CN216706318U - Functional module switching system of laser engraving cutting machine - Google Patents

Abstract

The utility model discloses a function module switching system of a laser engraving cutting machine, which comprises a laser engraving cutting machine main body, wherein the laser engraving cutting machine main body comprises a control system, a light path of the laser engraving cutting machine and a transmission system, an installation shell is arranged outside the laser engraving cutting machine main body, the top of the installation shell is in an outer clamping groove structure arrangement, the bottom of the installation shell is in an inner clamping groove structure arrangement, and an inner clamping groove at the bottom of the installation shell is correspondingly positioned and connected with an outer clamping groove at the top of the installation shell which is adjacently arranged up and down. The laser engraving cutting machine adopts a modular design, different working modes and product characteristics are switched and combined according to different processing, the problem of single function of the laser engraving cutting machine on the market at present is solved, the operation is simple, convenient and flexible, the structure is simple, reasonable and compact, the occupied space is small, the operation is convenient, excessive parts do not need to be increased or decreased, the logic control is simple and reasonable, and the laser engraving cutting machine has high application value.

Description

Functional module switching system of laser engraving cutting machine

Technical Field

The utility model relates to the field of laser engraving and cutting, in particular to a functional module switching system of a laser engraving and cutting machine.

Background

According to the existing laser engraving and cutting machine, the whole structure of the machine is generally designed as an integral body, and the machine is difficult to be suitable for different processing requirements.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a functional module switching system of a laser engraving cutting machine, which adopts a modular design, carries out different module switching combinations aiming at different working modes and product characteristics to be realized in different processing, solves the problem of single function of the laser engraving cutting machine on the market at present, has simple, convenient and fast operation, flexible application, simple, reasonable and compact structure, small occupied space, convenient operation, no need of increasing or decreasing excessive parts, simple and reasonable logic control and extremely high application value.

The technical scheme includes that the function module switching system of the laser engraving cutting machine comprises a laser engraving cutting machine main body, the laser engraving cutting machine main body comprises a control system, a light path of the laser engraving cutting machine and a transmission system, an installation shell is arranged outside the laser engraving cutting machine main body, the top of the installation shell is in an outer clamping groove structure, the bottom of the installation shell is in an inner clamping groove structure, and an inner clamping groove in the bottom of the installation shell is correspondingly positioned and connected with outer clamping grooves in the tops of the installation shells which are adjacently arranged up and down.

In a preferred embodiment of the utility model, the laser engraving cutting machine further comprises a laser engraving cutting machine lifting and feeding module, a laser engraving cutting machine vacuum adsorption module, a laser engraving cutting machine conveying and feeding module, a laser engraving cutting machine rotating shaft module and a laser engraving cutting machine gas filtering module, and installation shells are also arranged outside the laser engraving cutting machine lifting and feeding module, the laser engraving cutting machine vacuum adsorption module, the laser engraving cutting machine conveying and feeding module, the laser engraving cutting machine rotating shaft module and the laser engraving cutting machine gas filtering module.

In a preferred embodiment of the utility model, the laser engraving cutting machine main body and the laser engraving cutting machine lifting and feeding module are sequentially connected with each other in a positioning manner from top to bottom through the outer clamping groove at the top and the inner clamping groove at the bottom of each mounting shell.

In a preferred embodiment of the utility model, the laser engraving cutting machine main body and the laser engraving cutting machine vacuum adsorption module are sequentially connected in a corresponding positioning manner from top to bottom through the outer clamping groove at the top and the inner clamping groove at the bottom of each mounting shell.

In a preferred embodiment of the utility model, the laser engraving cutting machine body and the laser engraving cutting machine conveying and feeding module are sequentially connected in a corresponding positioning mode from top to bottom through the outer clamping grooves at the top and the inner clamping grooves at the bottom of the installation shells.

In a preferred embodiment of the utility model, the laser engraving cutting machine main body and the laser engraving cutting machine rotating shaft module are sequentially connected in a corresponding positioning manner from top to bottom through the outer clamping groove at the top and the inner clamping groove at the bottom of each mounting shell.

In a preferred embodiment of the utility model, the laser engraving cutting machine body and the gas filtering module of the laser engraving cutting machine are sequentially connected with each other through the outer clamping groove at the top and the inner clamping groove at the bottom of each mounting shell in a corresponding positioning manner from top to bottom.

In a preferred embodiment of the utility model, the laser engraving cutting machine body, the laser engraving cutting machine lifting and feeding module and the laser engraving cutting machine gas filtering module are sequentially connected with the outer clamping groove at the top and the inner clamping groove at the bottom of each mounting shell in a corresponding positioning manner from top to bottom.

In a preferred embodiment of the utility model, the laser engraving cutting machine main body, the laser engraving cutting machine rotating shaft module and the laser engraving cutting machine gas filtering module are sequentially connected with the outer clamping groove at the top and the inner clamping groove at the bottom of each mounting shell in a corresponding positioning manner from top to bottom.

In a preferred embodiment of the utility model, the laser engraving cutting machine body, the laser engraving cutting machine vacuum adsorption module and the laser engraving cutting machine gas filtration module are sequentially connected with the outer clamping groove at the top and the inner clamping groove at the bottom of each mounting shell in a corresponding positioning manner from top to bottom.

The utility model relates to a functional module switching system of a laser engraving cutting machine, which adopts a modular design, carries out different module switching combinations aiming at different working modes and product characteristics to be realized in different processing, solves the problem of single function of the laser engraving cutting machine on the market at present, has simple, convenient and flexible operation, simple, reasonable and compact structure, small occupied space, convenient operation, no need of increasing or decreasing excessive parts, simple and reasonable logic control and extremely high application value.

Drawings

FIG. 1 is a schematic structural diagram of a laser engraving cutter body according to a preferred embodiment of the functional module switching system of the laser engraving cutter of the present invention;

FIG. 2 is a schematic structural diagram of a laser engraving cutter main body and a laser engraving cutter lifting and feeding module used in combination in a preferred embodiment of a laser engraving cutter functional module switching system according to the present invention;

FIG. 3 is a schematic structural diagram of a laser engraving cutter main body and a laser engraving cutter vacuum absorption module of a preferred embodiment of the laser engraving cutter functional module switching system according to the present invention;

FIG. 4 is a schematic structural diagram of a laser engraving cutter main body and a laser engraving cutter feeding module combined for use in a preferred embodiment of a laser engraving cutter functional module switching system according to the present invention;

FIG. 5 is a schematic structural diagram of a laser engraving cutter body and a laser engraving cutter spindle module according to a preferred embodiment of the switching system of the laser engraving cutter functional module of the present invention;

FIG. 6 is a schematic diagram of the structure of the laser engraving cutter body, the laser engraving cutter lifting and feeding module and the gas filtering module according to the preferred embodiment of the switching system of the laser engraving cutter function module of the present invention;

FIG. 7 is a schematic structural diagram of the laser engraving cutter body, the laser engraving cutter shaft module and the gas filtering module of the laser engraving cutter functional module switching system according to the preferred embodiment of the present invention;

fig. 8 is a schematic structural diagram of a laser engraving cutter main body, a laser engraving cutter vacuum adsorption module and a gas filtration module according to a preferred embodiment of the laser engraving cutter function module switching system of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention is provided to enable those skilled in the art to more readily understand the advantages and features of the present invention, and to clearly and unequivocally define the scope of the present invention.

The utility model relates to a functional module switching system of a laser engraving cutting machine, which comprises a laser engraving cutting machine main body 1 as shown in figure 1.

Wherein, the outside of laser engraving cutting machine main part 1 is provided with installation casing 5, the top of installation casing 5 is the setting of outer draw-in groove 6 structure, and the bottom is the setting of inner draw-in groove 7 structure, works as when laser engraving cutting machine main part 1 makes up the use as required, through the outer draw-in groove 6 and the inner draw-in groove 7 location connection of the installation casing 5 of upper and lower adjacent setting.

The laser engraving cutting machine body 1 comprises a control system, a light path of the laser engraving cutting machine and a transmission system, and is used for performing laser engraving cutting.

Still include laser engraving cutting machine lift feed module 2, laser engraving cutting machine vacuum adsorption module 9, laser engraving cutting machine conveying feed module 4, laser engraving cutting machine pivot module 8 and laser engraving cutting machine gas filtration module 3, the outside of laser engraving cutting machine lift feed module 2, laser engraving cutting machine vacuum adsorption module 9, laser engraving cutting machine conveying feed module 4, laser engraving cutting machine pivot module 8 and laser engraving cutting machine gas filtration module 3 is provided with installation casing 5 equally for make things convenient for the connection between each application module.

The gas filtering module 3 of the laser engraving cutting machine comprises a gas filtering system for removing harmful gas in smoke waste gas.

The laser engraving cutting machine lifting and feeding module 2 and the laser engraving cutting machine conveying and feeding module 4 are used for providing longitudinal lifting and feeding and horizontal conveying and feeding respectively.

And the rotating shaft module 8 of the laser engraving cutting machine is used for rotating and processing the cylindrical object.

And the vacuum adsorption module 9 of the laser engraving cutting machine is used for adsorbing flexible soft materials.

The working state I is as follows:

as shown in fig. 1, when the laser engraving cutter body 1 is operated alone: the method is suitable for laser engraving and cutting of large breadth. The laser engraving cutting machine main body 1 is horizontally placed on a workpiece, and the purpose of changing the laser engraving cutting breadth is achieved by moving the laser engraving cutting machine main body 1.

And a second working state:

as shown in fig. 2, when the laser engraving cutting work piece is produced in small batches, and the work piece thickness is often changed, the laser engraving cutting machine main body 1, the laser engraving cutting machine lifting feed module 2 is sequentially positioned and connected from top to bottom through the outer clamping groove 6 and the inner clamping groove 7 of the installation shell 5 to work, the laser engraving cutting machine main body 1 is placed on the horizontal work table surface of the laser engraving cutting machine lifting feed module 2, the laser engraving cutting machine main body 1 corresponds to the platform of the laser engraving cutting machine lifting feed module 2 up and down, the feed platform of the laser engraving cutting machine lifting feed module 2 is fed manually, and therefore the laser engraving cutting machine main body 1 can work conveniently.

And a third working state:

as shown in fig. 3, when the laser engraving cutting workpiece is produced in small batches, and the material is flexible and is very easy to be uneven, the laser engraving cutting machine main body 1, the laser engraving cutting machine vacuum adsorption module 9 is sequentially positioned and connected from top to bottom through the outer clamping groove 6 and the inner clamping groove 7 of the installation shell 5 to work, the laser engraving cutting machine main body 1 is placed on the horizontal working table top of the laser engraving cutting machine vacuum adsorption module 9, the laser engraving cutting machine main body 1 corresponds to the platform of the laser engraving cutting machine vacuum adsorption module 9 up and down, the platform of the laser engraving cutting machine vacuum adsorption module 9 is fed manually, and the material can be adsorbed to be fixed and level so as to facilitate the work of the laser engraving cutting machine main body 1.

And the working state is four:

as shown in fig. 4, when the laser engraving and cutting work piece is mass production, and the work piece thickness keeps a certain time, the laser engraving and cutting machine main body 1 and the laser engraving and cutting machine conveying and feeding module 4 are sequentially positioned and connected from top to bottom through the outer clamping groove 6 and the inner clamping groove 7 of the installation shell 5 to perform combined work, the laser engraving and cutting machine main body 1 is placed on the horizontal working table top of the laser engraving and cutting machine conveying and feeding module 4, the laser engraving and cutting machine main body 1 corresponds to the platform of the laser engraving and cutting machine conveying and feeding module 4 up and down, and the feeding platform of the laser engraving and cutting machine conveying and feeding module 4 is fed through an automatic device or manually, so that the laser engraving and cutting machine main body 1 can work conveniently.

And a fifth working state:

as shown in fig. 5, when the laser engraving cutting workpiece is produced in small batches, and the material is cylindrical, the laser engraving cutting machine main body 1 and the laser engraving cutting machine rotating shaft module 8 are sequentially positioned and connected from top to bottom through the outer clamping groove 6 and the inner clamping groove 7 of the installation shell 5 to work, the laser engraving cutting machine main body 1 is placed on the horizontal working table surface of the laser engraving cutting machine rotating shaft module 8, the laser engraving cutting machine main body 1 corresponds to the platform of the laser engraving cutting machine rotating shaft module 8 up and down, the material is manually fed to the platform of the laser engraving cutting machine rotating shaft module 8, the rotating shaft can enable the material to rotate and be processed in a circumferential mode, and the laser engraving cutting machine main body 1 can conveniently work.

And a sixth working state:

as shown in fig. 6, the laser engraving cutting machine main body 1, the laser engraving cutting machine lifting and feeding module 2 and the laser engraving cutting machine gas filtering module 3 are correspondingly positioned and connected from top to bottom sequentially through an outer clamping groove 6 at the top and an inner clamping groove 7 at the bottom of each mounting shell 5; as shown in fig. 7, the laser engraving cutting machine main body 1, the laser engraving cutting machine rotating shaft module 8 and the laser engraving cutting machine gas filtering module 3 are correspondingly positioned and connected from top to bottom through the outer clamping grooves 6 at the top and the inner clamping grooves 7 at the bottom of each mounting shell 5 in sequence; as shown in fig. 8, the laser engraving cutting machine main body 1, the laser engraving cutting machine vacuum adsorption module 9 and the laser engraving cutting machine gas filtration module 3 are correspondingly positioned and connected from top to bottom sequentially through the outer clamping groove 6 at the top and the inner clamping groove 7 at the bottom of each mounting shell 5, and all the combinations can be used for independently filtering waste gas discharged by the modules due to work.

In addition, the control part between laser engraving cutting machine main part 1 and laser engraving cutting machine lift feed module 2, laser engraving cutting machine vacuum adsorption module 9, laser engraving cutting machine conveying feed module 4, laser engraving cutting machine pivot module 8 and the laser engraving cutting machine gas filtration module 3 all is connected through inserting soon, can accomplish line connection between each module fast in order to facilitate the use.

The system has stronger flexible processing capability and can simultaneously take large-batch and small-batch processing tasks into consideration. Through carrying out the modularization processing to each item functional part for the machine, under the processing demand of difference, can and then obtain different processing modes through changing the module, further satisfy the variety of using.

The utility model relates to a functional module switching system of a laser engraving cutting machine, which adopts a modular design, carries out different module switching combinations aiming at different working modes and product characteristics to be realized by different processing, solves the problem of single function of the laser engraving cutting machine on the market at present, has simple, reasonable and compact structure, small occupied space, convenient operation, no need of increasing or decreasing excessive parts, simple and reasonable logic control and extremely high application value, and is simple, convenient and flexible to operate.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be made by those skilled in the art without inventive work within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (10)

1. The utility model provides a laser sculpture cutting machine function module switched systems which characterized in that: including laser sculpture cutting machine main part, laser sculpture cutting machine main part includes control system, laser sculpture cutting machine's light path and transmission system, the outside of laser sculpture cutting machine main part is provided with the installation casing, the top of installation casing is the setting of outer draw-in groove structure, and the bottom is the setting of inner draw-in groove structure, the outer draw-in groove at the installation casing top of the inner draw-in groove of installation casing bottom and upper and lower adjacent setting corresponds the location and connects.

2. The laser engraving cutting machine functional module switching system according to claim 1, wherein: still include laser sculpture cutting machine lift feed module, laser sculpture cutting machine vacuum adsorption module, laser sculpture cutting machine conveying feed module, laser sculpture cutting machine pivot module and laser sculpture cutting machine gas filtration module, the outside of laser sculpture cutting machine lift feed module, laser sculpture cutting machine vacuum adsorption module, laser sculpture cutting machine conveying feed module, laser sculpture cutting machine pivot module and laser sculpture cutting machine gas filtration module is provided with the installation casing equally.

3. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body and the laser engraving cutting machine lifting feeding module are correspondingly positioned and connected from top to bottom through outer clamping grooves in the top of each mounting shell and inner clamping grooves in the bottom of each mounting shell in sequence.

4. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body and the laser engraving cutting machine vacuum adsorption module are correspondingly positioned and connected from top to bottom through an outer clamping groove at the top and an inner clamping groove at the bottom of each mounting shell in sequence.

5. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body and the laser engraving cutting machine conveying and feeding module are connected in a corresponding and positioning mode from top to bottom through the outer clamping grooves in the top of the installation shell and the inner clamping grooves in the bottom of the installation shell in sequence.

6. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body and the laser engraving cutting machine rotating shaft module are correspondingly positioned and connected from top to bottom through an outer clamping groove at the top and an inner clamping groove at the bottom of each mounting shell in sequence.

7. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body and the laser engraving cutting machine gas filtering module are correspondingly positioned and connected from top to bottom through an outer clamping groove at the top and an inner clamping groove at the bottom of each mounting shell in sequence.

8. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body is correspondingly positioned and connected with the laser engraving cutting machine lifting feeding module and the laser engraving cutting machine gas filtering module sequentially through the outer clamping grooves in the top of each mounting shell and the inner clamping grooves in the bottom of each mounting shell from top to bottom.

9. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body is correspondingly positioned and connected with the laser engraving cutting machine rotating shaft module and the laser engraving cutting machine gas filtering module sequentially through the outer clamping grooves in the top of each mounting shell and the inner clamping grooves in the bottom of each mounting shell from top to bottom.

10. The laser engraving cutter functional module switching system according to claim 2, wherein: the laser engraving cutting machine main body is correspondingly positioned and connected with the vacuum adsorption module of the laser engraving cutting machine and the gas filtering module of the laser engraving cutting machine sequentially through the outer clamping grooves at the top and the inner clamping grooves at the bottom of each mounting shell from top to bottom.

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