CN203356853U - Numerical control adjustable hard alloy double beam welding device - Google Patents

Abstract

The utility model relates to a welding device, in particular to a numerical control adjustable hard alloy double beam welding device. A laser head is arranged in a connector, one side of the connector is provided with a preheat tempering laser head mechanism fixedly connected with the connector, the other side of the connector is provided with a balance weight, the upper portion of the laser head is adjusted and rotated through a rotating mechanism, the laser head is cooled through a cooling system, and the laser head is blown through a blowing mechanism. The numerical control adjustable hard alloy double beam welding device is compact in structure, the machining time is greatly shortened, the machining cost is greatly reduced, the production efficiency is greatly improved, and the automation degree, the machining precision and the working efficiency are high.

Description

The adjustable carbide alloy dual-beam of numerical control welder

Technical field

The utility model relates to a kind of welder, relates in particular to the adjustable carbide alloy dual-beam of a kind of numerical control welder.

Background technology

While adopting at present the welding of high power laser light beam, high because of its energy density, welded piece stands Fast Heating and cooling thermal cycle effect, makes the Seam and heat effected zone zone extremely narrow, and its hardness is far away higher than mother metal.Therefore, the plasticity of this welded seam area is lower, easily produces the embrittlement phenomenon.In order to reduce the hardness of welding region, generally need to take to weld the corresponding technological measure such as front preheating and postwelding tempering, cause that processing technology is many, long processing time, processing cost be high.

The utility model content

The utility model is mainly to solve the deficiencies in the prior art, a kind of compact conformation is provided, the device of the front preheating of welding and the rear tempering of welding can be provided when laser weld, shorten process time greatly, the decrease processing cost, boost productivity greatly, this device adopts digital control system, automatically control the processing action of whole equipment, machining accuracy is high, the adjustable carbide alloy dual-beam of the numerical control of high efficiency welder.

Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals:

The adjustable carbide alloy dual-beam of a kind of numerical control welder, comprise connector, be provided with laser head in described connector, upper end in described laser head is provided with first lens, middle-end in described laser head is provided with the second lens, lower end in described laser head is provided with the 3rd lens, one side of described connector is provided with the preheating tempering laser head mechanism fixed with it, the opposite side of described connector is provided with balancing weight, rotation is regulated mutually by rotating mechanism in the top of described laser head, described laser head cools mutually by cooling system, described laser head is blown mutually by inflatable body,

Described preheating tempering laser head mechanism comprises the vertical numerical control chain-wales of one dimension, the horizontal numerical control chain-wales of one dimension, digital controlled rotary chain-wales and preheating tempering laser head, the vertical numerical control chain-wales of the lateral wall of described connector and one dimension is fixedly connected, be provided with the digital controlled rotary chain-wales of phase longitudinal sliding motion with it in the vertical numerical control chain-wales of described one dimension, described digital controlled rotary chain-wales laterally slides with it mutually by the horizontal numerical control chain-wales of one dimension, described digital controlled rotary chain-wales is provided with the preheating tempering laser head that rotates with it and connect, the afterbody of described preheating tempering laser head is connected with preheating optical fiber,

Described rotating mechanism comprises main connecting plate, the lateral wall of described main connecting plate is provided with the numerical control slowspeed machine fixed with it, the bottom of described numerical control slowspeed machine is provided with the driving gear rotated with it, the afterbody of described laser head is located in main connecting plate, the upper end of described laser head is provided with the driven gear of the transmission that is meshed with driving gear, between described laser head and main connecting plate, by accurate thrust ball bearing and accurate deep groove ball bearing phase control, the afterbody of described laser head is connected with welding optical fiber;

Described cooling system comprises that cooling fluid inlet pipe and cooling fluid go out pipe, the laser head lateral wall of described first lens is provided with the first radiator coil tube be connected with the cooling fluid inlet pipe, the laser head lateral wall of described the second lens is provided with the second radiator coil tube be connected with the first radiator coil tube, the laser head lateral wall of described the 3rd lens is provided with the 3rd radiator coil tube be connected with the second radiator coil tube, and described the 3rd radiating tube goes out pipe with cooling fluid and is connected;

Described inflatable body comprises gas blow pipe, the corresponding distribution of light velocity Rendezvous Point of described gas blow pipe and laser head.

As preferably, the spacing of described first lens and the second lens is 3mm, and the spacing of described the second lens and the 3rd lens is 3mm;

The vertical numerical control chain-wales of described one dimension and the horizontal numerical control chain-wales of one dimension by digital controlled rotary motor phase control, are provided with the aluminium alloy connecting plate between described preheating tempering laser head and digital controlled rotary chain-wales respectively;

Described driving gear and numerical control slowspeed machine are by the locking of locking screw parent phase, described driven gear and driving gear are the part engagement, be provided with the axle lining between described driven gear and main connecting plate, described accurate deep groove ball bearing is positioned at the top of accurate thrust ball bearing, the top of described accurate deep groove ball bearing is provided with adjusting nut, and described accurate deep groove ball bearing is regulated control with accurate thrust ball bearing mutually by adjusting nut;

The diameter of described the first radiator coil tube is 4mm, and the diameter of described the second radiator coil tube is 4mm, and the diameter of described the 3rd radiator coil tube is 4mm, and the diameter of described cooling fluid inlet pipe is 4～6mm, and the diameter that described cooling fluid goes out pipe is 4～6mm;

The head of described gas blow pipe is provided with bending part, and described gas blow pipe is provided with and is attached thereto logical air gauge, and described gas blow pipe is connected with air compressor,

As preferably, the number of teeth of described driven gear is 15, and the diameter of described driven gear is 45mm, and the number of teeth of described driving gear is 15, and the diameter of described driving gear is 45mm;

The displacement of the vertical numerical control chain-wales of described one dimension is 30mm, and the displacement of the horizontal numerical control chain-wales of described one dimension is 30mm, and described preheating tempering laser head can be 30～60 degree rotations with the digital controlled rotary chain-wales;

Be provided with the heat radiation cavity in described connector, described the second radiator coil tube is arranged in the heat radiation cavity, between the vertical numerical control chain-wales of described one dimension and connector, fix by bolt respectively between connector and balancing weight;

The lower end lateral wall of described laser head is provided with outwards outstanding gear adapter ring, and described gear adapter ring keeps off and connecing mutually with the bottom of connector, and described laser head is presented lower vertical distribution, and described main connecting plate is L-shaped;

The quality of described balancing weight is 10kg, and the material of described connector is aluminium alloy.

Therefore, the adjustable carbide alloy dual-beam of numerical control of the present utility model welder, compact conformation, shorten process time greatly, and the decrease processing cost, boost productivity greatly, and automaticity is high, and machining accuracy is high, high efficiency.

The accompanying drawing explanation

Fig. 1 is sectional structure schematic diagram of the present utility model.

The specific embodiment

Below by embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is described in further detail.

Embodiment 1: as shown in Figure 1, the adjustable carbide alloy dual-beam of a kind of numerical control welder, comprise connector 1, be provided with laser head 2 in described connector 1, upper end in described laser head 2 is provided with first lens 3, middle-end in described laser head 2 is provided with the second lens 4, lower end in described laser head 2 is provided with the 3rd lens 5, one side of described connector 1 is provided with the preheating tempering laser head mechanism fixed with it, the opposite side of described connector 1 is provided with balancing weight 6, rotation is regulated mutually by rotating mechanism in the top of described laser head 2, described laser head 2 cools mutually by cooling system, described laser head 2 is blown mutually by inflatable body,

Described preheating tempering laser head mechanism comprises the vertical numerical control chain-wales 7 of one dimension, the horizontal numerical control chain-wales 8 of one dimension, digital controlled rotary chain-wales 9 and preheating tempering laser head 10, the vertical numerical control chain-wales 7 of the lateral wall of described connector 1 and one dimension is fixedly connected, be provided with the digital controlled rotary chain-wales 9 of phase longitudinal sliding motion with it in the vertical numerical control chain-wales 7 of described one dimension, described digital controlled rotary chain-wales 9 laterally slides with it mutually by the horizontal numerical control chain-wales 8 of one dimension, described digital controlled rotary chain-wales 9 is provided with the preheating tempering laser head 10 that rotates with it and connect, the afterbody of described preheating tempering laser head 10 is connected with preheating optical fiber 11,

Described rotating mechanism comprises main connecting plate 12, the lateral wall of described main connecting plate 12 is provided with the numerical control slowspeed machine 13 fixed with it, the bottom of described numerical control slowspeed machine 13 is provided with the driving gear 14 rotated with it, the afterbody of described laser head 2 is located in main connecting plate 12, the upper end of described laser head 2 is provided with the driven gear 15 of the transmission that is meshed with driving gear 14,12 of described laser head 2 and main connecting plates are by accurate thrust ball bearing 16 and accurate deep groove ball bearing 17 phase controls, and the afterbody of described laser head 2 is connected with welding optical fiber 18;

Described cooling system comprises that cooling fluid inlet pipe 19 and cooling fluid go out pipe 20, laser head 2 lateral walls of described first lens 3 are provided with the first radiator coil tube 21 be connected with cooling fluid inlet pipe 19, laser head 2 lateral walls of described the second lens 4 are provided with the second radiator coil tube 22 be connected with the first radiator coil tube 21, laser head 2 lateral walls of described the 3rd lens 5 are provided with the 3rd radiator coil tube 23 be connected with the second radiator coil tube 22, and described the 3rd radiator coil tube 23 goes out pipe 20 with cooling fluid and is connected;

Described inflatable body comprises gas blow pipe 24, the corresponding distribution of light velocity Rendezvous Point of described gas blow pipe 24 and laser head 2.

The spacing of described first lens 3 and the second lens 4 is 3mm, and the spacing of described the second lens 4 and the 3rd lens 5 is 3mm;

The vertical numerical control chain-wales 7 of described one dimension is with the horizontal numerical control chain-wales 8 of one dimension respectively by digital controlled rotary motor 25 phase controls, and described preheating tempering laser head 10 and 9 of digital controlled rotary chain-wales are provided with aluminium alloy connecting plate 26;

Described driving gear 14 is locked by locking nut 33 mutually with numerical control slowspeed machine 13, described driven gear 15 is the part engagement with driving gear 14,12 of described driven gear 15 and main connecting plates are provided with lining 27 for axle, described accurate deep groove ball bearing 17 is positioned at the top of accurate thrust ball bearing 16, the top of described accurate deep groove ball bearing 17 is provided with adjusting nut 28, and described accurate deep groove ball bearing 17 is regulated control with accurate thrust ball bearing 16 mutually by adjusting nut 28;

The diameter of described the first radiator coil tube 21 is 4mm, and the diameter of described the second radiator coil tube 22 is 4mm, and the diameter of described the 3rd radiator coil tube 23 is 4mm, and the diameter of described cooling fluid inlet pipe 19 is 4mm, and the diameter that described cooling fluid goes out pipe 20 is 4mm;

The head of described gas blow pipe 24 is provided with bending part, and described gas blow pipe 24 is provided with and is attached thereto logical air gauge 29, and described gas blow pipe 24 is connected with air compressor,

The number of teeth of described driven gear 15 is 15, and the diameter of described driven gear 15 is 45mm, and the number of teeth of described driving gear 14 is 15, and the diameter of described driving gear 14 is 45mm;

The displacement of the vertical numerical control chain-wales 7 of described one dimension is 30mm, and the displacement of the horizontal numerical control chain-wales 8 of described one dimension is 30mm, and described preheating tempering laser head 10 can be 30 degree rotations with digital controlled rotary chain-wales 9;

Be provided with heat radiation cavity 30 in described connector 1, described the second radiator coil tube 22 is arranged in heat radiation cavity 30, and the vertical numerical control chain-wales 7 of described one dimension and 1 of connector, connector 1 and 6 of balancing weights fix by bolt 31 respectively;

The lower end lateral wall of described laser head 2 is provided with outwards outstanding gear adapter ring 32, and described gear adapter ring 32 keeps off and connecing mutually with the bottom of connector 1, and described laser head 2 is presented lower vertical distribution, and described main connecting plate 12 is L-shaped;

The quality of described balancing weight 6 is 10kg, and the material of described connector 1 is aluminium alloy.

Embodiment 2: the adjustable carbide alloy dual-beam of a kind of numerical control welder, comprise connector 1, be provided with laser head 2 in described connector 1, upper end in described laser head 2 is provided with first lens 3, middle-end in described laser head 2 is provided with the second lens 4, lower end in described laser head 2 is provided with the 3rd lens 5, one side of described connector 1 is provided with the preheating tempering laser head mechanism fixed with it, the opposite side of described connector 1 is provided with balancing weight 6, rotation is regulated mutually by rotating mechanism in the top of described laser head 2, described laser head 2 cools mutually by cooling system, described laser head 2 is blown mutually by inflatable body,

Described preheating tempering laser head mechanism comprises the vertical numerical control chain-wales 7 of one dimension, the horizontal numerical control chain-wales 8 of one dimension, digital controlled rotary chain-wales 9 and preheating tempering laser head 10, the vertical numerical control chain-wales 7 of the lateral wall of described connector 1 and one dimension is fixedly connected, be provided with the digital controlled rotary chain-wales 9 of phase longitudinal sliding motion with it in the vertical numerical control chain-wales 7 of described one dimension, described digital controlled rotary chain-wales 9 laterally slides with it mutually by the horizontal numerical control chain-wales 8 of one dimension, described digital controlled rotary chain-wales 9 is provided with the preheating tempering laser head 10 that rotates with it and connect, the afterbody of described preheating tempering laser head 10 is connected with preheating optical fiber 11,

Described rotating mechanism comprises main connecting plate 12, the lateral wall of described main connecting plate 12 is provided with the numerical control slowspeed machine 13 fixed with it, the bottom of described numerical control slowspeed machine 13 is provided with the driving gear 14 rotated with it, the afterbody of described laser head 2 is located in main connecting plate 12, the upper end of described laser head 2 is provided with the driven gear 15 of the transmission that is meshed with driving gear 14,12 of described laser head 2 and main connecting plates are by accurate thrust ball bearing 16 and accurate deep groove ball bearing 17 phase controls, and the afterbody of described laser head 2 is connected with welding optical fiber 18;

Described cooling system comprises that cooling fluid inlet pipe 19 and cooling fluid go out pipe 20, laser head 2 lateral walls of described first lens 3 are provided with the first radiator coil tube 21 be connected with cooling fluid inlet pipe 19, laser head 2 lateral walls of described the second lens 4 are provided with the second radiator coil tube 22 be connected with the first radiator coil tube 21, laser head 2 lateral walls of described the 3rd lens 5 are provided with the 3rd radiator coil tube 23 be connected with the second radiator coil tube 22, and described the 3rd radiator coil tube 23 goes out pipe 20 with cooling fluid and is connected;

Described inflatable body comprises gas blow pipe 24, the corresponding distribution of light velocity Rendezvous Point of described gas blow pipe 24 and laser head 2.

The spacing of described first lens 3 and the second lens 4 is 3mm, and the spacing of described the second lens 4 and the 3rd lens 5 is 3mm;

The vertical numerical control chain-wales 7 of described one dimension is with the horizontal numerical control chain-wales 8 of one dimension respectively by digital controlled rotary motor 25 phase controls, and described preheating tempering laser head 10 and 9 of digital controlled rotary chain-wales are provided with aluminium alloy connecting plate 26;

Described driving gear 14 is locked by locking nut 33 mutually with numerical control slowspeed machine 13, described driven gear 15 is the part engagement with driving gear 14,12 of described driven gear 15 and main connecting plates are provided with lining 27 for axle, described accurate deep groove ball bearing 17 is positioned at the top of accurate thrust ball bearing 16, the top of described accurate deep groove ball bearing 17 is provided with adjusting nut 28, and described accurate deep groove ball bearing 17 is regulated control with accurate thrust ball bearing 16 mutually by adjusting nut 28;

The diameter of described the first radiator coil tube 21 is 4mm, the diameter of described the second radiator coil tube 22 is 4mm, the diameter of described the 3rd radiator coil tube 23 is 4mm, and the diameter of described cooling fluid inlet pipe 19 is 5mm, and the diameter that described cooling fluid goes out pipe 20 is 4～6mm;

The head of described gas blow pipe 24 is provided with bending part, and described gas blow pipe 24 is provided with and is attached thereto logical air gauge 29, and described gas blow pipe 24 is connected with air compressor,

The number of teeth of described driven gear 15 is 15, and the diameter of described driven gear 15 is 45mm, and the number of teeth of described driving gear 14 is 15, and the diameter of described driving gear 14 is 45mm;

The displacement of the vertical numerical control chain-wales 7 of described one dimension is 30mm, and the displacement of the horizontal numerical control chain-wales 8 of described one dimension is 30mm, and described preheating tempering laser head 10 can be 50 degree rotations with digital controlled rotary chain-wales 9;

Be provided with heat radiation cavity 30 in described connector 1, described the second radiator coil tube 22 is arranged in heat radiation cavity 30, and the vertical numerical control chain-wales 7 of described one dimension and 1 of connector, connector 1 and 6 of balancing weights fix by bolt 31 respectively;

The lower end lateral wall of described laser head 2 is provided with outwards outstanding gear adapter ring 32, and described gear adapter ring 32 keeps off and connecing mutually with the bottom of connector 1, and described laser head 2 is presented lower vertical distribution, and described main connecting plate 12 is L-shaped;

The quality of described balancing weight 6 is 10kg, and the material of described connector 1 is aluminium alloy.

Embodiment 3: the adjustable carbide alloy dual-beam of a kind of numerical control welder, comprise connector 1, be provided with laser head 2 in described connector 1, upper end in described laser head 2 is provided with first lens 3, middle-end in described laser head 2 is provided with the second lens 4, lower end in described laser head 2 is provided with the 3rd lens 5, one side of described connector 1 is provided with the preheating tempering laser head mechanism fixed with it, the opposite side of described connector 1 is provided with balancing weight 6, rotation is regulated mutually by rotating mechanism in the top of described laser head 2, described laser head 2 cools mutually by cooling system, described laser head 2 is blown mutually by inflatable body,

Described preheating tempering laser head mechanism comprises the vertical numerical control chain-wales 7 of one dimension, the horizontal numerical control chain-wales 8 of one dimension, digital controlled rotary chain-wales 9 and preheating tempering laser head 10, the vertical numerical control chain-wales 7 of the lateral wall of described connector 1 and one dimension is fixedly connected, be provided with the digital controlled rotary chain-wales 9 of phase longitudinal sliding motion with it in the vertical numerical control chain-wales 7 of described one dimension, described digital controlled rotary chain-wales 9 laterally slides with it mutually by the horizontal numerical control chain-wales 8 of one dimension, described digital controlled rotary chain-wales 9 is provided with the preheating tempering laser head 10 that rotates with it and connect, the afterbody of described preheating tempering laser head 10 is connected with preheating optical fiber 11,

Described rotating mechanism comprises main connecting plate 12, the lateral wall of described main connecting plate 12 is provided with the numerical control slowspeed machine 13 fixed with it, the bottom of described numerical control slowspeed machine 13 is provided with the driving gear 14 rotated with it, the afterbody of described laser head 2 is located in main connecting plate 12, the upper end of described laser head 2 is provided with the driven gear 15 of the transmission that is meshed with driving gear 14,12 of described laser head 2 and main connecting plates are by accurate thrust ball bearing 16 and accurate deep groove ball bearing 17 phase controls, and the afterbody of described laser head 2 is connected with welding optical fiber 18;

Described cooling system comprises that cooling fluid inlet pipe 19 and cooling fluid go out pipe 20, laser head 2 lateral walls of described first lens 3 are provided with the first radiator coil tube 21 be connected with cooling fluid inlet pipe 19, laser head 2 lateral walls of described the second lens 4 are provided with the second radiator coil tube 22 be connected with the first radiator coil tube 21, laser head 2 lateral walls of described the 3rd lens 5 are provided with the 3rd radiator coil tube 23 be connected with the second radiator coil tube 22, and described the 3rd radiator coil tube 23 goes out pipe 20 with cooling fluid and is connected;

Described inflatable body comprises gas blow pipe 24, the corresponding distribution of light velocity Rendezvous Point of described gas blow pipe 24 and laser head 2.

The spacing of described first lens 3 and the second lens 4 is 3mm, and the spacing of described the second lens 4 and the 3rd lens 5 is 3mm;

The vertical numerical control chain-wales 7 of described one dimension is with the horizontal numerical control chain-wales 8 of one dimension respectively by digital controlled rotary motor 25 phase controls, and described preheating tempering laser head 10 and 9 of digital controlled rotary chain-wales are provided with aluminium alloy connecting plate 26;

Described driving gear 14 is locked by locking nut 33 mutually with numerical control slowspeed machine 13, described driven gear 15 is the part engagement with driving gear 14,12 of described driven gear 15 and main connecting plates are provided with lining 27 for axle, described accurate deep groove ball bearing 17 is positioned at the top of accurate thrust ball bearing 16, the top of described accurate deep groove ball bearing 17 is provided with adjusting nut 28, and described accurate deep groove ball bearing 17 is regulated control with accurate thrust ball bearing 16 mutually by adjusting nut 28;

The diameter of described the first radiator coil tube 21 is 4mm, and the diameter of described the second radiator coil tube 22 is 4mm, and the diameter of described the 3rd radiator coil tube 23 is 4mm, and the diameter of described cooling fluid inlet pipe 19 is 6mm, and the diameter that described cooling fluid goes out pipe 20 is 6mm;

The head of described gas blow pipe 24 is provided with bending part, and described gas blow pipe 24 is provided with and is attached thereto logical air gauge 29, and described gas blow pipe 24 is connected with air compressor,

The number of teeth of described driven gear 15 is 15, and the diameter of described driven gear 15 is 45mm, and the number of teeth of described driving gear 14 is 15, and the diameter of described driving gear 14 is 45mm;

The displacement of the vertical numerical control chain-wales 7 of described one dimension is 30mm, and the displacement of the horizontal numerical control chain-wales 8 of described one dimension is 30mm, and described preheating tempering laser head 10 can be 60 degree rotations with digital controlled rotary chain-wales 9;

Be provided with heat radiation cavity 30 in described connector 1, described the second radiator coil tube 22 is arranged in heat radiation cavity 30, and the vertical numerical control chain-wales 7 of described one dimension and 1 of connector, connector 1 and 6 of balancing weights fix by bolt 31 respectively;

The lower end lateral wall of described laser head 2 is provided with outwards outstanding gear adapter ring 32, and described gear adapter ring 32 keeps off and connecing mutually with the bottom of connector 1, and described laser head 2 is presented lower vertical distribution, and described main connecting plate 12 is L-shaped;

The quality of described balancing weight 6 is 10kg, and the material of described connector 1 is aluminium alloy.

Claims (3)

1. the adjustable carbide alloy dual-beam of a numerical control welder, it is characterized in that: comprise connector (1), be provided with laser head (2) in described connector (1), upper end in described laser head (2) is provided with first lens (3), middle-end in described laser head (2) is provided with the second lens (4), lower end in described laser head (2) is provided with the 3rd lens (5), one side of described connector (1) is provided with the preheating tempering laser head mechanism fixed with it, the opposite side of described connector (1) is provided with balancing weight (6), rotation is regulated mutually by rotating mechanism in the top of described laser head (2), described laser head (2) cools mutually by cooling system, described laser head (2) is blown mutually by inflatable body,

Described preheating tempering laser head mechanism comprises the vertical numerical control chain-wales of one dimension (7), the horizontal numerical control chain-wales of one dimension (8), digital controlled rotary chain-wales (9) and preheating tempering laser head (10), the vertical numerical control chain-wales of the lateral wall of described connector (1) and one dimension (7) is fixedly connected, be provided with the digital controlled rotary chain-wales (9) of phase longitudinal sliding motion with it in the vertical numerical control chain-wales of described one dimension (7), described digital controlled rotary chain-wales (9) laterally slides with it mutually by the horizontal numerical control chain-wales of one dimension (8), described digital controlled rotary chain-wales (9) is provided with the preheating tempering laser head (10) that rotates with it and connect, the afterbody of described preheating tempering laser head (10) is connected with preheating optical fiber (11),

Described rotating mechanism comprises main connecting plate (12), the lateral wall of described main connecting plate (12) is provided with the numerical control slowspeed machine (13) fixed with it, the bottom of described numerical control slowspeed machine (13) is provided with the driving gear (14) rotated with it, the afterbody of described laser head (2) is located in main connecting plate (12), the upper end of described laser head (2) is provided with the driven gear (15) of the transmission that is meshed with driving gear (14), between described laser head (2) and main connecting plate (12) by accurate thrust ball bearing (16) and accurate deep groove ball bearing (17) phase control, the afterbody of described laser head (2) is connected with welding optical fiber (18),

Described cooling system comprises that cooling fluid inlet pipe (19) and cooling fluid go out pipe (20), laser head (2) lateral wall of described first lens (3) is provided with the first radiator coil tube (21) be connected with cooling fluid inlet pipe (19), laser head (2) lateral wall of described the second lens (4) is provided with the second radiator coil tube (22) be connected with the first radiator coil tube (21), laser head (2) lateral wall of described the 3rd lens (5) is provided with the 3rd radiator coil tube (23) be connected with the second radiator coil tube (22), described the 3rd radiator coil tube (23) goes out pipe (20) with cooling fluid and is connected,

Described inflatable body comprises gas blow pipe (24), the corresponding distribution of light velocity Rendezvous Point of described gas blow pipe (24) and laser head (2).

2. the adjustable carbide alloy dual-beam of numerical control according to claim 1 welder, it is characterized in that: described first lens (3) is 3mm with the spacing of the second lens (4), and described the second lens (4) are 3mm with the spacing of the 3rd lens (5);

The vertical numerical control chain-wales of described one dimension (7) respectively by digital controlled rotary motor (25) phase control, is provided with aluminium alloy connecting plate (26) between described preheating tempering laser head (10) and digital controlled rotary chain-wales (9) with the horizontal numerical control chain-wales of one dimension (8);

Described driving gear (14) is locked by locking nut (33) mutually with numerical control slowspeed machine (13), described driven gear (15) is the part engagement with driving gear (14), be provided with lining for axle (27) between described driven gear (15) and main connecting plate (12), described accurate deep groove ball bearing (17) is positioned at the top of accurate thrust ball bearing (16), the top of described accurate deep groove ball bearing (17) is provided with adjusting nut (28), described accurate deep groove ball bearing (17) is regulated control with accurate thrust ball bearing (16) mutually by adjusting nut (28),

The diameter of described the first radiator coil tube (21) is 4mm, the diameter of described the second radiator coil tube (22) is 4mm, the diameter of described the 3rd radiator coil tube (23) is 4mm, the diameter of described cooling fluid inlet pipe (19) is 4～6mm, and the diameter that described cooling fluid goes out pipe (20) is 4～6mm;

The head of described gas blow pipe (24) is provided with bending part, and described gas blow pipe (24) is provided with and is attached thereto logical air gauge (29), and described gas blow pipe (24) is connected with air compressor.

3. the adjustable carbide alloy dual-beam of numerical control according to claim 1 and 2 welder is characterized in that:

The number of teeth of described driven gear (15) is 15, and the diameter of described driven gear (15) is 45mm, and the number of teeth of described driving gear (14) is 15, and the diameter of described driving gear (14) is 45mm;

The displacement of the vertical numerical control chain-wales of described one dimension (7) is 30mm, the displacement of the horizontal numerical control chain-wales of described one dimension (8) is 30mm, and described preheating tempering laser head (10) can be 30～60 degree rotations with digital controlled rotary chain-wales (9);

Be provided with heat radiation cavity (30) in described connector (1), described the second radiator coil tube (22) is arranged in heat radiation cavity (30), between the vertical numerical control chain-wales of described one dimension (7) and connector (1), fix by bolt (31) respectively between connector (1) and balancing weight (6);

The lower end lateral wall of described laser head (2) is provided with outwards outstanding gear adapter ring (32), described gear adapter ring (32) keeps off and connecing mutually with the bottom of connector (1), described laser head (2) is presented lower vertical distribution, and described main connecting plate (12) is L-shaped;

The quality of described balancing weight (6) is 10kg, and the material of described connector (1) is aluminium alloy.