CN209030355U - Router protective shell - Google Patents

Abstract

The utility model provides a kind of router protective shell comprising has: outer cover body, the circuit board of the outer cover body cladding router；Optical fiber interface slot is formed in the side of the outer cover body；Optical fiber interface, the optical fiber interface are formed in the optical fiber interface slot, and one end is connected to the circuit board, and the other end is connected to optical fiber；Fiber cover, the fiber cover is spliced to the optical fiber interface slot, for protecting the optical fiber interface；The radiating groove of grid type is formed on the inner wall of the optical fiber interface slot.By being connected between setting optical fiber interface slot and outer cover body by radiating groove, while keeping heat-sinking capability, dirt exclusion capabilities, moreover it is possible to the temperature near optical fiber interface and the temperature difference at other positions of router are reduced, so that the more difficult moisture condensation in optical fiber interface part.

Description

Router protective shell

Technical field

The utility model relates to a kind of router protective shells.

Background technique

Currently, the equipment such as router should have preferable certain environment to adapt to due to needing long-term uninterrupted use Ability, such as dust-proof, moisture proof and heat sinking function.

In general, moisture proof, dust-proof and heat sinking function are conflicting functions, and moisture proof, dust-proof needs are as far as possible Do not allow circuit board and extraneous contact, and heat sinking function requires ventilation smooth, can increase connecing for circuit board and air to a certain degree Touching.

In view of this, Chinese patent 201710746403.4 discloses a kind of dustproof construction of router.As shown in Figure 1, The dustproof construction for the router that the document is related to, comprising: dust cover 200, on shell 101, the dust cover 200 has set Top plate 201 and the both side plate 202 for being connected to top plate 201, the both side plate 202 is connected in the two sides of shell 101, due to router 100 work without interruption, therefore produce a large amount of heat, if be discharged not in time, will affect normally making for router 100 With in order to avoid dust cover 200 influences the heat dissipation of router 100, top plate 201 and the upper surface of shell 101 are equipped with distance, and described Top plate 201 has step-like body, and the step-like body is by the first side wall 203 perpendicular to 101 upper surface of shell and is parallel to The second sidewall 204 of 101 upper surface of shell forms, perpendicular to having heat release hole on the first side wall 203 of 101 upper surface of shell 205.In the document, the dustproof construction of router can prevent dust from falling in the surface of shell of router, and in wiping, no The cable connected on router can be encountered, facilitate wiping.

As it can be seen that in the scheme of above-mentioned document, in order to avoid heat dissipation and dust-proof direct contradiction, additional one anti- The volume potential of dust hood, device must increase, and influence heat-sinking capability.On the other hand, the temperature of dust cover, usually less than shell, In the case that humidity is high, moisture condensation easy to form on dust cover.Especially since the problem of layout of router interior part, can lead Some spot temperatures are caused to be substantially less than near other positions, such as optical fiber interface.Optical fiber interface nearby needs a certain size Space, temperature is compared with other positions more bottom, (such as winter of the low temperature) optical fiber in the biggish situation of router internal-external temperature difference Interface is nearby more prone to produce dew condensation phenomenon.

Utility model content

The technical problems to be solved in the utility model be in order to overcome in the prior art router protective shell be easy moisture condensation, dissipate The bad disadvantage of heat, provides that a kind of cost more low heat emission is more preferable, is not easy the router protective shell to condense.

The utility model is to solve above-mentioned technical problem by following technical proposals:

A kind of router protective shell, it is characterized in that comprising have: outer cover body, the outer cover body coat router Circuit board；Optical fiber interface slot is formed in the side of the outer cover body；Optical fiber interface, the optical fiber interface are formed in institute It states in optical fiber interface slot, one end is connected to the circuit board, and the other end is connected to optical fiber；Fiber cover, the fiber cover are spliced to The optical fiber interface slot, for protecting the optical fiber interface；The heat dissipation of grid type is formed on the inner wall of the optical fiber interface slot Slot.

Herein, compared to the prior art, optical fiber interface slot is arranged in side, the higher grid type radiating groove of radiating efficiency Positioned at side, so that router protective shell remains preferable heat sinking function while being not easily accessible dust.On the other hand, light Fine interface does not nearby have heater element, and in router work, heat can be by grid type radiating groove near optical fiber interface Collect, so that the temperature near optical fiber interface accessory temperature and router interior circuit board does not have too many differences.In turn, so that light Moisture condensation is not likely to produce between fine interface slot and router other parts.

Preferably, being provided with the array of heat release hole on the outer cover body.

Setting heat dissipation hole array also can be heat out of outer cover body while being radiated on outer cover body Portion takes the outer surface of outer cover body to, so that internal-external temperature difference reduces, is more difficult to generate moisture condensation.

Preferably, the fiber cover is slided by the sliding slot formed on the optical fiber interface slot inner wall and is stitched to the light Fine interface slot.

Preferably, being provided with the radiating groove of grid type in the fiber cover.

Herein, grid type radiating groove is arranged in fiber cover be dispersed into the heat in optical fiber interface slot can also outside Portion.

Preferably, the fiber cover is fixed to the optical fiber interface slot by screw piece and/or fastening type structure.

Preferably, the area of the heat release hole is less than the radiating groove.

The small hole area that radiates is that foreign matter enters router protective shell in order to prevent, while the hole area that radiates is smaller, and condense shape At water can be adsorbed in heat release hole because tension is sufficiently large, at this point, the heat that router internal heat generation element generates can general Its natural drying.

The positive effect of the utility model is: by passing through heat dissipation between setting optical fiber interface slot and outer cover body Slot connection, while keeping heat-sinking capability, dirt exclusion capabilities, moreover it is possible to reduce the temperature near optical fiber interface and other portions of router The temperature difference of position, so that the more difficult moisture condensation in optical fiber interface part.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the router protective shell of the prior art.

Fig. 2 is the structural schematic diagram of the router protective shell of the utility model preferred embodiment.

Specific embodiment

A preferred embodiment is named, and completely illustrates the utility model in conjunction with attached drawing to become apparent from.

Fig. 2 is the structural schematic diagram of the router protective shell of the present embodiment.As shown in Fig. 2, the routing that the present embodiment is related to Device protective shell 10 includes: outer cover body 11, and outer cover body 11 coats the circuit board of router；Optical fiber interface slot 20, is formed in In the side of outer cover body 11；Optical fiber interface 21, optical fiber interface 21 are formed in optical fiber interface slot 20, and one end is connected to circuit board (not shown), the other end are connected to optical fiber (not shown)；Fiber cover 23, fiber cover 23 are spliced to optical fiber interface slot 20, for protecting optical fiber interface；The radiating groove 22 of grid type is formed on the inner wall of optical fiber interface slot 20.In the present embodiment, road It is flat rectangular box-like structure by device protective shell 10, side includes all kinds of interfaces and antenna.

The side of router protective shell is arranged in optical fiber interface slot 20, specifically on an angle, optical fiber interface slot It is obstructed between 20 and circuit board by a part of outer cover body 11, but is formed with the radiating groove 20 of grid type on the barrier part, In addition to this, also there are the gaps for cabling for the barrier part.The gap can be used for ventilation and heat.

Compared to the prior art, optical fiber interface slot 20 is arranged in side, the higher grid type radiating groove 22 of radiating efficiency Positioned at side, so that router protective shell 10 remains preferable heat sinking function while being not easily accessible dust.On the other hand, Optical fiber interface does not nearby have heater element, and in router work, heat can be by grid type radiating groove 22 in optical fiber interface Nearby collect, so that the temperature near optical fiber interface accessory temperature and router interior circuit board does not have too many differences.In turn, make It obtains and is not likely to produce moisture condensation between optical fiber interface slot 20 and router other parts.

The array of heat release hole 13 is provided on outer cover body 11.

13 array of heat release hole is set on outer cover body 11, it, also can be heat from outer cover body while being radiated 11 inside takes the outer surface of outer cover body 11 to, so that internal-external temperature difference reduces, is more difficult to generate moisture condensation.

In another implementation form, heat release hole 13 can be replaced by the pitting of lattice-like, and the pitting of lattice-like can make The heat dissipation area for obtaining outer cover body 11 expands, and, when the outside side of outer cover body 11 is arranged in pitting, can also increase outer Frictional force on shell ontology 11.

Fiber cover 23 is slided by the sliding slot 25 formed on 20 inner wall of optical fiber interface slot and is stitched to optical fiber interface slot 20.

The radiating groove 24 of grid type is provided in fiber cover 23.

Herein, grid type radiating groove 24 is arranged in fiber cover 23 distribute the heat in optical fiber interface slot 20 can also To outside.

Fiber cover 23 is fixed to optical fiber interface slot 20 by screw piece and/or fastening type structure.Meanwhile fiber cover 23 is in sliding slot The indicia arrow of glide direction is provided on 25 direction.Allow user is easier to operate.

Optical fiber due to router is sometimes for being replaced, when replacement, it is only necessary to open fiber cover 23, not need Outer cover body is fully open.

The area of heat release hole 13 is less than radiating groove 22.

Small 13 area of heat release hole is that foreign matter enters router protective shell in order to prevent, while 13 area of heat release hole is smaller, knot The water that dew is formed can be adsorbed in heat release hole 13 because tension is sufficiently large, at this point, the heat that router internal heat generation element generates Amount can be by moisture natural drying.

When router use is in more rugged environment, for example, the temperature difference is high, moist environment when, the material of router protective shell Mushy aluminium can be used in material.Three-proofing coating etc. can also be coated on circuit boards, reinforce protection.

Although the foregoing describe specific embodiment of the present utility model, it will be appreciated by those of skill in the art that These are merely examples, and the protection scope of the utility model is defined by the appended claims.Those skilled in the art Member can make numerous variations or be repaired to these embodiments under the premise of without departing substantially from the principles of the present invention and essence Change, but these change and modification each fall within the protection scope of the utility model.

Claims (6)

1. a kind of router protective shell, which is characterized in that it includes:

Outer cover body, the circuit board of the outer cover body cladding router；

Optical fiber interface slot is formed in the side of the outer cover body；

Optical fiber interface, the optical fiber interface are formed in the optical fiber interface slot, and one end is connected to the circuit board, and the other end connects It is connected to optical fiber；

Fiber cover, the fiber cover is spliced to the optical fiber interface slot, for protecting the optical fiber interface；

The radiating groove of grid type is formed on the inner wall of the optical fiber interface slot.

2. router protective shell as described in claim 1, which is characterized in that

The array of heat release hole is provided on the outer cover body.

3. router protective shell as claimed in claim 2, which is characterized in that

The fiber cover is slided by the sliding slot formed on the optical fiber interface slot inner wall and is stitched to the optical fiber interface slot.

4. router protective shell as claimed in claim 3, which is characterized in that

The radiating groove of grid type is provided in the fiber cover.

5. router protective shell as claimed in claim 4, which is characterized in that

The fiber cover is fixed to the optical fiber interface slot by screw piece and/or fastening type structure.

6. router protective shell as claimed in claim 2, which is characterized in that

The area of the heat release hole is less than the radiating groove.