A kind of router
Technical field
This utility model is related to server field, particularly to a kind of router.
Background technology
The electronic devices and components of router interior operationally would generally produce substantial amounts of heat, makes electronic devices and components temperature liter
Height, high temperature affects the normal work of electronic devices and components, therefore, it is necessary to install heat dissipation equipment, to guarantee electronic devices and components suitable
At a temperature of normal work, a kind of radiator fan of Publication No. CN203685687U and electronic equipment, described radiator fan
Including:Blade and the shell encapsulating described blade:Described shell includes:Base plate;Side wall, in cylinder or partial cylinder shape, ring
It is around in described blade, and is connected to described base plate, described side wall offers logical dirt hole;And dust-storage chamber, it is arranged on institute
State the outer surface of side wall, and cover on the logical dirt hole being located on the wall of described side;The inside of this dust-storage chamber and described shell is by leading to dirt
Hole keeps connection.
Although above-mentioned this radiator fan and electronic equipment can improve the efficiency of radiator fan, radiator fan warp
Cross long-term operation, full dust is amassed in the meeting in dust-storage chamber, just cannot continue collection dust, and if the dust in dust-storage chamber relatively
Many, the wind of radiator fan can blow out the dust in dust-storage chamber, still can run up to and preferably dissipate it is impossible to reach on radiator shutter
Thermal effect, the dust therefore how periodically easily cleared up in dust-storage chamber becomes urgent problem.
Utility model content
The purpose of this utility model is to provide a kind of router, and it periodically can easily clear up the dust in dust-storage chamber.
Above-mentioned technical purpose of the present utility model technical scheme is that:A kind of router, including
Router body, radiator fan and dust-storage chamber, described radiator fan is located at the chassis of router body, and described chassis is near storage dirt
The position of room offers chute, and the base plate of described dust-storage chamber is connected with dust-storage chamber sliding, and described base plate extends to chute direction
Slide plate, described slide plate is connected with chute sliding, and the bottom land of described chute offers the first groove, and described slide plate is near the first groove
Side be provided with and first groove shapes size identical the second groove, be embedded with first in described first groove and the second groove
Compression spring, when not having external force effect, described first compression spring makes slide plate close dust-storage chamber.
By such scheme, dust-storage chamber is arranged on the edge of radiator fan, for collecting dust, radiator fan is arranged
The chassis of router body, base plate extends to slide plate, and chute supplies slide plate sliding, and compression spring is located at the first groove and second simultaneously
In groove, in the presence of not having external force, the first compression spring is conflicted the side wall of the first groove and the second groove simultaneously, draws
Slide plate is enclosed in the bottom of dust-storage chamber, and at this moment dust-storage chamber can start to collect dust, after collecting a period of time, needs to dust-storage chamber
Interior dust is cleared up, and at this moment stirs slide plate to the direction away from dust-storage chamber, in this process, the first compression spring one
Side by the sidewall extrusion of the second groove on slide plate, opposite side by the sidewall extrusion of the first groove, until slide plate fully opens storage
Dirt room, at this moment just can begin a clean up the dust in dust-storage chamber, after cleaning out, unclamp slide block, the first compression bullet being compressed
Spring can be conflicted the side wall of the first groove, using the resilience shape of itself, the side wall of the second groove of conflicting, slide plate is carried out multiple
Position, finally makes slide plate closing dust-storage chamber, allows dust-storage chamber to continue to collect dust, it is not necessary to radiator fan is frequent during this
Unload cleaning, and only need to stir slide block and can achieve opening and closing to dust storage groove, very convenient quick.
Further, the side wall of described chute all offers the 3rd groove, described 3rd groove away from the both sides of dust-storage chamber
Inside it is provided with the second compression spring, be provided with described 3rd groove and conflicted in the ball of notch, described slide plate by the second compression spring
Both sides away from dust-storage chamber are provided with the 4th groove coordinating with ball, and when slide plate fully opens dust-storage chamber, described ball is embedded
In the 4th groove.
By such scheme, the diameter of ball is less than the diameter of the 3rd groove notch, and at this moment ball is just by the second compression bullet
Spring is conflicted in the notch of the 3rd groove, allows a ball part project outside the 3rd groove, when slide plate fully opens dust-storage chamber, circle
Ball is conflicted by the second compression spring and is embedded in the 4th groove, thus carry out spacing to slide plate, slide plate will not easily be shaken
Dynamic, thus dialing directly slide plate without one it is only necessary to clear up to dust in dust-storage chamber, when cleaning out, firmly to storage dirt
Fluctuate slide plate in room direction, allows ball depart from the 4th groove, thus allowing slide plate close at storage dirt using the elasticity of the first compression spring
On room.
Further, the bottom land of described chute is provided with stopper slot away from the side of dust-storage chamber, and described slide plate is away from dust-storage chamber
Side offer through hole, sliding in described through hole is connected with the limited block with stopper slot cooperation, when described ball is embedded the
When in four grooves, described limited block is embedded in stopper slot.
By such scheme, limited block can slide in through hole, and stopper slot and limited block cooperate, and work as circle
When ball is embedded in the 4th groove, that is, when slide plate fully opens dust storage groove, limited block is stuck in stopper slot, slide plate is entered
The secondary fixation of row, in case imprudence encounters slide plate, leads to ball to depart from the 4th groove, can carry out more stable limit to slide plate
Position.
Further, described limited block is provided with the first limited cap away from the side of chute.
By such scheme, the first limited cap is to allow operator's more easily plug limited block, will not be easily
Rubber sleeve.
Further, described limited block is provided with the second limited cap near the side of chute, and described stopper slot is spacing with second
Cap is equipped with.
By such scheme, the second limited cap is to make limited block depart from through hole, energy to prevent from excessively stirring limited block
Enough more stable limited block are limited in through hole, in order to limited block more stable slide plate is carried out spacing.
Further, described stopper slot and limited block are respectively provided with magnetic.
By such scheme, stopper slot and limited block is allowed to be respectively provided with magnetic, when limited block and stopper slot align, and both
Magnetic attract each other, the magnetic of stopper slot can be adsorbed limited block in stopper slot, without operator go permissible limit
In the block insertion stopper slot of position, when needing limited block to depart from stopper slot it is only necessary to operator firmly stir the first limited cap
?.
Further, it is hinged with baffle plate above the mesh of described router.
By such scheme, when not needing access network line on mesh, hinged baffle plate can close on mesh, prevents
Dust enters in mesh, thus ensureing the connective stability of mesh.
Further, described slide plate is made up of clear PVC material.
By such scheme, slide plate is made up of clear PVC material, so just storage dirt can be directly observed by slide plate
Indoor dust accumulation, the dust such that it is able to judge whether to need indoor to dedusting is cleared up, and that compares is directly perceived.
In sum, this utility model has the advantages that:
1st, pass through the control to slide plate for first compression spring, it is possible to achieve the opening and closing to dust-storage chamber, thus conveniently
Realize the cleaning to dust in dust-storage chamber;
2nd, pass through ball and limited block is spacing to slide plate, slide plate can be allowed to open more stable during dust-storage chamber;
3rd, by the setting of baffle plate, it is possible to reduce dust enters in mesh.
Brief description
Fig. 1 is that embodiment 1 is used for embodying the structural representation of router body;
Fig. 2 is that embodiment 1 is used for embodying the structural representation that slide plate closes dust-storage chamber;
Fig. 3 is that embodiment 1 is used for embodying the structural representation of fan Hot-air fan;
Fig. 4 is the enlarged drawing of A in Fig. 3;
Fig. 5 is that embodiment 2 is used for standoff features schematic diagram;
Fig. 6 is the enlarged drawing of B in Fig. 5;
Fig. 7 is that embodiment 2 is used for embodying the structural representation that the first compression spring is compressed;
Fig. 8 is that embodiment 2 is used for embodying the structural representation of the first limited cap;
Fig. 9 is that embodiment 3 is used for embodying the structural representation of mesh;
Figure 10 is that embodiment 3 is used for embodying the structural representation of baffle plate.
In figure, 1, router body;11st, radiator fan;111st, dust-storage chamber;2nd, chassis;21st, chute;211st, the first groove;
2111st, the first compression spring;3rd, base plate;31st, slide plate;311st, the second groove;312nd, the 4th groove;4th, the 3rd groove;41st, second
Compression spring;42nd, ball;5th, stopper slot;51st, through hole;511st, limited block;5111st, the first limited cap;5112nd, the second limited cap;
6th, mesh;61st, baffle plate.
Specific embodiment
Below in conjunction with accompanying drawing, this utility model is described in further detail.
Embodiment 1:A kind of router, as illustrated in fig. 1 and 2, includes router body 1, on the chassis of router body 1
2 are provided with radiator fan 11, realize the radiating to router body 1.
As shown in Figures 3 and 4, it is provided with to prominent dust-storage chamber 111 outside radiator fan 11 on the week edge of radiator fan 11, be used for
Collect the dust in radiator fan 11, to reduce the amount of dust in radiator fan 11, thus reducing the ash of accumulation on radiator shutter
Dust quantity, allows radiator shutter be capable of the realization of maximal efficiency to router internal heat dissipating.
Offer chute 21 on chassis 2 near the position of dust-storage chamber 111.
The bottom of dust-storage chamber 111 is that sliding is connected with dust-storage chamber 111, and extends to slide plate 31 to chute 21 direction, sliding
Plate 31 is connected with chute 21 sliding.
Offer the first groove 211 in the bottom land of chute 21, offer in slide plate 31 near the side of chute 21 simultaneously
Two grooves 311, the shape size of the second groove 311 is identical with the first groove 211, in the first groove 211 and the second groove 311
Be provided with the first compression spring 2111, the both sides of the first compression spring 2111 conflict simultaneously the first groove 211 two side and
The two side of the second groove 311, in the presence of not having external force, the first compression spring 2111 is drawn slide plate 31 and is closed into storage dirt
The lower section of room 111, and close dust-storage chamber 111, allow dust-storage chamber 111 can continue to collect dust.
As shown in figure 8, all offering the 3rd groove 4 on chute 21 is away from the two side of dust-storage chamber 111, simultaneously the 3rd
It is provided with the second compression spring 41 and ball 42, the second compression spring 41 one end is inconsistent with the bottom land of the 3rd groove 4 in groove 4,
The other end is inconsistent with ball 42, and little for the diameter of the ratio ball 42 of the notch of the 3rd groove 4 setting, such ball 42 is just by the
Two compression springs 41 are conflicted in notch, and a part is located in the 3rd groove 4, and a part projects outside the 3rd groove 4.
The 4th groove with ball 42 cooperation is offered on the two side of the one end away from dust-storage chamber 111 in slide plate 31 simultaneously
312, when stirring slide plate 31, when allowing slide plate 31 fully open dust storage groove, ball 42 is conflicted by the second compression spring 41 and is embedded
In 4th groove 312, slide plate 31 is carried out spacing.
Slide plate 31 is made up of clear PVC material, so can observe the amount of dust in dust-storage chamber 111 at any time.
It is embodied as being described as follows:The original state under external force effect is not had to be that the two ends of the first compression spring 2111 are divided
Do not conflict in the two side of the first groove 211 and the second groove 311 simultaneously, using the first compression spring 2111 elasticity slide plate
31 are enclosed in dust-storage chamber 111, observe the amount of dust in dust-storage chamber 111 by transparent slide plate 31, when needing to dust-storage chamber
When dust in 111 is cleared up, stir slide plate 31 to the direction away from dust-storage chamber 111, at this moment the second groove 311 is away from storage dirt
The side wall of room 111 starts to separate with compression spring, and another direction being laterally away from dust-storage chamber 111 presses the first compression spring
2111, the first compression spring 2111 simultaneously with the first groove 211 away from the side wall of dust-storage chamber 111 inconsistent, the first compression spring
2111 are gradually compressed, and slide plate 31 continues to move to the direction away from dust-storage chamber 111, and the both sides of slide plate 31 can be supported with ball 42
Touch, continue to press on slide plate 31, ball 42 is squeezed in the 3rd groove 4 by the both sides of slide plate 31, at this moment the second compression spring 41 quilt
Compression, continues to press on slide plate 31, when ball 42 is alignd with the 4th groove 312, ball 42 loses the extruding force of slide plate 31, is pressed
Second compression spring 41 of contracting is conflicted in the 4th groove 312, stops promoting slide plate 31, slide plate 31 is spacing by ball 42, will not
Easily rock, at this moment slide plate 31 fully opens dust-storage chamber 111, begins a clean up dust, after cleaning out, to dust-storage chamber 111 side
To stirring slide plate 31, allowing slide plate 31 extruding ball 42, thus allowing ball 42 to come off the 4th groove 312, unclamping slide plate 31, at this moment by
Conflict the side away from dust-storage chamber 111 for first groove 211 in first compression spring 2111 side of compression, opposite side conflicts the
Two grooves 311, near the side of dust-storage chamber 111, slide plate 31 bullet to dust-storage chamber 111 direction, store up dirt until slide plate 31 completely encloses
Room 111, slide plate 31 stop motion, the first compression spring 2111 is returned to original state.
Embodiment 2:A kind of router, as different from Example 1, as shown in Fig. 5 is to 8, chute 21 bottom land away from
The side of dust-storage chamber 111 offers stopper slot 5, offers through hole 51 in slide plate 31 away from one end of dust-storage chamber 111 simultaneously, logical
In hole 51, sliding is connected with the limited block 511 with stopper slot 5 cooperation, when ball 42 is embedded in the 4th groove 312, limited block
511 are alignd with stopper slot 5.
Simultaneously being magnetic that limited block 511 and stopper slot 5 are arranged, both can attract each other.
It is embodied as being described as follows:Because stopper slot 5 is attracted each other with limited block 511, when ball 42 be embedded recessed the 4th
When in groove 312, limited block 511 limited groove 5 can attract and be embedded in stopper slot 5, carries out dual fixation to slide plate 31, allows behaviour
That makees that personnel can relatively trust carries out deashing to dust-storage chamber 111.
It is provided with the first limited cap being easy to operator's plug limited block 511 in limited block 511 away from one end of stopper slot 5
5111, when needing limited block 511 is operated it is only necessary to carry out operating to the first limited cap 5111.
It is provided with for preventing limited block 511 from departing from the second spacing of slide plate 31 near the side of stopper slot 5 in limited block 511
Cap 5112, the size of the second limited cap 5112 is bigger than through hole 51, after limited block 511 being extracted stopper slot 5 to operator, continues
Continuous when stirring, the second limited cap 5112 can be stuck on slide plate 31 it is ensured that limited block 511 is without departing from slide plate 31.
Embodiment 3:A kind of router, is with the difference of embodiment 2, as shown in Figures 9 and 10, in the net of router
It is hinged with baffle plate 61, when not having in netting twine insertion mesh 6, baffle plate 61 can be closed on mesh 6, prevents dust from entering above hole 6
Enter mesh 6, the stable connection performance of protection mesh 6.
This specific embodiment is only that it is not to restriction of the present utility model, ability to explanation of the present utility model
Field technique personnel can make to the present embodiment after reading this specification as needed does not have the modification of creative contribution, but
As long as all being protected by Patent Law in right of the present utility model.