CN219660287U

CN219660287U - Adapter panel structure for communication equipment

Info

Publication number: CN219660287U
Application number: CN202321158334.2U
Authority: CN
Inventors: 王盛贤; 朱艳宾; 张龙妹
Original assignee: Brolink Technologies (dongguan) Ltd
Current assignee: Brolink Technologies (dongguan) Ltd
Priority date: 2023-05-15
Filing date: 2023-05-15
Publication date: 2023-09-08
Anticipated expiration: 2033-05-15

Abstract

The utility model relates to the technical field of communication equipment, in particular to an adapter panel structure for the communication equipment, which comprises a bottom plate and a top plate, wherein a heat-conducting plate layer is welded on the top surface of the top plate, a heat-absorbing plate layer is fixedly bonded on the inner side of the heat-conducting plate layer, a heat dissipation hole is formed in the top surface of the top plate, a plurality of heat dissipation fins are welded in the heat dissipation hole, and heat dissipation plates are bonded on the tops of the heat dissipation fins together; the panel structure has the effects of quickly absorbing heat and quickly radiating the heat through the heat radiating structure consisting of the heat conducting plate layer, the heat absorbing plate layer, the heat radiating holes, the heat radiating fins and the heat radiating plate, so that the panel structure has stronger heat radiating performance, further, the heat radiating effect of the adapter in use can be greatly improved, the high-temperature aggregation in the adapter is avoided, the normal use of the adapter is ensured, the service life of the adapter is prolonged, and the use quality of the adapter is improved.

Description

Adapter panel structure for communication equipment

Technical Field

The utility model relates to the technical field of communication equipment, in particular to an adapter panel structure for communication equipment.

Background

The adapter is an interface converter, which may be a stand-alone hardware interface device, allowing the hardware or electronic interface to be connected to other hardware or electronic interfaces, or an information interface. Such as: power adapter, tripod base adapter component, USB and serial port adapter equipment, etc.

Currently, existing adapters generally consist of a panel structure (adapter housing), an internal mold core (module), connectors, and wiring connection mechanisms; for the panel structure of the adapter, the main problems in the prior art are: (1) In most cases, the adapter will overheat during use, if the temperature inside the adapter is too high, normal use of the connector will be affected, and the panel structure for the adapter will generally only dissipate heat through the heat dissipation through holes, so that the heat dissipation effect is poor, and further the use effect and quality of the adapter are reduced; (2) When the adapter is used, certain circuit heat radiation and electromagnetic radiation can be generated, the panel structure for the adapter is only manufactured by cold rolled steel, the radiation protection effect is poor, and the damage to users, particularly the old, children and pregnant women, caused by the adapter in long-term use is large. Based on this, we propose an adapter panel structure for a communication device.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the adapter panel structure for the communication equipment, which can improve the radiating effect of the adapter, avoid high-temperature aggregation in the adapter, ensure the normal use of the adapter, ensure the good radiating performance, prolong the service life of the adapter, improve the use quality of the adapter, further enhance the radiation protection performance of the adapter, effectively protect users and further improve the use effect of the adapter.

The technical scheme of the utility model is as follows:

an adapter panel structure for a communication device, characterized by: the heat-conducting plate comprises a bottom plate and a top plate, wherein the top surface of the bottom plate is connected with the top plate, the outer sides of the bottom plate and the top plate are respectively welded with a bottom outer plate and a top outer plate, a first radiation-proof layer and a second radiation-proof layer are respectively bonded between the bottom plate and the bottom outer plate and between the top plate and the top outer plate, the top surface of the top plate is welded with a heat-conducting plate layer, the inner side of the heat-conducting plate layer is fixedly bonded with a heat-absorbing plate layer, the top surface of the top plate is provided with a heat dissipation hole, a plurality of heat dissipation plates are welded in the heat dissipation hole, and the tops of the heat dissipation plates are bonded with a heat dissipation plate together.

Further, the bottom plate and the top plate are detachably connected at their ends by bolts.

Further, the other end of louvre intercommunication top planking structure sets up, and a plurality of the fin the bottom of fin all with heat conduction plate layer welded fastening, the heating panel extends to the outside setting of top planking.

Further, the first radiation-proof layer is a radiation-proof rubber layer.

Further, the second radiation-proof layer is a radiation-proof graphite plate layer.

Further, the heat conduction plate layer is a heat conduction copper metal layer, the heat absorption plate layer is a heat absorption paste plate layer, and the heat radiating fins and the heat radiating plate are made of pure copper.

Further, the cross section of the heat absorbing plate layer is in a plurality of W-shaped connection shapes.

The beneficial effects of the utility model are as follows:

(1) According to the utility model, the heat radiation structure consisting of the heat conduction plate layer, the heat absorption plate layer, the heat radiation holes, the heat radiation fins and the heat radiation plate has the effects of quickly absorbing heat and quickly radiating heat, so that the panel structure has stronger heat radiation performance, the heat radiation effect of the adapter in use can be greatly improved, the high-temperature aggregation in the adapter is avoided, the normal use of the adapter is ensured, the service life of the adapter is prolonged, and the use quality of the adapter is improved;

(2) Through being equipped with first radiation protection layer and second radiation protection layer, and it is located and set up between planking and the inner panel, neither can influence the normal use of panel, moreover, the stealth is stronger, when not influencing the outward appearance, can strengthen panel structure's radiation protection performance, simultaneously, bilayer structure sets up, and radiation protection performance and effect are better, can carry out effective protection to the user, and then improve the result of use of adapter.

Drawings

FIG. 1 is a front view of the present utility model;

fig. 2 is a cross-sectional side view of the present utility model.

In the figure, 1, a bottom plate; 2. a top plate; 3. a bottom outer plate; 4. a top outer plate; 5. a first radiation protective layer; 6. a second radiation protective layer; 7. a thermally conductive plate layer; 8. a heat absorbing plate layer; 9. a heat radiation hole; 10. a heat sink; 11. and a heat dissipation plate.

Detailed Description

The following is a further description of embodiments of the utility model, taken in conjunction with the accompanying drawings:

as shown in fig. 1-2, an adapter panel structure for a communication device includes a bottom plate 1 and a top plate 2, wherein the top surface of the bottom plate 1 is connected with the top plate 2, the outer sides of the bottom plate 1 and the top plate 2 are respectively welded with a bottom outer plate 3 and a top outer plate 4, a first radiation protection layer 5 and a second radiation protection layer 6 are respectively adhered between the bottom plate 1 and the bottom outer plate 3 and between the top plate 2 and the top outer plate 4, the top surface of the top plate 2 is welded with a heat conduction plate layer 7, the inner side of the heat conduction plate layer 7 is fixedly adhered with a heat absorption plate layer 8, the top surface of the top plate 2 is provided with a heat dissipation hole 9, the inner side of the heat dissipation hole 9 is welded with a plurality of heat dissipation plates 10, and the tops of the heat dissipation plates 10 are adhered with a heat dissipation plate 11 together.

The bottom plate 1 and the top plate 2 are detachably connected at their ends by bolts. It can be appreciated that the ends of the periphery of the bottom plate 1 and the top plate 2 can be provided with integrally formed lifting pins, and the two corresponding lifting pins can be detachably connected through bolts.

The other end intercommunication top planking 4 structure of louvre 9 sets up, and the louvre 9 of this department is convenient for outwards dispel the heat, and the setting of fin 10 and heating panel 11 of being convenient for simultaneously, a plurality of fin the bottom of fin 10 all with heat conduction sheet layer 7 welded fastening, heat on the heat conduction sheet layer 7 can be constantly transmitted to a plurality of fin on the fin 10, have quick radiating effect, the heating panel 11 extends to the outside setting of top planking 4, and when all heat transmission was to heating panel 11 department, heating panel 11 was located its outside, and radiating scope is big, can dispel the heat fast.

The first radiation protection layer 5 is a radiation protection rubber layer. The second radiation-proof layer 6 is a radiation-proof graphite plate layer. The radiation-proof rubber and the radiation-proof graphite plate are better radiation-proof materials in the prior art, and can effectively prevent the heat radiation and electromagnetic radiation of the circuit of the adapter.

By adopting the technical scheme: through being equipped with first radiation protection layer 5 and second radiation protection layer 6, and it is located and sets up between planking and the inner panel, neither can influence the normal use of panel, moreover, the stealth is stronger, when not influencing the outward appearance, can strengthen panel structure's radiation protection performance, simultaneously, bilayer structure sets up, and radiation protection performance and effect are better, can carry out effective protection to the user.

The heat conduction plate layer 7 is a heat conduction copper metal layer, the heat absorption plate layer 8 is a heat absorption paste plate layer, and the heat radiating fins 10 and the heat radiating plate 11 are made of pure copper.

The section of the heat absorbing plate layer 8 is provided with a plurality of W-shaped connection shapes. The purpose of this design is: the contact area between the heat absorbing plate layer 8 and heat can be increased, so that the heat generated by the adapter can be quickly transmitted to the heat absorbing plate layer 8, and the effect of quickly absorbing the heat is achieved.

The heat dissipation process and the generated effect are as follows: the interior of the panel structure is required to be provided with various internal mold cores (modules), connectors and wiring connection mechanisms, when the adapter starts to work, generated heat is continuously transmitted to the heat absorption plate layer 8, the heat is transmitted to the heat conduction plate layer 7 through the heat absorption plate layer 8, and then is transmitted to the radiating fin 10 and the radiating plate 11 through the heat conduction plate layer 7, and the heat can be directly outwards radiated through the radiating holes 9, so that the radiating effect is improved; according to the utility model, the heat radiation structure consisting of the heat conduction plate layer 7, the heat absorption plate layer 8, the heat radiation holes 9, the heat radiation fins 10 and the heat radiation plate 11 has the effects of quickly absorbing heat and quickly radiating heat, so that the panel structure has stronger heat radiation performance, further, the heat radiation effect of the adapter in use can be greatly improved, the high-temperature aggregation in the adapter is avoided, the normal use of the adapter is ensured, the service life of the adapter can be prolonged, and the service quality of the adapter is improved.

The foregoing embodiments and description have been provided merely to illustrate the principles and best modes of carrying out the utility model, and various changes and modifications can be made therein without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims

1. An adapter panel structure for a communication device, characterized by: the novel heat-conducting plate comprises a bottom plate (1) and a top plate (2), wherein the top surface of the bottom plate (1) is connected with the top plate (2), a bottom outer plate (3) and a top outer plate (4) are respectively welded on the outer sides of the bottom plate (1) and the top plate (2), a first radiation-proof layer (5) and a second radiation-proof layer (6) are respectively bonded between the bottom plate (1) and the bottom outer plate (3) and between the top plate (2) and the top outer plate (4), a heat-conducting plate layer (7) is welded on the top surface of the top plate (2), a heat-absorbing plate layer (8) is fixedly bonded on the inner side of the heat-conducting plate layer (7), a plurality of radiating fins (10) are welded on the top of the radiating fins (10), and a heat-radiating plate (11) is bonded on the top of each radiating fin.

2. An adapter panel arrangement for a communication device according to claim 1, wherein: the bottom plate (1) and the top plate (2) are detachably connected at the end parts thereof through bolts.

3. An adapter panel arrangement for a communication device according to claim 2, wherein: the other end of the radiating hole (9) is communicated with the structure of the top outer plate (4), a plurality of radiating fins (10) are welded and fixed with the heat conducting plate layer (7), and the radiating plate (11) extends to the outer part of the top outer plate (4).

4. An adapter panel arrangement for a communication device according to claim 3, wherein: the first radiation-proof layer (5) is a radiation-proof rubber layer.

5. An adapter panel arrangement for a communication device as defined in claim 4, wherein: the second radiation-proof layer (6) is a radiation-proof graphite plate layer.

6. An adapter panel arrangement for a communication device according to claim 5, wherein: the heat conduction plate layer (7) is a heat conduction copper metal layer, the heat absorption plate layer (8) is a heat absorption paste plate layer, and the heat radiating fins (10) and the heat radiating plate (11) are made of pure copper.

7. An adapter panel arrangement for a communication device according to claim 6, wherein: the section of the heat absorbing plate layer (8) is in a plurality of W-shaped connection shapes.