CN217545154U - ARM CPU calculation module connection structure - Google Patents

Abstract

The utility model discloses a ARM CPU calculation module connection structure, including an ultra-thin heavy board, no. two ultra-thin heavy boards, a calculation module and No. two calculation modules, a connector is installed in the one end location of an ultra-thin heavy board, the outside of a connector is provided with connecting terminal No. one, the one end location of No. two ultra-thin heavy boards is connected with the connector No. two, the outside of No. two connectors is provided with connecting terminal No. two, a location mounting hole has been seted up at one side both corners of an ultra-thin heavy board, no. two location mounting holes have been seted up at one side both corners of No. two ultra-thin heavy boards. A ARM CPU calculates module connection structure, two ultra-thin heavy board interface connection modes of application, it is simple quick more to connect, the calculation module of being convenient for is quick more connects the operation, improves work efficiency, built-in microchip module, the power of calculating reaches 0.8Tops, can support model one-key conversion.

Description

ARM CPU calculation module connection structure

Technical Field

The utility model relates to a calculation module field, in particular to ARM CPU calculates module connection structure.

Background

Calculation module connection structure is a bearing structure who carries out calculation module electrical apparatus connection, and when the computer used, inside calculation module's application was indispensable, contains ARM CPU calculation module wherein, can quick response and handle computer data, and along with the continuous development of science and technology, people are also higher and higher to calculation module connection structure's manufacturing process requirement.

The existing connection structure of the computing module has certain disadvantages when in use, firstly, when in use, the internal structure of the computing module is complex, the connection cannot be convenient, the use of people is not facilitated, in addition, the thickness is thick when in connection, the packaging is not convenient, certain adverse effect is brought to the use process of people, and for this reason, the connection structure of the ARM CPU computing module is provided.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To prior art's not enough, the utility model provides a ARM CPU calculation module connection structure utilizes two ultra-thin heavy board interface connection modes, connects simple more fast, and the calculation module of being convenient for is quick connects the operation more, improves work efficiency, and built-in microchip calculates power and reaches 0.8Tops, can support the conversion of model one key, can effectively solve the problem in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a ARM CPU calculates module connection structure, includes that an ultra-thin heavy board, no. two ultra-thin heavy boards, a calculation module and No. two calculation modules, a connector is installed to the one end location of an ultra-thin heavy board, the outside of a connector is provided with connecting terminal No. one, the one end location of No. two ultra-thin heavy boards is connected with the connector No. two, the outside of No. two connectors is provided with connecting terminal No. two, a location mounting hole has been seted up at two angles in one side of an ultra-thin heavy board, no. two location mounting holes have been seted up at two angles in one side of No. two ultra-thin heavy boards, no. two connecting terminal and a connecting terminal inboard inserting groove have all been seted up.

As an optimal technical scheme of this application, a calculation module's inside is provided with a module chip, an earth connection, a power module, a data processing module, a signal transmission module, a connection module connects a signal transmission module's position, a signal transmission module's position is connected to a signal transmission module, a data processing module and a module chip's position is connected to a signal transmission module, a data processing module connects a module chip, a module chip connects an earth connection and a power module.

As an optimal technical scheme, no. two connection modules, no. two data processing modules, no. two signal transmission modules, no. two power modules, no. two module chips and No. two grounding wires are arranged inside the No. two calculation modules, the No. two connection modules are connected with the positions of the No. two signal transmission modules, the No. two signal transmission modules are connected with the positions of the No. two data processing modules and No. two module chips, the No. two data processing modules are connected with the No. two module chips, and the No. two module chips are connected with the positions of the No. two grounding wires and No. two power modules.

As an optimal technical scheme of this application, the one end of a number of ultra-thin heavy boards is connected with the one end electrical apparatus of a number of ultra-thin heavy boards through a connector, a connecting terminal No. two, a connector No. two, a connecting terminal No. two.

As an optimal technical scheme, a welding hole position is arranged between the first computing module and the first module chip, the middle of the first computing module is fixedly connected with the lower end of the first module chip through the welding hole position, and the first module chip is electrically connected with the first grounding wire, the first power supply module, the first data processing module and the first signal transmission module.

As a preferred technical scheme of this application, be provided with the welding position between No. two calculation module and No. two module chips, no. two calculation module's surface passes through the lower extreme welded connection of welding position with No. two module chips, no. two module chips and No. two data processing module, no. two signal transmission module, no. two earth connection, no. two electrical apparatus connection between the power module.

As an optimal technical scheme, a wire is arranged between the first connecting module and the second connecting module, the first connecting module is connected with the second connecting module through a wire electric appliance, and one end of the first computing module is connected with one end of the second computing module through the second connecting module and the first connecting module.

(III) advantageous effects

Compared with the prior art, the utility model provides a ARM CPU calculates module connection structure possesses following beneficial effect: the ARM CPU calculation module connecting structure utilizes a connection mode of two ultrathin sinking plates, the connection is simpler and quicker, the calculation module can be connected more quickly, the working efficiency is improved, a microchip is arranged in the ARM CPU calculation module connecting structure, the calculation force reaches 0.8Tops and can support model one-key conversion, one end of a first ultrathin sinking plate is connected with one end of a second ultrathin sinking plate through a first connector, a second connecting terminal, a second connector and a second connecting terminal, the calculation force reaches 0.8Tops and an RK3568 structure can support model one-key conversion, a first module chip, a first grounding wire, a first power supply module, a first data processing module, a first signal transmission module and a first connecting module are arranged in the ARM CPU calculation module, the first signal transmission module is connected with the first chip, the first data processing module is connected with the first grounding wire, the first grounding wire is connected with the first signal transmission module, the second grounding wire is connected with the second signal transmission module, the first grounding wire is connected with the second signal transmission module, the second grounding wire, the second signal transmission module, the second grounding wire is connected with the second signal transmission module, the second grounding wire is connected with the ARM CPU calculation module, the one end of a calculation module is connected with one end electrical apparatus of No. two calculation modules through No. two connection modules, a connection module, and convenient more quick to connect between two modules, improves operation speed, and whole calculation module connection structure simple structure, convenient operation, the effect of use is better for traditional mode.

Drawings

Fig. 1 is a schematic structural diagram of the whole of the connection structure of the ARM CPU computing module of the present invention.

Fig. 2 is a schematic structural diagram of the whole ARM CPU computing module connecting structure according to the present invention.

Fig. 3 is a schematic structural diagram of a side view of the connection structure of the ARM CPU computing module of the present invention.

Fig. 4 is the structure schematic diagram of the second ultrathin sinking plate in the connection structure of the ARM CPU computing module.

Fig. 5 is a schematic structural view of a first ultrathin sinking plate in the connection structure of the ARM CPU computing module of the present invention.

Fig. 6 is a schematic structural diagram of a block diagram of a connection module in an ARM CPU computing module connection structure of the present invention.

In the figure: 1. a first ultrathin sinking plate; 2. a first connector; 3. a first positioning mounting hole; 4. a second ultrathin sinking plate; 5. a second connector; 6. a second connection terminal; 7. a second positioning mounting hole; 8. a first connection terminal; 9. inserting grooves; 10. a first calculation module; 11. a module chip number one; 12. a first ground line; 13. a first power supply module; 14. a first data processing module; 15. a first signal transmission module; 16. a first connection module; 17. a second connection module; 18. a second data processing module; 19. a second signal transmission module; 20. a second power supply module; 21. module chip No. two; 22. a second grounding wire; 23. and a second calculation module.

Detailed Description

The technical solutions of the present invention will be described more clearly and completely below with reference to the accompanying drawings and detailed description, but those skilled in the art will understand that the following described embodiments are some, but not all, of the embodiments of the present invention, and are only used for illustrating the present invention, and should not be considered as limiting the scope of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. The examples, in which specific conditions are not specified, were carried out according to conventional conditions or conditions recommended by the manufacturer. The reagents or instruments used are conventional products which are not indicated by manufacturers and are commercially available.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The first embodiment is as follows:

as shown in fig. 1-6, an ARM CPU computing module connection structure, including ultra-thin heavy board 1 No. one, ultra-thin heavy board 4 No. two, computing module 10 and computing module 23 No. two, connector 2 is installed in the one end location of ultra-thin heavy board 1 No. one, connector 2's the outside is provided with connecting terminal 8 No. one, connector 5 is connected with No. two to the one end location of ultra-thin heavy board 4 No. two, connector 5's the outside is provided with connecting terminal 6 No. two, no. one location mounting hole 3 has been seted up at two angles of one side of ultra-thin heavy board 1 No. two, no. two location mounting holes 7 have been seted up at two angles of one side of ultra-thin heavy board 4 No. two, no. two connecting terminal 6 and No. 8 inboard inserting groove 9 have all been seted up to connecting terminal 6.

Furthermore, one end of the first ultrathin sinking plate 1 is electrically connected with one end of the second ultrathin sinking plate 4 through the first connector 2, the first connecting terminal 8, the second connector 5 and the second connecting terminal 6.

Example two:

on the basis of the first embodiment, as shown in fig. 1-6, an ARM CPU computing module connecting structure includes a first ultrathin sinking plate 1, a second ultrathin sinking plate 4, a first computing module 10 and a second computing module 23, a first connector 2 is installed at one end of the first ultrathin sinking plate 1 in a positioning manner, a first connecting terminal 8 is arranged at the outer side of the first connector 2, a second connector 5 is connected at one end of the second ultrathin sinking plate 4 in a positioning manner, a second connecting terminal 6 is arranged at the outer side of the second connector 5, a first positioning mounting hole 3 is arranged at two corners of one side of the first ultrathin sinking plate 1, a second positioning mounting hole 7 is arranged at two corners of one side of the second ultrathin sinking plate 4, and inserting grooves 9 are respectively arranged at the inner sides of the second connecting terminal 6 and the first connecting terminal 8.

Furthermore, a first module chip 11, a first grounding wire 12, a first power module 13, a first data processing module 14, a first signal transmission module 15, and a first connection module 16 are arranged inside the first calculation module 10, the first connection module 16 is connected with the position of the first signal transmission module 15, the first signal transmission module 15 is connected with the positions of the first data processing module 14 and the first module chip 11, the first data processing module 14 is connected with the first module chip 11, and the first module chip 11 is connected with the first grounding wire 12 and the first power module 13.

Furthermore, a welding hole position is arranged between the first computing module 10 and the first module chip 11, the middle part of the first computing module 10 is fixedly connected with the lower end of the first module chip 11 through the welding hole position, and the first module chip 11 is electrically connected with the first grounding wire 12, the first power supply module 13, the first data processing module 14 and the first signal transmission module 15.

Example three:

on the basis of the second embodiment, as shown in fig. 1-6, an ARM CPU computing module connecting structure includes a first ultrathin sinking plate 1, a second ultrathin sinking plate 4, a first computing module 10 and a second computing module 23, a first connector 2 is installed at one end of the first ultrathin sinking plate 1 in a positioning manner, a first connecting terminal 8 is arranged at the outer side of the first connector 2, a second connector 5 is connected at one end of the second ultrathin sinking plate 4 in a positioning manner, a second connecting terminal 6 is arranged at the outer side of the second connector 5, a first positioning mounting hole 3 is arranged at two corners of one side of the first ultrathin sinking plate 1, a second positioning mounting hole 7 is arranged at two corners of one side of the second ultrathin sinking plate 4, and inserting grooves 9 are respectively arranged at the inner sides of the second connecting terminal 6 and the first connecting terminal 8.

Furthermore, a second connection module 17, a second data processing module 18, a second signal transmission module 19, a second power supply module 20, a second module chip 21 and a second ground wire 22 are arranged inside the second calculation module 23, the second connection module 17 is connected with the position of the second signal transmission module 19, the second signal transmission module 19 is connected with the positions of the second data processing module 18 and the second module chip 21, the second data processing module 18 is connected with the second module chip 21, and the second module chip 21 is connected with the positions of the second ground wire 22 and the second power supply module 20.

Furthermore, a welding position is arranged between the second calculation module 23 and the second module chip 21, the outer surface of the second calculation module 23 is connected with the lower end of the second module chip 21 in a welding mode through the welding position, and the second module chip 21 is electrically connected with the second data processing module 18, the second signal transmission module 19, the second grounding wire 22 and the second power supply module 20.

Furthermore, a wire is arranged between the first connecting module 16 and the second connecting module 17, the first connecting module 16 is electrically connected with the second connecting module 17 through the wire, and one end of the first calculating module 10 is electrically connected with one end of the second calculating module 23 through the second connecting module 17 and the first connecting module 16.

The working principle is as follows: the utility model comprises a first ultrathin sinking plate 1, a first connector 2, a first positioning mounting hole 3, a second ultrathin sinking plate 4, a second connector 5, a second connecting terminal 6, a second positioning mounting hole 7, a first connecting terminal 8, a plugging groove 9, a first computing module 10, a first module chip 11, a first grounding wire 12, a first power module 13, a first data processing module 14, a first signal transmission module 15, a first connecting module 16, a second connecting module 17, a second data processing module 18, a second signal transmission module 19, a second power module 20, a second module chip 21, a second grounding wire 22 and a second computing module 23, when in use, one end of the first ultrathin sinking plate 1 is connected with one end of the second ultrathin sinking plate 4 through the first connector 2, the first connecting terminal 8, the second connector 5, the second connecting terminal 6 and an electric appliance of the second ultrathin sinking plate 4, and a microchip is arranged inside, the calculation power reaches 0.8Tops and can support model one-key conversion, a first module chip 11, a first grounding wire 12, a first power supply module 13, a first data processing module 14, a first signal transmission module 15 and a first connection module 16 are arranged in a first calculation module 10, the first connection module 16 is connected with the position of the first signal transmission module 15, the first signal transmission module 15 is connected with the positions of the first data processing module 14 and the first module chip 11, the first data processing module 14 is connected with the first module chip 11, the first module chip 11 is connected with the first grounding wire 12 and the first power supply module 13, the calculation of data signals by the first calculation module 10 is facilitated, a second connection module 17, a second data processing module 18, a second signal transmission module 19, a second power supply module 20, a second module chip 21 and a second grounding wire 22 are arranged in a second calculation module 23, no. two connection module 17 connects the position of No. two signal transmission module 19, no. two signal transmission module 19 connects the position of No. two data processing module 18 and No. two module chips 21, no. two data processing module 18 connects No. two module chips 21, no. two module chips 21 connect the position of No. two earth connection 22 and No. two power module 20, make things convenient for No. two calculation module 23 to data signal's operation, be provided with the wire between No. one connection module 16 and No. two connection module 17, connect through wire electrical apparatus between No. one connection module 16 and No. two connection module 17, the one end of a calculation module 10 is connected through No. two connection module 17, a connection module 16 and No. two one end electrical apparatus of calculation module 23, it is convenient more quick to connect between two modules, improve operation rate.

It is noted that, herein, relational terms such as first and second (a, b, etc.) and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed.

Claims (7)

1. The utility model provides a ARM CPU calculates module connection structure, includes ultra-thin heavy board (1), no. two ultra-thin heavy boards (4), a calculation module (10) and No. two calculation module (23), its characterized in that: connector (2) are installed to the one end location of an ultra-thin heavy board (1), the outside of connector (2) is provided with connecting terminal (8) No. one, the one end location of No. two ultra-thin heavy boards (4) is connected with connector (5) No. two, the outside of No. two connector (5) is provided with connecting terminal (6) No. two, location mounting hole (3) have been seted up at one side two angles of an ultra-thin heavy board (1), no. two location mounting hole (7) have been seted up at one side two angles of No. two ultra-thin heavy boards (4), inserting groove (9) have all been seted up with connecting terminal (8) inboard No. two connecting terminal (6).

2. The connection structure of an ARM CPU computing module as claimed in claim 1, wherein: a calculation module (10) inside is provided with a module chip (11), an earth connection (12), a power module (13), a data processing module (14), a signal transmission module (15), a connection module (16) connects the position of a signal transmission module (15), the position of a data processing module (14) and a module chip (11) is connected in a signal transmission module (15), a data processing module (14) is connected one module chip (11), a module chip (11) is connected in a data processing module (14), a module chip (11) is connected one earth connection (12) and a power module (13).

3. The connection structure of the ARM CPU computing module as claimed in claim 1, wherein: no. two computing module's (23) inside is provided with No. two connection module (17), no. two data processing module (18), no. two signal transmission module (19), no. two power module (20), no. two module chip (21) and No. two earth connection (22), no. two connection module (17) connect the position of No. two signal transmission module (19), no. two signal transmission module (19) connect the position of No. two data processing module (18) and No. two module chip (21), no. two data processing module (18) connect No. two module chip (21), no. two module chip (21) connect the position of No. two earth connection (22) and No. two power module (20).

4. The connection structure of an ARM CPU computing module as claimed in claim 1, wherein: one end of the first ultrathin sinking plate (1) is electrically connected with one end of the second ultrathin sinking plate (4) through the first connector (2), the first connecting terminal (8), the second connector (5) and the second connecting terminal (6).

5. The connection structure of an ARM CPU computing module as claimed in claim 2, wherein: a welding hole position is arranged between the first computing module (10) and the first module chip (11), the middle of the first computing module (10) is fixedly connected with the lower end of the first module chip (11) through the welding hole position, and the first module chip (11) is electrically connected with the first grounding wire (12), the first power supply module (13), the first data processing module (14) and the first signal transmission module (15).

6. The ARM CPU computing module connection structure of claim 3, wherein: a welding position is arranged between the second computing module (23) and the second module chip (21), the outer surface of the second computing module (23) is connected with the lower end of the second module chip (21) in a welding mode through the welding position, and the second module chip (21) is electrically connected with the second data processing module (18), the second signal transmission module (19), the second grounding wire (22) and the second power supply module (20).

7. The connection structure of an ARM CPU computing module as claimed in claim 2, wherein: a wire is arranged between the first connecting module (16) and the second connecting module (17), the first connecting module (16) is electrically connected with the second connecting module (17) through a wire, and one end of the first calculating module (10) is electrically connected with one end of the second calculating module (23) through the second connecting module (17) and the first connecting module (16).

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