CN220934549U - Converter device - Google Patents

Abstract

The application provides a converter device, which relates to the technical field of electrical equipment, and comprises a shell, a P10 converter and a conversion connector; the inner cavity of the shell is provided with a first graphene sheet, a battery body, a PCB bracket, a PCB board, an FPC board, a second graphene sheet, a shielding cover and a third graphene sheet, and the P10 converter and the conversion connector are inserted into the end part of the PCB board; the heat of the electronic element on the PCB can be conducted onto the battery body or the second graphene sheet through the top end face of the first graphene sheet, the bottom end face of the first graphene sheet is attached to the corresponding battery body through the fourth graphene sheet on the inner wall of the shell, and the fourth graphene sheet conducts heat energy to the outer surface of the shell; the arrangement of the fourth graphene sheets improves the heat conduction speed of the outer surface of the shell; the heat energy of the electronic element is conducted to the shell through the second graphene sheet, the shielding cover and the third graphene sheet, and the converter device is safer to use.

Description

Converter device

Technical Field

The utility model relates to the technical field of electrical equipment, in particular to a converter device.

Background

A transducer refers to a device that converts one signal into another, an intermediate link between two meters (or devices). The basic function of the converter is to convert the information into a form that is convenient for transmission and processing, requiring that the information be free of distortion, delay, etc. during the conversion process.

When most signal switching equipment in the current market is used, the heat dissipation performance of the shell of the equipment to the interior of the signal converter is poor, so that the shell of the equipment heats, and the signal switching and the service life of the equipment are easily influenced.

Disclosure of utility model

The utility model aims to provide a converter device which is used for solving the problems that in the prior art, the heat dissipation performance of the shell of equipment to the interior of a signal converter is poor, the shell of the equipment heats, and the signal transfer and the service life of the equipment are easily affected.

Based on the above object, the present application provides a converter device comprising: a housing, a P10 converter and a conversion adapter;

The inner part of the shell is provided with an inner cavity, and a first graphene sheet, a battery body, a PCB bracket, a PCB board, an FPC board, a second graphene sheet, a shielding cover and a third graphene sheet are arranged in the inner cavity of the shell from bottom to top;

The top end face of the battery body is arranged at the bottom of the PCB bracket, a first graphene sheet is arranged on the battery body, the bottom end face of the first graphene sheet is abutted with the battery body, and the top end face of the first graphene sheet is abutted with the PCB bracket;

The PCB is mounted on the top end face of the PCB support, the PCB is connected with the FPC board through a connecting assembly, the top end face of the FPC board is bonded with the second graphene sheets, the top end face of the second graphene sheets is connected with the shielding cover, and the top end face of the shielding cover is bonded with the third graphene sheets;

A fourth graphene sheet is bonded on the inner wall of the shell;

one end of the P10 converter is inserted into the end part of the PCB;

One end of the adapter is detachably connected with the end part of the PCB through the plug connector.

Further, the first graphene sheet is provided in a U-shaped structure, and the first graphene sheet includes: the battery comprises a battery body, a first abutting part and a second abutting part, wherein the bottom end face of the first abutting part abuts against the battery body, the first abutting part is bent upwards to be connected with the second abutting part, and the top end face of the second abutting part abuts against the PCB bracket.

Further, the circumference of FPC board is buckled downwards and is formed grafting portion, grafting portion inserts the inside of coupling assembling, coupling assembling includes: the PCB comprises a bottom plate, a first vertical plate and a second vertical plate, wherein the bottom plate is arranged on the PCB, the bottom plate is provided with the first vertical plate and the second vertical plate which are oppositely arranged, and the plug-in part is inserted into the space between the first vertical plate and the second vertical plate.

Further, the side edge of the third graphene sheet is bent downwards to form a bending part, and the bending part is abutted to the PCB support.

Further, the side of the PCB support is provided with a convex strip, and the inner wall of the shell is provided with a long connecting groove corresponding to the convex strip.

Further, a first placing groove and a containing groove which are oppositely arranged are formed in the end portion of the shell, the first placing groove and the containing groove are respectively communicated with the inner cavity of the shell, one end of the P10 converter penetrates through the first placing groove and is inserted into the end portion of the PCB, and the other end of the P10 converter is connected with the AR glasses through a connecting piece;

one end of the adapter is penetrated through the accommodating groove and detachably connected with the end part of the PCB through the plug connector, and the other end of the adapter is connected with the mobile terminal.

Further, the PCB comprises a key baffle, wherein the key baffle is arranged at the end part of the shell, a hole through which a switch button penetrates is formed in the key baffle, and the switch button is arranged at the end part of the PCB bracket;

the key baffle is provided with a plurality of charging interfaces through which charging wires penetrate, and the charging interfaces are arranged at the end part of the PCB.

Further, a notch is formed in the bottom end of the accommodating groove, and the notch is penetrated through the bottom end of the conversion connector and detachably connected with the plug connector.

By adopting the technical scheme, the converter device provided by the application has the following technical effects compared with the prior art:

The application provides a converter device, which comprises a shell, a P10 converter and a conversion connector, wherein the shell is provided with a first end and a second end;

The inner part of the shell is provided with an inner cavity, and a first graphene sheet, a battery body, a PCB bracket, a PCB board, an FPC board, a second graphene sheet, a shielding cover and a third graphene sheet are arranged in the inner cavity of the shell from bottom to top; the top end face of the battery body is arranged at the bottom of the PCB bracket, a first graphene sheet is arranged on the battery body, and the top end face of the first graphene sheet is abutted with the PCB bracket; the PCB is arranged on the top end face of the PCB bracket and is connected with the FPC board through the connecting component; the top end face of the FPC board is adhered with a second graphene sheet, the top end face of the second graphene sheet is connected with the shielding cover, and the top end face of the shielding cover is adhered with a third graphene sheet; the inner wall of the shell is adhered with a fourth graphene sheet; through the structure and the design, the heat of the electronic element on the PCB can be conducted to the battery body or the second graphene sheet through the top end face of the first graphene sheet, the bottom end face of the first graphene sheet is attached to the corresponding battery body through the fourth graphene sheet on the inner wall of the shell, and the fourth graphene sheet conducts the heat energy to the outer surface of the shell; the arrangement of the fourth graphene sheets improves the heat conduction speed of the outer surface of the shell; the heat energy of the electronic element passes through the second graphene sheet, the shielding cover, the third graphene sheet and the outer surface of the shell, so that the converter device is safer to use.

One end of the P10 converter is inserted into the end part of the PCB; the method comprises the steps of acquiring 3DoF data or 6DoF data of AR glasses in real time; transmitting the 3DoF data to mobile terminal equipment through a bluetooth protocol;

one end of the adapter is detachably connected with the end part of the PCB through the plug connector; the adapter is used for charging the mobile terminal to the AR glasses, and meanwhile, in another connection mode, the end part of the adapter is detachable from the plug connector, so that the plug connector is connected with the matched game machine interface, and the practicability of the adapter device is improved.

Drawings

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

Fig. 1 is a schematic structural diagram of a converter device according to the present application;

fig. 2 is a schematic structural diagram of a converter device (with a housing omitted) according to the present application;

Fig. 3 is a schematic structural diagram of another converter device according to the present application (omitting the housing and the third graphene sheet);

FIG. 4 is a schematic structural view of the housing;

fig. 5 is a schematic structural diagram of a first graphene sheet;

fig. 6 is a schematic structural diagram of a second graphene sheet;

Fig. 7 is a schematic structural view of the connection assembly.

Icon: 1-a housing; 11-a first graphene sheet; 111-a first abutment; 112-a second abutment; 12-a battery body; 13-a PCB bracket; 131-raised strips; 14-a PCB board; 15-FPC board; 16-a second graphene sheet; 17-shielding case; 18-a third graphene sheet; 191-a first placement tank; 192-receiving groove; 193-connecting groove; a 2-P10 converter; 3-adapter; a 4-connection assembly; 41-a bottom plate; 42-a first riser; 43-a second riser; 5-a key baffle; 51-a switch button; 52-charging interface.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 7, the converter device provided by the embodiment of the application comprises a shell 1, a P10 converter 2 and a conversion joint 3;

Specifically, a cavity is formed in the shell 1, a first graphene sheet 11, a battery body 12, a PCB bracket 13, a PCB board 14, an FPC board 15, a second graphene sheet 16, a shielding cover 17 and a third graphene sheet 18 are arranged in the cavity of the shell 1 from bottom to top, the top end face of the battery body 12 is arranged at the bottom of the PCB bracket 13, the battery body 12 is provided with the first graphene sheet 11, the inner side of the bottom end face of the first graphene sheet 11 is abutted with the battery body 12, the outer side of the bottom end face of the first graphene sheet 11 is abutted with the inner wall of the shell 1, the top end face of the first graphene sheet 11 is abutted with the PCB bracket 13, the first graphene sheet 11 has good heat conducting property, namely, the bottom end face of the first graphene sheet 11 wraps the battery body 12, meanwhile, heat energy generated in the operation process of the battery body 12 is conducted to the outer surface of the shell 1 through the bottom end face of the first graphene sheet 11, and the heat energy is conducted to the outer side through the outer surface of the shell 1, and the effect of charging and use of a user is avoided in the operation process of the battery body 12 due to local overheating;

The PCB 14 is arranged on the top end surface of the PCB bracket 13, and a plurality of electronic elements are arranged on the PCB 14; the PCB 14 is connected with the FPC 15 through the connecting component 4, the top end face of the FPC 15 is adhered with the second graphene sheet 16, the top end face of the second graphene sheet 16 is connected with the shielding cover 17, the top end face of the shielding cover 17 is adhered with the third graphene sheet 18, the top end face of the third graphene sheet 18 is adhered with the inner wall of the shell 1, the electronic element generates heat energy in the operation process, the electronic element is positioned between the PCB 14 and the FPC 15, meanwhile, the electronic element conducts the generated heat energy to the second graphene sheet 16 through the FPC 15, the second graphene sheet 16 and the third graphene sheet 18 have good heat conducting performance, the second graphene sheet 16 conducts the heat energy to the shielding cover 17, the third graphene sheet 18 and the outer surface of the shell 1, and the shell 1 can conduct the heat energy away so as to avoid the influence on the use of the battery body 12 or the converter device due to local overheating in the operation process of the electronic element;

In order to improve the heat conducting performance of the casing 1, the inner wall of the casing 1 is adhered with a fourth graphene sheet, that is, the structure of the fourth graphene sheet is matched with the inner wall of the casing 1, the second graphene sheet 16 and the third graphene sheet 18 are respectively adhered with the corresponding fourth graphene sheet, and the heat energy generated by the end face of the bottom of the battery body 12 is adhered with the fourth graphene sheet through the second graphene sheet 16, so that the surface heat conducting speed of the casing 1 can be increased, the heat conducting effect is better, and meanwhile, the operation and the use of the battery body 12 are facilitated; through the laminating of third graphite alkene piece 18 and fourth graphite alkene piece, and then accelerated the heat conduction speed of shell 1, the heat conduction effect is better, simultaneously, the operation of the electronic component on the PCB board 14 of being convenient for.

Through the structure and design, the heat of the electronic element on the PCB 14 can be conducted to the battery body 12 or the second graphene sheet 16 through the top end face of the first graphene sheet 11, the bottom end face of the first graphene sheet 11 is attached to the corresponding battery body 12 through the fourth graphene sheet on the inner wall of the shell 1, and the fourth graphene sheet conducts the heat energy to the outer surface of the shell 1; the arrangement of the fourth graphene sheets improves the heat conduction speed of the outer surface of the shell 1; the heat energy of the electronic element passes through the second graphene sheet 16, the shielding cover 17, the third graphene sheet 18 and the outer surface of the shell 1, so that the converter device is safer to use, is convenient for converting signals inside the converter device, and is convenient for converting signals inside the converter device.

In a preferred embodiment, as shown in fig. 3 and fig. 4, the end of the housing 1 is provided with a first placement groove 191 and a containing groove 192 which are oppositely arranged, the first placement groove 191 is communicated with the inner cavity of the housing 1, one end of the P10 converter 2 is inserted into the end of the PCB 14 through the first placement groove 191, the P10 converter 2 is detachably connected with the end of the PCB 14, the other end of the P10 converter 2 is connected with the AR glasses through a connecting piece, and the P10 converter 2 is used for acquiring 3DoF data or 6DoF data of the AR glasses in real time; and transmitting the 3DoF data to mobile terminal equipment through a Bluetooth protocol.

In a preferred embodiment, as shown in fig. 3 and 4, the accommodating groove 192 is communicated with the inner cavity of the housing 1, one end of the adapter 3 is penetrated through the accommodating groove 192 and detachably connected with the end of the PCB 14 through the plug connector, that is, one end of the adapter 3 is also detachably connected with the plug connector, the other end of the adapter 3 is connected with the mobile terminal, and the adapter 3 is used for charging the mobile terminal to the AR glasses while charging the mobile phone; through the detachable connection of the adapter 3 and the plug connector, the plug connector can be detachably connected with the interface of the adaptive game machine, and the practicability of the converter device is further improved.

In a preferred embodiment, as shown in fig. 2, 3 and 5, the first graphene sheets 11 are disposed in a U-shaped structure, and the first graphene sheets 11 include: the first abutting part 111 and the second abutting part 112, the bottom end face of the first abutting part 111 abuts against the battery body 12, the first abutting part 111 is bent upwards to be connected with the second abutting part 112 to form a U-shaped structure, the battery body 12 is wrapped inside the U-shaped structure, the top end face of the second abutting part 112 abuts against the PCB bracket 13, and the top end face of the second abutting part 112 abuts against the PCB bracket 13, so that heat energy on the PCB 14 contacted by the PCB bracket 13 is conducted to the battery body 12, and the battery body 13 conducts the heat energy to the outer surface of the shell 1.

In a preferred embodiment, as shown in fig. 3 and 5, the shapes of the FPC board 15 and the second graphene sheets 16 are not limited, the FPC board 15 may be in an approximately L-shape or an L-line shape, the shape of the second graphene sheets 16 is the same as the shape of the FPC board 15, the second graphene sheets 16 are all adhered to the FPC board 15, the second graphene sheets 16 have good heat conductivity, and the second graphene sheets 16 can conduct heat energy to the shielding cover 17 through the FPC board 15.

In a preferred embodiment, as shown in fig. 3 and 7, in order to ensure the stability of the connection between the FPC board 15 and the PCB board 14, the peripheral side of the FPC board 15 is bent downward to form a plugging portion, and the plugging portion is inserted into the connection assembly 4, and the connection assembly 4 includes: the bottom plate 41, first riser 42 and second riser 43, the bottom plate 41 sets up on the PCB board 14, first riser 42 and second riser 43 set up respectively on the bottom plate 41, be equipped with relative first riser 42 and the second riser 43 that set up on the bottom plate 41, and preset the interval between first riser 42 and the second riser 43, preset interval and grafting portion matching between first riser 42 and the second riser 43, during the installation, with the grafting portion direct insertion of FPC board 15 week side first riser 42 and second riser 43 between preset interval can, make FPC board 15 be connected with the PCB board 14.

In a preferred embodiment, as shown in fig. 3, in order to facilitate better adhesion of the shield 17 to the FPC board 15, the shape of the shield 17 is the same as that of the FPC board 15, and the shape of the shield 17 is not limited here.

In a preferred embodiment, as shown in fig. 2, in order to save space in the inner cavity of the housing 1, the side edges of the third graphene sheets 18 are bent downward to form a bending portion, and the bending portion of the third graphene sheets 18 abuts against the top of the PCB support 13.

In a preferred embodiment, as shown in fig. 2 and 3, the side surface of the PCB support 13 is provided with opposite raised strips 131, the raised strips 131 are arranged along the length direction of the PCB support 13, the inner wall of the housing 1 is provided with elongated connecting grooves 193 corresponding to the raised strips 131, and the raised strips 131 can be inserted into the connecting grooves 193, so that the housing 1 and the PCB support 13 can be assembled quickly.

In a preferred embodiment, as shown in fig. 1, 2 and 3, the portable electronic device further comprises a key baffle 5, the key baffle 5 is arranged as an annular plate, the bottom of the key baffle 5 is detachably arranged at the end part of the shell 1, a hole penetrated by a switch button 51 is formed in the key baffle 5, the switch button 51 is arranged at the end part of the PCB bracket 13, the switch button 51 is electrically connected with the battery body 12, the opening or closing of the switch button 51 can control the on/off of the PCB 14 and the battery body 12, a plurality of charging interfaces 52 penetrated by charging wires are respectively arranged on the key baffle 5, the charging interfaces 52 are arranged at the end part of the PCB 14, namely, the charging interfaces 52 are arranged at the mounting end far away from the converter, and the battery body 12 can be repeatedly charged through the effect of the charging interfaces 52, so that the converter device can be repeatedly used.

In a preferred embodiment, as shown in fig. 4, a notch is provided at the bottom end of the accommodating groove 192, the bottom end of the adapter 3 is detachably connected with the plug connector through the notch, in order to improve the practicability of the converter device, the notch is detachably connected with the plug connector through the bottom end of the adapter 3, and the other end of the adapter 3 is connected with the mobile terminal, that is, the adapter 3 is directly connected with the mobile device, and another connection mode is that the adapter is detached, so that the plug connector is detachably connected with the interface of the adapted game machine.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (8)

1. A converter device, comprising: a housing, a P10 converter and a conversion adapter;

The inner part of the shell is provided with an inner cavity, and a first graphene sheet, a battery body, a PCB bracket, a PCB board, an FPC board, a second graphene sheet, a shielding cover and a third graphene sheet are arranged in the inner cavity of the shell from bottom to top;

The top end face of the battery body is arranged at the bottom of the PCB bracket, a first graphene sheet is arranged on the battery body, the bottom end face of the first graphene sheet is abutted with the battery body, and the top end face of the first graphene sheet is abutted with the PCB bracket;

The PCB is mounted on the top end face of the PCB support, the PCB is connected with the FPC board through a connecting assembly, the top end face of the FPC board is bonded with the second graphene sheets, the top end face of the second graphene sheets is connected with the shielding cover, and the top end face of the shielding cover is bonded with the third graphene sheets;

A fourth graphene sheet is bonded on the inner wall of the shell;

one end of the P10 converter is inserted into the end part of the PCB;

One end of the adapter is detachably connected with the end part of the PCB through the plug connector.

2. The converter device of claim 1, wherein the first graphene sheets are arranged in a U-shaped configuration, the first graphene sheets comprising: the battery comprises a battery body, a first abutting part and a second abutting part, wherein the bottom end face of the first abutting part abuts against the battery body, the first abutting part is bent upwards to be connected with the second abutting part, and the top end face of the second abutting part abuts against the PCB bracket.

3. A converter device according to claim 1, wherein a peripheral side of the FPC board is bent downward to form a plug portion, the plug portion being inserted into an interior of a connection assembly, the connection assembly comprising: the PCB comprises a bottom plate, a first vertical plate and a second vertical plate, wherein the bottom plate is arranged on the PCB, the bottom plate is provided with the first vertical plate and the second vertical plate which are oppositely arranged, and the plug-in part is inserted into the space between the first vertical plate and the second vertical plate.

4. The converter device according to claim 1, wherein the side edge of the third graphene sheet is bent downward to form a bent portion, and the bent portion abuts against the PCB support.

5. The converter device according to claim 1, wherein a protruding strip is provided on a side surface of the PCB support, and elongated connecting grooves are provided on an inner wall of the housing at positions corresponding to the protruding strip.

6. The converter device according to claim 1, wherein the end part of the housing is provided with a first placing groove and a containing groove which are oppositely arranged, the first placing groove and the containing groove are respectively communicated with the inner cavity of the housing, one end of the P10 converter penetrates through the first placing groove and is inserted into the end part of the PCB, and the other end of the P10 converter is connected with the AR glasses through a connecting piece;

one end of the adapter is penetrated through the accommodating groove and detachably connected with the end part of the PCB through the plug connector, and the other end of the adapter is connected with the mobile terminal.

7. The converter device of claim 1, further comprising a key guard mounted to an end of the housing, the key guard having a hole through which a switch button is disposed, the switch button being mounted to an end of the PCB support;

the key baffle is provided with a plurality of charging interfaces through which charging wires penetrate, and the charging interfaces are arranged at the end part of the PCB.

8. A transducer assembly according to claim 6, wherein the bottom end of the receiving slot is provided with a slot, and the bottom end of the adapter is detachably connected to the plug member by passing through the slot.