CN210099258U - Laser cutting machine's reason traditional thread binding putting - Google Patents

Abstract

In order to solve current optic fibre laser cutting machine's circuit arrangement difficulty, have the problem of potential safety hazard, the utility model provides a laser cutting machine's reason line device, it includes: base 1, X axle crossbeam 4, first Y axle workstation 2, second Y axle workstation 3, cutting mechanism 5, X axle tow chain 6, Y axle tow chain 8, Z axle tow chain 7, cross line box 12, X axle tow chain groove 15 and Y axle tow chain groove 14, its characterized in that: the integrated X-axis drag chain box and the integrated Y-axis drag chain box are characterized by further comprising a first drag chain box 13 and a second drag chain box 16, the X-axis drag chain 6 and the Y-axis drag chain 8 are integrated in two directions of the first drag chain box 13, the X-axis drag chain 6 and the Z-axis drag chain 7 are integrated in two directions of the second drag chain box 16, all lines in the X-axis drag chain 6 and the Y-axis drag chain 8 can be contained in the space of the first drag chain box 13, and all lines in the X-axis drag chain 6 and the Z-axis drag chain 7 can be contained in the space of the second drag chain box 16.

Description

Laser cutting machine's reason traditional thread binding putting

Technical Field

The utility model relates to an optic fibre laser cutting machine technical field, it is comparatively concrete, involve a laser cutting machine's reason line device.

Background

The circuit of the optical fiber laser cutting machine is complex, particularly a large number of circuits are distributed near the cutting mechanism, and the cutting mechanism also participates in three-dimensional movement in the laser cutting process, so that the connecting line can also move, the circuit of the whole machine looks messy, and safety accidents are easy to happen. Therefore, in order to enable the circuit of the optical fiber laser cutting machine to be relatively tidy, and the circuit cannot move around along with the movement of the cutting mechanism, an optical fiber laser cutting machine with a drag chain structure exists in the market at present, a part of circuit can be protected through a drag chain, but the existing drag chain is designed to be in a single direction, or drag chains are arranged in the X-axis direction, the Y-axis direction and the Z-axis direction respectively, and the circuit is inserted in the drag chains respectively, but the drag chains in the X-axis direction, the Y-axis direction and the Z-axis direction are not connected together, so that a part of circuit is exposed outside, the appearance is not attractive enough in vision, and potential safety hazards exist. The important reason that the drag chain structure of the existing laser cutting machine is split is that the cutting mechanism can move freely, once the drag chain structure is made into an integral structure, if the drag chain can not move along with the movement of the cutting mechanism, a line card can be stopped in the drag chain, and the normal cutting flow is influenced.

SUMMERY OF THE UTILITY MODEL

In view of this, in order to solve current optic fibre laser cutting machine's circuit arrangement difficulty, have the problem of potential safety hazard, the utility model provides a laser cutting machine's reason line device, it includes: a base 1, an X-axis beam 4, a first Y-axis workbench 2, a second Y-axis workbench 3, a cutting mechanism 5, an X-axis drag chain 6, a Y-axis drag chain 8, a Z-axis drag chain 7, a first drag chain box 13, a wire passing box 12, an X-axis drag chain groove 15, a Y-axis drag chain groove 14 and a second drag chain box 16, by integrating the X-axis drag chain 6 and the Z-axis drag chain 7 in both directions of the second drag chain case 16, so that the line changes direction in the second drag chain magazine 16, the X-axis drag chain 6 is integrated with the Y-axis drag chain 8 in both directions of the first drag chain magazine 13, so that the line changes direction in the first drag chain magazine 13, while the first and second drag chain cases 13 and 16 also have the function of receiving and paying out a certain line during the movement of the cutting mechanism, therefore, the first drag chain box 13 and the second drag chain box 16 can be adopted to easily solve the storage problem of line movement caused by the cutting mechanism in the moving process.

A wire arranging device of a laser cutting machine comprises: the cutting machine comprises a base 1, an X-axis cross beam 4, a first Y-axis workbench 2, a second Y-axis workbench 3, a cutting mechanism 5, an X-axis drag chain 6, a Y-axis drag chain 8, a Z-axis drag chain 7, a wire passing box 12, an X-axis drag chain groove 15 and a Y-axis drag chain groove 14, wherein the first Y-axis workbench 2 and the second Y-axis workbench 3 are fixed at two ends of the base 1, the first Y-axis workbench 2 and the second Y-axis workbench 3 are arranged at parallel and opposite positions, the X-axis cross beam 4 is respectively fixed on the first Y-axis workbench 2 and the second Y-axis workbench 3 through two bases, the bases can move along guide rails on the first Y-axis workbench 2 and the second Y-axis workbench 3, the bottom of the cutting mechanism 5 is provided with a base, the bases can move on the guide rails of the X-axis cross beam 4, the X-axis cross beam is provided with the X-axis drag chain 6, the Y-axis drag chain 8 is arranged on the first Y-axis workbench 2, the cutting mechanism 5 is provided with the Z-axis, the line passes X axle tow chain 6, Y axle tow chain 8 and Z axle tow chain 7 respectively, its characterized in that: the integrated X-axis drag chain box and the integrated Y-axis drag chain box are characterized by further comprising a first drag chain box 13 and a second drag chain box 16, the X-axis drag chain 6 and the Y-axis drag chain 8 are integrated in two directions of the first drag chain box 13, the X-axis drag chain 6 and the Z-axis drag chain 7 are integrated in two directions of the second drag chain box 16, all lines in the X-axis drag chain 6 and the Y-axis drag chain 8 can be contained in the space of the first drag chain box 13, and all lines in the X-axis drag chain 6 and the Z-axis drag chain 7 can be contained in the space of the second drag chain box 16.

Further, the length of the first Y-axis workbench 2 and the second Y-axis workbench 3 is 2-15 meters.

Furthermore, the Y-axis drag chain 8 is of a U-shaped structure, an opening at one end of the U-shaped structure is connected with the first drag chain box 13, an opening at the other end of the U-shaped structure is connected with the Y-axis drag chain groove cover plate 11, the lower portion of the Y-axis drag chain groove cover plate 11 is provided with the wire passing box 12, and all lines are led out from the wire passing box 12 to be connected externally.

Furthermore, because the direction of the Y-axis workbench is long, and the structure of the Y-axis drag chain 8 is heavy, a support rod 9 and a Y-axis drag chain support frame 10 are respectively arranged below the U-shaped structure of the Y-axis drag chain for supporting the weight of the Y-axis drag chain 8.

Further, a Y-axis drag chain groove 14 is arranged below a parallel surface below the U-shaped structure of the Y-axis drag chain 8, and the Y-axis drag chain groove 14 is fixed on the Y-axis workbench through a Y-axis drag chain support frame 10. Therefore, the Y-axis drag chain 8 can be better fixed on the Y-axis workbench, and the extension and the contraction of the Y-axis drag chain 8 are facilitated.

Further, the X-axis drag chain 6 and the Y-axis drag chain 8 are both U-shaped.

Further, in order to facilitate the movement of the X-axis drag chain 6, an X-axis drag chain slot 15 is provided on the X-axis cross beam.

Further, one end of the X-axis drag chain 6 is connected to the second drag chain case 16, and the other end of the X-axis drag chain 6 is connected to the first drag chain case 13.

The utility model discloses a laser cutting machine's reason line device's theory of operation does: the circuit of the laser cutting machine is connected into a second drag chain box 16 through a Z-axis drag chain 6 respectively, then is connected with an X-axis drag chain 6 through the second drag chain box 16, so that the circuit enters the X-axis drag chain 6, then is connected with a first drag chain box 13 through the X-axis drag chain 6 and then enters a Y-axis drag chain 8, and then is led out of the laser cutting machine after passing through a Y-axis drag chain groove cover plate 11 and a wire passing box 12. In the process, the X-axis drag chain 6, the Y-axis drag chain 8 and the Z-axis drag chain 7 are all set to adopt U-shaped structures, so that the dragging of the line is facilitated.

Drawings

Fig. 1 is a schematic view of a wire arranging device of the laser cutting machine according to the present invention.

Fig. 2 is a schematic view of the wire arranging device of the laser cutting machine according to the present invention.

Fig. 3 is a schematic view of the wire arranging device of the laser cutting machine according to the present invention.

Description of the main elements

Base seat	1
		First Y-axis workbench	2
Second Y-axis workbench	3
		X-axis beam	4
Cutting mechanism	5
		X-axis drag chain	6
Z-axis drag chain	7
		Y-axis drag chain	8
Drag chain support rod	9
		Y-axis drag chain support frame	10
Y-axis drag chain groove cover plate	11
		Wire passing box	12
First drag chain box	13
		Y-axis drag chain groove	14
X-axis drag chain groove	15
		Second drag chain box	16

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

Specific embodiment example 1:

as shown in FIGS. 1-3, the present invention is a schematic view of a wire arranging device of a laser cutting machine. A wire arranging device of a laser cutting machine comprises: the cutting machine comprises a base 1, an X-axis cross beam 4, a first Y-axis workbench 2, a second Y-axis workbench 3, a cutting mechanism 5, an X-axis drag chain 6, a Y-axis drag chain 8, a Z-axis drag chain 7, a wire passing box 12, an X-axis drag chain groove 15 and a Y-axis drag chain groove 14, wherein the first Y-axis workbench 2 and the second Y-axis workbench 3 are fixed at two ends of the base 1, the first Y-axis workbench 2 and the second Y-axis workbench 3 are arranged at parallel and opposite positions, the X-axis cross beam 4 is respectively fixed on the first Y-axis workbench 2 and the second Y-axis workbench 3 through two bases, the bases can move along guide rails on the first Y-axis workbench 2 and the second Y-axis workbench 3, the bottom of the cutting mechanism 5 is provided with a base, the bases can move on the guide rails of the X-axis cross beam 4, the X-axis cross beam is provided with the X-axis drag chain 6, the Y-axis drag chain 8 is arranged on the first Y-axis workbench 2, the cutting mechanism 5 is provided with the Z-axis, the line passes X axle tow chain 6, Y axle tow chain 8 and Z axle tow chain 7 respectively, its characterized in that: the integrated X-axis drag chain box and the integrated Y-axis drag chain box are characterized by further comprising a first drag chain box 13 and a second drag chain box 16, the X-axis drag chain 6 and the Y-axis drag chain 8 are integrated in two directions of the first drag chain box 13, the X-axis drag chain 6 and the Z-axis drag chain 7 are integrated in two directions of the second drag chain box 16, all lines in the X-axis drag chain 6 and the Y-axis drag chain 8 can be contained in the space of the first drag chain box 13, and all lines in the X-axis drag chain 6 and the Z-axis drag chain 7 can be contained in the space of the second drag chain box 16.

The length of first Y axle workstation 2 and second Y axle workstation 3 is 12 meters, and Y axle tow chain 8 is the U-shaped structure, and the one end opening of U-shaped structure links to each other with first tow chain box 13, and the other one end opening of U-shaped structure links to each other with Y axle tow chain groove apron 11, and the lower part of Y axle tow chain groove apron 11 is equipped with crosses line box 12, and all circuits are drawn forth from crossing line box 12 and are carried out the external.

Because the direction of Y axle workstation is longer, and the structure of Y axle tow chain 8 is heavier, so be equipped with bracing piece 9 and Y axle tow chain support frame 10 respectively and be used for supporting the weight of Y axle tow chain 8 below the U-shaped structure of Y axle tow chain. And a Y-axis drag chain groove 14 is arranged below a parallel surface below the U-shaped structure of the Y-axis drag chain 8, and the Y-axis drag chain groove 14 is fixed on the Y-axis workbench through a Y-axis drag chain support frame 10. Therefore, the Y-axis drag chain 8 can be better fixed on the Y-axis workbench, and the extension and the contraction of the Y-axis drag chain 8 are facilitated.

The X-axis drag chain 6 and the Y-axis drag chain 8 are both U-shaped. In order to facilitate the movement of the X-axis drag chain 6, an X-axis drag chain groove 15 is arranged on the X-axis cross beam. One end of the X-axis drag chain 6 is connected with the second drag chain box 16, and the other end of the X-axis drag chain 6 is connected with the first drag chain box 13.

The utility model discloses a laser cutting machine's reason line device's theory of operation does: the circuit of the laser cutting machine is connected into a second drag chain box 16 through a Z-axis drag chain 6 respectively, then is connected with an X-axis drag chain 6 through the second drag chain box 16, so that the circuit enters the X-axis drag chain 6, then is connected with a first drag chain box 13 through the X-axis drag chain 6 and then enters a Y-axis drag chain 8, and then is led out of the laser cutting machine after passing through a Y-axis drag chain groove cover plate 11 and a wire passing box 12. In the process, the X-axis drag chain 6, the Y-axis drag chain 8 and the Z-axis drag chain 7 are all set to adopt U-shaped structures, so that the dragging of the line is facilitated.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. A wire arranging device of a laser cutting machine comprises: the cutting machine comprises a base (1), an X-axis beam (4), a first Y-axis workbench (2), a second Y-axis workbench (3), a cutting mechanism (5), an X-axis drag chain (6), a Y-axis drag chain (8), a Z-axis drag chain (7), a wire passing box (12), an X-axis drag chain groove (15) and a Y-axis drag chain groove (14), wherein the first Y-axis workbench (2) and the second Y-axis workbench (3) are fixed at two ends of the base (1), the first Y-axis workbench (2) and the second Y-axis workbench (3) are positioned at opposite parallel positions, the X-axis beam (4) is respectively fixed on the first Y-axis workbench (2) and the second Y-axis workbench (3) through two bases, the bases can move along guide rails on the first Y-axis workbench (2) and the second Y-axis workbench (3), the base is arranged at the bottom of the cutting mechanism (5), and can move on the guide rails of the X-axis beam (4), be equipped with X axle tow chain (6) on the X axle crossbeam, be equipped with Y axle tow chain (8) on first Y axle workstation (2), be equipped with Z axle tow chain (7) on cutting mechanism (5), X axle tow chain (6), Y axle tow chain (8) and Z axle tow chain (7), its characterized in that are passed respectively to the circuit: the multifunctional drag chain device is characterized by further comprising a first drag chain box (13) and a second drag chain box (16), the X-axis drag chain (6) and the Y-axis drag chain (8) are integrated in two directions of the first drag chain box (13), the X-axis drag chain (6) and the Z-axis drag chain (7) are integrated in two directions of the second drag chain box (16), all lines in the X-axis drag chain (6) and the Y-axis drag chain (8) can be contained in the space of the first drag chain box (13), and all lines in the X-axis drag chain (6) and the Z-axis drag chain (7) can be contained in the space of the second drag chain box (16).

2. The wire management device of a laser cutting machine according to claim 1, characterized in that: the length of the first Y-axis workbench (2) and the second Y-axis workbench (3) is 2-15 meters.

3. The wire management device of a laser cutting machine according to claim 1, characterized in that: y axle tow chain (8) are the U-shaped structure, and the one end opening of U-shaped structure links to each other with first tow chain box (13), and the other one end opening of U-shaped structure links to each other with Y axle tow chain groove apron (11), and the lower part of Y axle tow chain groove apron (11) is equipped with crosses line box (12), and all circuits are drawn forth from crossing line box (12) and are carried out the external.

4. The wire management device of a laser cutting machine according to claim 3, characterized in that: a support rod (9) and a Y-axis drag chain support frame (10) are respectively arranged below the U-shaped structure of the Y-axis drag chain and are used for supporting the weight of the Y-axis drag chain (8).

5. The wire management device of a laser cutting machine according to claim 3, characterized in that: and a Y-axis drag chain groove (14) is arranged below a parallel surface below the U-shaped structure of the Y-axis drag chain (8), and the Y-axis drag chain groove (14) is fixed on the Y-axis workbench through a Y-axis drag chain support frame (10).

6. The wire management device of a laser cutting machine according to claim 1, characterized in that: the X-axis drag chain (6) and the Y-axis drag chain (8) are both U-shaped.

7. The wire management device of a laser cutting machine according to claim 1, characterized in that: an X-axis drag chain groove (15) is arranged on the X-axis beam.

8. The wire management device of a laser cutting machine according to claim 1, characterized in that: one end of the X-axis drag chain (6) is connected with the second drag chain box (16), and the other end of the X-axis drag chain (6) is connected with the first drag chain box (13).

Images