CN201524878U - Laser cutting head with double microscope bases - Google Patents

Abstract

A laser cutting head with double microscope bases comprises a base, a connector, a focusing mirror component, a capacitor head, a spray nozzle, an anti-collision mechanism, an automatic focusing mechanism and a water cooled ring, wherein, the focusing mirror component comprises a first microscope cavity and a second microscope cavity; a first drawer-type microscope base is arranged in the first microscope cavity; a second drawer-type microscope base is arranged in the second microscope cavity; a 7.5 inches of focusing mirror is mounted in the first drawer-type microscope base; and a 5 inches of focusing mirror is mounted in the second drawer-type microscope base. The utility model has dual microscope bases, and the 5 inches or 7.5 inches of focusing mirrors are mounted manually. The utility model has the function of automatic focusing so as to adjust the focus position in a programmable manner, has the anticollision function so as to detect collision at any angle in the radial plane and immediately stop for protecting the cutting head, and can be automatically return to the original position for continuously cutting after collision deduction. The lens adopts the water-cooled manner, thereby effectively prolonging the service life of the lens.

Description

Bimirror seat laser cutting head

Technical field

The utility model relates to laser cutting machine, relates in particular to the bimirror seat laser cutting head in a kind of laser cutting machine.

Background technology

Laser cutting is as a kind of novel thermal cutting technology, and it is fast to have cutting speed, the production efficiency height, and cutting end face quality is good, and advantages such as the little and environmental protection in heat affected area have become one of main sheet metal cutting mode, have obtained application more and more widely.Along with the continuous development of high power laser technology, the working ability of laser cutting, efficient and quality are all improving constantly.But also there is following problem in existing high power laser cutting machine: 1, cutting head is simple in structure, and function singleness can only be installed focus lamp in the fixed position; Though 2 part cutting heads have adopted the technology of anticollision, are simple mechanical system, after eliminating, collision can't recover automatically; 3, adopt the type of cooling of air cooling, the eyeglass inhomogeneous cooling is even, and cooling capacity is also not enough, can not satisfy the requirement of high power laser cutting machine; 4, manual adjustments mode, inefficiency are adopted in focal length of lens adjustment.Above-mentioned deficiency has brought big inconvenience for the application of laser cutting, has limited the application of laser cutting.

The utility model content

The purpose of this utility model exactly in order to address the above problem, provides a kind of bimirror seat laser cutting head.

In order to achieve the above object, the utility model has adopted following technical scheme: a kind of bimirror seat laser cutting head, be installed on the head of laser cutting machine, comprise that pedestal and order are installed in connector, focus lamp assembly, electric capacity head and the nozzle on the pedestal, be characterized in, also comprise anticollision mechanism, automatic focusing mechanism and water-cooling ring; Described focus lamp assembly comprises the first mirror chamber and the second mirror chamber that is set in sequence on the laser optical path, be provided with the first drawer type microscope base in the first mirror chamber, be provided with the second drawer type microscope base in the second mirror chamber, 7.5 inches focus lamps are installed in the first drawer type microscope base, 5 inches focus lamps are installed in the second drawer type microscope base; Described pedestal is provided with guide rail, and automatic focusing mechanism is erected on the guide rail and is fixedly linked with the focus lamp assembly and can drive the focus lamp assembly and move up and down; Anticollision mechanism comprises microswitch and spring, and microswitch and spring are separately positioned between the head of connector and laser cutting machine, and water-cooling ring is arranged between the first mirror chamber and the second mirror chamber.

Also comprise the first radiai adjustment knob and the second radiai adjustment knob, the first radiai adjustment knob is installed in to link to each other by the first mirror chamber and with the first drawer type microscope base and is used to regulate the radial position of 7.5 inches focus lamps, and the second radiai adjustment knob is installed in to link to each other by the second mirror chamber and with the second drawer type microscope base and is used to regulate the radial position of 5 inches focus lamps.

Also comprise four cut-out governing knobs, the radial position that four cut-out governing knobs circumferentially evenly distribute and are installed in the lower end of pedestal and contact the adjustable nozzles that links to each other respectively with nozzle.

Also comprise four coaxial adjustment screw, four coaxial adjustment screw circumferentially evenly distribute and are installed in the radial position that can regulate cutting head on the connector.

The utility model bimirror seat laser cutting head has following advantage and characteristics owing to adopted above technical scheme:

1, have bimirror chamber and two drawer type microscope bases, the user can be according to the needs of cutting technique, and 5 inches or 7.5 inches focus lamps of Fast Installation have increased the scope of application of laser cutting machine greatly.

2, have automatic focusing function, can the eyeglass height be automatically adjusted, shorten focal length and adjust the time, improve the accuracy that focal length is adjusted, thoroughly eliminated the inaccuracy and the inconvenience of artificial focusing by the mode of programming.

3, have crashproof function, can detect automatically and collide at any angle in the sagittal plane and instant the shutdown, avoided after collision is eliminated, can automatically restoring to original position and continuing cutting because of the operation or the improper cutting head damage that causes of programming.

4, eyeglass adopts water-cooled mode, has improved cooling effectiveness, prolongs eyeglass service life;

Description of drawings

Fig. 1 is the structural representation of the utility model bimirror seat laser cutting head.

The specific embodiment

Referring to Fig. 1, bimirror seat laser cutting head of the present utility model, be installed on the head 1 of laser cutting machine, comprise that pedestal 2 and order are installed in connector 3, focus lamp assembly 4, electric capacity head 5, nozzle 51, anticollision mechanism 6, automatic focusing mechanism 7 and the water-cooling ring 8 on the pedestal.

Focus lamp assembly 4 in the utility model comprises the first mirror chamber 41 and the second mirror chamber 42 that is set in sequence on the laser optical path, 41 are provided with the first drawer type microscope base 411 in the first mirror chamber, be provided with the second drawer type microscope base 421 in the second mirror chamber 42,7.5 inches focus lamps are installed in the first drawer type microscope base 411,5 inches focus lamps are installed in the second drawer type microscope base 421.On 41 next doors, the first mirror chamber the first radiai adjustment knob 43 is installed, the first radiai adjustment knob 43 links to each other with the first drawer type microscope base 411 and is used to regulate the radial position of 7.5 inches focus lamps, the second radiai adjustment knob, 44, the second radiai adjustment knobs 44 are installed on 42 next doors, the second mirror chamber to link to each other with the second drawer type microscope base and is used to regulate the radial position of 5 inches focus lamps.

Be provided with guide rail 9 on pedestal 2, automatic focusing mechanism 7 is erected on the guide rail 9 and is fixedly linked with focus lamp assembly 4 and can drive focus lamp assembly 4 and move up and down, and is used to regulate the axial location of two microscope bases.

Anticollision mechanism 6 comprises microswitch 61 and spring 62, and microswitch 61 and spring 62 are separately positioned between the head 1 of connector 3 and laser cutting machine.Microswitch 61 collision detection are also sent stopping signal, absorb collision impact power thereby spring 62 is forced to compression, the protection cutting head.After collision was eliminated, spring 62 reset to guard mode, and cutting head resets and can continue cutting.

Water-cooling ring 8 is arranged between the first mirror chamber 41 and the second mirror chamber 42.Be used to cool off two mirror chambeies and microscope base that sets within it and eyeglass.

Also comprise the radial position that four cut-out governing knobs, 10, four cut-out governing knobs 10 circumferentially evenly distribute and are installed in the lower end of pedestal 2 and contact the adjustable nozzles that links to each other respectively with nozzle 5.

Comprise that also 11, four circumferentially even distributions of coaxial adjustment screw 11 of four coaxial adjustment screw are installed in the radial position that can regulate cutting head on the connector 3.

The course of work and the principle of bimirror seat laser cutting head of the present utility model can be described as follows in conjunction with Fig. 1:

Laser enters cutting head from the top, focuses on by the focus lamp that is installed on the second drawer type microscope base 42 or the first drawer type microscope base 41 then, together shines on the steel plate cutting steel plate by electric capacity head 5 and nozzle 51 with assist gas.

The second drawer type microscope base 42 is used to lay adorns 5 inches focus lamp, and the first drawer type microscope base 41 is used to install 7.5 inches focus lamp, and focus lamp is Fast Installation or dismounting manually.The second radiai adjustment knob 44 is used to regulate the radial position of 5 inches focus lamp, and the first radiai adjustment knob 43 is used to regulate the radial position of 7.5 inches focus lamp.Automatic focusing mechanism 7 is used to regulate the axial location of two microscope bases.Coaxial adjustment screw 11 is used to regulate the radial position of whole cutting head.Cut-out governing knob 10 is used to regulate the radial position of nozzle.Realize the adjustment of light path by two radiai adjustment knobs 43 of collaborative adjustment and 44, automatic focusing mechanism 7, coaxial adjustment screw 11 and cut-out governing knob 10.Water-cooling ring 8 is used to cool off eyeglass.

After cutting head in the sagittal plane arbitrarily angled collision took place, the rapid collision detection of microswitch 61 meetings were also sent stopping signal, thereby spring 62 is forced to compression absorption collision impact power, protection cutting head simultaneously.After collision was eliminated, controller can return to original position according to the home position of writing down automatically and continue cutting, and spring 62 distortion subductions return to guard mode, can avoid because of operating or programme the improper cutting head loss that causes.

Claims (4)

1. bimirror seat laser cutting head, be installed on the head of laser cutting machine, comprise that pedestal and order are installed in connector, focus lamp assembly, electric capacity head and the nozzle on the pedestal, is characterized in that: also comprise anticollision mechanism, automatic focusing mechanism and water-cooling ring; Described focus lamp assembly comprises the first mirror chamber and the second mirror chamber that is set in sequence on the laser optical path, be provided with the first drawer type microscope base in the first mirror chamber, be provided with the second drawer type microscope base in the second mirror chamber, 7.5 inches focus lamps are installed in the first drawer type microscope base, 5 inches focus lamps are installed in the second drawer type microscope base; Described pedestal is provided with guide rail, and automatic focusing mechanism is erected on the guide rail and is fixedly linked with the focus lamp assembly and can drive the focus lamp assembly and move up and down; Anticollision mechanism comprises microswitch and spring, and microswitch and spring are separately positioned between the head of connector and laser cutting machine, and water-cooling ring is arranged between the first mirror chamber and the second mirror chamber.

2. bimirror seat laser cutting head as claimed in claim 1, it is characterized in that: also comprise the first radiai adjustment knob and the second radiai adjustment knob, the first radiai adjustment knob is installed in to link to each other by the first mirror chamber and with the first drawer type microscope base and is used to regulate the radial position of 7.5 inches focus lamps, and the second radiai adjustment knob is installed in to link to each other by the second mirror chamber and with the second drawer type microscope base and is used to regulate the radial position of 5 inches focus lamps.

3. bimirror seat laser cutting head as claimed in claim 1 is characterized in that: also comprise four cut-out governing knobs, the radial position that four cut-out governing knobs circumferentially evenly distribute and are installed in the lower end of pedestal and contact the adjustable nozzles that links to each other respectively with nozzle.

4. bimirror seat laser cutting head as claimed in claim 1 is characterized in that: also comprise four coaxial adjustment screw, four coaxial adjustment screw circumferentially evenly distribute and are installed in the radial position that can regulate cutting head on the connector.

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