CN211656757U

CN211656757U - GPS data transmission module with radiator

Info

Publication number: CN211656757U
Application number: CN202020601061.4U
Authority: CN
Inventors: 拉瑞·格兰特
Original assignee: US GRANT TECHNOLOGIES BEIJING
Current assignee: US GRANT TECHNOLOGIES BEIJING
Priority date: 2020-04-21
Filing date: 2020-04-21
Publication date: 2020-10-09
Anticipated expiration: 2030-04-21

Abstract

The utility model discloses a GPS data transmission module with radiator, including module panel, data transmission circuit and interface socket, the data transmission circuit passes through the circuit board to be fixed on the module panel, the interface socket is connected with data transmission circuit on the circuit board, and the socket of interface socket stretches out from module panel front end, and the rear end of module panel is connected with the radiator, the radiator is cavity shell structure, in the circuit board stretches into the radiator cavity, in the cavity data transmission circuit's the device that generates heat is connected the radiator be equipped with rack guide rail buckle on the radiator shell. The utility model discloses modular structure is compact, and the heat dissipation problem has been solved to module itself, does not need the rack to increase extra heat radiating area, and installation interchangeability is good.

Description

GPS data transmission module with radiator

Technical Field

The utility model relates to a GPS data transmission module with radiator.

Background

Modern electronic devices are increasingly provided with more functions, so that many electronic devices are designed in a modular manner, one module has one function, while some electronic components of the module, such as a processor, are high-heat-generating components and need to be provided with a heat radiator, and different designs are needed for processing modules with different relationships between the heat radiator and a module circuit. The traditional heat dissipation method is to add heat dissipation fins on the cabinet to increase the heat dissipation area of the cabinet, so that the interchangeability of equipment is poor. With the higher integration level of electronic devices, it is difficult for such conventional heat dissipation methods to meet the requirements of more sophisticated electronic devices.

Disclosure of Invention

The utility model aims at providing a GPS data transmission module with radiator, compact structure pegs graft conveniently.

In order to realize the purpose, the technical scheme of the utility model is that:

the utility model provides a GPS data transmission module with radiator, includes module panel, data transmission circuit and interface socket, wherein, data transmission circuit passes through the circuit board to be fixed on the module panel, the interface socket is connected with data transmission circuit on the circuit board, and the socket of interface socket stretches out from module panel front end, and the rear end of module panel is connected with the radiator, the radiator is cavity shell structure, the circuit board stretches into in the radiator cavity, in the cavity data transmission circuit's the device that generates heat is connected the radiator be equipped with rack guide rail buckle on the radiator shell.

The scheme is further as follows: the cabinet guide rail buckle is arranged on the back face of the radiator opposite to the module panel.

The scheme is further as follows: and the outer surface of the cavity shell is provided with a radiating fin with a groove.

The scheme is further as follows: the heat dissipation shell is formed by 3D printing of an aluminum alloy material with high thermal conductivity.

The utility model has the advantages that: the structure of the module is compact, the module solves the heat dissipation problem, additional heat dissipation area is not required to be added to a cabinet, installation interchangeability is good, the traditional solid aluminum alloy heat dissipation fin is reformed into the hollow heat dissipation fin through the 3D printing technology, the inner cavity of the hollow heat dissipation fin is communicated with the inner cavity of the shell, the surface area of the inner cavity of the heat dissipation shell is increased through the structural optimization, more heat can be absorbed by the inner cavity of the heat dissipation shell of the GPS data transmission module, and the heat dissipation effect is improved; the quick cabinet guide rail buckle is additionally arranged outside the opposite side of the opening surface of the heat dissipation shell, so that the equipment can be quickly installed in the cabinet.

Drawings

Fig. 1 is a schematic view of the assembled structure of the present invention;

fig. 2 is a schematic view of the heat sink of the present invention.

Detailed Description

The utility model provides a GPS data transmission module with radiator, as shown in fig. 1, the module includes module panel 1, data transmission circuit (not drawing in inside) and interface socket 2, wherein, data transmission circuit passes through the circuit board to be fixed on module panel 1, interface socket is connected with data transmission circuit on the circuit board, and interface socket's socket stretches out from module panel front end, and module panel's rear end is connected with radiator 3, the radiator is cavity shell structure, the circuit board stretches into in the radiator cavity, and in the cavity data transmission circuit's the device that generates heat is connected the radiator be equipped with rack guide rail buckle 4 on the radiator shell.

Fig. 2 illustrates the structure of the heat sink 3, and the heat sink 3 is a hollow structure, and an opening 301 is provided on one surface of the hollow structure. The opening surface is the mounting surface of the radiator shell, the positioning bolt hole 302 used for connecting the module panel 1 is arranged on the opening surface, the outer surfaces of other surfaces of the hollow cavity body are provided with embedded radiating fins 303 with grooves inside, the embedded radiating fins 303 are hollow radiating fins, and the inner cavities 303-1 of the hollow radiating fins are communicated with the inner cavity of the shell body. The heat dissipation shell is formed by 3D printing of an aluminum alloy material with high thermal conductivity. The opposite outside of heat dissipation casing open face is equipped with quick rack guide rail buckle 4, and quick rack guide rail buckle 4 passes through screw 5 and is connected with heat dissipation casing.

The structure of the module is compact, the module solves the heat dissipation problem, additional heat dissipation area does not need to be added to a cabinet, installation interchangeability is good, the traditional solid aluminum alloy heat dissipation fins are transformed into hollow heat dissipation fins by the module through a 3D printing technology, the inner cavities of the hollow heat dissipation fins are communicated with the inner cavity of the shell, the surface area of the inner cavity of the heat dissipation shell is increased through the structural optimization, more heat can be absorbed by the inner cavity of the heat dissipation shell of the GPS data transmission module, and the heat dissipation effect is improved; the quick cabinet guide rail buckle is additionally arranged outside the opposite side of the opening surface of the heat dissipation shell, so that the equipment can be quickly installed in the cabinet.

Claims

1. The utility model provides a GPS data transmission module with radiator, includes module panel, data transmission circuit and interface socket, its characterized in that, data transmission circuit passes through the circuit board to be fixed on the module panel, the interface socket is connected with data transmission circuit on the circuit board, and the socket of interface socket stretches out from module panel front end, and the rear end of module panel is connected with the radiator, the radiator is cavity shell structure, in the circuit board stretches into the radiator cavity, in the cavity data transmission circuit's the device that generates heat is connected the radiator be equipped with rack guide rail buckle on the radiator shell.

2. The GPS data transmission module of claim 1, wherein the cabinet rail clip is disposed on a back side of the heat sink opposite the module panel.

3. The GPS data transmission module of claim 1, wherein the cavity housing has a grooved heat sink on an outer surface thereof.

4. The GPS data transmission module of claim 3, wherein the heat sink is a hollow heat sink, an interior cavity of the hollow heat sink communicating with the housing interior cavity.

5. The GPS data transmission module of claim 1, wherein the heat sink housing is 3D printed and formed of a high thermal conductivity aluminum alloy material.