CN212552262U - Marine sail laser welding equipment - Google Patents

Abstract

The utility model belongs to the technical field of the welding process, concretely relates to marine sail laser welding equipment, including laser welder, laser welder's front end suit water conservancy diversion gun case, water inlet and delivery port are seted up including the water conservancy diversion chamber that endotheca, overcoat, endotheca and overcoat formed to the water conservancy diversion gun case, overcoat, inlet channel is connected to the water inlet, and water outlet channel is connected to the delivery port. The utility model provides a marine sail laser welding equipment, it is that simple structure, convenient to use, safe and reliable, application temperature range are wide, efficient, are suitable for the marine sail welding equipment of adverse circumstances.

Description

Marine sail laser welding equipment

Technical Field

The utility model belongs to the technical field of the welding process, concretely relates to sail laser welding equipment for ship.

Background

In the 21 st century, laser welding has been rapidly developed, and with the continuous expansion of applications, the laser welding technology needs to be developed and perfected to meet the practical requirements. The laser welding is as follows: the material is melted with a laser beam of lower power than in the cutting technique and becomes a continuous solid body after cooling. The laser welding has the advantages of concentrated energy density, high welding speed, small deformation of the welded piece, almost no connecting gap, more beautiful appearance after welding than the traditional welding, and insufficient penetration of the laser welding process, and is just suitable for the marine sail thin plate material. Although present laser-beam welding machine can weld the welding piece outside being in the workstation, but still have the limitation to the application scope of temperature, work efficiency under high temperature or low temperature environment is very low, when the welding, the partial radiation of laser can make welder partial temperature very high, there is the potential safety hazard when the staff carries out the work, be unfavorable for lasting work, simultaneously, along with welded going on, the welding can continuously heat up, can face the shut down when arriving a certain temperature, influence the welded going on, can not satisfy actual welded demand.

In conclusion, developing a welding device for a sail for a ship, which has a simple structure, is convenient to use, is safe and reliable, has a wide applicable temperature range and high efficiency, and is suitable for being applied to a ship under severe environments, is a technical problem to be solved urgently by researchers at present.

SUMMERY OF THE UTILITY MODEL

In view of the defect that the background art exists, the utility model provides a marine sail laser welding equipment, it is wide, efficient for simple structure, convenient to use, safe and reliable, applicable temperature range, is suitable for adverse circumstances's marine sail welding equipment.

In order to achieve the above object, the utility model discloses the technical scheme who adopts is marine sail laser welding equipment, and it includes laser welder, laser welder's front end has added the water conservancy diversion gun case, the water conservancy diversion gun case includes the water conservancy diversion chamber that endotheca, overcoat, endotheca and overcoat formed, and water inlet and delivery port are seted up to the overcoat, inhalant canal is connected to the water inlet, and exhalant canal is connected to the delivery port.

Preferably, the flow guide gun sleeve is fixed 50mm behind a welding nozzle of the laser welding gun.

Preferably, the flow guide cavity is a spiral water channel arranged from the end far away from the welding mouth to the end close to the welding mouth.

Furthermore, the outer side of the inner sleeve of the flow guide gun sleeve is provided with a spiral groove, and the spiral groove and the inner side of the outer sleeve form a flow guide cavity.

Based on the technical scheme, in the process of external environment influence and welding, the compression type laser welding gun is stronger in environmental adaptability, the welding gun head is very close to the light-emitting position in the welding process, the front end part of the welding gun head can absorb laser radiation energy or reflection energy to cause the temperature of the welding gun head to be too high, at the moment, the hands of workers can be scalded, the welding processing effect can be influenced, the machine halt can be caused or optical components and parts can be damaged even in serious cases, the gun sleeve of the flow guide device is additionally arranged at the front end of the welding gun head in the compression type laser welding gun, and the size of the flow guide cavity can be changed by replacing gun sleeves of different specifications. Under the guide of the diversion cavity, water flows in from the water inlet channel at a certain speed, flows forwards along the inner sleeve of the gun sleeve, rotates for a circle around the gun sleeve, and then flows out from the water outlet channel to form stable water circulation, and heat at the front end is taken away through water cooling circulation, so that the temperature of the welding gun is reduced, the normal use of optical components in the compression type laser welding gun is effectively ensured, the normal operation of laser welding is ensured, and the occurrence of personnel accidents is avoided.

Furthermore, the flow guide gun sleeve further comprises a reducing sleeve and an end part connecting sleeve, the reducing sleeve is sleeved outside the inner sleeve, the outer diameter of the reducing sleeve is in threaded connection with the outer sleeve, one part of the end part connecting sleeve extends into the outer sleeve and is connected with the outer sleeve through a connecting screw, and the other part of the end part connecting sleeve is in contact with the end face of the outer sleeve.

Further, the laser welding equipment for the marine sail further comprises a laser, a temperature sensor, a water cooling system, a heating system, a main cabinet and a control system; a laser, a temperature sensor, a control system, a water cooling system and a heating system are arranged in the main cabinet; the temperature sensor is arranged close to the laser, and is connected with the control system, and the control system is respectively connected with the water cooling system and the heating system.

Preferably, the water cooling system is an industrial water chiller, and a water tank of the industrial water chiller is connected to the water inlet channel; the heating system is an air electric heater.

Preferably, the temperature sensor is a thermocouple sensor.

Based on the technical scheme, the utility model discloses a marine sail environmental suitability type laser welding equipment not only can be used in carrying out the laser welding on the marine sail, moreover through water cooling system and heating system, guarantees that the temperature of laser instrument and welder is in the safe value, guarantees the normal light-emitting of laser instrument, improves welding quality and efficiency, has also avoided the laser instrument to damage simultaneously, prolongs the life of laser instrument.

Furthermore, the front end of the laser welding gun comprises a ventilating welding nozzle, the air inlet pipe is provided with an air inlet channel, air is exhausted from a small hole in the front end of the welding nozzle, and the air control valve is locked on the air inlet pipe.

Based on above-mentioned technical scheme, because pressing mode laser welder is nearer from the weldment distance, welds the cigarette welding slag and blocks up the welding nozzle easily at the welded in-process, causes gaseous not to circulate, and welding front end thermal stability is relatively poor, the front end increases the welding nozzle of ventilating among the pressing mode laser welder, and welding nozzle front end aperture is the venthole, and at the during operation, the cover gas gets into pressing mode laser welder from the intake pipe of gas control valve locking in, flows from the venthole, and inside stable gas circulation passageway that forms has effectively protected welding cigarette welding slag to get into laser welder when the cooling.

On the other hand, the utility model provides a control method of a laser welding device for a ship sail, which comprises the following steps,

the method comprises the following steps: a power switch is switched on by a power line of the host machine, and the temperature sensor is started;

step two: according to the influence of the external environment temperature, when the temperature sensor detects that the temperature of the laser is lower than or higher than a certain value, a signal is sent to the control system, then the control system sends an instruction to the water cooling system or the heating system, when the internal environment temperature of the main cabinet reaches above a standard temperature, the laser power-on button is pressed, and the power-on button indicator light is turned on;

step three: pressing a laser high-pressure button, enabling a laser to be ready, opening a gas control valve, regulating gas flow and regulating power;

step four: pressing a safety button, lighting a safety button lamp, pressing a guide light indicating button, aligning a gun head to a required welding position, conducting gas when a trigger is pulled, conducting a laser to emit light, and starting welding;

the fifth step: in the welding process, a flow guide gun sleeve at the front end of the laser welding gun performs water circulation, and water flows rotationally and circularly in the flow guide cavity.

Preferably, the standard temperature is 10-30 ℃.

Based on the technical scheme, a water cooling system or a heating system is added to the ship sail environment-adaptive laser welding equipment. The temperature of the external environment is high, the temperature of the laser is increased due to laser radiation heat in the welding process, at the moment, the temperature sensor detects that the temperature reaches a critical value, information is transmitted to the control system, the control system sends an instruction to the water cooling system, the water cooling system carries out refrigeration, the temperature of the laser is guaranteed to be within a safe temperature value, and therefore normal welding is guaranteed.

When external environment temperature crosses lowly, can influence the normal light-emitting of laser instrument, influence welded effect and efficiency then, for guaranteeing to weld the operation of safe efficient, need guarantee the temperature of laser instrument is under normal temperature range, at this moment heating module just need work among the heating system, at first temperature sensor detects the temperature and is less than a definite value, gives signal transmission control system, again by control system sends the instruction to heating system, heating module heats among the heating system guarantees the laser instrument heaies up, makes the temperature reach normal light-emitting scope.

The utility model has the advantages that: simple structure, convenient to use, it is safe high-efficient, satisfy the operating condition environmental requirement.

Drawings

Fig. 1 is a schematic structural view of the present invention; FIG. 2 is a schematic structural view of the compact laser welding gun of the present invention; fig. 3 is a cross-sectional view of a holster (diversion holster) of the diversion device of the present invention; fig. 4 is a structure diagram of a holster (flow guiding holster) of the flow guiding device of the present invention; fig. 5 is a first control schematic diagram of the present invention; FIG. 6 is an enlarged view of a portion A of FIG. 5; FIG. 7 is an enlarged view of a portion of FIG. 5 at B; FIG. 8 is an enlarged view of a portion of FIG. 5 at C; fig. 9 is a second control schematic diagram of the present invention; FIG. 10 is an enlarged view of a portion of FIG. 9 at C; FIG. 11 is an enlarged view of a portion of FIG. 9 at D; fig. 12 is a third control schematic of the present invention; FIG. 13 is an enlarged view of a portion of FIG. 12 at E; FIG. 14 is an enlarged view of a portion of FIG. 12 at F; fig. 15 is a fourth control schematic diagram of the present invention; FIG. 16 is an enlarged view of a portion of FIG. 15 taken at G; FIG. 17 is an enlarged view of a portion of FIG. 15 at H; fig. 18 is a fifth control schematic diagram of the present invention; fig. 19 is a sixth control schematic diagram of the present invention; fig. 20 is a seventh control schematic diagram of the present invention; FIG. 21 is an enlarged view of a portion of FIG. 20 taken at J; FIG. 22 is an enlarged view of a portion of FIG. 20 taken at I; fig. 23 is an eighth control schematic diagram of the present invention; FIG. 24 is an enlarged view of a portion of FIG. 23 at L; FIG. 25 is an enlarged view of a portion of FIG. 23 at M; FIG. 26 is an enlarged view of a portion of FIG. 23 at N; fig. 27 is a schematic view of a flow guide holster according to embodiment 2;

in the figure: 1. the laser, 2, the water cooling system, 3, the heating system, 4, the control system, 5, the main cabinet, 6, optic fibre, 7, pressing mode laser welding rifle, 8, temperature sensor, 9, water conservancy diversion gun case, 9.1, endotheca, 9.2, overcoat, 9.3, the water conservancy diversion chamber, 9.4, inhalant canal, 9.5, water outlet channel, 9.6, the water inlet, 9.7, the delivery port, 9.8, the reducing cover, 9.9, the tip adapter sleeve, 10, the welding mouth, 11, the trigger, 12, power adjust knob, 13, the safety button, 14, protective gas pipeline connects.

Detailed Description

Example 1

The utility model provides a marine sail laser welding equipment, its includes compact form laser welding rifle 7, compact form laser welding rifle 7's front end has added water conservancy diversion gun case 9, water conservancy diversion gun case 9 includes water conservancy diversion chamber 9.3 that endotheca 9.1, overcoat 9.2, endotheca 9.1 and overcoat 9.2 formed, and water inlet 9.6 and delivery port 9.7 are seted up to overcoat 9.2, inhalant canal 9.4 is connected to the water inlet, and exhalant canal 9.5 is connected to the delivery port.

Preferably, the flow guide gun sleeve 9 is fixed 50mm behind the welding nozzle of the compression type laser welding gun 7.

Preferably, the diversion cavity 9.3 is a spiral water channel arranged from the end far away from the welding mouth to the end close to the welding mouth.

Further, a spiral groove is formed in the outer side of an inner sleeve 9.1 of the flow guide gun sleeve 9, and a flow guide cavity 9.3 is formed between the spiral groove and the inner side of an outer sleeve 9.2.

Example 2

The utility model provides a marine sail laser welding equipment, its includes compact form laser welding rifle 7, compact form laser welding rifle 7's front end has added water conservancy diversion gun case 9, water conservancy diversion gun case 9 includes water conservancy diversion chamber 9.3 that endotheca 9.1, overcoat 9.2, endotheca 9.1 and overcoat 9.2 formed, and water inlet 9.6 and delivery port 9.7 are seted up to overcoat 9.2, inhalant canal 9.4 is connected to the water inlet, and exhalant canal 9.5 is connected to the delivery port.

Preferably, the flow guide gun sleeve 9 is fixed 50mm behind the welding nozzle of the compression type laser welding gun 7.

Preferably, the diversion cavity 9.3 is a spiral water channel arranged from the end far away from the welding mouth to the end close to the welding mouth.

Further, a spiral groove is formed in the outer side of an inner sleeve 9.1 of the flow guide gun sleeve 9, and a flow guide cavity 9.3 is formed between the spiral groove and the inner side of an outer sleeve 9.2.

As shown in fig. 27, further, the flow guiding gun case 9 further includes a diameter changing sleeve 9.8 and an end connecting sleeve 9.9, the diameter changing sleeve 9.8 is sleeved outside the inner sleeve 9.1, the outer diameter of the diameter changing sleeve 9.8 is in threaded connection with the outer sleeve 9.2, one part of the end connecting sleeve 9.9 extends into the outer sleeve and is connected with the outer sleeve 9.2 through a connecting screw, and the other part of the end connecting sleeve 9.9 is in contact with the end surface of the outer sleeve.

Example 3

The laser welding equipment for the marine sail comprises a compression type laser welding gun 7, wherein a flow guide gun sleeve 9 is additionally arranged at the front end of the compression type laser welding gun 7, the flow guide gun sleeve 9 comprises a flow guide cavity 9.3 formed by an inner sleeve 9.1, an outer sleeve 9.2, an inner sleeve 9.1 and an outer sleeve 9.2, the outer sleeve 9.2 is provided with a water inlet 9.6 and a water outlet 9.7, the water inlet 9.6 is connected with a water inlet channel 9.4, and the water outlet 9.7 is connected with a water outlet channel 9.5.

Preferably, the flow guide gun sleeve 9 is fixed 50mm behind the welding nozzle of the compression type laser welding gun 7.

Preferably, the diversion cavity 9.3 is a spiral water channel arranged from the end far away from the welding mouth to the end close to the welding mouth.

Further, a spiral groove is formed in the outer side of an inner sleeve 9.1 of the flow guide gun sleeve 9, and a flow guide cavity 9.3 is formed between the spiral groove and the inner side of an outer sleeve 9.2.

Further, the laser welding equipment for the marine sail further comprises a laser 1, a temperature sensor 8, a water cooling system 2, a heating system 3, a main cabinet 5 and a control system 4; a laser 1, a temperature sensor 8, a control system 4, a water cooling system 2 and a heating system 3 are arranged in the main cabinet 5; the temperature sensor 8 is close to the laser 1, the temperature sensor 8 is connected with the control system 4, and the control system 4 is respectively connected with the water cooling system 2 and the heating system 3.

Preferably, the water cooling system 2 is an industrial water chiller, and a water tank of the industrial water chiller is connected to a water inlet channel 9.4 of the flow guide gun sleeve 9 through a hose, a connector and the like; the heating system 3 is an electric air heater.

Furthermore, the model of the industrial water chiller can be selected from a specific electromechanical CW-5000/5200.

Preferably, the temperature sensor 8 is a thermocouple sensor.

Furthermore, the front end of the compression type laser welding gun 7 comprises a ventilating welding nozzle 10, the air inlet pipe is provided with an air inlet channel, air is exhausted from a small hole in the front end of the welding nozzle 10, and the air control valve is locked on the air inlet pipe.

On the other hand, the utility model provides a control method of a laser welding device for a ship sail, which comprises the following steps,

the method comprises the following steps: a power switch is switched on by a power line of the host machine, and the temperature sensor is started;

step two: according to the influence of the external environment temperature, when the temperature sensor detects that the temperature of the laser is lower than or higher than a certain value, a signal is sent to the control system, then the control system sends an instruction to the water cooling system 2 or the heating system 3, when the internal environment temperature of the main cabinet 5 reaches above a standard temperature, the laser power-on button is pressed, and the power-on button indicator light is turned on;

step three: pressing a laser high-pressure button, enabling the laser 1 to be ready, opening a gas control valve, regulating the gas flow and regulating the power;

step four: pressing a safety button, lighting a safety button lamp, pressing a guide light indicating button, aligning a gun head to a required welding position, conducting gas when a trigger is pulled, conducting a laser 1 to emit light, and starting welding;

the fifth step: in the welding process, the flow guide gun sleeve 9 at the front end of the compression type laser welding gun 7 performs water circulation, and water flow rotates and circulates in the flow guide cavity.

Preferably, the standard temperature is 10-30 ℃.

Example 4

As shown in fig. 1, a laser welding device for a marine sail is a complete laser welding device with optical, mechanical and electrical integration, and includes a laser 1, a water cooling system 2, a heating system 3, a compact laser welding gun 7, a main cabinet 5, a control system 4, a flow guide gun sleeve 9, a welding nozzle 10, a trigger 11, and an air and water path system. A water cooling system and a heating system are added in the ship sail environment-adaptive laser welding equipment. The temperature of the laser 1 is high due to high external environment temperature and laser radiation heat in the welding process, at the moment, the temperature sensor detects that the temperature reaches a critical value, information is transmitted to the control system 4, the control system 4 sends an instruction to the water cooling system 2, the water cooling system 2 carries out refrigeration, the temperature of the laser 1 is guaranteed to be within a safe temperature value, and therefore normal welding is guaranteed.

When external environment temperature was crossed lowly, can influence laser instrument 1's normal light-emitting, then influence welded effect and efficiency, for guaranteeing to weld safe efficient and carry out the operation, need guarantee laser instrument 1's temperature is under normal temperature range, at this moment heating module just need work among the heating system 3, at first temperature sensor detects the temperature and is less than a definite value, with signal transmission for control system 4, by control system 4 sends the instruction again to heating system 3, heating module heats among the heating system 3 and guarantees laser instrument 1 heaies up, makes the temperature reach normal light-emitting scope.

Preferably, in the embodiment of the utility model, the water conservancy diversion gun case 9 that has added the guiding device in the welding gun head front end among the compact form laser welder 7 sets up 50mm department behind welding nozzle 10, be formed with the cavity of guiding device in the water conservancy diversion gun case 9, constitute hydrologic cycle, water conservancy diversion gun case 9 both sides are including inlet channel and exhalant canal, the circulation of guide water volume. In the external environmental influence and the welding process, the impact on the environmental adaptability of the compact laser welding gun 7 is greater, because the welding gun head is very close to the light-emitting position in the welding process, the front end part of the welding gun head can absorb laser radiation energy or reflection energy to cause the temperature of the welding gun head to be overhigh, the hands of workers can be scalded, the welding processing effect can be influenced, and the machine halt and even the damage to optical components can be caused in serious cases, the flow guide gun sleeve 9 of the flow guide device is added at the front end of the welding gun head in the compact laser welding gun 7 (the size of a flow guide cavity in the flow guide gun sleeve 9 can be changed according to the water flow), under the guide of the flow guide cavity, water flows in from the water inlet channel at a certain speed, flows forwards along an inner sleeve of the flow guide gun sleeve 9 and rotates around the flow guide gun sleeve 9 for a circle, then flows out from the water outlet channel to form stable water circulation, and the, the temperature of the welding gun is reduced, the normal use of optical components in the compression type laser welding gun 7 is effectively guaranteed, the normal operation of laser welding is guaranteed, and the occurrence of personnel accidents is avoided.

Preferably, in the embodiment of the present invention, the front end of the compact laser welding gun 7 includes a welding nozzle 10 for ventilation, the air inlet pipe has an air inlet channel, air is discharged from a small hole at the front end of the welding nozzle 10, and the gas control valve is locked on the air inlet pipe. Because compact form laser welder 7 is nearer from the weldment distance, welds the cigarette welding slag and blocks up the welding mouth easily at the welded in-process, causes gaseous non-circulation, and welding front end thermal stability is relatively poor, front end increases the welding mouth 10 of ventilating among the compact form laser welder 7, and welding mouth front end aperture is the venthole, and at the during operation, the cover gas gets into compact form laser welder 7 from the intake pipe of gas control valve locking in, flows from the venthole, and inside forms stable gas circulation passageway, has effectively protected welding cigarette welding slag to get into in the laser welder when cooling down again.

The utility model also provides an above-mentioned marine sail environmental adaptation type laser-beam welding machine's operating method, the method includes following step:

the first step is as follows: when the power switch is switched on by the power line of the host machine, the power supply abnormality indicator lamp is not lighted, the equipment power indicator lamp is lighted, and the temperature sensor is started immediately.

The second step is that: according to the influence of the external environment temperature, when the temperature sensor detects that the temperature of the laser is lower than or higher than a certain value, the temperature sensor sends a signal to the control system 4, and then the control system 4 sends an instruction to the water cooling system or the heating system, so that when the internal environment temperature of the main cabinet reaches above 10-30 ℃, the laser power-on button is pressed, and the power-on button indicator lamp is turned on.

The third step: and pressing a laser high-pressure button, turning on a gas control valve when the laser is ready, adjusting the gas flow, and adjusting a power adjusting knob to a scale corresponding to the required power.

The fourth step: when the safety button is pressed down, the safety button lamp is lightened, the guiding and indicating light button is pressed down, the gun head is aligned to a required welding position, gas is conducted when the trigger is pulled, the laser is conducted to emit light, and welding is started (welding can be stopped when the trigger is loosened).

The fifth step: and in the welding process, a flow guide gun sleeve of a flow guide device at the front end of the welding head performs water circulation to guide the water to rotate and circulate in the cavity.

Compared with the prior art, the utility model, its beneficial effect is: the utility model discloses a marine sail environmental suitability type laser welding machine simple structure, convenient to use, it is safe high-efficient, satisfy the operating condition environmental requirement.

The utility model discloses a marine sail environmental suitability type laser welding equipment not only can be used in carrying out the laser welding on the marine sail, moreover through water cooling system and heating system, guarantees the normal light-emitting of laser instrument in safe value of the temperature of laser instrument and welder, improves welding quality and efficiency, has also avoided the laser instrument to damage simultaneously, prolongs the life of laser instrument.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a marine sail laser welding equipment which characterized in that: the laser welding gun comprises a laser welding gun body, wherein a flow guide gun sleeve is sleeved at the front end of the laser welding gun body and comprises an inner sleeve, an outer sleeve, an inner sleeve and a flow guide cavity formed by the outer sleeve, a water inlet and a water outlet are formed in the outer sleeve, the water inlet is connected with a water inlet channel, and the water outlet is connected with a water outlet channel.

2. The laser welding device for the sail of the ship as claimed in claim 1, wherein: the diversion gun case is fixed 50mm behind the welding nozzle of the laser welding gun.

3. The laser welding apparatus for a sail for a ship according to claim 1 or 2, wherein: the flow guide cavity is a spiral water channel which is arranged from the end far away from the welding nozzle to the end close to the welding nozzle.

4. The laser welding apparatus for a sail for a ship according to claim 1 or 2, wherein: the outer side of the inner sleeve of the flow guide gun sleeve is provided with a spiral groove, and the spiral groove and the inner side of the outer sleeve form a flow guide cavity.

5. The laser welding apparatus for a sail for a ship according to claim 1 or 2, wherein: and a sealing ring is arranged between the outer sleeve and the inner sleeve.

6. The laser welding apparatus for a sail for a ship according to claim 1 or 2, wherein: the diversion gun case also comprises a reducing sleeve and an end part connecting sleeve, the reducing sleeve is sleeved outside the inner sleeve, the outer diameter of the reducing sleeve is in threaded connection with the outer sleeve, one part of the end part connecting sleeve extends into the outer sleeve and is connected with the outer sleeve through a connecting screw, and the other part of the end part connecting sleeve is in contact with the end face of the outer sleeve.

7. The laser welding device for the sail of the ship as claimed in claim 6, wherein: and a sealing ring is arranged between the reducing sleeve and the inner sleeve.

8. The laser welding device for the sail of the ship as claimed in claim 1, wherein: the laser welding equipment for the marine sail further comprises a laser, a temperature sensor, a water cooling system, a heating system, a main cabinet and a control system; a laser, a temperature sensor, a control system, a water cooling system and a heating system are arranged in the main cabinet; the temperature sensor is arranged close to the laser, and is connected with the control system, and the control system is respectively connected with the water cooling system and the heating system.

9. The laser welding device for the sail of the ship as claimed in claim 8, wherein: the water cooling system is an industrial water chiller, and a water tank of the industrial water chiller is connected to the water inlet channel; the heating system is an air electric heater.

10. The laser welding device for the sail of the ship as claimed in claim 8, wherein: the temperature sensor is a thermocouple sensor.

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