CN112756803A - Crawler-type laser machine - Google Patents

Abstract

The invention discloses a crawler-type laser machine, which structurally comprises a cable, a crawler, a motor, a beam, a movable seat, a catkin recovery device and a laser cutting head, and has the following effects: laser cutting head vertical installation is put at removal seat bottom central point, and batting recovery unit is equipped with two, and install the both sides at laser cutting head perpendicularly, the motor is equipped with two, and a motor corresponds and a batting recovery unit cooperation, laser cutting head removes seat and batting recovery unit and works in the motor function at the cutting cloth in-process, laser cutting head is removing the cutting in-process, utilize batting recovery unit can retrieve the batting of adhesion on the cloth surface fast, and the gas pressure who produces, can improve the horizontal stability in the cloth cutting, can effectively avoid the excessive deformation of cloth, make the cloth tangent plane more level and more smooth.

Description

Crawler-type laser machine

Technical Field

The invention relates to the field of laser cutting, in particular to a crawler-type laser machine.

Background

In the process of laser cutting of cloth, because most of the cloth has lighter weight and generates static electricity due to friction in the cutting or conveying process, the cut redundant lint is still adhered to the cloth processed into a finished product, which leads to secondary cleaning of the finished product cloth, and the workload of cloth processing is larger, people generally install a brush on a laser processing workbench for cleaning the lint adhered to the cloth, the brush is arranged between a feed roller and a discharge roller, when the brush bristle surface of the brush is contacted with the cloth, the cloth is deformed and vibrated, and the cloth can be recovered after being deformed or vibrated by force, which is easy to reduce the stability of the cloth in the laser cutting process of the cloth, and the flatness of the cloth section can not be ensured, thus a crawler-type laser machine needs to be developed, solve to this and establish a brush at the workstation facial make-up of laser beam machining usually for clear up the batting of adhesion on the cloth, the brush of installing between feed roll and the discharge roller, when brush bristle surface and cloth contact, can make the cloth warp and vibrate, and the cloth atress warp or need consume the certain time after the vibration just can resume, easily reduce the stability of cloth in cloth laser cutting process, can not guarantee the problem of the roughness of cloth tangent plane.

Summary of the invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the utility model provides a crawler-type laser machine, its structure includes cable, track, motor, crossbeam, removes seat, batting recovery unit, laser cutting head, the crossbeam on be equipped with and remove the seat, removal seat and crossbeam adopt sliding fit, removal seat top be equipped with the track, the inside cable that is equipped with of track, cable and track cooperate, the track both sides all be equipped with the motor, the motor install perpendicularly and remove the seat top to be connected with the cable, removal seat bottom central point put and be equipped with the laser cutting head, the laser cutting head install perpendicularly and remove seat bottom to be connected with the cable, the laser cutting head both sides all be equipped with batting recovery unit, batting recovery unit install perpendicularly and remove seat bottom to cooperate with the motor.

As a further optimization of the technical scheme, the lint recycling device comprises an air inlet pipe, an exhaust pipe, a through-flow moving mechanism, a support, an air hood, an impeller and a lint collecting mechanism, the top of the air hood is provided with the support, the support and the air hood are welded, the impeller is arranged inside the air hood, the impeller and the air hood are matched, the center of the support is provided with the through-flow moving mechanism, the through-flow moving mechanism is perpendicularly installed on the support, the bottom of the air hood is provided with the lint collecting mechanism, the lint collecting mechanism is perpendicularly installed at the bottom of the air hood, the lint collecting mechanism and the through-flow moving mechanism are matched, the exhaust pipe is arranged on two sides of the air hood, the exhaust pipe is connected with the air hood, the bottom of the air hood is provided with the air inlet pipe, and the air inlet pipe is connected with the air hood.

As a further optimization of the technical scheme, the through-flow moving mechanism comprises a straight shaft, a moving wheel, a flow-blocking cover plate, an air-filtering anti-blocking structure, a through-flow pipe, an exhaust joint and a through-flow transverse pipe, the center of the moving wheel is provided with the straight shaft, the straight shaft is fixedly connected with the moving wheel, the lower end of the straight shaft is provided with the through-flow pipe, the through-flow pipe is connected with the straight shaft, the air-filtering anti-blocking structure is arranged on the through-flow pipe and connected with the through-flow pipe, the top of the air-filtering anti-blocking structure is provided with the flow-blocking cover plate, the flow-blocking cover plate is fixedly connected with the air-filtering anti-blocking structure, the bottom of the through-flow pipe is provided with the through-flow transverse pipe, the through-flow transverse pipe is movably connected with the through-flow pipe, the exhaust joints are arranged on two.

As the further optimization of this technical scheme, strain gas and prevent stifled structure including straining gas hood, kuppe, side trachea, connection gas hood, the inside kuppe that is equipped with of gas hood, the inside central point of kuppe put and be equipped with the connection gas hood, connection gas hood outer lane on be equipped with the side trachea, the connection gas hood run through the kuppe through the side trachea and be connected with gas hood.

As a further optimization of the technical scheme, the flock collecting mechanism comprises a magnetic sleeve, a collecting cavity, bristles, a fixing structure and a crumb inlet, the crumb inlet is formed in the bottom of the collecting cavity, the crumb inlet and the collecting cavity are of an integrated structure, the magnetic sleeve is arranged in the central position inside the collecting cavity, the bristles are uniformly distributed on the outer wall of the magnetic sleeve, the bristles are fixedly connected with the magnetic sleeve, the fixing structure is arranged at the bottom of the magnetic sleeve, and the fixing structure is matched with the magnetic sleeve.

As a further optimization of the technical scheme, the fixing structure comprises a limiting rubber ring, a rubber block, a supporting rod, a spring and a connecting seat, the limiting rubber ring is arranged above the connecting seat, the rubber block is arranged at the bottom of the limiting rubber ring, the rubber block is fixedly connected with the limiting rubber ring, the supporting rod is arranged at the rear end of the rubber block, one end of the supporting rod is welded on the connecting seat, the other end of the supporting rod is in sliding fit with the rubber block, the spring is arranged on the outer ring of the supporting rod, and the front end and the rear end of the spring are connected with the rubber block and the connecting seat.

Advantageous effects

The crawler-type laser machine is reasonable in design and strong in functionality, and has the following beneficial effects:

the laser cutting head is vertically arranged at the center of the bottom of the moving seat, the number of the lint recovery devices is two, the laser cutting head is vertically arranged on two sides of the laser cutting head, the number of the motors is two, one motor is correspondingly matched with one lint recovery device, the moving seat and the lint recovery device work in the operation of the motor when the laser cutting head cuts cloth, the lint adhered to the surface of the cloth can be quickly recovered by the lint recovery device when the laser cutting head moves and cuts the cloth, the generated gas pressure can improve the horizontal stability in the cloth cutting process, the excessive deformation of the cloth can be effectively avoided, and the cloth section is smoother;

the moving wheel is arranged in the moving seat and is connected with the motor through the straight shaft, the straight shaft drives the moving wheel and the impeller and bristles arranged on the outer ring of the magnetic sleeve to rotate in the rotating process, the impeller is arranged through the structures of the air inlet pipe, the air exhaust pipe and the through-flow transverse pipe, the air is sucked by the air inlet pipe in the rotating process of the impeller, the air is exhausted into the collecting cavity from the chip inlet through the air exhaust joint, finally the air is exhausted through the air filter hood, air negative pressure is generated at the chip inlet in the reciprocating flowing process of air flow, and the surface fluff of cloth is sucked into the collecting cavity by the air negative pressure in the laser cutting process;

the air filtering cover is arranged at the top of the collecting cavity, the connecting air cover penetrates through the air guide cover through the side air pipe to be connected with the air filtering cover, the air guide cover is of a circular structure, a circle of the outer ring in the circumferential direction is of a circular arc surface shape, the connecting air cover is connected with the through flow pipe, a part of air flow entering the through flow transverse pipe can be discharged into each filtering hole of the air filtering cover through the side air pipe, the filtering holes are prevented from being blocked by small wool, the service time of the air filtering cover is favorably prolonged, the structural arrangement of the air guide cover and the air filtering cover can prevent the wool penetrating through the bristles from being concentrated on the air filtering cover, the wool can be re-attached by the bristles by utilizing the reverse flow effect of the air flow, the recovery of the wool is facilitated, and the exhaust effect of the air filtering cover is;

the through flow pipe is connected with the straight shaft, the through flow pipe is made of ferromagnetic materials, the through flow transverse pipe is movably connected with the exhaust pipe and the through flow pipe, the magnetic sleeve has magnetic attraction, the detachable structure is arranged, the magnetic sleeve with bristles can be favorably arranged on the through flow pipe, the fixing effect is achieved by the magnetic attraction generated by the magnetic sleeve, the connecting seat and the magnetic sleeve are connected through the bearing, each rubber block arranged on the outer ring of the connecting seat is connected with the limiting rubber ring, the rear end of each rubber block is provided with the supporting rod in a sliding mode, the rear end of each supporting rod is fixed on the connecting seat, the front end and the rear end of each spring are fixedly arranged on the rubber blocks and the connecting seat, and the magnetic sleeve can be quickly limited and fixed through the limiting rubber ring, the rubber blocks, the supporting rods, the springs and the structural arrangement of the connecting seat, elastic energy can be utilized, so.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a front view of a track laser of the present invention;

FIG. 2 is a schematic front view of the batting recycling apparatus of the present invention;

FIG. 3 is a front sectional view of the through-flow moving mechanism of the present invention;

FIG. 4 is a schematic top sectional view of the air-filtering anti-blocking structure of the present invention;

FIG. 5 is a schematic cross-sectional front view of the lint pickup mechanism of the present invention;

fig. 6 is a schematic top view of the fixing structure of the present invention.

In the figure: the device comprises a cable-1, a crawler-2, a motor-3, a cross beam-4, a moving seat-5, a fluff recovery device-6, an air inlet pipe-6 a, an exhaust pipe-6 b, a through-flow moving mechanism-6 c, a straight shaft-6 c1, a moving wheel-6 c2, a flow-resisting cover plate-6 c3, an air-filtering anti-blocking structure-6 c4, an air-filtering hood-6 c41, an air-guiding hood-6 c42, a side air pipe-6 c43, a connecting air hood-6 c44, a through-flow pipe-6 c5, an exhaust joint-6 c6, a through-flow transverse pipe-6 c7, a bracket-6 d, an air hood-6 e, an impeller-6 f, a fluff collecting mechanism-6 g, a magnetic sleeve-6 g1, a collecting cavity-6 g2, bristles-6 g3, a fixed structure-6 g4, a limiting rubber ring-6 g41, The device comprises a rubber block-6 g42, a support rod-6 g43, a spring-6 g44, a connecting seat-6 g45, a chip inlet-6 g5 and a laser cutting head-7.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to fig. 1-4, the present invention provides an embodiment of a track type laser machine:

referring to fig. 1, a crawler-type laser machine structurally comprises a cable 1, a crawler 2, a motor 3, a beam 4, a moving seat 5, a flock recovery device 6 and a laser cutting head 7, wherein the moving seat 5 is arranged on the beam 4, the moving seat 5 and the beam 4 are in sliding fit, the crawler 2 is arranged at the top of the moving seat 5, the cable 1 is arranged inside the crawler 2, the cable 1 is matched with the crawler 2, the motor 3 is arranged on both sides of the crawler 2, the motor 3 is vertically arranged on the top of the moving seat 5 and connected with the cable 1, the laser cutting head 7 is arranged at the center of the bottom of the moving seat 5, the laser cutting head 7 is vertically arranged at the bottom of the moving seat 5 and connected with the cable 1, the flock recovery device 6 is arranged on both sides of the laser cutting head 7, the flock recovery device 6 is vertically arranged at the bottom of the moving seat 5, and is fitted with the motor 3.

Referring to fig. 2, the lint recycling device 6 includes an air inlet pipe 6a, an air outlet pipe 6b, a through-flow moving mechanism 6c, a bracket 6d, an air hood 6e, an impeller 6f, and a lint collecting mechanism 6g, the bracket 6d is disposed at the top of the air hood 6e, the bracket 6d is welded to the air hood 6e, the impeller 6f is disposed inside the air hood 6e, the impeller 6f is engaged with the air hood 6e, the through-flow moving mechanism 6c is disposed at the center of the bracket 6d, the through-flow moving mechanism 6c is vertically mounted on the bracket 6d, the lint collecting mechanism 6g is disposed at the bottom of the air hood 6e, the lint collecting mechanism 6g is vertically mounted at the bottom of the air hood 6e, the lint collecting mechanism 6g is engaged with the through-flow moving mechanism 6c, two air outlet pipes 6b are disposed at two sides of the air hood 6e in an axisymmetric structure, blast pipe 6b be U type structure, one end is installed perpendicularly at gas hood 6e top, the other end perpendicular and the horizontal pipe of through-flow 6c7 swing joint, blast pipe 6b and gas hood 6e connect, gas hood 6e bottom be the axisymmetric structure and be equipped with two intake pipe 6a, intake pipe 6a and gas hood 6e connect, intake pipe 6a be U type structure, one end is connected perpendicularly in gas hood 6e bottom, the other end is upwards set up perpendicularly, impeller 6f locate inside gas hood 6e to be connected with straight axle 6c 1.

Referring to fig. 3, the vent moving mechanism 6c includes a straight shaft 6c1, a moving wheel 6c2, a flow-blocking cover plate 6c3, an air-filtering anti-blocking structure 6c4, a vent pipe 6c5, an exhaust joint 6c6, and a cross-flow pipe 6c7, a straight shaft 6c1 is disposed at the center of the moving wheel 6c2, the straight shaft 6c1 and the moving wheel 6c2 are fixedly connected, the moving wheel 6c2 is disposed inside the moving seat 5 and is matched with the cross beam 4, the moving wheel 6c2 is connected with the motor 3 through a straight shaft 6c1, a vent pipe 6c5 is disposed at the lower end of the straight shaft 6c1, the vent pipe 6c 53 is connected with the straight shaft 6c1, an air-filtering structure 6c4 is disposed on the vent pipe 6c5, the air-filtering anti-blocking structure 6c4 is connected with the vent pipe 6c5, the anti-blocking cover plate 6c5 is connected with the flow-blocking structure 5, and the top of the flow-blocking cover plate 5, the bottom of the through flow pipe 6c5 is provided with a through flow pipe 6c7, the through flow pipe 6c7 is movably connected with the through flow pipe 6c5, two exhaust joints 6c6 are arranged on two sides of the through flow pipe 6c5 in parallel and at equal intervals, the exhaust joint 6c6 is connected with the through flow pipe 6c7, the exhaust joint 6c6 is vertically arranged on the through flow pipe 6c7, and an exhaust port at the upper end is arranged in the collecting cavity 6g2 through a chip inlet 6g 5.

Referring to fig. 4, the air filtering anti-blocking structure 6c4 includes an air filtering cover 6c41, a draft shield 6c42, a side air pipe 6c43, and a connecting air shield 6c44, the air filtering cover 6c41 is a circular truncated cone structure and is installed on the top of the collecting cavity 6g2, the air filtering cover 6c41 is installed at the bottom of the flow blocking cover plate 6c3 and is fixedly connected with the flow blocking cover plate, an air guide shield 6c42 is installed inside the air filtering cover 6c41, a connecting air shield 6c44 is installed at the center inside of the air guide shield 6c42, the connecting air shield 6c44 is movably connected with the through-flow pipe 6c5, four side air pipes 6c43 are installed on the outer ring of the connecting air shield 6c44 at equal intervals in the circumferential direction, the connecting air shield 6c44 penetrates through the air guide shield 6c42 to be connected with the air filtering cover 6c41 through the side air pipe 6c43, the draft shield 6c42 is a circular arc-shaped structure, and is a circle.

Example 2

Referring to fig. 1-6, the present invention provides an embodiment of a track type laser machine:

referring to fig. 1, a crawler-type laser machine structurally comprises a cable 1, a crawler 2, a motor 3, a beam 4, a moving seat 5, a flock recovery device 6 and a laser cutting head 7, wherein the moving seat 5 is arranged on the beam 4, the moving seat 5 and the beam 4 are in sliding fit, the crawler 2 is arranged at the top of the moving seat 5, the cable 1 is arranged inside the crawler 2, the cable 1 is matched with the crawler 2, the motor 3 is arranged on both sides of the crawler 2, the motor 3 is vertically arranged on the top of the moving seat 5 and connected with the cable 1, the laser cutting head 7 is arranged at the center of the bottom of the moving seat 5, the laser cutting head 7 is vertically arranged at the bottom of the moving seat 5 and connected with the cable 1, the flock recovery device 6 is arranged on both sides of the laser cutting head 7, the flock recovery device 6 is vertically arranged at the bottom of the moving seat 5, and is fitted with the motor 3.

Referring to fig. 2, the lint recycling device 6 includes an air inlet pipe 6a, an air outlet pipe 6b, a through-flow moving mechanism 6c, a bracket 6d, an air hood 6e, an impeller 6f, and a lint collecting mechanism 6g, the bracket 6d is disposed at the top of the air hood 6e, the bracket 6d is welded to the air hood 6e, the impeller 6f is disposed inside the air hood 6e, the impeller 6f is engaged with the air hood 6e, the through-flow moving mechanism 6c is disposed at the center of the bracket 6d, the through-flow moving mechanism 6c is vertically mounted on the bracket 6d, the lint collecting mechanism 6g is disposed at the bottom of the air hood 6e, the lint collecting mechanism 6g is vertically mounted at the bottom of the air hood 6e, the lint collecting mechanism 6g is engaged with the through-flow moving mechanism 6c, two air outlet pipes 6b are disposed at two sides of the air hood 6e in an axisymmetric structure, blast pipe 6b be U type structure, one end is installed perpendicularly at gas hood 6e top, the other end perpendicular and the horizontal pipe of through-flow 6c7 swing joint, blast pipe 6b and gas hood 6e connect, gas hood 6e bottom be the axisymmetric structure and be equipped with two intake pipe 6a, intake pipe 6a and gas hood 6e connect, intake pipe 6a be U type structure, one end is connected perpendicularly in gas hood 6e bottom, the other end sets up upwards perpendicularly.

Referring to fig. 3, the vent moving mechanism 6c includes a straight shaft 6c1, a moving wheel 6c2, a flow-blocking cover plate 6c3, an air-filtering anti-blocking structure 6c4, a vent pipe 6c5, an exhaust joint 6c6, and a cross-flow pipe 6c7, a straight shaft 6c1 is disposed at the center of the moving wheel 6c2, the straight shaft 6c1 and the moving wheel 6c2 are fixedly connected, the moving wheel 6c2 is disposed inside the moving seat 5 and is matched with the cross beam 4, the moving wheel 6c2 is connected with the motor 3 through a straight shaft 6c1, a vent pipe 6c5 is disposed at the lower end of the straight shaft 6c1, the vent pipe 6c 53 is connected with the straight shaft 6c1, an air-filtering structure 6c4 is disposed on the vent pipe 6c5, the air-filtering anti-blocking structure 6c4 is connected with the vent pipe 6c5, the anti-blocking cover plate 6c5 is connected with the flow-blocking structure 5, and the top of the flow-blocking cover plate 5, the bottom of the through flow pipe 6c5 is provided with a through flow pipe 6c7, the through flow pipe 6c7 is movably connected with the through flow pipe 6c5, two exhaust joints 6c6 are arranged on two sides of the through flow pipe 6c5 in parallel and at equal intervals, the exhaust joint 6c6 is connected with the through flow pipe 6c7, the exhaust joint 6c6 is vertically arranged on the through flow pipe 6c7, and an exhaust port at the upper end is arranged in the collecting cavity 6g2 through a chip inlet 6g 5.

Referring to fig. 4, the air filtering anti-blocking structure 6c4 includes an air filtering cover 6c41, a draft shield 6c42, a side air pipe 6c43, and a connecting air shield 6c44, the air filtering cover 6c41 is a circular truncated cone structure and is installed on the top of the collecting cavity 6g2, the air filtering cover 6c41 is installed at the bottom of the flow blocking cover plate 6c3 and is fixedly connected with the flow blocking cover plate, an air guide shield 6c42 is installed inside the air filtering cover 6c41, a connecting air shield 6c44 is installed at the center inside of the air guide shield 6c42, the connecting air shield 6c44 is movably connected with the through-flow pipe 6c5, four side air pipes 6c43 are installed on the outer ring of the connecting air shield 6c44 at equal intervals in the circumferential direction, the connecting air shield 6c44 penetrates through the air guide shield 6c42 to be connected with the air filtering cover 6c41 through the side air pipe 6c43, the draft shield 6c42 is a circular arc-shaped structure, and is a circle.

Referring to fig. 5, the air filtering anti-blocking structure 6c4 includes an air filtering cover 6c41, a wind deflector 6c42, a side air pipe 6c43, and a connecting air cover 6c44, the air filtering cover 6c41 is in a circular truncated cone shape and is installed at the top of the collecting cavity 6g2, the air filtering cover 6c41 is installed at the bottom of the flow blocking cover plate 6c3 and is fixedly connected with the flow blocking cover plate 6c3, the inside of the air filtering cover 6c41 is provided with a wind deflector 6c42, the inside center of the air guiding cover 6c42 is provided with a connecting air cover 6c44, the connecting air cover 6c44 is movably connected with the through pipe 6c5, the outer ring of the connecting air cover 6c44 is provided with four side air pipes 6c43 at equal intervals, the connecting air cover 6c44 penetrates through the wind deflector 6c 46 42 through the side air pipe 6c43 to be connected with the air filtering cover 6c41, the air guiding cover 6c42 is in a circular arc shape and is in a circle.

Referring to fig. 6, the fixing structure 6g4 includes a limiting rubber ring 6g41, a rubber block 6g42, a supporting rod 6g43, a spring 6g44 and a connecting seat 6g45, the connecting seat 6g45 is disposed on the magnetic sleeve 6g1 and movably connected with the magnetic sleeve, a limiting rubber ring 6g41 is disposed above the connecting seat 6g45, four rubber blocks 6g42 are circumferentially disposed at the bottom of the limiting rubber ring 6g41 at equal intervals, the rubber block 6g42 is fixedly connected with the limiting rubber ring 6g41, a supporting rod 6g43 is disposed at the rear end of the rubber block 6g42, one end of the supporting rod 6g43 is welded on the connecting seat 6g45, the other end of the supporting rod is in sliding fit with the rubber block 6g42, a spring 6g44 is disposed on the outer ring of the supporting rod 6g43, and the front and rear ends of the spring 6g44 are connected with the rubber block 6g42 and the connecting seat 6g 45.

The specific realization principle is as follows:

because the laser cutting head 7 is vertically arranged at the central position of the bottom of the movable seat 5, the two flock recovery devices 6 are arranged and are vertically arranged at two sides of the laser cutting head 7, the two motors 3 are arranged, one motor 3 is correspondingly matched with one flock recovery device 6, the movable seat 5 and the flock recovery device 6 work in the operation of the motor 3 when the laser cutting head 7 cuts cloth, the flock adhered on the surface of the cloth can be quickly recovered by the flock recovery device 6 in the movable cutting process of the laser cutting head 7, the generated gas pressure can improve the horizontal stability in the cloth cutting process, the cloth can be effectively prevented from being excessively deformed, the cut surface of the cloth is smoother, because the movable wheel 6c2 is arranged inside the movable seat 5 and is connected with the motor 3 through the straight shaft 6c1, the straight shaft 6c1 drives the movable wheel 2 and the impeller 6f and the bristles 6g3 arranged on the outer ring of the magnetic sleeve 6g1 to rotate in the rotating process, through the structural arrangement of the air inlet pipe 6a, the air outlet pipe 6b and the transverse through-flow pipe 6c7, the impeller 6f sucks air from the air inlet pipe 6a in rotation, the air is discharged from the chip inlet 6g5 into the collection cavity 6g2 through the air outlet joint 6c6, finally the air is discharged through the air filter 6c41, the air flow generates air negative pressure at the chip inlet 6g5 in the reciprocating flowing process, the surface fluff of cloth is sucked into the collection cavity 6g2 by the air negative pressure in the laser cutting process, because the rotating bristles 6g3 are arranged in the collection cavity 6g2, the fluff recovery efficiency of the fluff can be improved by the rotating bristles 6g3 being attached to the fluff, because the air filter 6c41 is arranged at the top of the collection cavity 6g2, and the connecting air shield 6c44 penetrates through the air guide 6c42 through the side air pipe 6c43 to be connected with the air filter 6c41, and the guide 6c42 is in a circular arc structure and a circle of the circumference, and the connecting air hood 6c44 is connected with the through flow pipe 6c5, a part of the air flow entering the through flow pipe 6c7 is discharged into each filtering hole of the air filtering hood 6c41 through the side air pipe 6c43, the filtering holes are prevented from being blocked by small flocks, the service life of the air filtering hood 6c41 is favorably prolonged, the structure arrangement of the air guide hood 6c42 and the air filtering hood 6c41 can prevent the flocks passing through the bristles 6g3 from being concentrated on the air filtering hood 6c41, the flocks can be re-wetted by the bristles 6g3 by utilizing the reverse flow effect of the air flow, the recovery of the flocks is favorably realized, the exhaust effect of the air filtering hood 6c41 is improved, because the through flow pipe 6c5 is connected with the straight shaft 6c1, and the material of the through flow pipe 6c5 is ferromagnetic, because the through flow pipe 6c7 is movably connected with the exhaust pipe 6b and the through flow pipe 6c5, and the magnetic sleeve 1 has magnetic attraction force, the detachable structure arrangement is favorable for installing the bristles 466 g5 on the through flow pipe 396 c 466 c, utilize the magnetic attraction that magnetic sleeve 6g1 produced to reach fixed effect, because connecting seat 6g45 and magnetic sleeve 6g1 pass through the bearing connection, and each rubber block 6g42 that is equipped with on the connecting seat 6g45 outer lane is connected with spacing rubber ring 6g41, and rubber block 6g42 rear end slides and is provided with branch 6g43, and branch 6g43 rear end is fixed at connecting seat 6g45, and spring 6g44 front and back both ends are fixed at rubber block 6g42 and connecting seat 6g45, through spacing rubber ring 6g41, rubber block 6g42, branch 6g43 and spring 6g44 and the structural setting of connecting seat 6g45, can utilize the elastic energy, make magnetic sleeve 6g1 spacing fixed fast, thereby improve the stability of brush hair 6g3 work, do benefit to the dismouting of brush hair 6g3 simultaneously, solve to install a cloth on the workstation of laser processing usually with this to solve, be used for clearing up the adhesion on the conveyer belt on, install the brush between the batting roller and the discharge roller, when brush bristle surface and cloth contact, can make the cloth warp and vibrate, and the cloth atress warp or need consume the certain time after the vibration just can resume, easily reduce the stability of cloth in cloth laser cutting process, can not guarantee the problem of the roughness of cloth tangent plane.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a crawler-type laser machine, its structure includes cable (1), track (2), motor (3), crossbeam (4), removes seat (5), batting recovery unit (6), laser cutting head (7), its characterized in that:

crossbeam (4) on be equipped with and remove seat (5), removal seat (5) top be equipped with track (2), track (2) inside be equipped with cable (1), track (2) both sides all be equipped with motor (3), removal seat (5) bottom be equipped with laser cutting head (7), laser cutting head (7) both sides all be equipped with batting recovery unit (6).

2. The track-type laser machine of claim 1, wherein: lint recovery unit (6) including intake pipe (6a), blast pipe (6b), through-flow moving mechanism (6c), support (6d), gas hood (6e), impeller (6f), lint collection mechanism (6g), gas hood (6e) top be equipped with support (6d), inside impeller (6f) that is equipped with of gas hood (6e), support (6d) central point put and be equipped with through-flow moving mechanism (6c), gas hood (6e) bottom be equipped with lint collection mechanism (6g), gas hood (6e) both sides all be equipped with blast pipe (6b), gas hood (6e) bottom be equipped with intake pipe (6 a).

3. The track-type laser machine of claim 2, wherein: through-flow moving mechanism (6c) including straight axle (6c1), removal wheel (6c2), choked flow apron (6c3), strain the stifled structure of gas (6c4), draught tube (6c5), exhaust joint (6c6), through-flow pipe (6c7), removal wheel (6c2) central point put and be equipped with straight axle (6c1), straight axle (6c1) lower extreme be equipped with draught tube (6c5), draught tube (6c5) on be equipped with strain the stifled structure of gas (6c4), the stifled structure of straining gas (6c4) top be equipped with choked flow apron (6c3), draught tube (6c5) bottom be equipped with through-flow pipe (6c7), draught tube (6c5) both sides all be equipped with exhaust joint (6c 6).

4. The track-type laser machine of claim 3, wherein: strain gas anti-blocking structure (6c4) including straining gas hood (6c41), kuppe (6c42), side trachea (6c43), connect gas hood (6c44), strain gas hood (6c41) inside kuppe (6c42) of being equipped with, inside being equipped with of kuppe (6c42) connect gas hood (6c44), connect gas hood (6c44) outer lane on be equipped with side trachea (6c 43).

5. The track-type laser machine of claim 2, wherein: catkin collection mechanism (6g) including magnetic sleeve (6g1), collection cavity (6g2), brush hair (6g3), fixed knot construct (6g4), advance bits mouth (6g5), collection cavity (6g2) bottom be equipped with into bits mouth (6g5), collection cavity (6g2) inside be equipped with magnetic sleeve (6g1), magnetic sleeve (6g1) outer wall on distribute and have brush hair (6g3), magnetic sleeve (6g1) bottom be equipped with fixed knot construct (6g 4).

6. The track-type laser machine of claim 5, wherein: fixed knot structure (6g4) including spacing gluey ring (6g41), block rubber (6g42), branch (6g43), spring (6g44), connecting seat (6g45), connecting seat (6g45) top be equipped with spacing gluey ring (6g41), spacing gluey ring (6g41) bottom be equipped with block rubber (6g42), block rubber (6g42) rear end be equipped with branch (6g43), branch (6g43) outer lane on be equipped with spring (6g 44).

Images