CN208537781U - A kind of novel optical module heat radiation device - Google Patents
A kind of novel optical module heat radiation device Download PDFInfo
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- CN208537781U CN208537781U CN201821162232.7U CN201821162232U CN208537781U CN 208537781 U CN208537781 U CN 208537781U CN 201821162232 U CN201821162232 U CN 201821162232U CN 208537781 U CN208537781 U CN 208537781U
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Abstract
The utility model provides a kind of novel optical module heat radiation device, including non-slip mat, horn-like fixing seat, connecting rod, pedestal, buffer spring, fixed plate, mounting base, latch plate, cooling pipe, fixinig plate, shield, bolt and nut, optical module are adjustable to clamp holder structure, barrel structure is stored in rapid cooling cooling chip architecture and dust suction, and the non-slip mat is glued to the bottom of horn-like fixing seat;The horn-like fixing seat is threaded in the lower end of connecting rod.The setting of the utility model cooling pipe, fixinig plate and shield is conducive to play the temporary effect of cold air, can avoid cold air leakage, guarantee the heat dissipation effect to optical module;Heat dissipating housing, air coolant tube, the setting of dry leaf and radiating motor are conducive in time suck cold air, guarantee the heat dissipation effect to optical module;The setting of cooling fin and hollowed-out board is conducive in time radiate to optical module, can play good heat dissipation effect.
Description
Technical field
The utility model belongs to information technology field, more particularly to a kind of novel optical module heat radiation device.
Background technique
With the rapid development of information technology, the demand to a large amount of high speed data transfers is also higher and higher.But industrial environment
Under, traditional cable can no longer meet the demand of remote big data transmission, and transmission rate is higher, the longer light of transmission range
Fibre is gradually employed to the field.The terminal of optical fiber transmission needs optical module to carry out photoelectric conversion, and optical module is in data transmit-receive
When can generate heat, and optical module maximum operating temperature must not exceed 85 degrees Celsius.But in industrial environment, containing big in air
Dust is measured, fan cooling cannot be utilized.Also need to place the components such as two pieces of pcb boards in the device of the terminal of optical fiber transmission, but
Be the overall volume of device is had certain limitations simultaneously, so, because in the prior art, typically just the material of shell is changed
Good is aluminum material, to accelerate the heat dissipation of optical module.But the heat dissipation performance of this shells is undesirable, cannot guarantee light for a long time
Module maintains normal temperature at work.
China Patent Publication No. is CN207198395U, and invention and created name is a kind of optical module heat radiation device, including shell
Body, shell include radiating surface, and radiating surface is equipped with sagging sunk area, and multiple main radiation tooths are arranged in the inside of sunk area, recessed
Falling into region includes opening, and main radiation tooth extends on sunk area is divided into several dissipate for the space of the inside of the sunk area
Heat space, each heat-dissipating space and open communication.But existing optical module heat radiation device is there is also heat dissipation effect is poor, light
Module is easy to be affected with dust and is inconvenient to the problem of fixing different size of optical module.
Therefore, the novel optical module heat radiation device of one kind is invented to be very necessary.
Utility model content
In order to solve the above-mentioned technical problem, the utility model provides a kind of novel optical module heat radiation device, existing to solve
That there is heat dissipation effects is poor for some optical module heat radiation devices, and optical module is easy to be affected with dust and is inconvenient to fix different size of
The problem of optical module.A kind of novel optical module heat radiation device, including non-slip mat, horn-like fixing seat, connecting rod, pedestal delay
Rush spring, fixed plate, mounting base, latch plate, cooling pipe, fixinig plate, shield, bolt and nut, optical module is adjustable to clamp seat
Barrel structure is stored in structure, rapid cooling cooling chip architecture and dust suction, and the non-slip mat is glued to the bottom of horn-like fixing seat;
The horn-like fixing seat is threaded in the lower end of connecting rod;The connecting rod is respectively welded at the bottom four corners of pedestal
Position;Described buffer spring one end is bolted to the lower middle position of fixed plate, and the other end is bolted to pedestal
Upper middle position;The fixed plate cross bolts are connected to the bottom middle position of mounting base;The latch plate difference
The upper left-hand and upper right of one end bolt base, the other end are bolted the lower left side and lower right of mounting base respectively
Side;The mounting base is transversely mounted on the adjustable lower middle position for clamping holder structure;The cooling pipe is laterally disposed in
Between fixinig plate and fixinig plate;Lower part between the fixinig plate and fixinig plate is attached by bolt and nut;Described
Fixinig plate distinguishes pairs of longitudinal measure position at left and right sides of the inside top of shield;The shield is mounted on adjustable
Clamp the top of holder structure;The optical module is placed in the adjustable inside upper part middle position for clamping holder structure;Described is fast
Fast radiating and cooling chip architecture is transversely mounted on the lower inside of shield;The dust suction storage barrel structure extends through shield
Two wall lower positions of inside or so;The rapid cooling cooling chip architecture includes cooling fin, hollowed-out board, heat dissipating housing, cold air
Conduit, dry leaf and radiating motor, from left to right successively screw is connected to the lower part of hollowed-out board to the cooling fin;Described engraves
Hollow plate cross bolts are mounted at the lower part outlet of heat dissipating housing;The air coolant tube is respectively welded at top of heat dissipating housing or so
Two sides middle position;The blowing leaf is threaded on the output shaft of radiating motor;The radiating motor screw connection
In the top center position of heat dissipating housing.
Preferably, the cooling fin specifically uses trapezoidal aluminium sheet;The cooling fin is provided with multiple;The heat dissipation
Spacing between piece is set as three centimetres to five centimetres.
Preferably, the hollowed-out board specifically uses hollow-out aluminum plate;The heat dissipating housing specifically uses horn-like aluminium alloy
Cover.
Preferably, setting is bolted between the hollowed-out board and shield.
Preferably, the cooling pipe uses length for 30 centimetres to 35 centimetres of snakelike copper tube coil.
Preferably, the non-slip mat specifically uses round rubber pad;There are four the non-slip mat settings.
Preferably, the buffer spring specifically uses cylindrical stainless steel spring.
Preferably, dust suction storage barrel structure includes anti-miscellaneous network, discharge pipe, induced-draught electric motor, U-shaped support frame, air draught
Flabellum collects miscellaneous filter core, collects miscellaneous pipe and sweep-up pipe, and the anti-miscellaneous network screw is connected to the outer end of discharge pipe;The air draught electricity
Machine screw is connected between U-shaped support frame and U-shaped support frame;Screw is connected to the interior of discharge pipe to the U-shaped support frame respectively
Side upper wall middle position and inside lower wall middle position;The air suction fan blade is threaded in the output shaft of induced-draught electric motor
On;The miscellaneous filter core screw of collection is connected to the inside right station for collecting miscellaneous pipe;The miscellaneous pipe threaded one end of the collection connects dust suction
Pipe, the other end are threadedly coupled discharge pipe.
Preferably, the sweep-up pipe is threadedly coupled shield respectively;The sweep-up pipe is connected to setting with shield.
Preferably, the anti-miscellaneous network specifically uses round activated charcoal strainer;The anti-miscellaneous network bilayer setting.
Preferably, the miscellaneous filter core of the collection specifically uses trapezoidal carbon fiber filter core.
Preferably, the miscellaneous filter core face setting of the air suction fan blade sum aggregate.
Preferably, the discharge pipe is connected to setting with sweep-up pipe by collecting miscellaneous pipe.
Preferably, the described adjustable holder structure that clamps includes selecting hole, and placement rack adjusts bolt, clamp a main body and
Block is clamped, the selecting hole is from left to right successively provided among the inside left part middle position and inside right part of placement rack
Position;The adjusting bolt-through selecting hole is threadedly coupled the inside middle position for clamping a main body;Described clamps block point
It is not glued to the inner end middle position for clamping a main body.
Preferably, the main body that clamps specifically uses cuboid aluminum alloy seat;Described clamps block specifically using length
Cube rubber block.
Preferably, the selecting hole opens up as threaded hole;The selecting hole connects setting with bolt thread is adjusted.
Preferably, setting is bolted between the placement rack and shield.
Preferably, setting is bolted between the placement rack and mounting base.
Preferably, the shield specifically uses cuboid PVC duroplasts cover.
Preferably, the optical module, which is placed in, clamps block and clamps between block.
Compared with prior art, the utility model has the following beneficial effects:
1. in the utility model, the cooling pipe, the setting of fixinig plate and shield is conducive to play what cold air was kept in
Effect can avoid cold air leakage, guarantee the heat dissipation effect to optical module.
2. in the utility model, the heat dissipating housing, air coolant tube, the setting of dry leaf and radiating motor, be conducive to and
When cold air is sucked, guarantee to the heat dissipation effect of optical module.
3. in the utility model, the setting of the cooling fin and hollowed-out board is conducive in time radiate to optical module,
Good heat dissipation effect can be played.
4. in the utility model, the induced-draught electric motor, U-shaped support frame, air suction fan blade collects miscellaneous filter core, collects miscellaneous pipe and suction
The setting of dirt pipe is conducive to timely dust suction and storage work, while can avoid pollution environment.
5. in the utility model, the setting of the anti-miscellaneous network and discharge pipe is conducive to for the gas of discharge being filtered,
Play the role of protecting environment.
6. in the utility model, the selecting hole, placement rack adjusts bolt and clamps the setting of a main body, is conducive to
Fixed to clamp different size of optical module, guarantee clamps stability.
7. in the utility model, the setting for clamping block is beneficial to prevent and crushes optical module, plays good protection
Effect.
8. in the utility model, the non-slip mat, horn-like fixing seat, the setting of connecting rod and pedestal has been conducive to
To good firm supporting role, avoid sliding.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
Fig. 2 is the structural schematic diagram of the rapid cooling cooling chip architecture of the utility model.
Fig. 3 is the structural schematic diagram of the dust suction storage barrel structure of the utility model.
Fig. 4 is the adjustable structural schematic diagram for clamping holder structure of the utility model.
In figure:
1, non-slip mat;2, horn-like fixing seat;3, connecting rod;4, pedestal;5, buffer spring;6, fixed plate;7, mounting base;
8, latch plate;9, cooling pipe;10, fixinig plate;11, shield;12, bolt and nut;13, optical module;14, it is adjusted and clamps seat knot
Structure;141, selecting hole;142, placement rack;143, bolt is adjusted;144, a main body is clamped;145, block is clamped;15, rapid cooling drops
Warm chip architecture;151, cooling fin;152, hollowed-out board;153, heat dissipating housing;154, air coolant tube;155, blowing leaf;156, heat dissipation electricity
Machine;16, barrel structure is stored in dust suction;161, anti-miscellaneous network;162, discharge pipe;163, induced-draught electric motor;164, U-shaped support frame;165, it inhales
Fan leaf;166, collect miscellaneous filter core;167, collect miscellaneous pipe;168, sweep-up pipe.
Specific embodiment
The utility model is described further below in conjunction with attached drawing:
Embodiment:
As shown in attached drawing 1 to attached drawing 4
The utility model provides a kind of novel optical module heat radiation device, including non-slip mat 1, horn-like fixing seat 2, connection
Bar 3, pedestal 4, buffer spring 5, fixed plate 6, mounting base 7, latch plate 8, cooling pipe 9, fixinig plate 10, shield 11, bolt spiral shell
Mother 12, optical module 13, adjustable to clamp holder structure 14, barrel structure 16 is stored in rapid cooling cooling chip architecture 15 and dust suction, described
Non-slip mat 1 be glued to the bottom of horn-like fixing seat 2;The horn-like fixing seat 2 is threaded under connecting rod 3
End;The connecting rod 3 is respectively welded at the bottom four corners position of pedestal 4;Described 5 one end of buffer spring is bolted to solid
The lower middle position of fixed board 6, the other end are bolted to the upper middle position of pedestal 4;6 cross bolts of fixed plate
It is connected to the bottom middle position of mounting base 7;The latch plate 8 distinguishes upper left-hand and the top right side of one end bolt base 4
Side, the other end are bolted respectively on the right side of lower left side and the lower part of mounting base 7;The mounting base 7 is transversely mounted on adjustable
Section clamps the lower middle position of holder structure 14;The cooling pipe 9 is laterally disposed between fixinig plate 10 and fixinig plate 10;It is described
Fixinig plate 10 and fixinig plate 10 between lower part be attached by bolt and nut 12;The fixinig plate 10 is vertical in pairs respectively
To the inside top left and right sides position for being welded on shield 11;The shield 11, which is mounted on to be adjusted, clamps holder structure 14
Top;The optical module 13 is placed in the adjustable inside upper part middle position for clamping holder structure 14;The rapid cooling
Cooling chip architecture 15 is transversely mounted on the lower inside of shield 11;The dust suction storage barrel structure 16 extends through shield
11 inside or so, two wall lower position;The rapid cooling cooling chip architecture 15 includes cooling fin 151, and hollowed-out board 152 dissipates
Heat cover 153, air coolant tube 154, dry leaf 155 and radiating motor 156, from left to right successively screw connects the cooling fin 151
It connects in the lower part of hollowed-out board 152;152 cross bolts of hollowed-out board are mounted at the lower part outlet of heat dissipating housing 153;Described
Air coolant tube 154 is respectively welded at middle position at left and right sides of the top of heat dissipating housing 153;The blowing leaf 155 is threadedly coupled
On the output shaft of radiating motor 156;156 screw of radiating motor is connected to the top center position of heat dissipating housing 153.
In above-described embodiment, specifically, the cooling fin 151 specifically uses trapezoidal aluminium sheet;The cooling fin 151 is set
It is equipped with multiple;Spacing between the cooling fin 151 is set as three centimetres to five centimetres.
In above-described embodiment, specifically, the hollowed-out board 152 specifically uses hollow-out aluminum plate;The heat dissipating housing 153 has
Body uses horn-like aluminum_alloy cover.
In above-described embodiment, specifically, being bolted setting between the hollowed-out board 152 and shield 11.
In above-described embodiment, specifically, the cooling pipe 9 uses length snakelike for 30 centimetres to 35 centimetres
Copper tube coil.
In above-described embodiment, specifically, the non-slip mat 1 specifically uses round rubber pad;The non-slip mat 1 is arranged
There are four.
In above-described embodiment, specifically, the buffer spring 5 is specifically using cylindrical stainless steel spring.
In above-described embodiment, specifically, the dust suction storage barrel structure 16 includes anti-miscellaneous network 161, discharge pipe 162 is inhaled
Wind turbine 163, U-shaped support frame 164, air suction fan blade 165 collect miscellaneous filter core 166, collect miscellaneous pipe 167 and sweep-up pipe 168, and described is anti-
Miscellaneous 161 screw of net is connected to the outer end of discharge pipe 162;163 screw of induced-draught electric motor is connected to U-shaped support frame 164 and U-shaped
Between support frame 164;The U-shaped support frame 164 respectively screw be connected to discharge pipe 162 inside upper wall middle position and
Inside lower wall middle position;The air suction fan blade 165 is threaded on the output shaft of induced-draught electric motor 163;The collection is miscellaneous
166 screw of filter core is connected to the inside right station for collecting miscellaneous pipe 167;Miscellaneous 167 threaded one end of pipe of the collection connects sweep-up pipe
168, the other end is threadedly coupled discharge pipe 162.
In above-described embodiment, specifically, the sweep-up pipe 168 is threadedly coupled shield 11 respectively;The sweep-up pipe
168 are connected to setting with shield 11.
In above-described embodiment, specifically, the anti-miscellaneous network 161 is specifically using round activated charcoal strainer;Described is anti-
The double-deck setting of miscellaneous net 161.
In above-described embodiment, specifically, the miscellaneous filter core 166 of the collection specifically uses trapezoidal carbon fiber filter core.
In above-described embodiment, specifically, miscellaneous 166 face of the filter core setting of 165 sum aggregate of air suction fan blade.
In above-described embodiment, specifically, the discharge pipe 162 is connected to setting with sweep-up pipe 168 by collecting miscellaneous pipe 167.
In above-described embodiment, specifically, the described adjustable holder structure 14 that clamps includes selecting hole 141, placement rack 142,
Bolt 143 is adjusted, a main body 144 is clamped and clamps block 145, the selecting hole 141 is from left to right successively provided with placement rack
142 inside left part middle position and inside right part middle position;The adjusting bolt 143 runs through 141 screw thread of selecting hole
Connection clamps the inside middle position of a main body 144;The block 145 that clamps is glued to the inner end for clamping a main body 144 respectively
Middle position.
In above-described embodiment, specifically, described clamps a main body 144 specifically using cuboid aluminum alloy seat;Described
Block 145 is clamped specifically using cuboid rubber block.
In above-described embodiment, specifically, the selecting hole 141 opens up as threaded hole;The selecting hole 141 and adjusting
Bolt 143 is threadedly coupled setting.
In above-described embodiment, specifically, being bolted setting between the placement rack 142 and shield 11.
In above-described embodiment, specifically, being bolted setting between the placement rack 142 and mounting base 7.
In above-described embodiment, specifically, the shield 11 specifically uses cuboid PVC duroplasts cover.
In above-described embodiment, clamps block 145 specifically, the optical module 13 is placed in and clamp between block 145.
Working principle
In the utility model, by starting the switch of radiating motor 156, so that radiating motor 156 drives blowing leaf 155 high
Speed rotation is sucked inside heat dissipating housing 153 by the cold air that air coolant tube 154 constantly generates cooling pipe 9, passes through hollowed-out board 152
Constantly cold air is arranged to cooling fin 151 and is cooled down to optical module 13, good heat dissipation effect is played;Start induced-draught electric motor simultaneously
Dust inside shield 11 is passed through dust suction so that induced-draught electric motor 163 drives 165 high speed rotation of air suction fan blade by 163 switch
The sucking of pipe 168 collects inside miscellaneous pipe 167, carries out filtering miscellaneous storage general labourer work by collecting miscellaneous filter core 166, by discharge pipe 162 constantly by gas
Body is discharged after filtering via anti-miscellaneous network 161;When installation, in order to adapt to different size of optical module 13, suitable choosing can choose
Hole 141 is selected, bolt 143 will be adjusted through the connection of selected 141 internal whorl of selecting hole and clamp the progress optical module of a main body 144
13 fixation work can play good fixed preventing damage work by clamping block 145.
Using technical solution described in the utility model or those skilled in the art in technical solutions of the utility model
Under inspiration, similar technical solution is designed, and reaches above-mentioned technical effect, is the protection model for falling into the utility model
It encloses.
Claims (10)
1. a kind of novel optical module heat radiation device, which is characterized in that the novel optical module heat radiation device includes non-slip mat
(1), horn-like fixing seat (2), connecting rod (3), pedestal (4), buffer spring (5), fixed plate (6), mounting base (7), latch plate
(8), cooling pipe (9), fixinig plate (10), shield (11), bolt and nut (12), optical module (13) are adjustable to clamp holder structure
(14), rapid cooling cooling chip architecture (15) and dust suction storage barrel structure (16), the non-slip mat (1) is glued to horn-like solid
The bottom of reservation (2);The horn-like fixing seat (2) is threaded in the lower end of connecting rod (3);The connecting rod (3)
It is respectively welded at the bottom four corners position of pedestal (4);Described buffer spring (5) one end is bolted under fixed plate (6)
Portion middle position, the other end are bolted to the upper middle position of pedestal (4);Fixed plate (6) the cross bolts connection
In the bottom middle position of mounting base (7);The upper left-hand of latch plate (8) difference one end bolt base (4) and top
Right side, the other end are bolted respectively on the right side of lower left side and the lower part of mounting base (7);The mounting base (7) is transversely mounted
In the adjustable lower middle position for clamping holder structure (14);The cooling pipe (9) is laterally disposed in fixinig plate (10) and fixes
Between piece (10);Lower part between the fixinig plate (10) and fixinig plate (10) is attached by bolt and nut (12);Institute
The pairs of longitudinal measure of fixinig plate (10) the difference position at left and right sides of the inside top of shield (11) stated;The shield
(11) it is mounted on the adjustable top for clamping holder structure (14);The optical module (13), which is placed in be adjusted, clamps holder structure (14)
Inside upper part middle position;Rapid cooling cooling chip architecture (15) is transversely mounted under the inside of shield (11)
Portion;Dust suction storage barrel structure (16) extends through two wall lower position of inside of shield (11) or so;Described is fast
Fast radiating and cooling chip architecture (15) includes cooling fin (151), hollowed-out board (152), heat dissipating housing (153), and air coolant tube (154) is blown
Fan blade (155) and radiating motor (156), from left to right successively screw is connected to hollowed-out board (152) to the cooling fin (151)
Lower part;Described hollowed-out board (152) cross bolts are mounted at the lower part outlet of heat dissipating housing (153);The air coolant tube
(154) it is respectively welded at middle position at left and right sides of the top of heat dissipating housing (153);The blowing leaf (155) is threaded in
On the output shaft of radiating motor (156);Described radiating motor (156) screw is connected to the top center position of heat dissipating housing (153)
It sets.
2. novel optical module heat radiation device as described in claim 1, which is characterized in that the cooling fin (151) is specific
Using trapezoidal aluminium sheet;The cooling fin (151) is provided with multiple;Spacing between the cooling fin (151) is set as three
Centimetre to five centimetres.
3. novel optical module heat radiation device as described in claim 1, which is characterized in that the hollowed-out board (152) is specific
Using hollow-out aluminum plate;The heat dissipating housing (153) specifically uses horn-like aluminum_alloy cover.
4. novel optical module heat radiation device as described in claim 1, which is characterized in that barrel structure is stored in the dust suction
It (16) include anti-miscellaneous network (161), discharge pipe (162), induced-draught electric motor (163), U-shaped support frame (164), air suction fan blade (165), collection
Miscellaneous filter core (166), collects miscellaneous pipe (167) and sweep-up pipe (168), and the anti-miscellaneous network (161) screw is connected to discharge pipe (162)
Outer end;Described induced-draught electric motor (163) screw is connected between U-shaped support frame (164) and U-shaped support frame (164);The U
Screw is connected to the inside upper wall middle position and inside lower wall middle position of discharge pipe (162) to type support frame (164) respectively;
The air suction fan blade (165) is threaded on the output shaft of induced-draught electric motor (163);The miscellaneous filter core of the collection (166) screw
It is connected to the inside right station for collecting miscellaneous pipe (167);The collection miscellaneous pipe (167) threaded one end connects sweep-up pipe (168), another
End is threadedly coupled discharge pipe (162).
5. novel optical module heat radiation device as described in claim 1, which is characterized in that described adjustable to clamp holder structure
It (14) include selecting hole (141), placement rack (142) adjusts bolt (143), clamps a main body (144) and clamp block (145), institute
The selecting hole (141) stated from left to right successively is provided in the inside left part middle position and inside right part of placement rack (142)
Between position;The adjusting bolt (143) is threadedly coupled the inside interposition for clamping a main body (144) through selecting hole (141)
It sets;The block (145) that clamps is glued to the inner end middle position for clamping a main body (144) respectively.
6. novel optical module heat radiation device as described in claim 1, which is characterized in that the hollowed-out board (152) and prevent
Shield is bolted setting between (11).
7. novel optical module heat radiation device as described in claim 1, which is characterized in that the cooling pipe (9) is using length
The snakelike copper tube coil that degree is 30 centimetres to 35 centimetres.
8. novel optical module heat radiation device as claimed in claim 4, which is characterized in that the sweep-up pipe (168) is respectively
It is threadedly coupled shield (11);The sweep-up pipe (168) is connected to setting with shield (11).
9. novel optical module heat radiation device as claimed in claim 4, which is characterized in that the anti-miscellaneous network (161) is specific
Using round activated charcoal strainer;The double-deck setting of the anti-miscellaneous network (161).
10. novel optical module heat radiation device as described in claim 1, which is characterized in that described clamps a main body (144)
Specifically use cuboid aluminum alloy seat;Described clamps block (145) specifically using cuboid rubber block.
Priority Applications (1)
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CN201821162232.7U CN208537781U (en) | 2018-07-23 | 2018-07-23 | A kind of novel optical module heat radiation device |
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Application Number | Priority Date | Filing Date | Title |
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CN201821162232.7U CN208537781U (en) | 2018-07-23 | 2018-07-23 | A kind of novel optical module heat radiation device |
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ID=65385956
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110989105A (en) * | 2019-12-23 | 2020-04-10 | 武汉福地科技有限公司 | Mounting, fixing and heat dissipation structure for optical module |
CN112018592A (en) * | 2020-07-20 | 2020-12-01 | 苏州紫光伟业激光科技有限公司 | Novel air-cooled ultraviolet laser |
CN117075274A (en) * | 2023-10-13 | 2023-11-17 | 深圳市比洋光通信科技股份有限公司 | Receiving assembly of optical detector |
-
2018
- 2018-07-23 CN CN201821162232.7U patent/CN208537781U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110989105A (en) * | 2019-12-23 | 2020-04-10 | 武汉福地科技有限公司 | Mounting, fixing and heat dissipation structure for optical module |
CN110989105B (en) * | 2019-12-23 | 2021-04-27 | 武汉飞沃科技有限公司 | Mounting, fixing and heat dissipation structure for optical module |
CN112018592A (en) * | 2020-07-20 | 2020-12-01 | 苏州紫光伟业激光科技有限公司 | Novel air-cooled ultraviolet laser |
CN117075274A (en) * | 2023-10-13 | 2023-11-17 | 深圳市比洋光通信科技股份有限公司 | Receiving assembly of optical detector |
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