CN219067267U - Debugging structure and electronic equipment - Google Patents

Abstract

The utility model provides a debugging structure and electronic equipment, wherein the debugging structure comprises a shell, a circuit board and an electric connector; the circuit board is positioned in the shell; the electric connector is detachably connected to the circuit board and comprises a connecting part, the connecting part is arranged in a direction away from the circuit board, and the connecting part is vertically arranged on the circuit board. This application is through fixing this electric connector on this circuit board to offer the direction of circuit board is kept away from to connecting portion opening, and make this connecting portion and this circuit board mutually perpendicular fixed, when wanting to upgrade the debugging to electronic equipment, through the mode of external winding displacement, with external circuit and this connecting portion connection, carry out the data snatch and the software upgrade of earlier stage development stage, when getting into the product volume production of later stage, directly do not install this electric connector, all structural parts of electronic equipment all can not receive any influence, therefore this electronic equipment need not do any change, the extravagant problem of cost has been greatly solved.

Description

Debugging structure and electronic equipment

Technical Field

The present utility model relates to the field of electronic product production, and in particular, to a debugging structure and an electronic device.

Background

In recent years, more and more electronic products are applied to various fields, and the electronic products become an indispensable part of people's lives. However, before mass production of electronic products, debugging is usually required for the electronic products, and the functions of the products are repeatedly upgraded, so that a special upgrade port is required to be arranged on a circuit board of the electronic products to meet the upgrade requirement. In the early stage of the development of the existing entertainment system, the upgrade terminal of the entertainment system mainly adopts a horizontal terminal, and an opening is formed in the position of the horizontal terminal to avoid the position, when the function of an electronic product is debugged, the electronic product directly enters a mass production stage, in the stage, the upgrade terminal is not required to be upgraded, so that the upgrade terminal is required to be canceled, an opening is reserved in a shell of the electronic product at the moment, the internal structure of the electronic product is in a closed state, electromagnetic interference is reduced, the appearance of the electronic product is not influenced, and the opening of the shell is required to be plugged in a mode of modifying a mould or sticking paper, so that great cost waste is caused.

Disclosure of Invention

The embodiment of the utility model provides a debugging structure and electronic equipment, which are used for reducing cost waste of electronic products in production.

The utility model provides a debug structure, which comprises:

a housing;

the circuit board is positioned in the shell;

the electric connector is detachably connected to the circuit board and comprises a connecting portion, the connecting portion is arranged in a direction away from the circuit board, and the connecting portion is vertically arranged on the circuit board.

In the debug structure provided by the utility model, a plurality of electrical connectors are distributed along the edge of the circuit board.

In the debugging structure provided by the utility model, the circuit board is provided with the mounting part, the mounting part is formed by extending outwards from the circuit board, and the electric connector is positioned on the mounting part.

In the debugging structure provided by the utility model, the electric connector further comprises an adhesive part, wherein the adhesive part is perpendicular to the connecting part, and the adhesive part is adhered on the circuit board.

In the debugging structure provided by the utility model, the electric connector is a patch female base.

In the debugging structure provided by the utility model, the shell comprises a top shell, the top shell is provided with a concave part, and the electric connector is positioned in the concave part.

In the debugging structure provided by the utility model, the concave part is positioned on the side surface of the top shell, is vertical to the circuit board and is arranged along the direction away from the circuit board, and the electric connector is positioned on the concave part.

In the debugging structure provided by the utility model, the shell further comprises a bottom shell, the bottom shell is mutually matched with the top shell, and the bottom shell encloses the circuit board.

In the debugging structure provided by the utility model, the bottom shell is provided with the protruding part, the protruding part is positioned at the edge of the bottom shell and extends towards the direction of the top shell, the protruding part and the recessed part form a space, and the electric connector is positioned in the space.

The utility model also provides an electronic device, comprising:

the debugging structure is any one of the debugging structures;

and the heat dissipation piece is arranged on the side surface of the top shell and separates the electric connector from the inner space of the circuit board.

The utility model provides a debugging structure and electronic equipment, wherein the debugging structure comprises a shell, a circuit board and an electric connector; the circuit board is positioned in the shell; the electric connector is detachably connected to the circuit board and comprises a connecting portion, the connecting portion is arranged in a direction away from the circuit board, and the connecting portion is vertically arranged on the circuit board. This application is through will the electric connector is fixed on the circuit board, and will the connecting portion opening is kept away from the direction of circuit board is offered, and makes connecting portion with circuit board mutually perpendicular is fixed, when wanting to upgrade the debugging to electronic equipment, with external circuit with connecting portion are connected through external winding displacement's mode, carry out earlier stage development stage data and snatch and software upgrade, when getting into later stage's product volume production, directly do not install the electric connector, all structural parts of electronic equipment all can not receive any influence, consequently electronic equipment need not do any change, very big problem of having solved the cost extravagant.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of a portion of the electronic device shown in FIG. 1 at reference A;

FIG. 3 is a top view of an electronic device in an embodiment of the utility model;

FIG. 4 is a top view of a circuit board and an electrical connector according to an embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of a portion of FIG. 4 at reference B;

FIG. 6 is a schematic diagram of a circuit board and an electrical connector according to an embodiment of the present utility model;

the reference numerals in the drawings are as follows:

100. a circuit board; 110. a mounting part; 200. a housing; 300. an electrical connector; 310. a connection part; 400. and a heat sink.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings.

Referring to fig. 1-6, one embodiment of a debug architecture of the present utility model is shown. The debugging structure comprises a shell 200, a circuit board 100 and an electric connector 300, wherein the circuit board 100 is positioned in the shell 200, the electric connector 300 is detachably connected to the circuit board 100, the electric connector 300 comprises a connecting part 310, the connecting part 310 is arranged in a direction away from the circuit board 100, and the connecting part 310 is vertically arranged on the circuit board 100. In this embodiment, the electrical connector 300 is fixed to the circuit board 100, and the connection portion 310 is opened in a direction away from the circuit board 100, and the connection portion 310 and the circuit board 100 are fixed to each other vertically, and the electrical connector 300 is positioned inside the housing 200 because the circuit board 100 is positioned inside the housing 200 and the electrical connector 300 is positioned on the circuit board 100. When the electronic device is to be upgraded and debugged, the connecting part 310 of the electronic device 300 is vertically upwards arranged, and the external circuit is connected with the connecting part 310 only in a mode of external flat cable in the vertical direction, so that data capture and software upgrading in the early development stage are performed, when the electronic device enters the later-stage mass production, the electronic device is not directly installed, at this time, the internal structure of the electronic device is still in a closed state, all structural parts of the electronic device are not affected, and therefore, the electronic device does not need to be changed, and the problem of cost waste is greatly solved.

In one embodiment, referring to fig. 4 and 6, the electrical connectors 300 are plural and distributed along the edge of the circuit board 100. In this embodiment, the debug structure has three electrical connectors 300, where the electrical connectors 300 are respectively an FPGA electrical connector, a central control electrical connector, and an instrument electrical connector, the electrical connectors 300 are arranged at the edge position of the circuit board 100, the FPGA electrical connector is located at the left side of the edge position of the circuit board 100, the central control electrical connector is placed next to the FPGA electrical connector, and the instrument electrical connector is arranged at a position apart from the central control electrical connector. The electrical connector 300 is arranged at the edge of the circuit board 100, so that the electrical connector 300 is not directly arranged during mass production of electronic products, other part structures of the electronic equipment are not affected, the internal parts of the circuit board 100 are still in a closed state, the electrical connector 300 is arranged at the edge of the circuit board 100, the electrical connector 300 can be simply installed and detached, and meanwhile, when the electronic products are tested and upgraded, the electrical connector 300 is arranged at the edge of the circuit board 100 in an external wiring mode, and the external wiring can be more conveniently connected with and disconnected from the electrical connector 300 and does not affect other structures of the electronic equipment.

In a specific embodiment, referring to fig. 4 and 5, the circuit board 100 has a mounting portion 110, the mounting portion 110 is formed by extending the circuit board 100 outward, and the electrical connector 300 is located on the mounting portion 110. Specifically, the circuit board 100 extends from the edge of the circuit board 100 to form the mounting portion 110 where the electrical connector 300 needs to be mounted, the width of the mounting portion 110 is only the width of the electrical connector 300 or slightly larger than the width of the electrical connection degree, and the length of the mounting portion 110 is the sum of the total lengths of the number of the electrical connectors 300 to be mounted at the position, so that cost waste caused by oversized mounting portion 110 and influence on the aesthetic property of the product are avoided. Meanwhile, the electric connector 300 is mounted on the mounting portion 110 of the circuit board 100, so that the electric connector 300 can be distinguished from other parts on the circuit board 100, the work of the other parts is not affected, and the structure of the circuit board 100 is more reasonable and stable.

In one embodiment, referring to fig. 4 to 6, the electrical connector 300 further includes an adhesive portion, which is perpendicular to the connection portion 310, and is adhered to the circuit board 100. Specifically, the connection mode of the electrical connector 300 and the circuit board 100 is a patch mode, the electrical connector 300 can be directly welded to the circuit board 100 without drilling, the adhesive part is positioned at the bottom of the electrical connector 300 and is perpendicular to the connection part 310, and the adhesive part is adhered to the circuit board 100, so that the connection part 310 of the electrical connector 300 is perpendicular to the circuit board 100, and therefore, the electrical connector 300 is vertically arranged on the circuit board 100, when debugging is performed, an external flat cable can be conveniently connected with the electrical connector 300, when debugging is finished, an electronic product can enter a mass production stage, and when patch production is performed, the electrical connector 300 is directly not adhered, and the whole electronic device is not affected. The electric connector 300 and the circuit board 100 are connected in a patch mode, so that the electric connector 300 and the circuit board 100 can be more conveniently installed, and meanwhile, the electric connector 300 and the circuit board 100 can be connected without drilling, so that the structure of the circuit board 100 is more stable, and the cost is saved.

In a specific embodiment, referring to fig. 1 to 6, the electrical connector 300 is a patch female socket. Specifically, in order to better implement the electrical connector 300 to debug and upgrade the product, the present embodiment adopts the external flat cable to debug and upgrade the product, so that the electrical connector 300 is set as a patch socket, and the electrical connector 300 and the circuit board 100 can be better mounted, so that the mounting is more convenient and simple, the mounting cost is lower, and the cost waste is saved. Meanwhile, the electrical connector 300 can be more quickly and tightly connected when being connected with an external circuit, and has more stable structure.

In one embodiment, referring to fig. 1-3, the housing 200 includes a top housing having a recess in which the electrical connector 300 is located. Specifically, the housing 200 includes a top case that is located above the circuit board 100 and covers the circuit board 100 inside the top case, and at the same time, a recess is provided in the top case, and the electrical connector 300 is mounted in the recess. Therefore, during product debugging, the external flat cable is not blocked by the housing 200, and the connection of the external circuit is more convenient and quicker. Meanwhile, the recess portion insulates the electrical connector 300 from the outer side of the housing 200, so that the internal structure of the electronic product can be better protected, and when the electrical connector 300 is mounted or not mounted, the internal structure of the circuit board 100 is not affected, so that the debugging structure is more compact and stable.

In a specific embodiment, referring to fig. 1 to 3, the recess is located on a side surface of the top case, is perpendicular to the circuit board 100, and is opened in a direction away from the circuit board 100, and the electrical connector 300 is located on the recess. Specifically, the plurality of concave portions are disposed at positions corresponding to the mounting portions 110 and located on the side surfaces of the top case, perpendicular to the circuit board 100, and open in a direction away from the circuit board 100, and the electrical connector 300 is located in the concave portions. The electric connector 300 with circuit board 100 mutually perpendicular will the depressed part with circuit board 100 mutually perpendicular can be made things convenient for electric connector 300 is connected with external circuit, and the depressed part from with circuit board 100 contact begins, along keeping away from the direction of circuit board 100 is seted up, upwards sets up promptly, until with the top of top shell meets, the depressed space is great, can be fine place external circuit, can be more convenient when debugging.

In one embodiment, the housing 200 further includes a bottom case, the bottom case and the top case are engaged with each other, and the bottom case encloses the circuit board 100. Specifically, the bottom shell is not shown in the drawings, and the bottom shell and the top shell are mutually matched to form a sealing space inside the bottom shell, so that the circuit board 100 and internal parts are enclosed in the sealing space, the circuit board 100 and internal structures are well protected, the structural stability of the electronic equipment is improved, and meanwhile, the electronic equipment is more convenient and rapid to install.

In a specific embodiment, the bottom shell has a protruding portion, the protruding portion is located at an edge of the bottom shell and extends toward the top shell, the protruding portion and the recessed portion form a space, and the electrical connector 300 is located in the space. Specifically, on the side having the recess portion, the edge of the bottom case extends upward toward the top case to form the protruding portion, the protruding portion has a height slightly lower than or flush with a height of the electrical connector 300 when mounted on the circuit board 100, the protruding portion and the recess portion form a space, and the electrical connector 300 is mounted in the space. The protruding portion is disposed on the bottom case, so that the electric connector 300 or the circuit board 100 can be well protected, and damage generated when the electric connector 300 or the circuit board 100 is impacted or knocked can be avoided. Meanwhile, the height of the protruding portion is slightly lower than or flush with the height of the electric connector 300 when the electric connector is mounted on the circuit board 100, an accommodating space can be formed between the protruding portion and the recessed portion, when a product is required to be debugged and upgraded, the external flat cable is more convenient, and the electric wire of the external electric wire can be well accommodated in the space, so that the structure is more complete.

The present embodiment further provides an electronic device, which includes a debugging structure and a heat sink 400, wherein the heat sink 400 is mounted on a side surface of the top case, and the heat sink 400 separates the electric connector 300 from an inner space of the circuit board 100. The specific structure and the working principle of the debugging structure of the present utility model have been described in detail in the foregoing description, and for brevity of description, details are not repeated here.

In the electronic device in this embodiment, due to the adoption of the debug structure provided by the utility model, in the early development stage of the electronic device, the data capture and the software upgrading are directly performed by combining the external flat cable with the debug structure, after the electronic device is stable, when mass production is required, the step of attaching the electric connector 300 is directly omitted in the surface mount procedure, and at the moment, the electronic device does not need to do additional auxiliary materials or change the structure to keep the internal structure of the electronic device in a closed state so as not to be influenced by the outside, so that the cost waste of the electronic product in production is greatly reduced, the production cost is saved, and the appearance of the product is more attractive.

While the utility model has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (10)

1. A debug structure, comprising:

a housing;

the circuit board is positioned in the shell;

the electric connector is detachably connected to the circuit board and comprises a connecting portion, the connecting portion is arranged in a direction away from the circuit board, and the connecting portion is vertically arranged on the circuit board.

2. The debug structure of claim 1, wherein the electrical connectors are plural and distributed along an edge of the circuit board.

3. The debug structure of claim 2, wherein the circuit board has a mounting portion formed outwardly from the circuit board, the electrical connector being located on the mounting portion.

4. The debug apparatus according to claim 3, wherein the electrical connector further comprises an attaching portion, the attaching portion being perpendicular to the connecting portion, the attaching portion being attached to the circuit board.

5. The debug structure of claim 4, wherein the electrical connector is a patch bezel.

6. The debug structure of claim 1, wherein the housing comprises a top housing having a recess, the electrical connector being located in the recess.

7. The debug structure of claim 6, wherein the recess is located on a side of the top case, perpendicular to the circuit board, and open in a direction away from the circuit board, the electrical connector being located on the recess.

8. The debug structure of claim 6, wherein the housing further comprises a bottom shell, the bottom shell is mutually engaged with the top shell, and the bottom shell encloses the circuit board.

9. The debug structure of claim 8, wherein the bottom shell has a protrusion located at an edge of the bottom shell and extending in a direction of the top shell, the protrusion and the recess forming a space, the electrical connector being located in the space.

10. An electronic device, comprising:

a debug structure comprising the debug structure of any one of claims 1 to 9;

and the heat dissipation piece is arranged on the side surface of the top shell and separates the electric connector from the inner space of the circuit board.

Images