CN214518246U - Three-station exchange type circulating platform laser cutting machine - Google Patents

Abstract

The utility model discloses a three station exchange formula circulation platform laser cutting machine, including host computer bed mechanism, locate the laser drive device in the host computer machine tool mechanism, receive the laser drive device drive to carry out the laser cutting head of multidirectional removal, set up the over-and-under type exchange machine tool mechanism that has first work platform and second work platform with host computer bed mechanism butt joint and horizontal slip, set up the fixed vice machine tool mechanism that has third work platform with over-and-under type exchange machine tool mechanism butt joint and horizontal slip, and locate and be used for pulling first work platform on host computer bed mechanism and the fixed vice machine tool mechanism, the drive mechanism of second work platform or third work platform translation slip transposition. The utility model discloses a promote production efficiency, can match the automatic intelligence of picking up the material of going up the unloading branch simultaneously and use.

Description

Three-station exchange type circulating platform laser cutting machine

Technical Field

The utility model belongs to the technical field of laser cutting, especially, relate to a three station switched circulation platform laser cutting machines.

Background

The machine tool structure of the mainstream optical fiber laser cutting machine in the market at present mainly comprises a machine tool body part, a workbench part, a beam part, a lifting Z shaft part, a cutting head and the like. According to the exchange form, the laser cutting machine can be divided into a single-working-table type laser cutting machine and an exchange-working-table type laser cutting machine, and compared with a single-platform laser cutting machine, the exchange-working-table type laser cutting machine has higher efficiency in the processes of feeding, cutting, discharging and picking, so that the production efficiency and the enterprise benefit are greatly improved. At present, the exchange workbench type laser cutting machine has various exchange principles, such as upper and lower platform parallel exchange, mechanical lifting exchange, hydraulic lifting exchange, pneumatic lifting exchange and the like, but the exchange of the upper and lower platforms belongs to double-workbench exchange. Along with the process of industrialization and informatization, more and more enterprises focus on automatic manufacturing, and the requirements on efficiency and automation degree are higher and higher when creating intelligent cloud factories. Therefore, a more efficient exchange method is urgently needed to improve the production efficiency of enterprises and match with an intelligent device for automatic feeding and discharging and automatic sorting.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem, and provide three station exchange formula circulation platform laser cutting machines to realize promoting production efficiency, can match the intelligence application that automatic unloading was divided and is picked up the material simultaneously. In order to achieve the above purpose, the utility model discloses technical scheme as follows:

the three-station exchange type circulating platform laser cutting machine comprises a main machine tool mechanism, a laser driving device arranged on the main machine tool mechanism, a laser cutting head driven by the laser driving device to move in multiple directions, a lifting exchange machine tool mechanism which is in butt joint with the main machine tool mechanism and is provided with a first working platform and a second working platform in a horizontal sliding mode, a fixed auxiliary machine tool mechanism which is in butt joint with the lifting exchange machine tool mechanism and is provided with a third working platform in a horizontal sliding mode, and a traction mechanism which is arranged on the main machine tool mechanism and the fixed auxiliary machine tool mechanism and used for traction of the first working platform, the second working platform or the third working platform in a translational sliding mode.

Specifically, the main machine tool mechanism comprises a bottom plate and side wall plates arranged on two sides of the bottom plate, guide rails are arranged at the tops of the side wall plates, and feeding slide rails are arranged at the bottoms of the opposite two side wall plates.

Specifically, laser drive arrangement includes along the lateral shifting module that the guide rail removed the setting, install the longitudinal movement module on the lateral shifting module, and the laser cutting head is installed on the longitudinal movement module.

Specifically, the lifting type exchange machine tool mechanism comprises a bottom frame, support frames arranged on two sides of the bottom frame, and exchange slide rails arranged at the upper layer and the lower layer of the opposite support frames.

Specifically, the lifting type exchange machine tool mechanism further comprises a plurality of groups of lifting hydraulic cylinder assemblies arranged on two sides of the supporting frame.

Specifically, the exchange slide rails positioned at the upper layer and the lower layer of the supporting frame alternately lift and keep level with the feeding slide rails.

Specifically, the fixed auxiliary machine tool mechanism comprises a fixed frame and a fixed slide rail arranged at the top of the fixed frame, and the position of the fixed slide rail is flush with the position of the feeding slide rail.

Specifically, the working platform comprises a rack frame for supporting a rack plate, chain connecting blocks arranged at the front and rear ends of the rack frame, and induction blocks arranged at the front and rear ends of the rack frame; the chain connecting block is provided with a clamping groove with an outward opening.

Specifically, the traction mechanism comprises a driving chain wheel, a driven chain wheel connected with the driving chain wheel through a transmission chain, a speed reduction motor driving the driving chain wheel, and a traction block arranged on the transmission chain, wherein the traction block is correspondingly buckled with a clamping groove of a chain connecting block.

Specifically, a driving sprocket in a traction mechanism on the main machine tool mechanism is mounted at the front end of a side wall plate; and a driving chain wheel in the traction mechanism on the fixed auxiliary machine tool mechanism is arranged at the front end of the fixed frame.

Compared with the prior art, the utility model discloses three station switched circulation platform laser cutting machine's beneficial effect mainly embodies:

the whole three working platforms are always in a circulating exchange state, so that the feeding and the discharging can be carried out continuously, and the operation of each station is not influenced; the lifting type exchange machine tool mechanism adopts a hydraulic driving mode, the exchange transition of the working platform is stable, the overall efficiency is improved, and the productivity is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a main machine tool in the present embodiment;

FIG. 3 is a schematic structural diagram of a laser driving apparatus according to the present embodiment;

FIG. 4 is a schematic structural diagram of the lifting type exchange machine tool mechanism in the embodiment;

FIG. 5 is a schematic structural diagram of a working platform according to the present embodiment;

FIG. 6 is a schematic structural diagram of a fixed auxiliary machine tool mechanism according to the present embodiment;

FIG. 7 is a schematic structural diagram of a front end of the traction mechanism in this embodiment;

FIG. 8 is a rear end structure diagram of the traction mechanism in this embodiment;

the figures in the drawings represent:

the device comprises a main machine tool mechanism, a bottom plate 11, a side wall plate 12, a subspace 13, a guide rail 14, a feeding slide rail 15, a laser driving device 2, a transverse moving module 21, a longitudinal moving module 22, a laser cutting head 3, a working platform 4, a rack plate 41, a rack frame 42, a chain connecting block 43, a sensing block 44, a clamping groove 45, a lifting type exchange machine tool mechanism 5, a bottom frame 51, a supporting frame 52, an exchange slide rail 53, a lifting hydraulic cylinder assembly 54, a first sensing switch 55, a fixed type auxiliary machine tool mechanism 6, a fixed frame 61, a fixed slide rail 62, a second sensing switch 63, a traction mechanism 7, a driving sprocket 71, a transmission chain 72, a driven sprocket 73, a speed reducing motor 74, a traction block 75 and a chain supporting block 76.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.

Example (b):

referring to fig. 1 to 8, the present embodiment is a three-station exchange type circular platform laser cutting machine, which includes a main machine tool mechanism 1, a laser driving device 2 disposed on the main machine tool mechanism 1, a laser cutting head 3 driven by the laser driving device 2 to move in multiple directions, a lift type exchange machine tool mechanism 5 butted with the main machine tool mechanism 1 and horizontally slidably provided with a first working platform and a second working platform, a fixed auxiliary machine tool mechanism 6 butted with the lift type exchange machine tool mechanism 5 and horizontally slidably provided with a third working platform, and a traction mechanism 7 disposed on the main machine tool mechanism 1 and the fixed auxiliary machine tool mechanism 6 and used for drawing the first working platform, the second working platform, or the third working platform to perform translational sliding transposition.

The main machine tool mechanism 1 comprises a bottom plate 11 and side wall plates 12 arranged on two sides of the bottom plate 11, the bottom plate 11 is internally divided into a plurality of subspaces 13, and the subspaces 13 are internally used for air draft and dust removal to suck cutting work heat and simultaneously take away cutting chips. The top of the side wall panel 12 is provided with a guide rail 14. The bottom of the two opposite side wall boards 12 is provided with a feeding slide rail 15.

The laser driving device 2 comprises a transverse moving module 21 and a longitudinal moving module 22, wherein the transverse moving module 21 and the longitudinal moving module 22 are movably arranged along the guide rail 14, the laser cutting head 3 is arranged on the longitudinal moving module 22, and the transverse moving module 21 and the longitudinal moving module 22 are both in a gear-matching rack driving structure.

The lifting type exchange machine tool mechanism 5 comprises a bottom frame 51, support frames 52 arranged on two sides of the bottom frame 51 and exchange slide rails 53 arranged at the upper layer and the lower layer of the opposite support frames 52; when the device is at the initial position, a first working platform is placed on the upper exchange slide rail 53, and a second working platform is placed on the lower exchange slide rail 53.

The lifting type exchange machine tool mechanism 5 further comprises a plurality of groups of lifting hydraulic cylinder assemblies 54 arranged on two sides of the supporting frame 52, the lifting hydraulic cylinder assemblies 54 are used for driving the supporting frame 52 to move up and down, and the exchange slide rails 53 positioned on the upper layer and the lower layer of the supporting frame 52 alternately lift and keep level with the feeding slide rails 15.

The elevator exchange machine mechanism 5 further includes a first inductive switch 55 provided at the front end of the support frame 52.

The fixed auxiliary machine tool mechanism 6 comprises a fixed frame 61 and a fixed slide rail 62 arranged at the top of the fixed frame 61. The fixed slide rail 62 is arranged flush with the feeding slide rail 15. In the initial position, a third work platform is placed on the fixed slide rail 62.

The fixed auxiliary machine tool mechanism 6 further includes second inductive switches 63 disposed at the front and rear ends of the fixed slide rail 62.

The work platform 4 includes a rack frame 42 for supporting the rack plate 41, chain connecting blocks 43 provided at front and rear end positions of the rack frame 42, and sensing blocks 44 provided at front and rear end positions of the rack frame 42. The chain connecting block 43 has a catch groove 45 that opens outward. The rack plate 41 carries a product for laser cutting work. The first inductive switch 55 and the second inductive switch 63 can both obtain the position information of the inductive block 44, so that the traction mechanism 7 can start and stop according to the position of the working platform 4.

The traction mechanism 7 includes a drive sprocket 71, a driven sprocket 73 connected to the drive sprocket 71 via a drive chain 72, a reduction motor 74 for driving the drive sprocket 71, and a traction block 75 provided on the drive chain 72. The traction block 75 is correspondingly buckled with the clamping groove 45 of the chain connecting block 43, and the working platform 4 is driven by the transmission chain 72 to horizontally transmit.

A driving chain wheel 71 of the traction mechanism 7 on the main machine bed mechanism 1 is arranged at the front end of a side wall plate 12, and a chain supporting block 76 for supporting a transmission chain 72 is arranged on the inner wall of the side wall plate 12.

In the traction mechanism 7 provided in the fixed auxiliary machine tool mechanism 6, a drive sprocket 71 is attached to the front end of the fixed frame 61.

When the embodiment is applied, in the initial position, a first working platform is placed on the upper layer of the lifting type exchange machine tool mechanism 5, a second working platform is placed on the lower layer of the lifting type exchange machine tool mechanism 5, a third working platform is placed on the fixed type auxiliary machine tool mechanism 6, the first working platform is pulled into the main machine tool mechanism 1 by the traction mechanism 7 on the main machine tool mechanism 1, the product is subjected to laser processing operation, the first working platform is processed and retreated to the upper layer position of the lifting type exchange machine tool mechanism 5, the lifting hydraulic cylinder assembly 54 pushes the lifting type exchange machine tool mechanism 5 to enable the second working platform on the lower layer position to be flush with the main machine tool mechanism 1, the second working platform is pulled into the main machine tool mechanism 1 by the traction mechanism 7 on the main machine tool mechanism 1, the product is subjected to laser processing operation, and meanwhile, the third working platform is pulled into the lower layer position of the lifting type exchange machine tool mechanism 5 by the traction mechanism 7 on the fixed type auxiliary machine tool mechanism 6, the lifting hydraulic cylinder assembly 54 drives the lifting exchange machine tool mechanism 5 to descend, and the first working platform returns to the fixed auxiliary machine tool mechanism 6, so that the whole working cycle is realized.

In the embodiment, the whole three working platforms are always in a circulating exchange state, so that the feeding and the discharging can be carried out continuously, and the operation of each station is not influenced; the lifting type exchange machine tool mechanism 5 adopts a hydraulic driving mode, the exchange transition of the working platform 4 is stable, the overall efficiency is improved, and the productivity is greatly improved.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. Three station switched cycle platform laser cutting machine, its characterized in that: the multi-direction laser cutting machine comprises a main machine tool mechanism, a laser driving device arranged on the main machine tool mechanism, a laser cutting head driven by the laser driving device to move in multiple directions, a lifting type exchange machine tool mechanism which is butted with the main machine tool mechanism and is provided with a first working platform and a second working platform in a horizontal sliding mode, a fixed auxiliary machine tool mechanism which is butted with the lifting type exchange machine tool mechanism and is provided with a third working platform in a horizontal sliding mode, and a traction mechanism which is arranged on the main machine tool mechanism and the fixed auxiliary machine tool mechanism and is used for drawing the first working platform, the second working platform or the third working platform to be translated, slid and replaced.

2. The three-station switched-cycle platform laser cutting machine of claim 1, wherein: the main machine bed mechanism comprises a bottom plate and side wall plates arranged on two sides of the bottom plate, guide rails are arranged at the tops of the side wall plates, and feeding slide rails are arranged at the bottoms of the opposite two side wall plates.

3. The three-station switched-cycle platform laser cutting machine of claim 2, wherein: the laser driving device comprises a transverse moving module and a longitudinal moving module, wherein the transverse moving module is movably arranged along the guide rail, the longitudinal moving module is arranged on the transverse moving module, and the laser cutting head is arranged on the longitudinal moving module.

4. The three-station switched-cycle platform laser cutting machine of claim 2, wherein: the lifting type exchange machine tool mechanism comprises a bottom frame, support frames arranged on two sides of the bottom frame, and exchange slide rails arranged at the upper layer and the lower layer of the opposite support frames.

5. The three-station switched-cycle platform laser cutting machine of claim 4, wherein: the lifting type exchange machine tool mechanism further comprises a plurality of groups of lifting hydraulic cylinder assemblies arranged on two sides of the supporting frame.

6. The three-station switched-cycle platform laser cutting machine of claim 5, wherein: and the exchange slide rails positioned at the upper layer and the lower layer of the supporting frame alternately lift and keep leveling with the feeding slide rails.

7. The three-station switched-cycle platform laser cutting machine of claim 2, wherein: the fixed auxiliary machine tool mechanism comprises a fixed frame and a fixed slide rail arranged at the top of the fixed frame, and the position of the fixed slide rail is flush with the position of the feeding slide rail.

8. The three-station switched-cycle platform laser cutting machine of claim 7, wherein: the working platform comprises a rack frame for supporting a rack plate, chain connecting blocks arranged at the front end and the rear end of the rack frame and induction blocks arranged at the front end and the rear end of the rack frame; the chain connecting block is provided with a clamping groove with an outward opening.

9. The three-station switched-cycle platform laser cutting machine of claim 8, wherein: the traction mechanism comprises a driving chain wheel, a driven chain wheel connected with the driving chain wheel through a transmission chain, a speed reduction motor driving the driving chain wheel, and a traction block arranged on the transmission chain, wherein the traction block is correspondingly buckled with a clamping groove of a chain connecting block.

10. The three-station switched-cycle platform laser cutting machine of claim 9, wherein: a driving chain wheel in the traction mechanism on the main machine tool mechanism is arranged at the front end of the side wall plate; and a driving chain wheel in the traction mechanism on the fixed auxiliary machine tool mechanism is arranged at the front end of the fixed frame.

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