CN209692773U - A kind of high efficiency and heat radiation optical transmitter and receiver - Google Patents

Abstract

The utility model discloses a kind of high efficiency and heat radiation optical transmitter and receivers, including optical transmitter and receiver main body, the outside of the optical transmitter and receiver main body is socketed with heat dissipating housing, and the upper end outer surface of heat dissipating housing is fixedly installed with heat dissipation bellows, the heat dissipation bellows are internally provided with blower, the leading exterior surface of the optical transmitter and receiver main body is provided with socket slot and equipment connecting column, and the side of socket slot is arranged in equipment connecting column, the outside of the equipment connecting column is socketed with protective jacket, the inside of the socket slot offers equipment interface, the upper end outer surface of the optical transmitter and receiver main body offers slot close to the position of corner, the inside of the slot is plugged with protective cover plate；The inside two sides of the heat dissipating housing are provided with fixed column, and the inner tip of heat dissipating housing is welded with support column.The beneficial effects of the utility model are: being capable of increasing the heat dissipation area of optical transmitter and receiver, to effectively promote the heat dissipation effect of optical transmitter and receiver, while optical transmitter and receiver equipment interface can also be preferably protected.

Description

A kind of high efficiency and heat radiation optical transmitter and receiver

Technical field

The utility model relates to a kind of optical transmitter and receiver, specially a kind of high efficiency and heat radiation optical transmitter and receiver belongs to optical transmitter and receiver application technology Field.

Background technique

Optical transmitter and receiver is exactly the terminal device of optical signal transmission.Optical transmitter and receiver is that the fiber optic communication for extending data transmission is set Standby, it mainly passes through the technologies such as signal modulation, photoelectric conversion, and remote transmission, light are achieved the purpose that using light-transfer characteristic The type of terminal has very much, including simulation optical transmitter and receiver sum number word optical transmitter and receiver.

For existing optical transmitter and receiver in use process, heat dissipation area is smaller, causes the heat dissipation effect of optical transmitter and receiver not good enough, light end Electronic component in machine is easy to damage because of high temperature, at the same the protective dustproof effect of existing optical transmitter and receiver equipment interface compared with Difference is centainly influenced to the use bring of optical transmitter and receiver.

Utility model content

The purpose of this utility model is that smaller in order to solve existing top and optical transmitter and receiver heat dissipation area, leads to light The imperfect problem of the heat dissipation effect of terminal, and propose a kind of high efficiency and heat radiation optical transmitter and receiver.

The purpose of this utility model can be achieved through the following technical solutions: a kind of high efficiency and heat radiation optical transmitter and receiver, including light end Owner's body, the outside of the optical transmitter and receiver main body is socketed with heat dissipating housing, and the upper end outer surface of heat dissipating housing is fixedly installed with radiation air Case, the heat dissipation bellows are internally provided with blower, and the leading exterior surface of the optical transmitter and receiver main body is provided with socket slot and equipment Connecting column, and the side of socket slot is arranged in equipment connecting column, the outside of the equipment connecting column is socketed with protective jacket, described to insert The inside of mouth slot offers equipment interface, and the upper end outer surface of the optical transmitter and receiver main body offers slot close to the position of corner, The inside of the slot is plugged with protective cover plate；The inside two sides of the heat dissipating housing are provided with fixed column, and heat dissipating housing is interior Portion top is welded with support column, and the inside of the heat dissipating housing offers defeated wind chamber, and the inner wall of heat dissipating housing offers air-permeating hole；Institute It states fixed column to be made of sleeve column and top pillar, the top pillar is plugged on inside sleeve column, the position of the inside of the sleeve column close to side It is provided with reset spring, one end of the top pillar is welded with pressure block, and the other end of top pillar is welded with non-slipping block, the sleeve column Inner surface be welded with limited block close to the position of side.

Preferably, the lower end outer surface of the optical transmitter and receiver main body offers threaded hole, and the internal whorl connection of threaded hole There is socle.

Preferably, the inside of the protective jacket is glued close to the position of side sealing ring, and the inner wall of protective jacket is glued There is antislip ring.

Preferably, two side external surfaces of the optical transmitter and receiver main body are welded with wind deflector close to the position of lower section, described to lead The upper end appearance of the U-shaped profile of aerofoil, the heat dissipation bellows offers air inlet.

Preferably, the inner surface splicing of the protective cover plate has electrostatic precipitation cloth, and the upper end of protective cover plate is welded with and mentions Block.

Preferably, the quantity of the support column is at least four groups, and support column is in parallel equidistant from placement.

Compared with prior art, the utility model has the beneficial effects that

1, the cold wind that can be generated when the blower in the bellows that radiate operates by the heat dissipating housing of setting is more uniform to be led to The defeated wind chamber crossed in heat dissipating housing is blown out from air-permeating hole, to make the heat dissipation of the optical transmitter and receiver more uniform, support column will radiate Cover supports, so that the top of optical transmitter and receiver will not fit together with heat dissipating housing, while passing through answering in sleeve column in fixed column While entire heat dissipating housing is stably fixed on optical transmitter and receiver by position spring by top pillar ejection, but also the two sides inner wall of heat dissipating housing It will not be bonded with optical transmitter and receiver, so that heat dissipation area is increased while guaranteeing that heat dissipation is uniform, from allowing the heat dissipation of the optical transmitter and receiver to imitate Fruit is more preferable.

2, the protective cover plate being arranged can allow user that can seal socket slot when without using the optical transmitter and receiver, So as to effectively reduce the dust penetrated into equipment interface, so as to avoid the optical transmitter and receiver when not in use, dust The situation that penetrating into equipment interface causes equipment solution interface to damage occurs, while having adjusted protective jacket on equipment connecting column, Sealing ring is provided in protective jacket, sealing ring can get up the gap sealing between equipment connecting column and protective jacket, thus Can to avoid optical transmitter and receiver when not in use, dust penetrate into the situation in equipment connecting column generation, further improve this The dust-proof effect of optical transmitter and receiver extends the service life of optical transmitter and receiver, eliminates the trouble of maintenance personnel's frequent maintenance.

Detailed description of the invention

In order to facilitate the understanding of those skilled in the art, the utility model will be further described below with reference to the accompanying drawings.

Fig. 1 is the overall structure diagram of the utility model.

Fig. 2 is the optical transmitter and receiver main body and heat dissipating housing phase collection view of the utility model.

Fig. 3 is that the protective jacket of the utility model connect view with equipment connecting column.

Fig. 4 is the fixed column overall structure view of the utility model.

In figure: 1, optical transmitter and receiver main body；2, heat dissipating housing；201, defeated wind chamber；202, air-permeating hole；3, radiate bellows；301, it enters the wind Mouthful；4, blower；5, socket slot；6, equipment connecting column；7, protective jacket；701, sealing ring；702, antislip ring；8, equipment interface；9, Slot；10, protective cover plate；101, block is mentioned；11, fixed column；111, sleeve column；112, top pillar；113, reset spring；114, pressure-bearing Block；115, non-slipping block；116, limited block；12, support column；13, threaded hole；14, socle；15, wind deflector.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with embodiment, it is clear that described Embodiment be only the utility model a part of the embodiment, instead of all the embodiments.Based on the reality in the utility model Example is applied, all other embodiment obtained by those of ordinary skill in the art without making creative efforts all belongs to In the range of the utility model protection.

It please refers to shown in Fig. 1-4, a kind of high efficiency and heat radiation optical transmitter and receiver, including optical transmitter and receiver main body 1, the outside of optical transmitter and receiver main body 1 It is socketed with heat dissipating housing 2, and the upper end outer surface of heat dissipating housing 2 is fixedly installed with heat dissipation bellows 3, heat dissipation bellows 3 are internally provided with Blower 4, the leading exterior surface of optical transmitter and receiver main body 1 is provided with socket slot 5 and equipment connecting column 6, and the setting of equipment connecting column 6 is being inserted The side of mouth slot 5, the outside of equipment connecting column 6 are socketed with protective jacket 7, and the inside of socket slot 5 offers equipment interface 8, light end The upper end outer surface of owner's body 1 offers slot 9 close to the position of corner, and the inside of slot 9 is plugged with protective cover plate 10；Heat dissipation The inside two sides of cover 2 are provided with fixed column 11, and the inner tip of heat dissipating housing 2 is welded with support column 12, the inside of heat dissipating housing 2 Defeated wind chamber 201 is offered, and the inner wall of heat dissipating housing 2 offers air-permeating hole 202；Fixed column 11 is by sleeve column 111 and 112 groups of top pillar At top pillar 112 is plugged on inside sleeve column 111, and the inside of sleeve column 111 is provided with reset spring 113 close to the position of side, is resetted Its jacking of spring 113 effect, one end of top pillar 112 are welded with pressure block 114, and 114 stress of pressure block pushes top pillar 112, and pushes up The other end of column 112 is welded with non-slipping block 115, and non-slipping block 115 is rubber manufacture, plays anti-skidding effect, sleeve column 111 it is interior Surface is welded with limited block 116 close to the position of side.

As a kind of technical optimization scheme of the utility model, the lower end outer surface of optical transmitter and receiver main body 1 offers threaded hole 13, and the internal whorl of threaded hole 13 is connected with socle 14, user can rotate socle 14 also to adjust socle 14 in threaded hole Length in 13, the height between Lai Zengjia optical transmitter and receiver bottom surface and mounting surface, also has the function that increasing heat radiation area.

As a kind of technical optimization scheme of the utility model, position splicing of the inside of protective jacket 7 close to side has close Seal 701, sealing ring 701 plays the role of sealing, and the inner wall splicing of protective jacket 7 has antislip ring 702,702 energy of antislip ring Enough prevent protective jacket 7 from falling off.

As a kind of technical optimization scheme of the utility model, the position of two side external surfaces of optical transmitter and receiver main body 1 close to lower section It sets and is welded with wind deflector 15, hot wind preferably can be discharged for the wind deflector 15 of the U-shaped profile of wind deflector 15, U-shaped, dissipate The upper end appearance of hot bellows 3 offers air inlet 301.

As a kind of technical optimization scheme of the utility model, the inner surface splicing of protective cover plate 10 has electrostatic precipitation cloth, Dust can be adsorbed, and the upper end of protective cover plate 10 is welded with and mentions block 101, the setting person of being convenient to use for mentioning block 101, which opens, to be prevented Protecting cover plate 10.

As a kind of technical optimization scheme of the utility model, the quantity of support column 12 is at least four groups, four groups of support columns 12 setting ensure that heat dissipating housing 2 can be supported by stablizing, and support column 12 is in parallel equidistant from placement.

The beneficial effects of the utility model are:

1, the cold wind that can be generated when the blower 4 in the bellows 3 that radiate operates by the heat dissipating housing of setting 2 is more uniform It is blown out from air-permeating hole 202 by the defeated wind chamber 201 in heat dissipating housing 2, to make the heat dissipation of the optical transmitter and receiver more uniform, is supported Column 12 supports heat dissipating housing 2, so that the top of optical transmitter and receiver will not fit together with heat dissipating housing 2, while passing through fixed column Entire heat dissipating housing 2 is stably fixed to same on optical transmitter and receiver by the reset spring 113 on 11 in sleeve column 111 by the ejection of top pillar 112 When, but also the two sides inner wall of heat dissipating housing 2 will not be bonded with optical transmitter and receiver, to increase heat dissipation while guaranteeing that heat dissipation is uniform Area, from making the heat dissipation effect of the optical transmitter and receiver more preferable.

2, the protective cover plate 10 being arranged can allow user that can seal socket slot 5 when without using the optical transmitter and receiver Come, so as to effectively reduce the dust penetrated into equipment interface 8, so as to avoid the optical transmitter and receiver when not in use, Dust penetrates into the situation for causing equipment solution interface to damage in equipment interface 8 and occurs, while having adjusted on equipment connecting column 6 anti- Sheath 7 is provided with sealing ring 701 in protective jacket 7, and sealing ring 701 can be by the seam between equipment connecting column 6 and protective jacket 7 Gap seals, so as to avoid optical transmitter and receiver when not in use, dust penetrate into the situation in equipment connecting column 6 generation, more The dust-proof effect of the optical transmitter and receiver is further improved, the service life of optical transmitter and receiver is extended, maintenance personnel is eliminated and frequently ties up The trouble of shield.

When the utility model is used, heat dissipating housing 2 is first mounted in optical transmitter and receiver main body 1 by user, support column 12 will dissipate Heat cover 2 supports, so that the top of optical transmitter and receiver will not fit together with heat dissipating housing 2, while passing through sleeve column in fixed column 11 While entire heat dissipating housing 2 is stably fixed on optical transmitter and receiver by the reset spring 113 in 111 by the ejection of top pillar 112, but also The two sides inner wall of heat dissipating housing 2 will not be bonded with optical transmitter and receiver, user can also can according to actual use demand rotation socle 14 come The length in threaded hole 13 of socle 14 is adjusted, Lai Zengjia optical transmitter and receiver is in the height of bottom surface and mounting surface, i.e. increase optical transmitter and receiver ground Heat dissipation area, after heat dissipating housing 2 is installed, user is opened protective cover plate 10 by mentioning block 101, and connection cables are inserted into It is removed into equipment interface 8, then by protective jacket 7, connection cables is inserted into equipment connecting column 6, protective cover plate 10 can allow User can seal socket slot 5 when not using the optical transmitter and receiver, penetrate into equipment so as to effectively reduce and connect Dust in mouth 8, so as to avoid the optical transmitter and receiver when not in use, dust, which penetrates into equipment interface 8, causes equipment solution to connect The situation of mouth damage occurs, while protective jacket 7 is had adjusted on equipment connecting column 6, and sealing ring 701 is provided in protective jacket 7, Sealing ring 701 can get up the gap sealing between equipment connecting column 6 and protective jacket 7, so as to avoid optical transmitter and receiver not In use, dust penetrates into the generation of the situation in equipment connecting column 6, radiate bellows 3 after powering on after cable is accessed In blower 4 when operating the more uniform defeated wind chamber 201 by heat dissipating housing 2 of cold wind that generates blown out from air-permeating hole 202, To make the heat dissipation of the optical transmitter and receiver more uniform, the model TD2006-K micro-blower of blower 4.

The preferred embodiment in the utility model disclosed above is only intended to help to illustrate the utility model.Preferred embodiment is simultaneously There is no the details that detailed descriptionthe is all, does not limit the specific embodiment that the utility model is only yet.Obviously, according to this specification Content, can make many modifications and variations.These embodiments are chosen and specifically described to this specification, be in order to preferably explain The principles of the present invention and practical application, so that skilled artisan be enable to better understand and utilize this practical It is novel.The utility model is limited only by the claims and their full scope and equivalents.

Claims (6)

1. a kind of high efficiency and heat radiation optical transmitter and receiver, including optical transmitter and receiver main body (1), which is characterized in that the outside of the optical transmitter and receiver main body (1) It is socketed with heat dissipating housing (2), and the upper end outer surface of heat dissipating housing (2) is fixedly installed with heat dissipation bellows (3), the heat dissipation bellows (3) Be internally provided with blower (4), the leading exterior surface of the optical transmitter and receiver main body (1) is provided with socket slot (5) and equipment connecting column (6), and equipment connecting column (6) is arranged in the side of socket slot (5), and the outside of the equipment connecting column (6) is socketed with protective jacket (7), the inside of the socket slot (5) offers equipment interface (8), and near side (ns) is leaned in the upper end outer surface of the optical transmitter and receiver main body (1) The position at angle offers slot (9), and the inside of the slot (9) is plugged with protective cover plate (10)；

The inside two sides of the heat dissipating housing (2) are provided with fixed column (11), and the inner tip of heat dissipating housing (2) is welded with support Column (12), the inside of the heat dissipating housing (2) offers defeated wind chamber (201), and the inner wall of heat dissipating housing (2) offers air-permeating hole (202)；

The fixed column (11) is made of sleeve column (111) and top pillar (112), and the top pillar (112) is plugged in sleeve column (111) The inside in portion, the sleeve column (111) is provided with reset spring (113) close to the position of side, one end weldering of the top pillar (112) It is connected to pressure block (114), and the other end of top pillar (112) is welded with non-slipping block (115), the inner surface of the sleeve column (111) leans on The position of nearly side is welded with limited block (116).

2. a kind of high efficiency and heat radiation optical transmitter and receiver according to claim 1, which is characterized in that under the optical transmitter and receiver main body (1) End outer surface offers threaded hole (13), and the internal whorl of threaded hole (13) is connected with socle (14).

3. a kind of high efficiency and heat radiation optical transmitter and receiver according to claim 1, which is characterized in that the inside of the protective jacket (7) is leaned on The position of nearly side, which is glued, to be had sealing ring (701), and the inner wall splicing of protective jacket (7) has antislip ring (702).

4. a kind of high efficiency and heat radiation optical transmitter and receiver according to claim 1, which is characterized in that the two of the optical transmitter and receiver main body (1) Side external surface is welded with wind deflector (15) close to the position of lower section, the U-shaped profile of the wind deflector (15), the heat dissipation The upper end appearance of bellows (3) offers air inlet (301).

5. a kind of high efficiency and heat radiation optical transmitter and receiver according to claim 1, which is characterized in that the interior table of the protective cover plate (10) Face, which is glued, electrostatic precipitation cloth, and the upper end of protective cover plate (10) is welded with and mentions block (101).

6. a kind of high efficiency and heat radiation optical transmitter and receiver according to claim 1, which is characterized in that the quantity of the support column (12) is extremely It is less four groups, and support column (12) is in parallel equidistant from placement.