CN110518441A - A kind of efficient no dead angle radiator for laser equipment - Google Patents

Abstract

The invention discloses a kind of efficient no dead angle radiators for laser equipment, flow chamber is offered at corresponding laser installation cavity ceiling end position inside the heat-dissipating casing, the flow chamber top is fixedly connected with water tank, originally practical to be provided with flow chamber, water tank, first motor, drain leaf fan, discharge outlet, first flow-guiding channel, second flow-guiding channel, third flow-guiding channel and deflector, it is rotated by first motor and drives draining leaf fan rotation, the liquid in water tank is set to flow into flow chamber from discharge outlet, the first flow-guiding channel is flowed by flow chamber, liquid is set to enter second flow-guiding channel and third flow-guiding channel at both ends by deflector, to make Breakup of Liquid Ring install chamber one week around laser, the heat that laser installation chamber distributes is taken away, reach cooling effect, flow-guiding channel uniform fold laser installation simultaneously The entire side surface of chamber, it is ensured that remained without dead angle.

Description

A kind of efficient no dead angle radiator for laser equipment

Technical field

The present invention relates to heat abstractor technical field, specially a kind of efficient no dead angle heat dissipation dress for laser equipment It sets.

Background technique

Laser be 20th century since after nuclear energy, computer, semiconductor, the another invention of great significance of the mankind is referred to as " most fast Knife ", " most quasi- ruler ", " most bright light ", using for laser equipment is very extensive, including industry, agricultural, accurate measurement, Detection, communication and information processing etc., laser is one of them, is used for various information scanning, fiber optic communication, Laser Measuring Away from, laser radar, laser disc, laser designator, the gathering of supermarket etc., such as now with optical fiber laser a kind of in public technology Application No. is (201821295881.4), the patents to pass through setting exhaust fan, draining fan, outlet pipe and water inlet for radiator Pipe needs to install the water-cooled plate of custom-made on heat source, so that optical fiber when solving the radiator heat-dissipation of optical fiber laser The problem of weight and volume of Optical Maser System increases.

But the patent is to the laser installation radiating treatment of chamber and perfect, can not efficiently without dead angle to laser Device installs chamber and radiates into shape, also not convenient enough for the liquid cooling of high temperature, while the hot gas of laser installation chamber interior Stream can not be replaced quickly.

Summary of the invention

The present invention provides a kind of efficient no dead angle radiator for laser equipment, can effectively solve above-mentioned background skill The patent proposed in art can not pacify the laser installation radiating treatment of chamber and perfect efficiently without dead angle to laser Behave affectedly room into shape radiate, for high temperature liquid cooling it is also not convenient enough, while laser installation chamber interior thermal current without Method is quickly replaced, so the problem of people are badly in need of a kind of efficient no dead angle radiator for laser equipment.

To achieve the above object, the invention provides the following technical scheme: a kind of efficient no dead angle for laser equipment dissipates Thermal, including heat-dissipating casing, the heat-dissipating casing inner bottom insertion are equipped with laser installation chamber, the heat-dissipating casing Flow chamber is offered at the corresponding laser installation cavity ceiling end position in inside, the flow chamber top is fixedly connected with water Case, the water tank roof have been bolted to connection first motor, and the first motor output shaft is connected with draining leaf fan, institute It states water tank bottom end and offers flow chamber one end described in discharge outlet and offer the first flow-guiding channel, first flow-guiding channel one end It is fixedly connected with the second flow-guiding channel, second flow-guiding channel is fixedly connected with third water conservancy diversion far from first flow-guiding channel one end Channel, two edge of heat-dissipating casing top are symmetrically fixedly welded with fixed block, two fixed block adjacent one end fixation companies It is connected to cooling tube.

Preferably, first flow-guiding channel and third flow-guiding channel Jun You 10, and uniform fold laser installation cavity The both ends of room, first flow-guiding channel and third flow-guiding channel and the second flow-guiding channel junction are fixedly connected with deflector.

Preferably, second flow-guiding channel shares two avris that 6 equal parts are fixed on heat-dissipating casing one end, and second leads Circulation road both ends are arc.

Preferably, the fixed block in the middle part of two fixed blocks close to third flow-guiding channel corresponds to third flow-guiding channel center Water inlet is offered at position, and the fixed block far from third flow-guiding channel corresponds to cooling tube center position and offers water outlet Mouthful, the water outlet other end joining water box top.

Preferably, the heat-dissipating casing both ends are fixedly connected to heat sink, offer inside two heat sinks Chamber is rotated, the corresponding rotation chamber center position of laser installation two inner wall of chamber is fixedly connected to the second motor, Two second motor output shafts are connected with radiator shutter, and radiator shutter insertion is mounted on rotation chamber center position.

Preferably, two heat sink tops offer heat release hole, and the length and width of the heat sink are equal to rotation The length and width of chamber.

Compared with prior art, beneficial effects of the present invention:

1, flow chamber, water tank, first motor, draining leaf fan, discharge outlet, the first flow-guiding channel, the second water conservancy diversion are provided with Channel, third flow-guiding channel and deflector are rotated by first motor and drive draining leaf fan rotation, make liquid in water tank from row The mouth of a river flows into flow chamber, flows into the first flow-guiding channel by flow chamber, so that liquid is entered the second of both ends by deflector Flow-guiding channel and third flow-guiding channel distribute laser installation chamber so that Breakup of Liquid Ring be made to install chamber one week around laser Heat take away, reach cooling effect, while the entire side surface of flow-guiding channel uniform fold laser installation chamber, it is ensured that do not have There is dead angle residual.

2, fixed block, cooling tube, inlet and outlet are provided with, by the fixed cooling tube of fixed block, with heat Liquid flows out third flow-guiding channel, is flowed into cooling tube by water inlet, because the inner diameter of cooling tube is small, makes fluid flow Become smaller, can be quickly cooled down, then flowed out by water outlet, into water tank, forms circulating water flow, not only saved resource but also can reach To cooling effect.

3, it is provided with heat sink, rotation chamber, the second motor, radiator shutter and heat release hole, is rotated by the second motor, band Dynamic radiator shutter rotation is extracted out the heat that laser installs chamber interior by heat release hole, meanwhile, the other end passes through heat release hole External air-flow is sucked, laser installation chamber interior air-flow is replaced, so that thermal current is become normal airflow, reaches drop The effect of temperature.

Detailed description of the invention

Attached drawing is used to provide further understanding of the present invention, and constitutes part of specification, with reality of the invention It applies example to be used to explain the present invention together, not be construed as limiting the invention.

In the accompanying drawings:

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the mounting structure schematic diagram of the first flow-guiding channel of the invention；

Fig. 3 is the mounting structure schematic diagram of the second motor of the invention；

Fig. 4 is the mounting structure schematic diagram of cooling tube of the present invention；

Fig. 5 is the scheme of installation of deflector of the invention；

Figure label: 1, heat-dissipating casing；2, laser installs chamber；3, flow chamber；4, water tank；5, first motor；6, Drain leaf fan；7, discharge outlet；8, the first flow-guiding channel；9, the second flow-guiding channel；10, third flow-guiding channel；11, fixed block；12, Cooling tube；13, deflector；14, water inlet；15, water outlet；16, heat sink；17, chamber is rotated；18, the second motor；19, it dissipates Hot blade；20, heat release hole.

Specific embodiment

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, it should be understood that preferred reality described herein Apply example only for the purpose of illustrating and explaining the present invention and is not intended to limit the present invention.

Embodiment: as shown in Figs. 1-5, the present invention provides a kind of technical solution, a kind of for the efficient without dead of laser equipment Angle radiator, including heat-dissipating casing 1, the insertion of 1 inner bottom of heat-dissipating casing are equipped with laser installation chamber 2, heat-dissipating casing 1 Flow chamber 3 is offered at corresponding laser installation 2 apical position of chamber in inside, 3 top of flow chamber is fixedly connected with water tank 4,4 roof of water tank has been bolted to connection first motor 5, and 5 output shaft of first motor is connected with draining leaf fan 6,4 bottom of water tank End offers 7 flow chamber of discharge outlet, 3 one end and offers the first flow-guiding channel 8, and 8 one end of the first flow-guiding channel is fixedly connected with the Two flow-guiding channels 9, in order to not influence laser works, the second flow-guiding channel 9 shares 6 equal parts and is fixed on 1 one end of heat-dissipating casing Two avris, and 9 both ends of the second flow-guiding channel are arc, liquid communication of being more convenient for, and the second flow-guiding channel 9 is logical far from the first water conservancy diversion 8 one end of road is fixedly connected with third flow-guiding channel 10, in order to uniformly cool down to laser installation chamber 2, the first water conservancy diversion 10 Jun You 10 of channel 8 and third flow-guiding channel, and the both ends of uniform fold laser installation chamber 2,8 He of the first flow-guiding channel Third flow-guiding channel 10 and 9 junction of the second flow-guiding channel are fixedly connected with deflector 13, and 1 top of heat-dissipating casing, two edge are symmetrical It is fixedly welded with fixed block 11, two adjacent one end of fixed block 11 are fixedly connected with cooling tube 12, in order to make liquid fast cooling, Two 11 middle parts of fixed block are opened up close to corresponding 10 center position of third flow-guiding channel of fixed block 11 of third flow-guiding channel 10 There is water inlet 14, and corresponding 12 center position of cooling tube of the fixed block 11 far from third flow-guiding channel 10 offers water outlet 15,15 other end joining water box of water outlet, 4 top；

For the ease of to radiating inside laser installation chamber 2,1 both ends of heat-dissipating casing are fixedly connected to heat sink 16, for quickly discharge and air-flow is introduced, two 16 tops of heat sink offer heat release hole 20, and the length and width of heat sink 16 are impartial Rotation chamber 17 is offered inside the length and width of rotation chamber 17, two heat sinks 16, laser installs 2 liang of inner walls of chamber Corresponding rotation 17 center position of chamber is fixedly connected to the second motor 18, and two 18 output shafts of the second motor are connected with heat dissipation Blade 19, and the insertion of radiator shutter 19 is mounted on rotation 17 center position of chamber.

The working principle of the invention and process for using: a kind of efficient no dead angle radiator for laser equipment is being used During, firstly, microlaser is installed inside laser installation chamber 2, laser model 1064nm ND: YAG is rotated by first motor 5 and drives 6 rotation of draining leaf fan, the liquid inside water tank 4 is discharged from discharge outlet 7, into stream Dynamic chamber 3 makes liquid enter the first flow-guiding channel 8, liquid is led into the second water conservancy diversion by deflector 13 by flow chamber 3 Channel 9 and third flow-guiding channel 10 make Breakup of Liquid Ring install chamber 2 around laser, absorb and take away swashing in laser installation chamber 2 The heat that light device is released, reaches cooling effect, meanwhile, it is each to laser installation chamber 2 by uniformly arranging flow-guiding channel It radiates in corner；

Then, the liquid with heat flows into water inlet 14 by third flow-guiding channel 10, into cooling tube 12, because cold But the narrow design of pipe 12 makes the fluid flow very little inside cooling tube 12, and temperature declines quickly, and liquid after cooling passes through Water outlet 15 enters water tank 4, is discharged again, forms circulating water flow, had not only saved resource but also can be with fast cooling；

Finally, drive radiator shutter 19 to rotate in rotation chamber 17 by the rotation of the second motor 18, it, will by heat release hole 20 Laser installs the thermal current extraction inside chamber 2, while the second motor 18 of the other end brings external air-flow into laser It installs inside chamber 2, forms the air-flow of high speed circulation, ceaselessly replace thermal current, make the temperature inside laser installation chamber 2 It reduces.

Finally, it should be noted that being not intended to restrict the invention the foregoing is merely preferred embodiment of the invention, to the greatest extent Present invention has been described in detail with reference to the aforementioned embodiments for pipe, for those skilled in the art, still can be with It modifies the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features.It is all Within the spirit and principles in the present invention, any modification, equivalent replacement, improvement and so on should be included in guarantor of the invention Within the scope of shield.

Claims (6)

1. a kind of efficient no dead angle radiator for laser equipment, including heat-dissipating casing (1), it is characterised in that: described to dissipate Hot shell (1) inner bottom insertion is equipped with laser installation chamber (2), corresponding laser peace inside the heat-dissipating casing (1) It behave affectedly at room (2) apical position and offers flow chamber (3), flow chamber (3) top is fixedly connected with water tank (4), institute It states water tank (4) roof to be bolted to connection first motor (5), first motor (5) output shaft is connected with draining leaf It fans (6), water tank (4) bottom end offers discharge outlet (7) flow chamber (3) one end and offers the first flow-guiding channel (8), Described first flow-guiding channel (8) one end is fixedly connected with the second flow-guiding channel (9), and second flow-guiding channel (9) is far from first Flow-guiding channel (8) one end is fixedly connected with third flow-guiding channel (10), two edge of heat-dissipating casing (1) top symmetrically fixed weldering It is connected to fixed block (11), the adjacent one end of two fixed blocks (11) is fixedly connected with cooling tube (12).

2. a kind of efficient no dead angle radiator for laser equipment according to claim 1, it is characterised in that: described First flow-guiding channel (8) and third flow-guiding channel (10) Jun You 10, and the both ends of uniform fold laser installation chamber (2), First flow-guiding channel (8) and third flow-guiding channel (10) and the second flow-guiding channel (9) junction are fixedly connected with deflector (13)。

3. a kind of efficient no dead angle radiator for laser equipment according to claim 1, it is characterised in that: described Second flow-guiding channel (9) shares two avris that 6 equal parts are fixed on heat-dissipating casing (1) one end, and the second flow-guiding channel (9) both ends For arc.

4. a kind of efficient no dead angle radiator for laser equipment according to claim 1, it is characterised in that: two Corresponding third flow-guiding channel (10) centre bit of fixed block (11) in the middle part of the fixed block (11) close to third flow-guiding channel (10) The place of setting offers water inlet (14), and corresponding cooling tube (12) center of the fixed block (11) far from third flow-guiding channel (10) Place offers water outlet (15), water outlet (15) other end joining water box (4) top.

5. a kind of efficient no dead angle radiator for laser equipment according to claim 1, it is characterised in that: described Heat-dissipating casing (1) both ends are fixedly connected to heat sink (16), offer rotation chamber inside two heat sinks (16) (17), described corresponding rotation chamber (17) center position of laser installation (2) two inner wall of chamber is fixedly connected to the second electricity Machine (18), two the second motor (18) output shafts are connected with radiator shutter (19), and radiator shutter (19) insertion is mounted on Rotate chamber (17) center position.

6. a kind of efficient no dead angle radiator for laser equipment according to claim 5, it is characterised in that: two Heat sink (16) top offers heat release hole (20), and the length and width of the heat sink (16) are equal to rotation chamber (17) Length and width.