveniently plug of board 2, in the present embodiment, as shown in fig. 1, side cover 3 is bent to form two sides, and board interface holes 5 is positioned at wherein on a side.Thus, after side cover 3 of checking card, by outwards stirring the side of board 2, board 2 can be made to skid off in fuselage.

In the present embodiment, side cover 3 is fixedly connected with by screw with the body of shell 1.Certainly, in order to easy accessibility, the two also can pass through buckle clamping.

Because the direct position all interfaces 12 being all located at mainboard 8 corresponding shell 1 side is comparatively difficult, therefore, in the present embodiment, the side of shell 1 is provided with interface 12, and these interfaces 12 are connected with mainboard 8 by winding displacement.So arranging can conserve space, simplifies the circuit design of mainboard 8.These interfaces 12 can be USB interface, RJ45 network interface or other data-interfaces.

In the present embodiment, board 2 can be PCI board or PCI-E board, also can be other forms of board.

Present embodiment in terms of existing technologies, because touching display screen 11 is arranged on shell 1, a slab construction is together constituted with shell 1, whole equipment is made to constitute a panel computer, eliminate the functional unit that keyboard, mouse etc. are conventional, greatly reduce the volume of equipment, improve the portability of equipment, and then improve the movability of whole equipment.In the present embodiment, be reserved with board interface holes 5 on the surface of shell 1, facilitate the connection of board 2 and external unit.And side cover 3 and body removably connect, and side cover 3 is positioned at the side of board 2.Thus, side cover 3, as the seal closure of board 2, not only can keep the integrality of equipment appearance, but also can play dustproof effect.In addition, in the present embodiment, airtight and the shielding properties produced is coordinated by shell 1 and side cover 3, can ensure that whole virtual instrument platform has higher anti-interference, dust-proof and weak three anti-abilities, work can be carried out under various rugged environment, and guarantee that virtual instrument platform is operationally, mutually can not produce electromagnetic interference (EMI) between the computing machine electronic unit in shell 1 and board 2, ensure virtual instrument platform reliability and stability operationally.

Second embodiment of the present utility model relates to a kind of virtual instrument platform.Second embodiment is the further improvement of the first embodiment, and main dwelling of improving is: in the second embodiment of the present utility model, as shown in Figure 2, virtual instrument platform also comprises fan, and the side in shell 1 is located at by fan.

In virtual instrument platform, increase air-cooled radiating device, equipment can be made to have good radiating effect.Further, when fan and radiating gasket with the use of time, utilize fan can blow away the heat on radiating gasket surface quickly.

In the present embodiment, fan is at least two, and these fans form fan group; Wherein: fan group at least comprises mainboard fan 7 and board fan 8; Mainboard fan 7 is just arranged mainboard 8; Board fan 8 is just arranged board 2.Slab construction due to virtual instrument platform equipment has the longer and characteristic of thinner thickness of length.Therefore, utilize multiple fan that the coverage of radiation air can be made more extensive.

Obviously, according to the actual conditions of equipment, also can select single fan, or the covering position of the radiation air of fan blowout not distinguished.

Furthermore, virtual instrument platform also comprises power supply 4, and fan is connected by switch with power supply 4, and shell 1 surface is located at by switch.In traditional computer equipment, fan is all connected with power supply 4 by mainboard 8.And in the present embodiment, after fan and power supply 4 are directly connected by switch, the operation of fan can be made to obtain independent control.After equipment shutdown, fan still can continue running, makes the temperature of equipment obtain continuing to reduce, improves the operation stability of equipment.Further get on very well, also can only board fan 8 be connected by board fan swicth 13 with power supply 4.The power supply 4 of 8 groups, board fan is controlled separately, can make only can also continue heat radiation for the fan of board 2 part after equipment shutdown, thus make heat radiation have more specific aim, for the scheme that all fans all carry out lasting heat radiation, also more save battery electric quantity.Obviously, also can mainboard fan switch 12 be additionally set, thus accomplishes that the independence of mainboard fan 7 controls.

Because interface 12 volume between existing board 2 and mainboard 8 is excessive, in order to further reduction equipment volume, in the present embodiment, mainboard 8 and board 2 are removably connected by adaptor 9.

In the present embodiment, virtual instrument platform also comprises radiating gasket 15, and radiating gasket 15 as shown in Figure 2, can be located at position relative with mainboard 8 hot zone on shell 1, also can directly be located on mainboard 8.Mainboard 8 is set up radiating gasket 15, and the central processor core that can give on mainboard 8, particularly mainboard 8 provides enough area of dissipations, thus improves the heat dissipation capacity of mainboard 8.

In the present embodiment, virtual instrument platform can also comprise wireless communication module 10, and this wireless communication module 10 is connected with mainboard, thus provides the portable mobile ability of raising equipment.

In order to further illustrate the operation logic of virtual instrument platform in the respective embodiments described above, illustrate a kind of typical apply of the utility model embodiment in figure 3.Shown in Figure 3, in embodiment of the present utility model, board is connected with mainboard by adaptor, and board fan is then direct to be controlled by power supply.And all the other each devices, comprise and not addressing above and internal memory conventional in general computing machine, hard disk are all connected with mainboard with central processing unit, and form the computing system of a complete von Neumann architecture by mainboard.In embodiment of the present utility model, in order to improve the portability of virtual instrument platform further, also set up positioning chip, and positioning chip is connected with mainboard, thus realize the location of virtual instrument platform, by the record to position location and corresponding board kind, virtual instrument platform can be made more intelligent.

Persons of ordinary skill in the art may appreciate that the respective embodiments described above realize specific embodiment of the utility model, and in actual applications, various change can be done to it in the form and details, and do not depart from spirit and scope of the present utility model.

Claims (10)

1. a virtual instrument platform, comprises shell, board and mainboard, it is characterized in that:

Described mainboard and described board removably connect, and described board and described mainboard are all positioned at described shell, described case surface preformed plate clamping oral pore, outside the board interface that described board is connected with external unit is exposed to by described board interface holes;

Described virtual instrument platform also comprises touching display screen, and described touching display screen is installed on the housing, jointly forms slab construction with described shell;

Described shell comprises body and side cover, and described side cover and described body removably connect, and described side cover is positioned at the side of described board.

2. virtual instrument platform according to claim 1, is characterized in that: described mainboard and described board are removably connected by adaptor.

3. virtual instrument platform according to claim 1, is characterized in that: described side cover is bent to form two sides, and described board interface holes is positioned at wherein on a side.

4. virtual instrument platform according to claim 1, is characterized in that: described virtual instrument platform also comprises radiating gasket, and described radiating gasket is located on described mainboard.

5. virtual instrument platform according to claim 1, is characterized in that: described virtual instrument platform also comprises fan, and the side in described shell is located at by described fan.

6. virtual instrument platform according to claim 5, is characterized in that: described virtual instrument platform also comprises power supply, and described fan is connected by switch with described power supply, and described case surface is located at by described switch.

7. virtual instrument platform according to claim 5, is characterized in that: described fan is at least two, and described multiple fan forms fan group; Wherein:

Described fan group at least comprises mainboard fan and board fan;

Described mainboard fan is just arranged described mainboard; Described board fan is just arranged described board.

8. virtual instrument platform according to claim 7, is characterized in that: described virtual instrument platform also comprises power supply, and described board fan is connected by switch with described power supply, and described case surface is located at by described switch.

9. virtual instrument platform according to claim 1, is characterized in that: the side of described shell is provided with interface, and described interface is connected with described mainboard by winding displacement.

10. virtual instrument platform as claimed in any of claims 1 to 9, is characterized in that: described board is PCI board or PCI-E board.