CN217063356U - Power supply charger module - Google Patents

Abstract

The utility model discloses a power charger module, including the module main part, the module main part includes main body cover, anti-collision angle, radiating groove, wiring mouth and connects the electric wire, module main part internally mounted has inside letter to construct, inside letter constructs including internally mounted room, buffering filler, mainboard inner shell, mainboard installation room and thickening bottom plate, inside letter constructs internally mounted has the mainboard letter to construct, the mainboard letter constructs including module mainboard, reinforcement piece mounting groove, heat dissipation reinforcement piece, conducting strip and conducting groove, main body cover four corners department fixed welding installs anti-collision angle, the radiating groove has been seted up to main body cover side surface, main body cover one side embedded wiring mouth of installing of surface. A power charger module, strengthen the piece through anticollision angle, buffering filler, thickening bottom plate and heat dissipation and mutually support and give the powerful resistance to shock of integrated device, possess more efficient heat-sinking capability simultaneously.

Description

Power supply charger module

Technical Field

The utility model relates to a charger field, in particular to power charger module.

Background

The charger is a charging device which adopts a high-frequency power supply technology and applies an advanced intelligent dynamic adjustment charging technology;

the patent number is as follows: "a power charger module" that CN211480972U announced, the problem of avoiding the spot to block up and causing contact failure sweeps the adnexed dust on the radiator-grid through the swivelling chute on the second fixed block and the brush on the connecting rod to improve the radiating effect, it is comparatively practical, be fit for extensively promoting and using ", nevertheless unanimous with most power charger modules, belong to large-scale power module, be applicable to large-scale electrical apparatus, utilize workplaces such as lumbering cutting, but not be applicable to the daily use of family.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a power charger module that can effectively solve the problems of the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a power charger module, includes module main body, module main body includes main body cover, collision prevention angle, radiating groove, wiring mouth and connects the electric wire, module main body internally mounted has inside letter to construct, inside letter constructs including internally mounted room, buffering filler, mainboard inner shell, mainboard installation room and thickening bottom plate, inside letter constructs internally mounted has the mainboard letter to construct, the mainboard letter constructs including module mainboard, intensive piece mounting groove, heat dissipation intensive piece, conducting strip and conducting groove.

Preferably, the fixed welding of main body cover four corners department installs the anticollision angle, the radiating groove has been seted up to main body cover side surface, main body cover one side embedded wiring mouth of installing in surface, main body cover opposite side embedded wiring that installs in surface.

Preferably, the wall of the internal installation chamber is provided with a buffer filler, the internal installation chamber is fixedly provided with an inner main plate shell, the inner main plate shell is internally provided with an installation chamber of the main plate, and the bottom of the installation chamber of the main plate is fixedly provided with a thickening bottom plate.

Preferably, the module mainboard is inside to be seted up and to strengthen the piece mounting groove, strengthen the piece mounting groove and install the heat dissipation in the embedding and strengthen the piece, the heat conduction piece is installed to heat dissipation and strengthen the fixed welding of side surface on the piece, heat conduction piece quantity has a plurality of, the heat conduction piece is followed heat conduction groove and is visited out.

Preferably, the internal installation chamber is opened in the main body outer shell, and the buffer filler is filled in a gap between the wall of the internal installation chamber and the outer side surface of the main board inner shell.

Preferably, the module mainboard is installed on the surface of thickening bottom plate upside, the conducting strip passes mainboard inner shell and buffering filler layer, the conducting strip upper end is followed the radiating groove and is visited out.

Compared with the prior art, the utility model discloses following beneficial effect has:

in the utility model, a power socket is connected through a connecting wire, other electrical appliances needing to be used for a charger module are connected through a wiring port, after the connection is completed, the charging operation is started, the set anti-collision angle endows the module main body with strong anti-falling performance, the upper and lower ends of the anti-collision angle are raised, so that the module main body is in an overhead state, when the module main body falls down, the anti-collision angle is firstly contacted with the ground to bear the impact, the module main body receives the impact transmitted by the anti-collision angle, and then the buffer filler between the main body outer shell and the main body inner shell absorbs and buffers to protect the module mainboard installed in the mainboard installation chamber, meanwhile, the thickened bottom plate at the installation position of the module mainboard is matched with the heat dissipation strengthening sheet in the module mainboard, the strength of the module mainboard is strengthened, the anti-impact capability of the whole device is further strengthened, when the module mainboard is charged for a long time, the temperature emitted by the heat dissipation strengthening sheet is absorbed, and the heat is transmitted to the heat dissipation groove through the heat conduction sheet, so that heat dissipation is performed, and compared with the traditional air heat dissipation, the efficiency is higher.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a power charger module according to the present invention;

fig. 2 is a schematic diagram of an internal structure of a power charger module according to the present invention;

fig. 3 is a schematic diagram of a portion of the main board of the power charger module according to the present invention.

In the figure: 1. a module body; 101. a main body housing; 102. an anti-collision angle; 103. a heat sink; 104. a wiring port; 105. connecting a wire; 2. an internal simple structure; 201. an interior installation chamber; 202. a buffer filler; 203. a main board inner shell; 204. a main board installation chamber; 205. thickening the bottom plate; 3. the main board is simple; 301. a module main board; 302. a reinforcing sheet mounting groove; 303. a heat dissipation enhancing sheet; 304. a heat conductive sheet; 305. a heat conduction groove.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

The first embodiment is as follows:

as shown in fig. 1-3, a power supply charger module comprises a module main body 1, wherein the module main body 1 comprises a main body outer shell 101, an anti-collision corner 102, a heat dissipation groove 103, a wiring port 104 and a power connection wire 105, an internal simple structure 2 is installed inside the module main body 1, the internal simple structure 2 comprises an internal installation chamber 201, a buffer filler 202, a main board inner shell 203, a main board installation chamber 204 and a thickening bottom plate 205, a main board simple structure 3 is installed inside the internal simple structure 2, and the main board simple structure 3 comprises a module main board 301, a reinforcing sheet installation groove 302, a heat dissipation reinforcing sheet 303, a heat conduction sheet 304 and a heat conduction groove 305;

an anti-collision corner 102 is fixedly welded at the four corners of the main body shell 101, a heat dissipation groove 103 is formed in the upper side surface of the main body shell 101, a wiring port 104 is embedded in the surface of one side of the main body shell 101, and a connecting wire 105 is embedded in the surface of the other side of the main body shell 101; the wall of the internal installation chamber 201 is provided with a buffer filler 202, the internal installation chamber 201 is internally and fixedly provided with a main board inner shell 203, the main board inner shell 203 is internally provided with a main board installation chamber 204, the bottom of the main board installation chamber 204 is fixedly provided with a thickened bottom plate 205, the arranged anti-collision corner 102 endows the module main body 1 with strong anti-falling performance, the upper end and the lower end of the anti-collision corner 102 are raised, so that the module main body 1 is in an overhead state, when the module main body 1 falls, the anti-collision corner 102 contacts the ground to bear collision, the module main body 1 receives the impact transmitted by the anti-collision corner 102, and then the buffer filler 202 between the main body outer shell 101 and the main board inner shell 203 absorbs and buffers; a reinforcing sheet mounting groove 302 is formed in the module main board 301, a heat dissipation reinforcing sheet 303 is embedded and mounted in the reinforcing sheet mounting groove 302, heat conducting sheets 304 are fixedly welded and mounted on the upper side surface of the heat dissipation reinforcing sheet 303, the number of the heat conducting sheets 304 is multiple, and the heat conducting sheets 304 extend out of the heat conducting groove 305; the internal installation chamber 201 is arranged in the main body outer shell 101, and the buffer filler 202 is filled in a gap between the chamber wall of the internal installation chamber 201 and the outer side surface of the main board inner shell 203; the module main board 301 is installed on the upper side surface of the thickened bottom plate 205, the heat conducting fins 304 penetrate through the main board inner shell 203 and the buffer filler 202 layer, and the upper ends of the heat conducting fins 304 protrude out of the heat dissipation grooves 103.

Example two:

it should be noted that, the utility model relates to a power supply charger module, when in use, the power socket is connected through the connecting wire 105, other electrical appliances needing to use the charger module are connected through the wiring port 104, after the connection is completed, the charging operation is started, the set anti-collision corner 102 endows the module main body 1 with strong anti-falling performance, the protruding parts at the upper and lower ends of the anti-collision corner 102 make the module main body 1 in the overhead state, when the module main body 1 falls, the anti-collision corner 102 contacts the ground first to bear the collision, the module main body 1 receives the impact transmitted from the anti-collision corner 102, and then the buffer filler 202 between the main body outer shell 101 and the main board inner shell 203 absorbs and buffers to protect the module main board 301 installed in the main board installation chamber 204, meanwhile, the thickening bottom plate 205 at the installation position of the module main board 301 is mutually matched with the heat dissipation strengthening sheet 303 in the module main board 301 to strengthen the strength of the module main board 301, the impact resistance of the whole device is further enhanced, when the module main board 301 is charged for a long time, the temperature generated by the module main board is absorbed by the heat dissipation enhancing sheet 303 and is transmitted to the heat dissipation groove 103 through the heat conducting sheet 304 to perform heat dissipation, and compared with the traditional air heat dissipation, the efficiency is higher.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A power charger module, characterized by: including module body (1), module body (1) includes main body cover (101), crashproof angle (102), radiating groove (103), wiring mouth (104) and connecting wire (105), module body (1) internally mounted has inside simple structure (2), inside simple structure (2) includes internally mounted room (201), buffering filler (202), mainboard inner shell (203), mainboard installation room (204) and thickening bottom plate (205), inside simple structure (2) internally mounted has mainboard simple structure (3), mainboard simple structure (3) includes module mainboard (301), reinforce piece mounting groove (302), heat dissipation reinforcement piece (303), conducting strip (304) and conducting strip (305).

2. A power charger module as claimed in claim 1, wherein: main body housing (101) four corners department fixed welding installs anticollision angle (102), radiating groove (103) have been seted up to main body housing (101) side surface, main body housing (101) one side surface embedded mounting has wiring mouth (104), main body housing (101) another side surface embedded mounting has connecting wire (105).

3. A power charger module as claimed in claim 2, wherein: buffering filler (202) are installed to interior installation room (201) locular wall department, the inside fixed mounting of interior installation room (201) has mainboard inner shell (203), mainboard installation room (204) have been seted up in mainboard inner shell (203), mainboard installation room (204) bottom fixed mounting has thickening bottom plate (205).

4. A power charger module as claimed in claim 3, wherein: the module mainboard (301) is inside to be seted up and to strengthen piece mounting groove (302), bury underground in strengthening piece mounting groove (302) and install heat dissipation and strengthen piece (303), heat dissipation is strengthened piece (303) upside fixed surface welding and is installed conducting strip (304), conducting strip (304) quantity has a plurality of, conducting strip (304) are followed conducting strip (305) and are visited out.

5. A power charger module as claimed in claim 4, wherein: the internal installation chamber (201) is arranged in the main body outer shell (101), and the buffer filler (202) is filled in a gap between the chamber wall of the internal installation chamber (201) and the outer side surface of the main board inner shell (203).

6. The power charger module of claim 5, wherein: the module main board (301) is installed on the upper side surface of the thickened bottom plate (205), the heat conducting fins (304) penetrate through the main board inner shell (203) and the buffer filler (202) layer, and the upper ends of the heat conducting fins (304) extend out of the heat dissipation grooves (103).

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