CN206854851U - Gantry type laser cutting machine and pipe processing system - Google Patents

Abstract

The utility model provides a planer-type laser cutting machine and tubular product system of processing relates to tubular product processing technology field, the utility model provides a planer-type laser cutting machine includes: the device comprises a lathe bed, a driving mechanism, a control mechanism, a front chuck assembly, a rear chuck assembly and a cross beam, wherein the driving mechanism is arranged on the lathe bed and is respectively connected with the rear chuck assembly and the cross beam, and the control mechanism is in signal connection with the driving mechanism; the front chuck assembly is arranged at one end of the lathe bed, the rear chuck assembly is in sliding connection with the upper end of the lathe bed, the cross beam is in sliding connection with the side face of the lathe bed, and the cross beam is provided with a laser cutting device. Will the utility model provides a planer-type laser cutting machine is applied to in the tubular product course of working to for material saving among the alleviating prior art, need to install again the tubular product and make laser cutting machine carry out the technical problem of secondary location.

Description

Gantry-type laser cutting machine and tubular object extruding system

Technical field

Tubular object extruding technical field is the utility model is related to, is added more particularly, to a kind of gantry-type laser cutting machine and tubing Work system.

Background technology

With expanding economy, social progress, it is more and more extensive to be cut by laser application field.Laser Pipe Cutting process technology It is the strong technology of production efficiency height, a production capacity, while design can also be modified in last minute, and Whole article manufacturing process is not interfered with；Bigger benefit is that terminal user can control short version or middle version to produce, and without system Substantial amounts of template is made, quickly can so be reacted according to customer demand.And for flexibility angle, laser Pipe Cutting adds Work technology can process any shape for having woven procedure, and laser can be completed to cut out in any direction Cut.Increased rapidly with China's tubing yield with what is consumed, laser Pipe Cutting equipment is just popularized rapidly in China.

When processing tubing using existing laser cutting device, remaining clout is longer after tubing cutting, for valuable pipe It if material clout is longer, can cause greatly to waste, to reduce the waste to material, the rear chuck for clamping tubing need to be unclamped, made The length that tubing stretches out out of rear chuck, then makes rear chuck clamp tubing again, and laser cutting device is carried out two Tubing is processed again after secondary positioning., need to be to tubing weight to save material when machining tubing using traditional laser cutting It is new to install and laser cutting machine is carried out secondary positioning, add the complexity of processing.

Utility model content

The purpose of this utility model is to provide a kind of gantry-type laser cutting machine, to alleviate in the prior art as saving material Material, the technical problem that tubing need to be reinstalled and make laser cutting machine carry out secondary positioning.

Gantry-type laser cutting machine provided by the utility model includes：Lathe bed, drive mechanism, controlling organization, front chuck group Part, rear chuck component and crossbeam, the drive mechanism be arranged on the lathe bed and respectively with the rear chuck component and described Crossbeam connects, to drive the length direction of the rear chuck component and the crossbeam along the lathe bed to move, the controlling organization It is connected with the drive mechanism signal；

The front chuck component is arranged at one end of the lathe bed, and the upper end of the rear chuck component and the lathe bed is slided Connection, the side of the crossbeam and the lathe bed are slidably connected, and laser cutting device is provided with the crossbeam.

Further, the upper end of the lathe bed is provided with the first guide rail, length direction and the bed of first guide rail The length direction of body is identical, is provided with the rear chuck component and is slidably matched the first counterpart with first guide rail.

Further, the crossbeam includes horizontally disposed first support and the second support that is vertically arranged, and described first Support is connected with the upper end of the second support, and the lower end of the second support is slidably connected with the lathe bed, and the laser is cut Device is cut to be arranged in the first support.

Further, the side of the lathe bed is provided with the second guide rail, length direction and the bed of second guide rail The length direction of body is identical, and the second counterpart being slidably matched with second guide rail is provided with the second support.

Further, the drive mechanism includes the first actuator and the second actuator, first actuator respectively with The lathe bed is connected with the rear chuck component, and second actuator is connected with the lathe bed and the second support respectively, The controlling organization is connected with first actuator and the second actuator signal respectively.

Further, second actuator includes cylinder, the length side of the length direction of the cylinder and the lathe bed To identical, the cylinder body of the cylinder is connected with the lathe bed, and the piston rod of the cylinder is connected with the crossbeam.

Further, be provided with contiguous block on the crossbeam, the piston rod of the cylinder by the contiguous block with it is described Crossbeam connects.

Further, laser cutting device connecting plate is provided with the crossbeam, the laser cutting device swashs with described Light cutter device connecting plate is slidably connected, and the laser cutting device can the relatively described vertical side in laser cutting device connecting plate edge To slip.

Further, be provided with the crossbeam for drive that the laser cutting device vertically moves the 3rd Actuator, the 3rd actuator are connected with the controlling organization signal.

In gantry-type laser cutting machine provided by the utility model, the unlatching of controlling organization control drive mechanism and pass Close, drive mechanism is used to drive rear chuck component and crossbeam to move along the length direction of lathe bed, and rear chuck component is used to clamp and added The tubing of work and tubing is set to be moved along the length direction of lathe bed, during tubing is processed, tubing is through front chuck component Middle part, and can be with respect to front chuck component movement, front chuck component is used to prevent that the cantilever of tubing is long and influences machining accuracy, horizontal The side of beam and lathe bed is slidably connected, and drives laser cutting device to be processed tubing.

When using gantry-type laser provided by the utility model cutting machining tubing, laser cutting device blocks positioned at preceding The side of the remote rear chuck component of disk component, one end of tubing is fixed on rear chuck component, the other end passes through front chuck group Part, the free end of stretching front chuck component of the laser cutting device to tubing are processed, after completion of processing the free end by from Cut on whole tubing, rear chuck component drives the direction of tubing to close front chuck component to move the distance specified, and laser is cut Cut device to continue to be processed the free end stretched out again, repeat above-mentioned process, when rear chuck component movement to advance Extreme position after, controlling organization control drive mechanism, drive mechanism drives rear chuck component to the side away from front chuck component To motion, meanwhile, driving crossbeam moves in the same direction with rear chuck component, when crossbeam moves to extreme position, driving Mechanism stops the driving to crossbeam and rear chuck component simultaneously, also, crossbeam is equal with the move distance of rear chuck component；So Afterwards, drive mechanism drives the direction of rear chuck component to close front chuck component to move the distance specified, laser cutting device pair Continue tubing to continue to process.

Compared with the existing laser cutting machine for needing to reinstall remaining tubing, gantry provided by the utility model Formula laser cutting machine, remaining tubing can be continued to process without reinstalling, meanwhile, crossbeam is transported with rear chuck component Dynamic distance is equal, makes the relative distance of laser cutting device and remaining tubing constant, without entering to gantry-type laser cutting machine The secondary positioning of row, process operation is become easy, saved process time.

Another object of the present utility model is to provide a kind of tubular object extruding system, to alleviate in the prior art as saving material Material, the technical problem that tubing need to be reinstalled and make laser cutting machine carry out secondary positioning.

Tubular object extruding system provided by the utility model includes：Gantry described in material head collection device and above-mentioned technical proposal Formula laser cutting machine, the material head collection device are located at one end of the gantry-type laser cutting machine, remaining to collect processing Material head.

Described tubular object extruding system is with above-mentioned gantry-type laser cutting machine relative to advantage possessed by prior art It is identical, it will not be repeated here.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The required accompanying drawing used is briefly described in embodiment or description of the prior art, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation for the gantry-type laser cutting machine that the utility model embodiment provides；

Fig. 2 is the front view for the gantry-type laser cutting machine that the utility model embodiment provides；

Fig. 3 is the right view for the gantry-type laser cutting machine that the utility model embodiment provides；

Fig. 4 is the partial enlarged drawing at A in Fig. 1.

Icon：1- lathe beds；The guide rails of 11- first；12- support frames；The guide rails of 13- second；The actuators of 21- second；3- Front chuck component；4- rear chuck components；5- crossbeams；51- first supports；52- second supports；53- contiguous blocks；6- laser Cutter device.

Embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is the utility model part of the embodiment, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship are based on orientation shown in the drawings or position relationship, are only Described for the ease of description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or hint relative importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

Embodiment one

Fig. 1 is the structural representation for the gantry-type laser cutting machine that the utility model embodiment provides, as shown in figure 1, this The gantry-type laser cutting machine that utility model embodiment provides includes：Lathe bed 1, drive mechanism, controlling organization, front chuck component 3, Rear chuck component 4 and crossbeam 5, drive mechanism are arranged on lathe bed 1 and respectively with rear chuck component 4 and crossbeam 5 and are connected, later card The length direction of disk component 4 and crossbeam 5 along lathe bed 1 is moved, and controlling organization is connected with drive mechanism signal；Front chuck component 3 is set One end of lathe bed 1 is placed in, the upper end of rear chuck component 4 and lathe bed 1 is slidably connected, and the side of crossbeam 5 and lathe bed 1 is slidably connected, Laser cutting device 6 is provided with crossbeam 5.

In gantry-type laser cutting machine provided by the utility model, the unlatching of controlling organization control drive mechanism and pass Close, drive mechanism is used to drive the length direction of rear chuck component 4 and crossbeam 5 along lathe bed 1 to move, and rear chuck component 4 is used to add The tubing tightly processed and move length direction of the tubing along lathe bed 1, during tubing is processed, tubing passes through front chuck group The middle part of part 3, and can be moved with respect to front chuck component 3, front chuck component 3 is used to prevent the cantilever of tubing long and influence processing Precision, the side of crossbeam 5 and lathe bed 1 are slidably connected, and drive laser cutting device 6 to be processed tubing.

In the gantry-type laser cutting machining tubing provided using the utility model embodiment, laser cutting device 6 Positioned at the side of the remote rear chuck component 4 of front chuck component 3, one end of tubing is fixed on rear chuck component 4, the other end is worn Front chuck component 3 is crossed, the free end of stretching front chuck component 3 of the laser cutting device 6 to tubing is processed, after completion of processing The free end is cut from whole tubing, and rear chuck component 4 drives tubing specified to being moved close to the direction of front chuck component 3 Distance, laser cutting device 6 continues to be processed the free end stretched out again, repeats above-mentioned process, works as rear chuck After component 4 moves to the extreme position of advance, controlling organization control drive mechanism, drive mechanism driving rear chuck component 4 is to remote Direction from front chuck component 3 is moved, meanwhile, driving crossbeam 5 moves in the same direction with rear chuck component 4, when crossbeam 5 is transported When moving extreme position, drive mechanism stops the driving to crossbeam 5 and rear chuck component 4, also, crossbeam 5 and rear chuck simultaneously The move distance of component 4 is equal；Then, the direction of drive mechanism driving rear chuck component 4 to close front chuck component 3, which is moved, refers to Fixed distance, laser cutting device 6 are processed to continuing tubing.

Compared with the existing laser cutting machine for needing to reinstall remaining tubing, the utility model embodiment provides Gantry-type laser cutting machine, remaining tubing can be continued to process without reinstalling, meanwhile, crossbeam 5 and rear card The distance that disk component 4 moves is equal, makes the relative distance of laser cutting device 6 and remaining tubing constant, without swashing to planer-type Light cutting machine carries out secondary positioning, process operation is become easy, has saved process time.

Further, the upper end of lathe bed 1 is provided with the first guide rail 11, the length direction of the first guide rail 11 and the length of lathe bed 1 It is identical to spend direction, is provided with rear chuck component 4 and is slidably matched the first counterpart with the first guide rail 11.

Specifically, as Figure 1-3, the upper surface of lathe bed 1 is provided with two first guide rails 11, two first guide rails 11 Length direction it is identical with the length direction of lathe bed 1, rear chuck component 4 is provided with what is be slidably matched with two first guide rails 11 First counterpart, the first chute is provided with the first counterpart, the first counterpart is slided by the first chute and the first guide rail 11 Connection.When drive mechanism driving rear chuck component 4 moves, the first counterpart coordinates with the first guide rail 11, makes rear chuck component 4 Smoothly slided along the length direction of lathe bed 1, improve the precision of tubular object extruding.

Further, crossbeam 5 includes horizontally disposed first support 51 and the second support 52 being vertically arranged, first support 51 It is connected with the upper end of second support 52, lower end and the lathe bed 1 of second support 52 are slidably connected, and laser cutting device 6 is arranged at On one support 51.

As shown in figure 3, drive mechanism is connected with second support 52, lower surface and the lathe bed 1 of second support 52 are slidably connected, First support 51 is vertical with second support 52 and is connected, and laser cutting device 6 is arranged at the middle part of first support 51.Work as rear chuck After component 4 moves to the extreme position of advance, drive mechanism drives length direction of the second support 52 along lathe bed 1 to move, and second Support 52 drives first support 51 and laser cutting device 6 to move, and continues to be processed tubing after reaching the limit of position.

Further, the side of lathe bed 1 is provided with the second guide rail 13, the length direction of the second guide rail 13 and the length of lathe bed 1 It is identical to spend direction, the second counterpart being slidably matched with the second guide rail 13 is provided with second support 52.

As shown in figure 1, the end set of the close front chuck component 3 of lathe bed 1 has support frame 12, support frame 12 is located at lathe bed 1 side, the second guide rail 13 is provided with support frame 12, the length direction of the second guide rail 13 is identical with the length direction of lathe bed 1, The lower surface of second support 52 is provided with the second counterpart being slidably matched with the second guide rail 13, and is provided with the second counterpart Two chutes, the second counterpart are slidably connected by the second chute and the second guide rail 13.When drive mechanism driving crossbeam 5 moves, the Two counterparts coordinate with the second guide rail 13, are smoothly moved length direction of the crossbeam 5 along lathe bed 1, improve the processing of tubing Precision.

Further, drive mechanism includes the first actuator and the second actuator 21, the first actuator respectively with lathe bed 1 and Rear chuck component 4 is connected, and the second actuator 21 is connected with lathe bed 1 and second support 52 respectively, and controlling organization drives with first respectively Moving part and the connection of the signal of the second actuator 21.

Specifically, the first actuator is arranged on lathe bed 1, and the drive end of the first actuator is connected with rear chuck component 4, the Two actuators 21 are arranged on the side of lathe bed 1, or, the second actuator 21 is arranged on the support frame 12 on the side of lathe bed 1, the The drive end of two actuators 21 is connected with second support 52, and the first actuator and the second actuator 21 connect with controlling organization signal Connect, controlling organization is used for the open and close for controlling the first actuator and the second actuator 21.

Further, the second actuator 21 includes cylinder, and the length direction of cylinder is identical with the length direction of lathe bed 1, gas The cylinder body of cylinder is connected with lathe bed 1, and the piston rod of cylinder is connected with crossbeam 5.

Specifically, the support frame 12 on the side of lathe bed 1 is connected with lathe bed 1, and the cylinder body of cylinder is connected to the upper end of support frame 12, gas The piston rod of cylinder is connected with the second support 52 in crossbeam 5.When needing crossbeam 5 to move, the second cylinder drives crossbeam 5 along lathe bed 1 length direction motion, so as to realize processing of the laser cutting device 6 to remaining tubing.

Further, contiguous block 53 is provided with crossbeam 5, the piston rod of cylinder is connected by contiguous block 53 with crossbeam 5.

Specifically, as shown in figure 4, contiguous block 53 is arranged on the side of close lathe bed 1 of second support 52, contiguous block 53 Can be connected by way of welding or being threadedly coupled with second support 52, the end of the piston rod of cylinder by contiguous block 53 with Second support 52 in crossbeam 5 connects, with making the end of piston rod of cylinder directly compared with the mode that second support 52 connects, The end of the piston rod of cylinder is set to be connected by contiguous block 53 with second support 52, it is more convenient.

During tubing is processed, the axle of rear chuck component 4 need to be arrived according to the diameter adjustment laser cutting device 6 of tubing The distance of line, therefore, in the present embodiment, laser cutting device connecting plate is provided with crossbeam 5, laser cutting device 6 is with swashing Light cutter device connecting plate is slidably connected, laser cutting device 6 can relative laser cutter device connecting plate vertically slide. Specifically, laser cutting device connecting plate can be connected by way of welding or being threadedly coupled with crossbeam 5, will can be cut by laser Device 6 is fixed on sliding block, sliding block is slidably connected with connecting plate, so as to realize the slip of laser cutting device 6 and connecting plate Connection.When the thicker tubing of processing diameter, laser cutting device 6 is set to be moved to the direction away from the axis of rear chuck component 4, when When processing the thinner tubing of diameter, laser cutting device 6 is set to be moved to the axis direction close to rear chuck component 4.On crossbeam 5 Connecting plate is set, and laser cutting device 6 is slidably connected with connecting plate, can be convenient according to the diameter for the tubing that need to be processed Position of the ground adjustment laser cutting device 6 with respect to the axis of rear chuck component 4.

Further, the 3rd driving for driving laser cutting device 6 vertically to move is provided with crossbeam 5 Part, the 3rd actuator are connected with controlling organization signal.

Specifically, the 3rd actuator is fixed on crossbeam 5, and the drive end of the 3rd actuator is connected with laser cutting device 6, To drive laser cutting device 6 vertically moving, the 3rd actuator can be motor or cylinder etc., in the present embodiment, 3rd actuator is motor, and motor is connected by V belt translation component or chain kit in laser cutting device 6, laser cutting Device 6 is fixed on conveyer belt or on driving-chain, and controlling organization is connected with the 3rd actuator signal, for controlling the 3rd driving The opening and closing of part.When needing to adjust the position of laser cutting device 6, controlling organization control drive mechanism starts, driving Mechanism drive belt transmission component or chain kit are vertically moving, meet the needs of processing different-diameter tubing.

Embodiment two

The purpose of the present embodiment two is to provide a kind of tubular object extruding system, to alleviate in the prior art to save material, The technical problem that tubing need to be reinstalled and make laser cutting machine carry out secondary positioning.

The tubular object extruding system that the present embodiment two provides includes：The planer-type that material head collection device and embodiment one provide swashs Light cutting machine, material head collection device are located at one end of gantry-type laser cutting machine, and remaining material head is processed to collect.

The tubular object extruding system that the present embodiment two provides is with the gantry-type laser cutting machine that embodiment one provides relative to existing There are Dominant Facies possessed by technology same, will not be repeated here.

Finally it should be noted that：Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should Understand：It can still modify to the technical scheme described in foregoing embodiments, either to which part or whole Technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type.

Claims (10)

1. A kind of 1. gantry-type laser cutting machine, it is characterised in that including：Lathe bed, drive mechanism, controlling organization, front chuck component, Rear chuck component and crossbeam, the drive mechanism be arranged on the lathe bed and respectively with the rear chuck component and the crossbeam Connection, to drive the length direction of the rear chuck component and the crossbeam along the lathe bed to move, the controlling organization and institute State the connection of drive mechanism signal；

   The front chuck component is arranged at one end of the lathe bed, and company is slided in the upper end of the rear chuck component and the lathe bed Connect, the side of the crossbeam and the lathe bed is slidably connected, and laser cutting device is provided with the crossbeam.
2. 2. gantry-type laser cutting machine according to claim 1, it is characterised in that the upper end of the lathe bed is provided with first Guide rail, the length direction of first guide rail is identical with the length direction of the lathe bed, be provided with the rear chuck component with First guide rail is slidably matched the first counterpart.
3. 3. gantry-type laser cutting machine according to claim 1, it is characterised in that the crossbeam includes horizontally disposed the One support and the second support being vertically arranged, the first support are connected with the upper end of the second support, the second support Lower end be slidably connected with the lathe bed, the laser cutting device is arranged in the first support.
4. 4. gantry-type laser cutting machine according to claim 3, it is characterised in that the side of the lathe bed is provided with second Guide rail, the length direction of second guide rail is identical with the length direction of the lathe bed, is provided with the second support and institute State the second counterpart that the second guide rail is slidably matched.
5. 5. gantry-type laser cutting machine according to claim 4, it is characterised in that the drive mechanism includes the first driving Part and the second actuator, first actuator are connected with the lathe bed and the rear chuck component respectively, second driving Part is connected with the lathe bed and the second support respectively, the controlling organization respectively with first actuator and described second Actuator signal connects.
6. 6. gantry-type laser cutting machine according to claim 5, it is characterised in that second actuator includes cylinder, The length direction of the cylinder is identical with the length direction of the lathe bed, and the cylinder body of the cylinder is connected with the lathe bed, described The piston rod of cylinder is connected with the crossbeam.
7. 7. gantry-type laser cutting machine according to claim 6, it is characterised in that contiguous block is provided with the crossbeam, The piston rod of the cylinder is connected by the contiguous block with the crossbeam.
8. 8. gantry-type laser cutting machine according to claim 1, it is characterised in that laser cutting is provided with the crossbeam Device connecting plate, the laser cutting device are slidably connected with the laser cutting device connecting plate, the laser cutting device Can relatively described laser cutting device connecting plate vertically slide.
9. 9. gantry-type laser cutting machine according to claim 8, it is characterised in that be provided with the crossbeam for driving The 3rd actuator that the laser cutting device vertically moves, the 3rd actuator connect with the controlling organization signal Connect.
10. A kind of 10. tubular object extruding system, it is characterised in that including：Material head collection device and such as any one of claim 1-9 institutes The gantry-type laser cutting machine stated, the material head collection device are located at one end of the gantry-type laser cutting machine, are added with collecting The remaining material head of work.