CN116572030B - Automatic assembly tool and assembly method for laser output head - Google Patents

Abstract

The invention discloses an automatic assembly tool and an assembly method of a laser output head. Wherein, automatic equipment frock includes: the device comprises an assembly table, a winding machine, a suction pump, a cutting machine, a welding machine, a dispensing machine and a pulling machine; the two ends of the assembly table are respectively provided with a first sliding rail and a second sliding rail, the cutting machine, the welding machine and the dispensing machine are arranged on the first sliding rail, the suction pump and the pulling machine are arranged on the second sliding rail, the winding machine is arranged adjacent to the first sliding rail, and the assembly table between the first sliding rail and the second sliding rail is provided with fixing pliers which are used for fixing the armoured cable. The automatic assembly fixture can realize the automatic assembly production from the butt joint of the laser output head from the quartz crystal and the optical fiber to the assembly protection of the metal piece and the armor cable, improves the consistency and the reliability of products, and the production efficiency of the laser output head, saves the production cost, and can meet the requirement of mass production.

Description

Automatic assembly tool and assembly method for laser output head

Technical Field

The invention belongs to the technical field of laser output head processing, and particularly relates to an automatic assembly tool and an assembly method of a laser output head.

Background

Along with the development of economy and the progress of society, the high-power fiber laser is widely applied in the fields of industrial processing, 3D printing and the like; the laser output head plays an irreplaceable role as a core output component of the high-power fiber laser.

The existing laser output head assembly process needs to be divided into a plurality of working procedure production lines, such as an output head welding production line, an output head metal shell assembly production line, an output head tail fiber protection production line and the like, which leads to huge volume of the whole assembly equipment, large occupied space and time consuming product transfer and taking and placing, thereby increasing the production cost of the product; in addition, the existing laser output head production line has poor automation capability, and manual operation is continuously required during assembly, so that the time spent by manpower is long, the efficiency is low, and the requirement of mass production is difficult to meet; moreover, due to excessive manual operation, the consistency and reliability of the product are poor, and the quality of the product is difficult to control.

Disclosure of Invention

In view of the above, the present invention discloses an automatic assembly tool and an assembly method for a laser output head, so as to overcome or at least partially solve the above-mentioned problems.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

in one aspect, the present invention provides an automatic assembly fixture for a laser output head, including: the device comprises an assembly table, a winding machine, a suction pump, a cutting machine, a welding machine, a dispensing machine and a pulling machine;

the two ends of the assembly table are respectively provided with a first sliding rail and a second sliding rail, the cutting machine, the welding machine and the dispensing machine are arranged on the first sliding rail, the suction pump and the pulling machine are arranged on the second sliding rail, the winding machine is arranged adjacent to the first sliding rail, and a fixing clamp is arranged on the assembly table between the first sliding rail and the second sliding rail and used for fixing the armoured cable;

the winding machine is used for conveying optical fibers and enameled wires; the suction pump is used for providing suction force for the inside of the armoured cable so that the optical fiber and the enameled wire penetrate into the armoured cable; the cutter is used for cutting the end face of the optical fiber; the fusion splicer is used for fusing the quartz crystal and the optical fiber; the glue dispenser is used for glue sealing the quartz crystal and the metal piece and bonding the metal piece and the armoured cable; the pulling machine is used for pulling the optical fiber, so that the optical fiber exposed at the front end of the armoured cable is pulled into the armoured cable.

Further, the device also comprises an optical fiber coating stripper;

the optical fiber coating stripping machine is arranged on the first sliding rail and is used for stripping the coating layer of the optical fiber.

Further, the device also comprises a coiling machine;

the coiling machine is arranged on the second sliding rail and is used for coiling the assembled laser output head armoured cable into a coil.

Further, a cutting unit and a synchronous control unit are arranged on the winding machine;

the cutting unit is used for cutting the optical fiber and the enameled wire, and the synchronous control unit is used for enabling the optical fiber disc and the enameled wire disc to keep the same rotating speed and outputting the optical fiber and the enameled wire.

Further, a first clamp, a second clamp and a discharge unit are arranged on the welding machine;

the first clamp and the second clamp are respectively used for clamping the quartz crystal and the optical fiber, and the discharge unit is used for welding the quartz crystal and the optical fiber.

Further, the dispensing machine is provided with a dispensing needle head and a glue curing lamp;

the dispensing needle head is used for injecting glue, and the glue curing lamp is used for accelerating the curing of the glue.

The invention also provides an assembling method of the laser output head, which adopts the automatic assembling tool of the laser output head to assemble the laser output head, and the assembling method specifically comprises the following steps:

step S01, fixing the armor cable on the fixing clamp;

s02, penetrating the optical fiber and the enameled wire into the armored cable, and cutting the end face of the optical fiber;

step S03, welding the optical fiber with the quartz crystal;

and S04, glue sealing and fixing the quartz crystal and the metal piece, and bonding and fixing the metal piece and the armoured cable.

Further, the step S02 specifically includes:

s21, synchronously conveying the optical fiber and the enameled wire, and providing suction force to the inside of the armored cable so that the optical fiber and the enameled wire penetrate into the armored cable;

s22, cutting the optical fiber and the enameled wire, and stripping a coating layer of the optical fiber;

and S23, cutting the end face of the optical fiber to enable the end face of the optical fiber to be flat and smooth.

Further, the step S03 specifically includes:

step S31, the optical fiber passes through the metal piece and is crimped and fixed with the metal piece and the enameled wire;

and S32, aligning the optical fiber with the quartz crystal, and welding and fixing the optical fiber.

Further, the step S04 specifically includes:

step S41, pulling the optical fiber to enable the quartz crystal to enter the metal piece;

step S42, injecting glue into the glue injection groove between the metal piece and the quartz crystal, and curing the glue;

step S43, pulling the optical fiber again to enable the metal piece to be in contact with the armor cable;

and S44, gluing and fixing the metal piece and the armoured cable.

The invention has the advantages and beneficial effects that:

according to the automatic assembly tool, the fixing pliers for fixing the armor cable are arranged on the assembly table, the first sliding rail and the second sliding rail are respectively arranged at the two ends of the assembly table, the cutting machine, the welding machine and the adhesive dispensing machine are arranged on the first sliding rail, the suction pump and the tension machine are arranged on the second sliding rail, so that the butt joint of the quartz crystal and the optical fiber can be realized, the automatic assembly production of the assembly protection of the metal piece and the armor cable can be realized, a plurality of assembly procedures can be completed on one production line, the production efficiency of the laser output head is improved, the production cost is saved, and the large-scale production requirement can be met; and moreover, the automatic assembly tool can realize full-automatic assembly of the laser output head, so that not only can the dependence on manpower be reduced, but also the consistency and reliability of products can be improved, and the quality of the products can be ensured.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 is a schematic view of an automatic assembly tool for laser output heads according to an embodiment of the present invention during cable threading;

FIG. 2 is a schematic view of an automated assembly tool for laser output heads during fusion according to one embodiment of the present invention;

FIG. 3 is a schematic diagram of an automatic assembly fixture for a laser output head in an embodiment of the present invention during package fixing;

FIG. 4 is a schematic view of an automated assembly tool for laser output heads in accordance with one embodiment of the present invention in coiled packaging;

FIG. 5 is a block diagram illustrating an embodiment of a method for assembling a laser output head.

In the figure: 1. an assembly table; 2. a winding machine; 3. a getter pump; 4. a cutting machine; 5. a fusion splicer; 6. a dispensing machine; 7. a pulling machine; 8. a fixed clamp; 9. an armoured cable; 10. an optical fiber; 11. enamelled wires; 12. a quartz crystal; 13. a metal piece; 14. a coiling machine.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The following describes in detail the technical solutions provided by the embodiments of the present invention with reference to the accompanying drawings.

An embodiment of the invention discloses an automatic assembly fixture for a laser output head, as shown in fig. 1 to 3, the automatic assembly fixture comprises: an assembling table 1, a winding machine 2, a suction pump 3, a cutting machine 4, a welding machine 5, a dispensing machine 6 and a pulling machine 7.

Specifically, the two ends of the assembly table 1 are respectively provided with a first sliding rail and a second sliding rail, and the first sliding rail and the second sliding rail can be arranged on the assembly table 1 or on other supporting structures at the two ends of the assembly table 1; the cutting machine 4, the welding machine 5 and the dispensing machine 6 are arranged on a first sliding rail and can slide on the first sliding rail, and the suction pump 3 and the pulling machine 7 are arranged on a second sliding rail and can slide on the second sliding rail; the winding machine 2 is disposed adjacent to the first sliding rail, and of course, the winding machine may also be disposed on the first sliding rail, which is also within the scope of the present invention; in addition, be equipped with fixed pincers 8 on the assembly bench 1 between first slide rail and the second slide rail, fixed pincers 8 are used for fixed armour cable 9, and the quantity of armour cable 9 can set up as required. Thus, when the assembly of the laser output head progresses to a certain assembly procedure, the equipment required by the assembly procedure slides to the position of the armor cable 9 through the sliding rail, the assembly of the laser output head is carried out, when the assembly procedure is completed, the equipment required by the assembly procedure slides away from the armor cable 9, and the equipment required by the next assembly procedure slides to the position of the armor cable 9 through the sliding rail; through the mutual cooperation of the equipment, the automatic and integrated assembly production of the laser output head can be realized, namely, all assembly procedures of the laser output head can be completed through one production line, the assembly efficiency is improved, and the production cost is saved.

Wherein, an optical fiber disc and an enamelling wire disc can be placed on the winding machine 2 and are used for providing and conveying an optical fiber 10 and enamelled wires 11 for the assembly of a laser output head; the suction pump 3 is used for providing suction force for the inside of the armoured cable 9, so that the optical fiber 10 and the enameled wire 11 can easily penetrate into the armoured cable 9; the cutter 4 is used for cutting the end face of the optical fiber 10, so that the optical fiber 10 and the quartz crystal 12 are conveniently welded; the fusion splicer 5 is used for fusing the quartz crystal 12 and the optical fiber 10, so that the quartz crystal 12 and the optical fiber 10 are fused into a whole; the glue dispenser 6 is used for glue sealing the quartz crystal 12 and the metal piece 13, and bonding the metal piece 13 and the armoured cable 9, so that the quartz crystal 12 and the metal piece 13 are fixedly connected, and the metal piece 13 and the armoured cable 9 are fixedly connected; the tension machine 7 is used for pulling the optical fiber 10, so that the optical fiber 10 exposed at the front end of the armored cable 9 is pulled into the armored cable 9, and the front end of the armored cable 9 is one end of the armored cable 9 close to the first sliding rail.

It is to be noted that, the fusion point of the optical fiber and the quartz crystal is very fragile, and the metal piece is arranged and fixedly connected with the quartz crystal, so that the fusion point is positioned in the metal piece, thereby realizing effective protection of the fusion point, the metal piece can play a role in a closed environment, ensuring that the fusion point is in a clean space environment, further prolonging the service life of the laser output head, and enabling the light spot output by the laser output head to be more uniform; in addition, the armoured cable is sleeved outside the optical fiber, and can bear enough tension and pressure, so that the optical fiber can be effectively prevented from being wound and broken, torsion and bending force can not be generated by the optical fiber through the protection of the armoured cable, and the quality of output light spots is ensured.

In summary, in the automatic assembly fixture of the embodiment, by arranging the fixing pliers for fixing the armor cable on the assembly table, arranging the first sliding rail and the second sliding rail at two ends of the assembly table respectively, arranging the cutting machine, the welding machine and the dispensing machine on the first sliding rail, and arranging the suction pump and the pulling machine on the second sliding rail, the butt joint of the quartz crystal and the optical fiber can be realized, and the automatic assembly production of the assembly protection of the metal piece and the armor cable can be realized, so that a plurality of assembly procedures can be completed on one production line, the production efficiency of the laser output head is improved, the production cost is saved, and the large-scale production requirement can be met; and moreover, the automatic assembly tool can realize full-automatic assembly of the laser output head, so that not only can the dependence on manpower be reduced, but also the consistency and reliability of products can be improved, and the quality of the products can be ensured.

In this embodiment, the automatic assembly fixture further includes an optical fiber coating stripper.

The optical fiber coating stripping machine is arranged on the first sliding rail, can slide on the first sliding rail and can be used for stripping the coating layer of the optical fiber; when the coating layer of the optical fiber is required to be stripped, the optical fiber coating stripper slides to the armor cable, and slides away from the armor cable after the coating layer is stripped; thus, the automatic stripping of the coating layer of the optical fiber can be realized by the optical fiber coating stripper.

In addition, as shown in fig. 4, the automatic assembly fixture further includes a coiling machine 14.

The coiling machine 14 is arranged on the second sliding rail and can slide on the second sliding rail, and is used for coiling the assembled laser output head armor cable into a coil, namely, after the laser output head is assembled, the coiling machine 14 coils the laser output head armor cable according to a certain diameter, so that automatic packaging of the laser output head armor cable is realized.

In this embodiment, the winding machine is provided with a cutting unit and a synchronous control unit, and the cutting unit may be a shearing knife.

The cutting unit is used for cutting the optical fiber and the enameled wire, and when the optical fiber and the enameled wire conveyed by the winding machine meet the length requirement of assembly, the optical fiber and the enameled wire can be cut through the cutting unit; the synchronous control unit is used for enabling the optical fiber disc and the enamelled wire disc to keep the same rotation speed and outputting the optical fiber and the enamelled wire, and further the optical fiber and the enamelled wire can conveniently penetrate into the armoured cable synchronously.

And, be equipped with first anchor clamps, second anchor clamps, discharge unit and control unit on the welding machine, this control unit can be the control screen.

The first clamp and the second clamp are respectively used for clamping the quartz crystal and the optical fiber so that the quartz crystal and the optical fiber are aligned; the discharge unit is used for welding the quartz crystal and the optical fiber so that the quartz crystal and the optical fiber are welded into a whole; the control unit is used for selecting a replacement welding procedure and modifying welding parameters.

In addition, the dispensing machine is provided with a dispensing needle head and a glue curing lamp.

The glue dispensing needle head is used for injecting glue so that the glue can be injected into a glue injection groove between the metal piece and the quartz crystal and between the metal piece and the armor cable; the glue curing lamp is used for accelerating glue curing, and then improving the assembly efficiency of the laser output head.

In another embodiment of the present invention, an assembling method of a laser output head is disclosed, and the laser output head is assembled by using the automatic assembling tool of the laser output head in the above embodiment, as shown in fig. 5, the assembling method specifically includes the following steps:

and S01, fixing the armoured cable on the fixing clamp, and further enabling the armoured cable to be clamped and fixed on the assembly table.

And S02, penetrating the optical fiber and the enameled wire into the armored cable, and cutting the end face of the optical fiber.

And S03, welding the optical fiber with the quartz crystal.

And S04, glue sealing and fixing the quartz crystal and the metal piece, and adhering and fixing the metal piece and the armoured cable.

Therefore, by the assembly method, the laser output head can be automatically assembled, the assembly efficiency of the laser output head is improved, the production cost is saved, and the requirement of mass production can be met.

As shown in fig. 1, step S02 specifically includes:

step S21, synchronously conveying the optical fiber 10 and the enameled wire 11 to the assembly table 1 through the winding machine 2, connecting the suction pump 3 with the armored cable 9, and providing suction force to the inside of the armored cable 9 so that the optical fiber 10 and the enameled wire 11 can easily penetrate into the armored cable 9.

Step S22, after meeting the length requirement of the assembly, cutting the optical fiber 10 and the enameled wire 11, and stripping the coating layer of the optical fiber 10 by an optical fiber coating stripper.

In step S23, the end face of the optical fiber 10 is cut by the cutter 4, so that the end face of the optical fiber 10 is flat and smooth, and is further convenient to be welded with the quartz crystal 12.

In addition, as shown in fig. 2, step S03 specifically includes:

in step S31, the optical fiber 10 is first passed through the metal member 13, and then the metal member 13 is crimped and fixed with the enamel wire 11.

In step S32, the optical fiber 10 and the quartz crystal 12 are aligned by the fusion splicer 5, and fusion-fixing of both is performed.

Further, as shown in fig. 3, step S04 specifically includes:

in step S41, the optical fiber 10 is pulled by the pulling machine 7, so that the optical fiber 10 moves in the direction of the pulling machine 7, and the quartz crystal 12 is introduced into the metal member 13.

In step S42, glue is injected into the glue injection groove between the metal piece 13 and the quartz crystal 12 through the glue injection needle on the glue injection machine 6, and then the glue is irradiated through the glue curing lamp on the glue injection machine 6, so as to accelerate the curing of the glue.

In step S43, the optical fiber 10 is pulled again by the pulling machine 7, so that the optical fiber 10 moves in the direction of the pulling machine 7, and the metal piece 13 is brought into contact with the armoured cable 9.

Step S44, glue is injected between the metal piece 13 and the armour cable 9 through the glue dispenser 6, so that glue coating fixation of the metal piece 13 and the armour cable 9 is realized.

In this embodiment, the method for assembling a laser output head further includes:

step S05, as shown in fig. 4, a protective cap is sleeved at the front end of the quartz crystal, and the assembled laser output head armor cable is coiled and packaged by a coiling machine 14.

The foregoing is merely a specific embodiment of the invention and other modifications and variations can be made by those skilled in the art in light of the above teachings. It is to be understood by persons skilled in the art that the foregoing detailed description is provided for the purpose of illustrating the invention more fully, and that the scope of the invention is defined by the appended claims.

Claims (5)

1. Automatic equipment frock of laser output head, its characterized in that includes: the device comprises an assembly table, a winding machine, a suction pump, a cutting machine, a welding machine, a dispensing machine and a pulling machine;

the two ends of the assembly table are respectively provided with a first sliding rail and a second sliding rail, the cutting machine, the welding machine and the dispensing machine are arranged on the first sliding rail, the suction pump and the pulling machine are arranged on the second sliding rail, the winding machine is arranged adjacent to the first sliding rail, and a fixing clamp is arranged on the assembly table between the first sliding rail and the second sliding rail and used for fixing the armoured cable;

the winding machine is used for conveying optical fibers and enameled wires; the suction pump is used for providing suction force for the inside of the armoured cable so that the optical fiber and the enameled wire penetrate into the armoured cable; the cutter is used for cutting the end face of the optical fiber; the fusion splicer is used for fusing the quartz crystal and the optical fiber; the glue dispenser is used for glue sealing the quartz crystal and the metal piece and bonding the metal piece and the armoured cable; the pulling machine is used for pulling the optical fiber to enable the optical fiber exposed at the front end of the armoured cable to be pulled into the armoured cable;

the winding machine is provided with a cutting unit and a synchronous control unit;

the cutting unit is used for cutting the optical fiber and the enameled wire, and the synchronous control unit is used for enabling the optical fiber disc and the enameled wire disc to keep the same rotating speed and outputting the optical fiber and the enameled wire;

the welding machine is provided with a first clamp, a second clamp and a discharge unit;

the first clamp and the second clamp are respectively used for clamping the quartz crystal and the optical fiber, and the discharge unit is used for welding the quartz crystal and the optical fiber;

the dispensing machine is provided with a dispensing needle head and a glue curing lamp;

the dispensing needle head is used for injecting glue, and the glue curing lamp is used for accelerating the curing of the glue.

2. The automated assembly tooling of a laser output head of claim 1, further comprising an optical fiber coating stripper;

the optical fiber coating stripping machine is arranged on the first sliding rail and is used for stripping the coating layer of the optical fiber.

3. The automated assembly tooling for a laser output head of claim 1, further comprising a disk winder;

the coiling machine is arranged on the second sliding rail and is used for coiling the assembled laser output head armoured cable into a coil.

4. An assembling method of a laser output head, characterized in that the laser output head is assembled by adopting the automatic assembling tool of the laser output head according to any one of claims 1-3, and the assembling method specifically comprises the following steps:

step S01, fixing the armor cable on the fixing clamp;

s02, penetrating the optical fiber and the enameled wire into the armored cable, and cutting the end face of the optical fiber;

step S03, welding the optical fiber with the quartz crystal;

step S04, glue sealing and fixing the quartz crystal and the metal piece, and bonding and fixing the metal piece and the armoured cable;

the step S03 specifically includes:

step S31, the optical fiber passes through the metal piece and is crimped and fixed with the metal piece and the enameled wire;

s32, aligning the optical fiber with the quartz crystal, and welding and fixing the optical fiber;

the step S04 specifically includes:

step S41, pulling the optical fiber to enable the quartz crystal to enter the metal piece;

step S42, injecting glue into the glue injection groove between the metal piece and the quartz crystal, and curing the glue;

step S43, pulling the optical fiber again to enable the metal piece to be in contact with the armor cable;

and S44, gluing and fixing the metal piece and the armoured cable.

5. The method of assembling a laser output head according to claim 4, wherein the step S02 specifically includes:

s21, synchronously conveying the optical fiber and the enameled wire, and providing suction force to the inside of the armored cable so that the optical fiber and the enameled wire penetrate into the armored cable;

s22, cutting the optical fiber and the enameled wire, and stripping a coating layer of the optical fiber;

and S23, cutting the end face of the optical fiber to enable the end face of the optical fiber to be flat and smooth.