CN217253711U - Laser pipe cutting mechanism - Google Patents

Abstract

The utility model belongs to the technical field of the laser beam machining equipment technique and specifically relates to indicate a laser pipe cutting mechanism, which comprises a frame, the work platen, laser device and two material all in one piece location stations, the work platen is installed in the frame through a rotation axis, material all in one piece location station includes the forward push pedal, movable loading board and a plurality of side direction push pedal, the work platen is equipped with two locating hole grooves, movable loading board slidable mounting is in the bottom of work platen, the movable loading board is located the locating hole groove, the forward push pedal slides and sets up in the one end in locating hole groove, a plurality of side direction push pedals all slide and set up in one side in locating hole groove, a plurality of tubular product are located the locating hole groove, forward push pedal and side direction push pedal are used for fixing a position a plurality of tubular product material all in one piece, laser device is located the top in locating hole groove, laser device is used for cutting a plurality of tubular product. This application automatically treats that laser cutting tubular product carries out the material all in one piece location to a plurality of, improves the work efficiency who goes up unloading and laser cutting, improves tubular product laser cutting's accuracy nature.

Description

Laser pipe cutting mechanism

Technical Field

The utility model belongs to the technical field of laser beam machining equipment technique and specifically relates to indicate a laser pipe cutting mechanism.

Background

The traditional pipe cutting adopts a saw blade or a blade to perform mechanical cutting, but the cutting efficiency is low, the precision is low, and the pipe cutting by adopting laser is widely applied along with the rise of laser technology. Among the prior art, laser cutting equipment's tubular product material loading positioning effect is not good, needs manual operation to arrange a plurality of tubular products neatly usually, carries out laser cutting operation again, can't reach automatic, in batches, carry out the cutting operation fast, can't satisfy the demand of modernized production.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a laser pipe cutting mechanism carries out material in a lump location to a plurality of laser cutting tubular product of treating automatically, improves the work efficiency of unloading and laser cutting, improves tubular product laser cutting's accuracy nature.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a laser pipe cutting mechanism comprises a rack, a working table plate, a laser device and two material arranging and positioning stations, wherein the working table plate is rotatably arranged on the rack through a rotating shaft, the two material arranging and positioning stations are arranged on the working table plate, each material arranging and positioning station comprises a forward push plate, a movable bearing plate and a plurality of lateral push plates, the working table plate is provided with two positioning hole grooves, the movable bearing plate is slidably arranged at the bottom of the working table plate, the movable bearing plate is positioned in the positioning hole grooves, the forward push plate is slidably arranged at one end of each positioning hole groove, the lateral push plates are slidably arranged on one sides of the positioning hole grooves, a plurality of pipes are positioned in the positioning hole grooves, the forward push plates and the lateral push plates are used for positioning the material arranging of the pipes, the laser device is positioned above the positioning hole grooves, the laser device is used for cutting a plurality of pipes.

Furthermore, the laser device comprises a Y-axis module, an X-axis module, a Z-axis module and a laser emitter, wherein the X-axis module is slidably mounted on the Y-axis module, the Z-axis module is slidably mounted on the X-axis module, the laser emitter is slidably mounted on the Z-axis module, and the laser emitter and the positioning hole groove are correspondingly arranged.

The laser pipe cutting mechanism further comprises a first driving part, the first driving part is installed on the working table plate, two sliding rails are arranged at the bottom of the working table plate and are respectively located on two sides of the positioning hole groove, two ends of the movable bearing plate are respectively installed on the two sliding rails in a sliding mode, an output end of the first driving part is connected with a driving plate, the driving plate is connected with one end of the movable bearing plate and is located on one side of the positioning hole groove, and a plurality of pipes are located on the other side of the positioning hole groove.

Furthermore, one end of the positioning hole groove, which is far away from the forward push plate, is provided with a fixed bearing plate, one end of the pipe is borne on the fixed bearing plate, and the other end of the pipe is borne on the movable bearing plate.

Further, the laser pipe cutting mechanism further comprises a second driving part installed on the working table plate, the output end of the second driving part is connected with the forward push plate, and the forward push plate abuts against the end of the pipe.

Furthermore, the laser pipe cutting mechanism further comprises a plurality of third driving parts arranged on the working table plate, the output ends of the third driving parts are connected with the lateral push plate, and the lateral push plate abuts against the side wall of the pipe.

The utility model has the advantages that:

1. the laser cutting machine drives the working table plate to rotate, the two material arranging and positioning stations alternately carry out feeding and discharging and laser cutting, when one material arranging and positioning station carries out feeding and discharging, the other material arranging and positioning station carries out laser cutting, and the working efficiency of feeding and discharging and laser cutting is improved;

2. a plurality of tubular products are arranged and are placed in the locating hole groove, the forward push plate is used for locating the end material arrangement of a plurality of tubular products, a plurality of lateral push plates are used for locating the lateral part material arrangement of a plurality of tubular products, the material arrangement locating station automatically locates the material arrangement of a plurality of tubular products to be laser-cut, and the accuracy and the working efficiency of laser-cut of the tubular products can be improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of a partially enlarged structure of the present invention.

Fig. 3 is a schematic diagram of a partially enlarged structure of the present invention.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 3, the utility model provides a laser pipe cutting mechanism, which comprises a frame 1, a work table 2, a laser device 3 and two material arranging positioning stations 4, wherein the work table 2 is rotatably mounted on the frame 1 through a rotating shaft 5, the two material arranging positioning stations 4 are both arranged on the work table 2, the material arranging positioning stations 4 comprise a forward push plate 6, a movable carrier plate 7 and a plurality of lateral push plates 8, the work table 2 is provided with two positioning hole grooves 9, the movable carrier plate 7 is slidably mounted at the bottom of the work table 2, the movable carrier plate 7 is located at the positioning hole grooves 9, the forward push plate 6 is slidably mounted at one end of the positioning hole grooves 9, the lateral push plates 8 are slidably mounted at one side of the positioning hole grooves 9, a plurality of pipes 20 are positioned at the positioning hole grooves 9, the forward push plate 6 and the lateral push plates 8 are used for positioning the material arranging of the pipes 20, the laser device 3 is located above the positioning hole grooves 9, the laser device 3 is used to cut a plurality of tubes 20.

In practical application, the working table plate 2 is driven to rotate, the two material arranging and positioning stations 4 alternately carry out feeding and discharging and laser cutting, so that the working efficiency is improved, and when one material arranging and positioning station 4 carries out feeding and discharging, the other material arranging and positioning station 4 carries out laser cutting; a plurality of pipes 20 are arranged in the positioning hole grooves 9, the forward push plate 6 is used for positioning the end parts of the pipes 20 in a whole, and the lateral push plates 8 are used for positioning the lateral parts of the pipes 20 in a whole, so that the accuracy and the working efficiency of pipe laser cutting can be improved.

Further, laser device includes Y axle module 10, X axle module 11, Z axle module 12 and laser emitter 13, and X axle module 11 slidable mounting is in Y axle module 10, and Z axle module 12 slidable mounting is in X axle module 11, and laser emitter 13 slidable mounting is in Z axle module 12, and laser emitter 13 sets up with locating hole groove 9 is corresponding. The Y-axis module 10, the X-axis module 11 and the Z-axis module 12 form an XYZ space coordinate system, the space position of the laser emitter 13 can be adjusted and controlled to be at the optimal laser processing position, and the accuracy of pipe laser cutting is improved.

In this embodiment, the laser pipe cutting mechanism further includes a first driving component 14, the first driving component 14 is installed on the working table plate 2, the bottom of the working table plate 2 is provided with two slide rails 15, the two slide rails 15 are respectively located at two sides of the positioning hole slot 9, two ends of the movable bearing plate 7 are respectively slidably installed on the two slide rails 15, an output end of the first driving component 14 is connected with a driving plate 16, the driving plate 16 is connected with one end of the movable bearing plate 7, the driving plate 16 is located at one side of the positioning hole slot 9, and the plurality of pipes 20 are located at the other side of the positioning hole slot 9. One end of the positioning hole groove 9, which is far away from the forward push plate 6, is provided with a fixed bearing plate 17, one end of the pipe 20 is borne on the fixed bearing plate 17, and the other end of the pipe 20 is borne on the movable bearing plate 7. When feeding, the movable bearing plate 7 moves to the middle position of the positioning hole groove 9, and the plurality of pipes 20 are borne on the movable bearing plate 7 and the fixed bearing plate 17; during blanking, the first driving part 14 drives the movable bearing plate 7 to move in a direction away from the fixed bearing plate 17, and the plurality of tubes 20 are automatically blanked. The first driving part 14 can be a cylinder or an electric cylinder; the driving plate 16 is arranged perpendicular to the movable carrier plate 7. By adjusting the position of the movable bearing plate 7, the pipe fitting device can be suitable for pipes 20 with different lengths, and the flexibility and the universality are improved.

In this embodiment, the laser pipe cutting mechanism further includes a second driving member 18 mounted on the worktable 2, an output end of the second driving member 18 is connected to the forward pushing plate 6, and the forward pushing plate 6 abuts against an end of the pipe 20. The second driving part 18 can be an air cylinder or an electric cylinder and is used for driving the positive push plate 6.

In this embodiment, the laser pipe cutting mechanism further includes a plurality of third driving components 19 installed on the worktable plate 2, an output end of the third driving component 19 is connected with the lateral pushing plate 8, and the lateral pushing plate 8 abuts against a side wall of the pipe 20. The third driving part 19 can be an air cylinder or an electric cylinder and is used for driving the lateral push plate 8.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (6)

1. The utility model provides a laser pipe cutting mechanism, includes the frame, its characterized in that: the laser material arranging machine further comprises a working table plate, a laser device and two material arranging positioning stations, wherein the working table plate is rotatably arranged on the machine frame through a rotating shaft, the two material arranging positioning stations are arranged on the working table plate, the material arranging and positioning station comprises a forward push plate, a movable bearing plate and a plurality of lateral push plates, the working table plate is provided with two positioning hole grooves, the movable bearing plate is arranged at the bottom of the working bedplate in a sliding way and is positioned in the positioning hole groove, the forward push plate is arranged at one end of the positioning hole groove in a sliding manner, a plurality of lateral push plates are arranged at one side of the positioning hole groove in a sliding manner, a plurality of pipes are positioned in the positioning hole groove, the forward push plate and the lateral push plate are used for positioning a plurality of tubes in a whole, the laser device is located above the positioning hole grooves, and the laser device is used for cutting the tubes.

2. The laser pipe cutting mechanism of claim 1, wherein: the laser device comprises a Y-axis module, an X-axis module, a Z-axis module and a laser emitter, wherein the X-axis module is slidably mounted on the Y-axis module, the Z-axis module is slidably mounted on the X-axis module, the laser emitter is slidably mounted on the Z-axis module, and the laser emitter and the positioning hole groove are correspondingly arranged.

3. The laser pipe cutting mechanism of claim 1, wherein: the laser pipe cutting mechanism further comprises a first driving part, the first driving part is mounted on the working table plate, two sliding rails are arranged at the bottom of the working table plate and are respectively located on two sides of the positioning hole groove, two ends of the movable bearing plate are respectively mounted on the two sliding rails in a sliding mode, the output end of the first driving part is connected with a driving plate, the driving plate is connected with one end of the movable bearing plate and is located on one side of the positioning hole groove, and a plurality of pipes are located on the other side of the positioning hole groove.

4. A laser pipe cutting mechanism as claimed in claim 3, wherein: one end of the positioning hole groove, which is far away from the forward push plate, is provided with a fixed bearing plate, one end of the pipe is borne on the fixed bearing plate, and the other end of the pipe is borne on the movable bearing plate.

5. The laser pipe cutting mechanism of claim 1, wherein: the laser pipe cutting mechanism further comprises a second driving part arranged on the working table plate, the output end of the second driving part is connected with the forward push plate, and the forward push plate abuts against the end of the pipe.

6. The laser pipe cutting mechanism of claim 1, wherein: the laser pipe cutting mechanism further comprises a plurality of third driving parts arranged on the working table plate, the output ends of the third driving parts are connected with the lateral push plate, and the lateral push plate abuts against the side wall of the pipe.

Images