CN118921577A - Information transmission device and electronic equipment - Google Patents

Abstract

The present invention relates to the technical field of information transmission devices and electronic equipment, and specifically to an information transmission device and an electronic equipment comprising: an alloy protective shell, a gateway body is placed in the middle of the interior of the alloy protective shell, heat dissipation ports are provided on both sides of the alloy protective shell, a support frame is provided on the inner side of the heat dissipation port, a plurality of groups of heat sinks are fixed on the support frame, and the outer sides of the heat sinks extend into the heat dissipation port; and an alloy protective shell, a first telescopic groove is provided on the top of the frame of the alloy protective shell, a first spring is provided in the first telescopic groove, the top of the first spring is connected to the telescopic frame, and a telescopic top cover is provided on the top of the telescopic frame; the beneficial effect is as follows: the present invention proposes that the connecting plate is first pulled outward, so that the connecting plate drives the telescopic sheet to squeeze the second spring through the third spring at the bottom of the telescopic column, so that the telescopic sheet contracts into the second telescopic groove.

Description

Information transmission device and electronic equipment

Technical Field

The present invention relates to the technical field of information transmission devices and electronic equipment, and in particular to an information transmission device and electronic equipment.

Background Art

Information transmission devices and electronic devices are an indispensable part of modern communication and information technology. These devices and devices realize data transmission and exchange through various communication protocols and technologies (such as 4G, 5G, Wi-Fi, Bluetooth, NFC, etc.). With the development of technology, new devices and transmission methods are constantly emerging.

In the prior art, a gateway is a network device used to connect different networks or subnets and forward data between them. Gateways play a very important role in network communications. With the development of the Internet of Things, smart gateways have also become popular, and they can connect and manage various smart devices.

However, the existing gateway shell has poor protection performance. When the gateway accidentally falls or collides with other objects, the gateway shell is easily damaged. In serious cases, it is likely to cause damage to the motor components inside the gateway, making it impossible to transmit data information normally.

Summary of the invention

The object of the present invention is to provide an information transmission device and an electronic device to solve the problems raised in the above background technology.

To achieve the above-mentioned purpose, the present invention provides the following technical solutions: an alloy protective shell, a gateway body is placed in the middle of the interior of the alloy protective shell, heat dissipation ports are provided on both sides of the alloy protective shell, a support frame is provided on the inner side of the heat dissipation port, a plurality of groups of heat sinks are fixed on the support frame, and the outer sides of the heat sinks extend into the heat dissipation port; and an alloy protective shell, a first telescopic groove is provided on the top of the frame of the alloy protective shell, a first spring is provided in the first telescopic groove, the top of the first spring is connected to the telescopic frame, and a telescopic top cover is provided on the top of the telescopic frame; and a supporting foot is provided at the bottom of the alloy protective shell.

Preferably, the first spring can pull the telescopic frame by contraction, so that the telescopic top cover arranged on the top of the telescopic frame contracts according to the height of the gateway body, and the gateway body is clamped in the alloy protective shell to prevent the gateway body from shaking in the alloy protective shell.

Preferably, thermally conductive silicone is provided at the bottom of the alloy protective shell and the inner bottom of the telescopic top cover. The two groups of thermally conductive silicone are closely attached to the upper and lower surfaces of the gateway body. The thermally conductive silicone can conduct the heat emitted by the gateway body to dissipate the heat of the gateway body.

Preferably, support frames are provided on both sides of the interior of the alloy protective shell, and multiple groups of heat sinks are provided on the support frames. A second telescopic groove is opened on the inner side of the heat sink, and a second spring is provided inside the second telescopic groove. The inner side of the second spring is connected to the telescopic sheet, and the telescopic sheet is tightly attached to both sides of the gateway body.

Preferably, the second spring can drive the expansion and contraction of the expansion piece according to the width of the gateway body, so that the expansion piece is close to both sides of the gateway body. The expansion piece can conduct and absorb the heat emitted from both sides of the gateway body, and dissipate it from the heat dissipation port through the heat sink connected to the rear end.

Preferably, an extension groove is provided at the top of the second telescopic groove, a connecting column is provided at the top middle part of the telescopic piece, the connecting column extends from the extension groove, a third telescopic groove is provided in the middle part of the connecting column, a third spring is provided in the third telescopic groove, the top of the third spring is connected to the telescopic column, and the third spring can drive the telescopic column to extend and retract into the third telescopic groove.

Preferably, the top of the telescopic column is connected to a connecting plate, and the connecting plate is connected to multiple groups of telescopic columns. The connecting plate can drive the telescopic piece connected to the bottom of the connecting column to squeeze the second spring through the telescopic column, so that the telescopic piece shrinks into the second telescopic groove.

Preferably, the extension slot is provided with a plurality of groups of card slots, and the telescopic column can drive the connection plate to be clamped in the card slot through the contraction of the third spring, so that the connection plate can fix the expansion and contraction of the expansion piece, and the expansion piece is closely attached to both sides of the gateway body.

An electronic device comprises the above-mentioned information transmission device.

Compared with the prior art, the present invention has the following beneficial effects:

The present invention proposes that the connecting plate is first pulled outward so that the connecting plate drives the telescopic piece to squeeze the second spring through the third spring at the bottom of the telescopic column, so that the telescopic piece contracts into the second telescopic groove. When the connecting plate reaches the outermost slot on the extending groove, the pulling of the connecting plate is released, and the third spring at the bottom of the telescopic column begins to drive the telescopic column to contract, so that the connecting plate connected to the top of the telescopic column is clamped in the slot, and the telescopic of the telescopic piece is fixed. Then, the telescopic top cover is pulled upward, and the gateway body is placed in the middle of the interior of the alloy protective shell. After the placement is completed, the pulling of the telescopic top cover is released, and the first spring at the bottom of the telescopic frame arranged around the telescopic top cover begins to pull the telescopic top cover according to the gateway body to clamp the gateway body, and the gateway body is clamped in the alloy protective shell. At this time, the thermal conductive silicone at the bottom of the alloy protective shell and the bottom of the inner side of the telescopic top cover is close to the upper and lower surfaces of the gateway body, and the heat emitted by the gateway body is conducted, and the gateway body is shock-absorbing and protected at the same time.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of a three-dimensional structure of the present invention;

FIG2 is a schematic diagram of the three-dimensional structure of the alloy protective shell of the present invention;

FIG3 is an enlarged schematic diagram of the structure at point A in FIG2 ;

FIG4 is a schematic diagram of the cross-sectional structure of the alloy protective shell of the present invention;

FIG5 is a schematic diagram of the cross-sectional structure of a heat sink of the present invention;

FIG. 6 is a schematic diagram of an enlarged structure of the structure at point B in FIG. 5 .

In the figure: alloy protective shell 1, telescopic top cover 2, telescopic frame 3, first telescopic slot 4, first spring 5, heat dissipation port 6, support frame 7, heat sink 8, support foot 9, thermal conductive silicone 10, telescopic sheet 11, second telescopic slot 12, second spring 13, extension slot 14, card slot 15, connecting column 16, third telescopic slot 17, third spring 18, telescopic column 19, connecting plate 20, gateway body 21.

DETAILED DESCRIPTION

In order to make the purpose and technical solution of the present invention clearly and completely described, and the advantages more clearly understood, the embodiments of the present invention are further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are part of the embodiments of the present invention, rather than all of the embodiments, and are only used to explain the embodiments of the present invention, and are not used to limit the embodiments of the present invention. All other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

Please refer to Figures 1 to 6. The present invention provides a technical solution: an alloy protective shell 1, a gateway body 21 is placed in the middle of the interior of the alloy protective shell 1, heat dissipation ports 6 are opened on both sides of the alloy protective shell 1, a support frame 7 is arranged on the inner side of the heat dissipation port 6, a plurality of groups of heat sinks 8 are fixed on the support frame 7, and the outer side of the heat sink 8 extends into the heat dissipation port 6; and an alloy protective shell 1, a first telescopic groove 4 is opened on the top of the frame of the alloy protective shell 1, a first spring 5 is arranged in the first telescopic groove 4, the top of the first spring 5 is connected to the telescopic frame 3, and the top of the telescopic frame 3 is provided with a telescopic top cover 2; and a supporting foot 9 is arranged at the bottom of the alloy protective shell 1. The first spring 5 can shrink and pull the telescopic frame 3, so that the telescopic cover 2 set on the top of the telescopic frame 3 shrinks according to the height of the gateway body 21, and the gateway body 21 is clamped in the alloy protective shell 1 to prevent the gateway body 21 from shaking in the alloy protective shell 1; the bottom of the alloy protective shell 1 and the inner bottom of the telescopic cover 2 are both provided with thermal conductive silicone 10, and the two groups of thermal conductive silicone 10 are closely attached to the upper and lower surfaces of the gateway body 21. The thermal conductive silicone 10 can conduct the heat emitted by the gateway body 21 to heat the gateway body 21. Heat dissipation; support frames 7 are provided on both sides of the interior of the alloy protective shell 1, and multiple groups of heat sinks 8 are provided on the support frames 7. A second telescopic groove 12 is provided on the inner side of the heat sink 8, and a second spring 13 is provided inside the second telescopic groove 12. The inner side of the second spring 13 is connected to the telescopic piece 11, and the telescopic piece 11 is close to both sides of the gateway body 21; the second spring 13 can drive the telescopic piece 11 to expand and contract according to the width of the gateway body 21, so that the telescopic piece 11 is close to both sides of the gateway body 21, and the telescopic piece 11 can be used to extend and contract the gateway body 21. The heat dissipated from the side is absorbed by conduction and dissipated from the heat dissipation port 6 through the heat sink 8 connected to the rear end; a protruding groove 14 is provided on the top of the second telescopic groove 12, a connecting column 16 is provided in the middle of the top of the telescopic piece 11, the connecting column 16 protrudes from the protruding groove 14, a third telescopic groove 17 is provided in the middle of the connecting column 16, a third spring 18 is provided in the third telescopic groove 17, the top of the third spring 18 is connected to the telescopic column 19, and the third spring 18 can drive the telescopic column 19 to extend and retract into the third telescopic groove 17; the telescopic column The top of 19 is connected to a connecting plate 20, and the connecting plate 20 is connected to multiple groups of telescopic columns 19. The connecting plate 20 can drive the telescopic piece 11 connected to the bottom of the connecting column 16 to squeeze the second spring 13 through the telescopic column 19, so that the telescopic piece 11 shrinks to the second telescopic groove 12; multiple groups of card slots 15 are opened on the extension groove 14, and the telescopic column 19 can drive the connecting plate 20 to be clamped in the card slot 15 through the contraction of the third spring 18, so that the connecting plate 20 can fix the telescopic piece 11, and the telescopic piece 11 is close to both sides of the gateway body 21.

In actual use, first pull the connecting plate 20 outward so that the connecting plate 20 drives the telescopic piece 11 to squeeze the second spring 13 through the third spring 18 at the bottom of the telescopic column 19, so that the telescopic piece 11 shrinks into the second telescopic slot 12. When the connecting plate 20 reaches the outermost slot 15 on the extension slot 14, release the pull on the connecting plate 20, and the third spring 18 at the bottom of the telescopic column 19 begins to drive the telescopic column 19 to shrink, so that the connecting plate 20 connected to the top of the telescopic column 19 is clamped in the slot 15, and the telescopic of the telescopic piece 11 is fixed. Then, pull the telescopic top cover 2 upward, and then place the gateway body 21 in the middle of the interior of the alloy protective shell 1. After the placement is completed, release the pull on the telescopic top cover 2, and the first spring 5 at the bottom of the telescopic frame 3 arranged around the telescopic top cover 2 begins to pull the telescopic top cover 2 according to the gateway body 21 to clamp the gateway body 21, and the gateway body 21 is clamped in the alloy protective shell 1. The thermal conductive silica gel 10 at the bottom is in close contact with the upper and lower surfaces of the gateway body 21, and conducts the heat emitted by the gateway body 21, while providing shock-absorbing protection for the gateway body 21; then, the connecting plate 20 is pulled upward again to disengage the connecting plate 20 from the card slot 15, at which time the connecting plate 20 cancels the limit on the expansion piece 11, and the expansion piece 11 begins to expand and contract inward through the second spring 13, so that the inner end of the expansion piece 11 is in close contact with both sides of the gateway body 21, and at the same time, the connecting plate 20 slides to the top of the corresponding card slot 15 according to the width of the gateway body 21, and then the third spring 18 contracts the connecting plate 20 to be clamped in the card slot 15, and the contraction of the expansion piece 11 is fixed, so that the expansion piece 11 can conduct the heat emitted by the gateway body 21 to the heat sink 8, and dissipate it from the heat dissipation port 6 through the heat sink 8, and at the same time, the fixing of the expansion piece 11 can clamp both sides of the gateway body 21 to prevent the gateway body 21 from shaking in the alloy protective shell 1.

Although the above describes the illustrative specific implementation methods of the present application so that technicians in this technical field can understand the present application, the present application is not limited to the scope of the specific implementation methods. For ordinary technicians in this technical field, as long as various changes are within the spirit and scope of the present application defined and determined by the attached claims, all application creations using the concept of the present application are protected.

Claims (9)

1. An information transmission device, characterized in that: comprising the following steps:

The gateway comprises an alloy protection shell (1), wherein a gateway body (21) is arranged in the middle of the inside of the alloy protection shell (1), heat dissipation openings (6) are formed in two sides of the alloy protection shell (1), a support frame (7) is arranged on the inner side of each heat dissipation opening (6), a plurality of groups of heat dissipation fins (8) are fixed on the support frame (7), and the outer sides of the heat dissipation fins (8) extend into the heat dissipation openings (6); and

The telescopic device comprises an alloy protective shell (1), wherein a first telescopic groove (4) is formed in the top of a frame of the alloy protective shell (1), a first spring (5) is arranged in the first telescopic groove (4), the top of the first spring (5) is connected with a telescopic frame (3), and a telescopic top cover (2) is arranged at the top of the telescopic frame (3); the bottom of the alloy protective housing (1) is provided with supporting feet (9).

2. An information transmission apparatus according to claim 1, wherein: the first spring (5) can pull the telescopic frame (3) through the shrink, and the telescopic top cover (2) that makes telescopic frame (3) top set up is according to the high shrink of gateway body (21), holds gateway body (21) card in alloy protective housing (1), prevents that gateway body (21) from rocking in alloy protective housing (1).

3. An information transmission apparatus according to claim 2, wherein: the bottom of alloy protective housing (1) is provided with heat conduction silica gel (10) simultaneously with the inboard bottom of flexible top cap (2), and two sets of heat conduction silica gel (10) are hugged closely the upper and lower two sides of gateway body (21), and heat that heat conduction silica gel (10) can distribute gateway body (21) carries out the heat dissipation to gateway body (21).

4. An information transmission apparatus according to claim 3, wherein: the inside both sides of alloy protective housing (1) are provided with support frame (7), are provided with multiunit fin (8) on support frame (7), and second expansion groove (12) have been seted up to the inboard of fin (8), and the inside of second expansion groove (12) is provided with second spring (13), and flexible piece (11) are being connected to the inboard of second spring (13), and the both sides of gateway body (21) are hugged closely to flexible piece (11).

5. An information transmission apparatus according to claim 4, wherein: the second spring (13) can drive the telescopic piece (11) to stretch out and draw back according to the width of the gateway body (21), so that the telescopic piece (11) is clung to the two sides of the gateway body (21), and the telescopic piece (11) can conduct and absorb heat emitted from the two sides of the gateway body (21) and emit out from the radiating opening (6) through the radiating piece (8) connected with the rear end.

6. An information transmission apparatus according to claim 5, wherein: the top of second flexible groove (12) has been seted up and has been stretched out groove (14), and the top middle part of flexible piece (11) is provided with spliced pole (16), and spliced pole (16) are stretched out from stretching out groove (14), and third flexible groove (17) have been seted up at the middle part of spliced pole (16), are provided with third spring (18) in third flexible groove (17), and flexible post (19) are being connected at the top of third spring (18), and third spring (18) can drive flexible post (19) to flexible in third flexible groove (17).

7. An information transmission apparatus according to claim 6, wherein: the top of flexible post (19) is being connected connecting plate (20), and multiunit flexible post (19) are being connected to connecting plate (20), and connecting plate (20) can drive flexible piece (11) that spliced pole (16) bottom is connected through flexible post (19) and extrude second spring (13), make flexible piece (11) shrink to in second expansion tank (12).

8. An information transmission apparatus according to claim 7, wherein: the extension groove (14) is provided with a plurality of groups of clamping grooves (15), the telescopic column (19) can drive the connecting plate (20) to be clamped in the clamping groove (15) through the contraction of the third spring (18), so that the connecting plate (20) can stretch and fix the telescopic sheet (11), and the telescopic sheet (11) is tightly attached to two sides of the gateway body (21).

9. An electronic device, characterized in that: an information transmission apparatus comprising any of the preceding claims 1-8.