CN211352185U - Electronic communication device - Google Patents

Abstract

The utility model discloses an electronic communication device, including the electronic communication device body, support interior casing and support the shell body, electronic communication device body adaptation is accomodate and is advanced in the inner chamber of supporting interior casing, the distance that every interval equals on the inner shell chamber top wall of support shell body and the end wall corresponds respectively and has evenly arranged three groups of shock attenuation buffering subassemblies, it is provided with a set of shock attenuation buffering subassembly to correspond respectively on the inner shell chamber left side wall of support shell body and the right wall, on the inner shell chamber top wall and the end wall of support shell body, correspond respectively between two adjacent shock attenuation buffering subassemblies and evenly seted up a plurality of thermovent, radiator fan is installed to correspondence in the radiator fan mount pad, every radiator fan's inboard is just to the position, the heat release macropore has still been seted up on the conch wall of corresponding support interior casing. The utility model discloses ensured whole electronic communication device's safety in utilization, prolonged the life of device.

Description

Electronic communication device

Technical Field

The utility model relates to an electronic equipment safety protection correlation technique field specifically is an electronic communication device.

Background

With the rapid development of wireless communication technology, electronic communication devices such as mobile communication terminals or data cards are widely used, and the electronic communication devices are widely used in many fields such as buildings, ports and agriculture.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electronic communication device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

an electronic communication device comprises a supporting inner shell and a supporting outer shell, wherein a body of the electronic communication device is accommodated in an inner cavity of the supporting inner shell in a matching manner, three groups of damping and buffering assemblies are respectively and correspondingly and uniformly arranged on the top wall surface and the bottom wall surface of an inner shell cavity of the supporting outer shell at equal intervals, a group of damping and buffering assemblies are respectively and correspondingly arranged on the left wall surface and the right wall surface of the inner shell cavity of the supporting outer shell, each damping and buffering assembly comprises a limiting guide cylinder correspondingly fixed on the wall of the outer shell of the supporting inner shell, a limiting guide post is fittingly inserted into a cylinder cavity of the limiting guide cylinder, the bottom end of the limiting guide post is correspondingly fixed in a groove formed in the inner shell wall of the supporting outer shell, a guide blind hole is formed in the cylinder cavity of the limiting guide cylinder, a top damping spring is arranged in the guide blind hole, and a bottom damping spring is, the left and right sides of the bottom damping spring and the shell corresponding to the supporting shell are respectively provided with a horizontal press-in blind hole, the horizontal press-in blind hole is correspondingly provided with a side damping spring, the other end of the side damping spring is fixedly provided with a movable pressing block, the bottom end of the supporting force transmission swinging rod is correspondingly hinged on the movable pressing block in a rotating mode through a lower hinge head, the top end of the supporting force transmission swinging rod is correspondingly hinged on a limiting guide cylinder in a rotating mode through an upper hinge head, a plurality of small heat dissipation holes are respectively and uniformly formed in the top wall surface and the bottom wall surface of an inner shell cavity of the supporting shell and between two adjacent damping and buffering components, the inner end of each group of the small heat dissipation holes and the inner shell wall corresponding to the supporting shell are additionally provided with a heat dissipation fan mounting seat, a heat dissipation fan is correspondingly mounted, The shell wall of the corresponding supporting inner shell is also provided with a heat release big hole.

Preferably: an L-shaped sponge cushion is correspondingly arranged at each of eight corner positions of the inner cavity of the supporting inner shell.

Preferably: the top end of the bottom damping spring is upwards fixed on the limiting guide cylinder, and the bottom end of the bottom damping spring is downwards fixed on the bottom surface of the groove.

Preferably: the side damping spring is horizontally arranged, and one end of the side damping spring is fixed on the hole wall of the horizontal pressing blind hole.

Preferably: and the outer end of each group of the plurality of heat dissipation small holes and the shell wall corresponding to the supporting shell body are additionally provided with a metal dustproof net.

Preferably: the heat radiation fan is electrically connected to the power supply module through a lead, and the power supply module supplies power to the heat radiation fan.

Has the advantages that:

compared with the prior art, the utility model discloses an accomodate into the inner chamber of supporting interior casing with electronic communication device body adaptation, set up to double-deck protective structure, structurally add again and be equipped with the multiunit and evenly arrange the shock attenuation buffering subassembly, when the device receives external force striking or when falling by accident, doublestage cushioning effect is in the same place, whole electronic communication device's safety in utilization has been ensured jointly, and the radiating effect has been guaranteed, avoid not sending out because of heat and lead to the overheated impairedly of internal circuit, the life of device has been prolonged, safety and reliability, wide popularization and application value has.

Drawings

Fig. 1 is a schematic structural diagram of an electronic communication device.

Fig. 2 is an enlarged schematic diagram of a location a in an electronic communication device.

Fig. 3 is a schematic diagram of a heat dissipation fan in an electronic communication device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1-3, in an embodiment of the present invention, an electronic communication device includes a supporting inner housing 2 and a supporting outer housing 1, wherein the electronic communication device body 3 is adapted to be received in an inner cavity of the supporting inner housing 2, and an L-shaped sponge pad 4 is disposed at each of eight corner positions of the inner cavity of the supporting inner housing 2.

Support the inner shell chamber top wall of shell body 1 and correspond respectively at every interval equal distance on the wall at the bottom and evenly arranged three groups of shock attenuation buffering subassemblies, it is provided with a set of shock attenuation buffering subassembly to correspond respectively on the inner shell chamber left side wall of shell body 1 and the right wall, because the concrete structure of every group shock attenuation buffering subassembly is identical, only carries out detailed description to one of them group shock attenuation buffering subassembly now: the damping and buffering assembly comprises a limiting guide cylinder 8 correspondingly fixed on the wall of the shell of the supporting inner shell 2, a limiting guide column 9 is inserted into the cylinder cavity of the limiting guide cylinder 8 in a matching manner, the bottom end of the limiting guide column 9 is correspondingly fixed in a groove formed in the wall of the inner shell of the supporting outer shell 1, a guide blind hole 801 is formed in the cylinder cavity of the limiting guide cylinder 8, a top damping spring 11 is arranged in the guide blind hole 801, a bottom damping spring 10 is correspondingly sleeved on the cylinder body of the limiting guide column 9, the top end of the bottom damping spring 10 is upwards fixed on the limiting guide cylinder 8, the bottom end of the bottom damping spring 10 is downwards fixed on the bottom surface of the groove, a horizontal press-in blind hole 102 is respectively formed in the left side and the right side of the bottom damping spring 10 and in the shell corresponding to the supporting outer shell 1, and a side damping spring 16 is correspondingly arranged, the side damping spring 16 is horizontally arranged, one end of the side damping spring 16 is fixed on the hole wall of the horizontal press-in blind hole 102, the other end of the side damping spring 16 is fixedly provided with a movable pressing block 15, the bottom end of the supporting force transmission swing rod 12 is correspondingly hinged on the movable pressing block 15 in a rotating mode through a lower hinge head 14, and the top end of the supporting force transmission swing rod 12 is correspondingly hinged on the limiting guide cylinder 8 in a rotating mode through an upper hinge head 13.

Support on the wall at the top of the inner shell chamber of shell body 1 and the end wall, a plurality of radiating small hole 101 has evenly been seted up to corresponding respectively between two adjacent shock attenuation buffer assembly, the outer end of a plurality of radiating small hole 101 of every group, it is equipped with metal dust screen 5 to add on the shell wall that corresponds support shell body 1, the inner of a plurality of radiating small hole 101 of every group, it is equipped with radiator fan mount pad 6 to add on the inner shell wall that corresponds support shell body 1, radiator fan 7 is installed to correspondence in radiator fan mount pad 6, radiator fan 7 is connected to power module through wire 17 electricity, supply power for radiator fan 7 by power module, how to supply power is prior art, repeated explanation is no longer here, every radiator fan 7's inboard is just to the position, heat release macropore 201 has still been seted up on the shell wall.

The utility model provides an electronic communication device, through accommodating the electronic communication device body 3 into the inner cavity of the supporting inner shell 2 in a matching way, setting the device as a double-layer protection structure, and structurally additionally installing a plurality of groups of damping and buffering components which are evenly arranged, when the device is impacted by external force or dropped unintentionally, the supporting inner shell 2 moves with the electronic communication device body 3 in a vibration way in the cavity, the limiting guide cylinder 8 moves downwards along the limiting guide column 9 under the stress, the top damping spring 11 is forced to compress and shorten, because the cylinder of the limiting guide column 9 is correspondingly sleeved with the bottom damping spring 10, the top end of the bottom damping spring 10 is upwards fixed on the limiting guide cylinder 8, the bottom end of the bottom damping spring 10 is downwards fixed on the bottom surface of the groove, the bottom damping spring 10 is forced to compress and shorten synchronously under the pressure of the limiting guide cylinder 8, the damping purpose is realized by utilizing the spring buffering characteristics of the top damping spring 11 and the bottom damping spring, when the limiting guide cylinder 8 descends, the bottom end of the supporting force transmission swing rod 12 is correspondingly hinged on the movable pressing block 15 in a rotating mode through the lower hinged head 14, the top end of the supporting force transmission swing rod 12 is correspondingly hinged on the limiting guide cylinder 8 in a rotating mode through the upper hinged head 13, the supporting force transmission swing rod 12 deflects angularly, a pressing force is applied to the movable pressing block 15 under the supporting action of the supporting force transmission swing rod 12, the movable pressing block 15 moves in the horizontal pressing blind hole 102 to compress the side damping spring 16, the purpose of further damping is achieved by utilizing the spring buffering characteristic of the side damping spring 16, the two-stage damping action is combined, the use safety of the whole electronic communication device is jointly guaranteed, the service life of the device is prolonged, in addition, the cooling fan 7 is opened, a large amount of heat generated in the working process of the electronic communication device is extracted from the heat release large hole 201, the heat dissipation holes 101 are distributed, so that the heat dissipation effect is guaranteed, the phenomenon that an internal circuit is overheated and damaged due to the fact that heat is not emitted is avoided, the service life of the device is further prolonged, and the heat dissipation device is safe and reliable and has wide popularization and application values.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. An electronic communication device comprises a supporting inner shell (2) and a supporting outer shell (1), and is characterized in that an electronic communication device body (3) is accommodated in an inner cavity of the supporting inner shell (2) in an adaptive manner, three groups of damping and buffering components are respectively and uniformly arranged on the top wall surface and the bottom wall surface of an inner cavity of the supporting outer shell (1) at equal intervals, a group of damping and buffering components are respectively and correspondingly arranged on the left wall surface and the right wall surface of the inner cavity of the supporting outer shell (1), each damping and buffering component comprises a limiting guide cylinder (8) correspondingly fixed on the wall surface of the supporting inner shell (2), a limiting guide column (9) is inserted into the cavity of the limiting guide cylinder (8) in an adaptive manner, and the bottom end of the limiting guide column (9) is correspondingly fixed in a groove formed in the inner shell wall of the supporting outer shell (1), have direction blind hole (801) and dispose top damping spring (11) in direction blind hole (801) in the barrel chamber of spacing guide cylinder (8), it is equipped with bottom damping spring (10) to correspond the cover on the cylinder of spacing guide post (9), the left and right sides of bottom damping spring (10), correspond and seted up one level blind hole (102) of impressing in the casing that supports shell body (1) respectively, it disposes side damping spring (16) to correspond in blind hole (102) to impress horizontally, the other end of side damping spring (16) is fixed and is provided with removal briquetting (15), and the bottom of supporting biography power pendulum rod (12) is passed through lower hinge head (14) and is correspondingly articulated on removal briquetting (15) with the rotation form, and the top of supporting biography power pendulum rod (12) is passed through last hinge head (13) and is correspondingly articulated on spacing guide cylinder (8) with the rotation form, the top wall surface of inner shell chamber of supporting shell body (1) and last wall surface, A plurality of radiating small holes (101) are uniformly formed in correspondence between two adjacent damping buffer assemblies respectively, the inner end of each group of a plurality of radiating small holes (101) is provided with a radiating fan mounting seat (6) on the inner shell wall of the corresponding supporting shell body (1), a radiating fan (7) is correspondingly installed in the radiating fan mounting seat (6), the inner side of each radiating fan (7) is opposite to the position, and a large heat release hole (201) is formed in the shell wall of the corresponding supporting shell body (2).

2. An electronic communication device according to claim 1, characterized in that an L-shaped foam pad (4) is arranged at each of eight corner positions of the inner cavity of the supporting inner housing (2).

3. An electronic communication device according to claim 1, wherein the top end of the bottom damping spring (10) is fixed upwards on the position-limiting guide cylinder (8), and the bottom end of the bottom damping spring (10) is fixed downwards on the bottom surface of the groove.

4. An electronic communication device according to claim 1, wherein the lateral damping spring (16) is horizontally disposed, and one end of the lateral damping spring (16) is fixed on the wall of the hole horizontally pressed into the blind hole (102).

5. The electronic communication device according to claim 1, wherein a metal dust screen (5) is attached to the outer end of each set of the plurality of heat dissipation apertures (101) and the wall of the housing corresponding to the support housing (1).

6. An electronic communication device according to claim 1, wherein the heat sink fan (7) is electrically connected to the power supply module by a wire (17), and the heat sink fan (7) is powered by the power supply module.

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