CN218824818U - Heat dissipation pastes optical device of dress formula - Google Patents

Abstract

The utility model discloses a heat dissipation pastes dress formula optical device, including SFP optical device main part, SFP optical device main part both sides equidistance evenly is provided with connects the stitch, SFP optical device main part top middle part embedding is installed the concatenation film, concatenation film top middle part embedding is installed and is connected the conducting strip, connect the even fixedly connected with heat conduction film of conducting strip top equidistance, the utility model discloses a joint formula design between heat conduction film and the heat conduction top piece has ensured that SFP optical device main part can continuously keep efficient heat conductivility, makes the inside heat of SFP optical device main part can transmit the heat dissipation top piece outside through heat conduction film and heat conduction top piece to carry out the rapid diffusion through the heat dissipation fin to the inside heat of heat dissipation top piece, make SFP optical device main part need not with the help of cooling fan alright reach the heat dispersion of ideal, the effectual operating power that has reduced entire system, and then reduced the running cost of SFP optical device.

Description

Heat dissipation pastes optical device of dress formula

Technical Field

The utility model relates to an electrical component technical field specifically is a heat dissipation pastes dress formula optical device.

Background

The SFP optical device/SFP connector product combination can realize the speed transmission data of 28GNRZ and 56GPAM-4, and the selection is made from SFP-DD, SFP28, SFP56, SFP + and SFP products according to the system architecture (such as PCB space, speed, channel and port density requirements);

however, in the existing optical device use engineering, due to the lack of a corresponding auxiliary heat dissipation structure, heat dissipation is often performed by means of a fan in the use process of the optical device, so that the operating power of the whole system is improved, and the use cost of the optical device is further increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a subsides of heat dissipation subsides dress formula optical device can effectively solve the optical device that proposes in the above-mentioned background art and use the engineering, owing to lack corresponding supplementary heat radiation structure, often need dispel the heat with the help of the fan in optical device's use to whole system's operating power has been improved, and then has increased optical device's use cost's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a heat dissipation surface-mounted optical device comprises an SFP optical device main body, wherein connecting pins are uniformly arranged on two sides of the SFP optical device main body at equal intervals;

the top of the SFP optical device main body is provided with a clamping auxiliary heat dissipation mechanism;

the clamping auxiliary heat dissipation mechanism comprises a splicing bottom plate, a connecting heat conduction sheet, a heat conduction bottom plate, a heat conduction top plate, a heat dissipation top plate and heat dissipation fins;

the SFP optical device comprises an SFP optical device body and is characterized in that a splicing bottom sheet is embedded in the middle of the top end of the SFP optical device body, a connecting heat conducting sheet is embedded in the middle of the top end of the splicing bottom sheet, the heat conducting bottom sheet is connected with the top of the heat conducting sheet in an equidistant and uniform fixedly connected mode, a heat conducting top sheet is tightly clamped between the side faces of the heat conducting bottom sheet, the top of the heat conducting top sheet is connected with a heat dissipation top sheet jointly, and the top of the heat dissipation top sheet is in an equidistant and uniform and fixedly connected mode to heat dissipation fins.

Preferably, the heat-conducting bottom sheet and the side face of the heat-conducting top sheet are tightly attached, a gap is reserved between the end face of the heat-conducting bottom sheet and the end face of the heat-conducting top sheet, and the heat-conducting bottom sheet and the heat-conducting top sheet can elastically move.

Preferably, the bottom of the SFP optical device main body is provided with a limiting and supporting mechanism;

the limiting support mechanism comprises a clamping wafer, a spring arc sheet, a mounting end groove and an elastic rubber sheet;

the SFP optical device comprises an SFP optical device body and is characterized in that a clamping wafer is embedded in the middle of the bottom end of the SFP optical device body, a spring arc sheet is fixedly connected to the middle of the bottom end of the clamping wafer, mounting end grooves are formed in the middle of two ends of the bottom surface of the SFP optical device body, and elastic films are bonded inside the mounting end grooves.

Preferably, the bottom surface of the clamping disc and the bottom surface of the SFP optical device main body are kept flush, and the lowest point of the spring arc piece and the bottom surface of the elastic film are kept flush.

Preferably, a mark display mechanism is arranged at one end of the SFP optical device main body;

the mark display mechanism comprises a mounting flat slot, a connecting card and a clamping sleeve;

the bottom of one end of the SFP optical device main body is provided with a flat installation groove, one side inside the flat installation groove is bonded with a connecting card, and the middle of one side of the connecting card is bonded with a clamping sleeve.

Preferably, the side face of the connecting card is flush with the end of the SFP optical device main body, and the clamping sleeve is made of a transparent material.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. the auxiliary clamping heat dissipation mechanism is arranged, the connecting heat conducting sheet and all components on the connecting heat conducting sheet are fixed to the top of the SFP optical device main body through the splicing bottom sheet, heat inside the SFP optical device main body is conducted upwards through the heat conducting bottom sheet and the heat conducting top sheet, and through the clamping type design between the heat conducting bottom sheet and the heat conducting top sheet, the SFP optical device main body can continuously keep high-efficiency heat conduction performance, so that heat inside the SFP optical device main body can be transmitted to the outer side of the heat radiating top sheet through the heat conducting bottom sheet and the heat conducting top sheet, and heat inside the heat radiating top sheet is quickly diffused through the heat radiating fins, so that the SFP optical device main body can achieve ideal heat dissipation performance without a heat radiating fan, the operating power of the whole system is effectively reduced, and the operating cost of the SFP optical device is further reduced.

2. The limiting and supporting mechanism is arranged, the spring arc pieces are fixed to the bottom of the SFP optical device main body through the clamping wafers, upward reaction force is generated through elastic deformation of the spring arc pieces, so that auxiliary support for the middle of the SFP optical device main body is achieved, the two ends of the SFP optical device main body are installed on the elastic film through the installation end grooves, the bottom surface of the SFP optical device main body is isolated through the elastic film, and therefore the stability of installation of the SFP optical device main body is effectively improved, and the use convenience of the SFP optical device main body is improved.

3. The mark display mechanism is arranged, the connecting card is fixed to the end part of the SFP optical device main body through the installation flat groove, the connecting card is used for installing the clamping sleeve on the side surface of the SFP optical device main body, when a mark is needed, the mark card can be inserted into the inner part of the clamping sleeve, the mark of the optical device is completed through the mark card, the function of the optical device is effectively expanded, and the usability of the optical device is effectively improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the clamping auxiliary heat dissipation mechanism of the present invention;

FIG. 3 is a schematic structural view of the position limiting support mechanism of the present invention;

FIG. 4 is a schematic structural diagram of the mark display mechanism of the present invention;

reference numbers in the figures: 1. an SFP optical device body; 2. connecting pins;

3. clamping the auxiliary heat dissipation mechanism; 301. splicing the negative plates; 302. connecting the heat conducting fins; 303. a heat-conducting bottom sheet; 304. a thermally conductive top sheet; 305. a heat-dissipating top sheet; 306. heat dissipating fins;

4. a limiting support mechanism; 401. clamping the wafer; 402. a spring arc piece; 403. installing an end slot; 404. an elastic film;

5. a mark display mechanism; 501. installing a flat groove; 502. connecting the cards; 503. a clamping sleeve.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

The embodiment is as follows: as shown in fig. 1-4, the present invention provides a technical solution, a heat dissipation surface-mount optical device, which comprises an SFP optical device main body 1, connecting pins 2 uniformly arranged at equal intervals on both sides of the SFP optical device main body 1;

the top of the SFP optical device main body 1 is provided with a clamping auxiliary heat dissipation mechanism 3;

the clamping auxiliary heat dissipation mechanism 3 comprises a splicing bottom plate 301, a connecting heat conduction sheet 302, a heat conduction bottom plate 303, a heat conduction top plate 304, a heat dissipation top plate 305 and heat dissipation fins 306;

the splicing bottom plate 301 is embedded and installed in the middle of the top end of the SFP optical device main body 1, the connecting heat-conducting plate 302 is embedded and installed in the middle of the top end of the splicing bottom plate 301, the heat-conducting bottom plate 303 is uniformly and fixedly connected to the top of the connecting heat-conducting plate 302 at equal intervals, the heat-conducting top plate 304 is tightly clamped between the side surfaces of the heat-conducting bottom plate 303, the top end of the heat-conducting top plate 304 is commonly connected with the heat-radiating top plate 305, the heat-radiating fins 306 are uniformly and fixedly connected to the top end of the heat-radiating top plate 305 at equal intervals, the heat-conducting bottom plate 303 and the side surfaces of the heat-conducting top plate 304 are tightly attached to each other, a gap is reserved between the end surface of the heat-conducting bottom plate 303 and the end surface of the heat-conducting top plate 304, elastic movement can be carried out between the heat-conducting bottom plate 303 and the heat-conducting top plate 304, the connecting heat-conducting plate 302 and the components thereon are fixed to the top of the SFP optical device main body 1 through the splicing bottom plate 303 and the heat-conducting top plate 304, the heat-conducting bottom plate 303 and the heat-radiating top plate 304, so that the heat-radiating device main body 1 can continuously maintain high-efficiency performance can be continuously maintained, and the heat-radiating fan can operate without the heat-radiating fan, and the heat-radiating fan can operate effectively, and the heat-radiating device can operate effectively, and the heat-radiating fan can operate the whole heat-radiating fan can operate without the heat-radiating fan can operate the heat-radiating fan effectively;

the bottom of the SFP optical device main body 1 is provided with a limiting support mechanism 4;

the limiting and supporting mechanism 4 comprises a clamping disc 401, a spring arc piece 402, a mounting end groove 403 and an elastic film 404;

the middle of the bottom end of the SFP optical device main body 1 is embedded with a clamping disc 401, the middle of the bottom end of the clamping disc 401 is fixedly connected with a spring arc sheet 402, the middle of two ends of the bottom surface of the SFP optical device main body 1 is provided with a mounting end groove 403, an elastic film 404 is bonded in the mounting end groove 403, the bottom surface of the clamping disc 401 and the bottom surface of the SFP optical device main body 1 are kept flush, the lowest point of the spring arc sheet 402 and the bottom surface of the elastic film 404 are kept flush, the spring arc sheet 402 is fixed to the bottom of the SFP optical device main body 1 through the clamping disc 401, upward reaction force is generated through elastic deformation of the spring arc sheet 402, so that auxiliary support for the middle of the SFP optical device main body 1 is realized, the elastic films 404 are mounted at two ends of the SFP optical device main body 1 through the mounting end grooves, the bottom surface of the SFP optical device main body 1 is isolated through the elastic film 404, the mounting stability of the SFP optical device main body 1 is effectively improved, and the use convenience of the SFP optical device main body 1 is improved;

a mark display mechanism 5 is arranged at one end of the SFP optical device main body 1;

the mark display mechanism 5 comprises a mounting flat slot 501, a connecting card 502 and a clamping sleeve 503;

the installation flat slot 501 has been seted up to SFP optical device main part 1 one end bottom, the inside one side bonding of installation flat slot 501 has the connection card 502, the middle part bonding of connection card 502 one side has joint cover 503, connect card 502 side and SFP optical device main part 1 tip and keep flushing, joint cover 503 is made by transparent material, will connect card 502 to fix to SFP optical device main part 1 tip through installation flat slot 501, and install the side of SFP optical device main part 1 with joint cover 503 through connecting card 502, when needs mark, can insert the mark card inside joint cover 503, and then accomplish the mark to the optical device through the mark card, the effectual optical device function that has expanded, the effectual usability that improves the optical device.

The utility model discloses a theory of operation and use flow: the utility model discloses in the practical application in-process, when installing SFP optical device main part 1 to relevant position through connecting stitch 2 and carry out work, will connect conducting strip 302 and each subassembly is fixed to SFP optical device main part 1 top on it through concatenation film 301, upwards conduct the heat inside SFP optical device main part 1 through heat conduction film 303 and heat conduction top piece 304, through the joint formula design between heat conduction film 303 and the heat conduction top piece 304, it can continuously keep efficient heat conductivility to have guaranteed SFP optical device main part 1, make the heat inside SFP optical device main part 1 can transmit to the heat dissipation top piece 305 outside through heat conduction film 303 and heat conduction top piece 304, and carry out quick diffusion to the heat inside heat of heat dissipation top piece 305 through heat dissipation fin 306, make SFP optical device main part 1 need not to reach ideal heat dispersion with the help of cooling fan, the operating power of the effectual entire system that has reduced, and then the running cost of SFP optical device;

in the installation process of the SFP optical device main body 1, the bottom of the SFP optical device main body 1 needs to be supported in an auxiliary mode, the spring arc piece 402 is fixed to the bottom of the SFP optical device main body 1 through the clamping wafer 401, upward reaction force is generated through elastic deformation of the spring arc piece 402, so that the auxiliary support for the middle of the SFP optical device main body 1 is achieved, the elastic films 404 are installed at two ends of the SFP optical device main body 1 through the installation end grooves 403, the bottom surface of the SFP optical device main body 1 is isolated through the elastic films 404, the installation stability of the SFP optical device main body 1 is effectively improved, and the use convenience of the SFP optical device main body 1 is improved;

when the optical device needs to be marked, the connecting card 502 is fixed to the end of the SFP optical device main body 1 through the installation flat groove 501, the clamping sleeve 503 is installed on the side face of the SFP optical device main body 1 through the connecting card 502, when the marking is needed, the marking card can be inserted into the clamping sleeve 503, the marking of the optical device is completed through the marking card, the functions of the optical device are effectively expanded, and the usability of the optical device is effectively improved.

Finally, it should be noted that: 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 described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A heat-dissipating surface-mount type optical device comprising an SFP optical device main body (1), characterized in that: connecting pins (2) are uniformly arranged on two sides of the SFP optical device main body (1) at equal intervals;

the top of the SFP optical device main body (1) is provided with a clamping auxiliary heat dissipation mechanism (3);

the clamping auxiliary heat dissipation mechanism (3) comprises a splicing bottom plate (301), a connecting heat conducting sheet (302), a heat conducting bottom plate (303), a heat conducting top plate (304), a heat dissipation top plate (305) and heat dissipation fins (306);

SFP optical device main part (1) top middle part embedding is installed and is spliced film (301), concatenation film (301) top middle part embedding is installed and is connected conducting strip (302), connect even fixedly connected with heat conduction film (303) of conducting strip (302) top equidistance, inseparable joint has heat conduction top sheet (304) between heat conduction film (303) the side, heat conduction top sheet (304) top is connected with heat dissipation top sheet (305) jointly, the even fixedly connected with heat dissipation fin (306) of heat dissipation top sheet (305) top equidistance.

2. The heat-dissipating surface-mounted optical device as claimed in claim 1, wherein the heat-conducting bottom plate (303) and the heat-conducting top plate (304) are closely attached to each other, and a gap is left between an end surface of the heat-conducting bottom plate (303) and an end surface of the heat-conducting top plate (304), and the heat-conducting bottom plate (303) and the heat-conducting top plate (304) can elastically move.

3. The heat-dissipation surface-mounted optical device according to claim 1, wherein the bottom of the SFP optical device body (1) is provided with a limiting and supporting mechanism (4); the limiting and supporting mechanism (4) comprises a clamping disc (401), a spring arc sheet (402), a mounting end groove (403) and an elastic rubber sheet (404); the SFP optical device comprises an SFP optical device main body (1) and is characterized in that a clamping disc (401) is embedded in the middle of the bottom end of the SFP optical device main body (1), a spring arc sheet (402) is fixedly connected to the middle of the bottom end of the clamping disc (401), mounting end grooves (403) are formed in the middle of two ends of the bottom surface of the SFP optical device main body (1), and an elastic rubber sheet (404) is bonded inside the mounting end grooves (403).

4. The heat-dissipating surface-mounted optical device as claimed in claim 3, wherein the bottom surface of the clamping disc (401) is flush with the bottom surface of the SFP optical device body (1), and the lowest point of the spring arc (402) is flush with the bottom surface of the elastic film (404).

5. The heat-dissipating surface-mounted optical device according to claim 1, wherein the SFP optical device body (1) is provided with a mark display mechanism (5) at one end;

the mark display mechanism (5) comprises a mounting flat groove (501), a connecting card (502) and a clamping sleeve (503);

an installation flat groove (501) is formed in the bottom of one end of the SFP optical device main body (1), a connection card (502) is bonded to one side inside the installation flat groove (501), and a clamping sleeve (503) is bonded to the middle of one side of the connection card (502).

6. A heat sink mounted optical device according to claim 5, wherein the connecting card (502) is flush with the end of the SFP optical device body (1) at the side, and the clamping sleeve (503) is made of transparent material.

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