CN113510389A

CN113510389A - Numerical control laser cutting machine

Info

Publication number: CN113510389A
Application number: CN202110822139.4A
Authority: CN
Inventors: 不公告发明人
Original assignee: Nanjing Linglingzi Network Technology Co ltd
Current assignee: Nanjing Linglingzi Network Technology Co ltd
Priority date: 2021-07-21
Filing date: 2021-07-21
Publication date: 2021-10-19

Abstract

The invention discloses a numerical control laser cutting machine, which comprises a lower side bracket, wherein a sliding inner cavity is arranged in the lower side bracket, a sliding matching frame is arranged in the sliding inner cavity in a sliding manner, a clamping and fixing device capable of clamping and fixing the sliding matching frame and the lower side bracket is arranged between the sliding inner cavity and the sliding matching frame, the lower side of the sliding fit frame is provided with a roller driven by a motor, the lower side bracket is internally provided with a through inner cavity, the lower side of the lower side support is provided with a matching connection shell, the two sides of the bottom side support are internally provided with internal motors, the device can clamp the wheel on one side of the sliding matching frame and the wheel which penetrates through the inner cavity and the lower side support on the laser cutting machine moving support in advance, and the device can efficiently remove impurities from the toothed platform along with the movement of the laser cutting machine moving support.

Description

Numerical control laser cutting machine

Technical Field

The invention relates to the technical field of laser cutting equipment, in particular to a numerical control laser cutting machine.

Background

The existing equipment has more defects, parts are often required to be placed in the laser cutting process, most of the adopted structures are zigzag placing platforms, parts such as metal plates and the like can be effectively and efficiently placed by utilizing the zigzag placing platforms, then slag generated by melting metal after laser spraying can not splash everywhere and stay in the sawtooth-shaped placing platform in the laser processing process, in the process, if the sawtooth-shaped platform is damaged and the like, the sawtooth-shaped platform can only be replaced again, but the sawtooth-shaped platform is expensive in general, although the existing equipment has a design that the slag in the sawtooth-shaped platform can be cut off, the slag grinding processing in multiple directions cannot be realized in the using process, and the cutting-off effect is not good.

Disclosure of Invention

The present invention is directed to a numerical control laser cutting machine, which can solve the above problems of the prior art.

The invention is realized by the following technical scheme: the invention relates to a numerical control laser cutting machine, which comprises a lower side support, wherein a sliding inner cavity is arranged in the lower side support, a sliding fit frame is arranged in the sliding inner cavity in a sliding manner, a clamping and fixing device capable of clamping and fixing the sliding fit frame and the lower side support is arranged between the sliding inner cavity and the sliding fit frame, a roller driven by a motor is arranged at the lower side of the sliding fit frame, the lower side support is internally provided with a through inner cavity, a fit connection shell is arranged at the lower side of the lower side support, internal motors are arranged at two sides of the lower side support, output shafts of the internal motors are fixedly matched and connected with the fit connection shell, a fit box body is arranged in the fit connection shell, symmetrical rotating cylinders are arranged in the fit box body in a rotating manner, the rotating cylinders are driven to rotate by the motors, and a conveying belt is wound on the outer surface of the rotating cylinders, the conveying belt is used for connecting the rotating cylinder body in a power mode, and a plurality of cleaning devices capable of cleaning sundries on the toothed platform are arranged on the outer surface of the conveying belt.

According to the technical scheme, the clamping and fixing device comprises an inner transmission cavity arranged in the sliding fit frame, a plurality of lifting moving plates are arranged in the inner transmission cavity in a sliding mode, a fit sliding rod is arranged in the inner transmission cavity and fixed with the lifting moving plates, the fit sliding rod penetrates through the sliding fit frame in a sliding mode, a top box body is arranged at the top of the fit sliding rod, and a sliding locking assembly which enables the sliding fit frame to be locked after sliding in the sliding cavity is arranged in the sliding fit frame.

According to a further technical scheme, the sliding locking assembly comprises an inner transmission cavity arranged in the matching slide rod, a plurality of sliding inner grooves are formed in the inner transmission cavity, symmetrical sliding clamping blocks are arranged in the sliding inner grooves in a sliding mode and penetrate through the inner transmission cavity and the sliding matching frame in a sliding mode, the sliding clamping blocks are arranged in a clamping mode and abut against side grooves in the lower side support, an extrusion spring is arranged between the sliding clamping blocks and located in the sliding inner grooves, and a connecting structure enabling the sliding clamping blocks to slide along with the sliding rod moving is arranged between the matching slide rod and the sliding clamping blocks.

According to a further technical scheme, the connecting structure comprises a swing connecting rod connected with the sliding clamping block in a rotating fit mode, a plurality of lifting moving plates are arranged in the matching sliding rod, and the lifting moving plates are connected with the swing connecting rod in a rotating fit mode.

According to the technical scheme, the clearing device comprises side convex blocks arranged on the outer surface of the conveying belt, an output motor is arranged in each side convex block, a matching connection box is arranged on one side of an output shaft of the output motor, sliding fit grooves which are symmetrical front and back are formed in the matching connection box, an internal thread connection sliding block is arranged in each sliding fit groove in a sliding mode, a butt plate is arranged on the lower side of each internal thread connection sliding block, an inclined opening is formed in the bottom of each butt plate, and a sliding assembly which enables the butt plates on the two sides to slide alternately is arranged in the matching connection box.

According to the technical scheme, the sliding assembly comprises an inner accommodating cavity arranged in the matching connection box, symmetrical transmission matching gears are arranged in the inner accommodating cavity in a rotating mode, the transmission matching gears are meshed with one another, a side connection motor is arranged on one side of the inner accommodating cavity and is in power connection with one of the transmission matching gears, a rotating threaded shaft is arranged on one side of the transmission matching gears and is in running fit with the sliding matching groove, and the sliding matching groove is in threaded fit connection with the internal thread connection sliding block.

The invention has the beneficial effects that:

the device has a simple structure, and the wheel on one side of the sliding fit frame and the support penetrating through the inner cavity and the lower side can be clamped on the movable support of the laser cutting machine in advance, so that the device can efficiently remove impurities from the toothed platform along with the movement of the movable support of the laser cutting machine.

When the device works, the sliding matching frame and the lower side support are separated at first, the lower side support penetrates through the inner cavity and is clamped on a movable support of the laser cutting machine, the movable support is a movable gantry support of the gantry laser cutting machine, wheels on one side of the sliding matching frame are abutted against the upper side of the movable support, then the lower side support is abutted against the lower side of the movable support, the sliding matching frame is inserted into the sliding inner cavity in a plugging mode, then the top box body is pulled to move upwards, the top box body drives the matching sliding rod to move upwards and then passes through the lifting movable plate, the sliding clamping block retracts into the sliding inner groove after the swinging connecting rod swings, the extrusion springs are compressed with each other, the sliding clamping block is driven to separate from clamping of the side groove after the swinging connecting rod swings, and then the sliding clamping block retracts into the internal transmission block In the cavity, the wheels on one side of the sliding fit frame and the top box body are loosened after the wheels penetrate through the cavity and abut against the movable support, the sliding fit block penetrates through the sliding fit frame under the action of the extrusion spring, the sliding fit block and the side groove are abutted and clamped, the lower side support can move along with the movable support, the orientation of the abutting plate can be adjusted according to the direction of a tooth-shaped platform to be cleaned, specifically, the fit connection box rotates after the output motor works, and then the transmission fit gear can be driven to rotate after the side connection motor works according to the tooth-shaped intervals of different tooth-shaped platforms, so that the internal thread connection sliding block slides in the sliding fit groove after the transmission fit gear drives the rotating threaded shaft to rotate, the sliding fit groove drives the abutting plate to slide, the inclined surfaces of the abutting plate on two sides are in contact with tooth shapes with different sizes, the conveying belt is enabled to move continuously after the rotating cylinder works, the abutting plate is enabled to polish the tooth shapes after running, the polishing aims at polishing the left side and the right side of the tooth shape groove, when the output motor works in the front-back polishing process, the fit connection box is enabled to rotate after the output motor works, the abutting plate can abut against the front-back side groove of the tooth shape, then the fit connection shell is driven to rotate by the internal motor, the abutting plate can fully remove impurities from the front-back side groove of the tooth shape along with the movement of the bottom side support, and therefore the impurities between the tooth shapes of the tooth platforms can be completely removed.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal structure of a numerically controlled laser cutting machine according to the present invention;

FIG. 2 is a schematic view at A in FIG. 1;

FIG. 3 is a schematic view at B of FIG. 1;

FIG. 4 is a schematic view in the direction C-C of FIG. 1;

FIG. 5 is a schematic view at D of FIG. 4;

FIG. 6 is a schematic view of the direction E in FIG. 5;

in the figure, the matching box body 11, the conveyor belt 12, the output motor 13, the side bump 14, the rotating cylinder 15, the matching connecting shell 16, the internal motor 17, the bottom side support 18, the lower side support 19, the side groove 21, the sliding-in inner cavity 22, the top box body 23, the sliding matching frame 24, the sliding clamping block 32, the lifting moving plate 33, the matching sliding rod 34, the swinging connecting rod 37, the sliding inner groove 38, the extrusion spring 39, the matching connecting box 61, the side connecting motor 62, the transmission matching gear 63, the rotating threaded shaft 64, the internal threaded connecting slider 65, the abutting plate 66, the internal cavity 67 and the sliding matching groove 68.

Detailed Description

As shown in fig. 1 to 6, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the up-down, left-right and front-back direction is consistent with the up-down, left-right and front-back direction of the projection relation of the figure 1, the numerical control laser cutting machine comprises a lower side support 19, a slide-in inner cavity 22 is arranged in the lower side support 19, a slide matching frame 24 is arranged in the slide-in inner cavity 22 in a sliding manner, a clamping and fixing device capable of clamping and fixing the slide matching frame 24 and the lower side support 19 is arranged between the slide-in inner cavity 22 and the slide matching frame 24, rollers driven by a motor are arranged on the lower side of the slide matching frame 24, a through inner cavity 25 is arranged in the lower side support 19, a matching and connecting shell 16 is arranged on the lower side of the lower side support 19, internal motors 17 are arranged in two sides of the bottom side support 18, an output shaft of the internal motor 17 is fixedly matched and connected with the matching and connecting shell 16, and a matching box body 11 is arranged in the matching and connecting shell 16, the utility model discloses a tooth profile platform debris removal device, including cooperation box 11 internal rotation be provided with the rotation barrel 15 of symmetry, rotation barrel 15 rotates by motor drive, rotation barrel 15 surface winding is provided with conveyer belt 12, conveyer belt 12 will rotation barrel 15 power connection sets up, conveyer belt 12 surface is provided with a plurality of clearing devices that can clear away tooth profile platform debris.

Advantageously, the clamping and fixing device includes an internal transmission cavity 40 disposed in the sliding fit frame 24, a plurality of lifting and lowering moving plates 33 are slidably disposed in the internal transmission cavity 40, a fit slide bar 34 is disposed in the internal transmission cavity 40, the fit slide bar 34 is fixed to the lifting and lowering moving plates 33, the fit slide bar 34 slidably passes through the sliding fit frame 24, a top box 23 is disposed on the top of the fit slide bar 34, and a slide locking assembly for locking the sliding fit frame 24 after sliding in the slide-in inner cavity 22 is disposed in the sliding fit frame 24.

Advantageously, the slide locking assembly includes an internal transmission cavity 40 disposed in the mating slide bar 34, a plurality of slide grooves 38 are disposed in the internal transmission cavity 40, symmetrical slide blocks 32 are slidably disposed in the slide grooves 38, the slide blocks 32 slidably penetrate the internal transmission cavity 40 and the slide fitting frame 24, the slide blocks 32 are disposed to be engaged with the side grooves 21 in the lower bracket 19, a compression spring 39 is disposed between the slide blocks 32, the compression spring 39 is disposed in the slide grooves 38, and a connection structure is disposed between the mating slide bar 34 and the slide blocks 32 for allowing the slide blocks 32 to slide along with the mating slide bar 34.

Advantageously, the connection structure comprises a swing connecting rod 37 in rotation fit connection with the sliding fixture block 32, a plurality of lifting moving plates 33 are arranged in the matching sliding rod 34, and the lifting moving plates 33 are in rotation fit connection with the swing connecting rod 37.

Beneficially, the removing device comprises a side protruding block 14 arranged on the outer surface of the conveyor belt 12, an output motor 13 is arranged in the side protruding block 14, a matching connection box 61 is arranged on one side of an output shaft of the output motor 13, sliding fit grooves 68 which are symmetrical front and back are arranged in the matching connection box 61, an internal thread connection sliding block 65 is arranged in the sliding fit grooves 68 in a sliding mode, a butting plate 66 is arranged on the lower side of the internal thread connection sliding block 65, an inclined opening is arranged at the bottom of the butting plate 66, and a sliding component which enables the butting plates 66 on the two sides to slide alternately is arranged in the matching connection box 61.

Beneficially, the sliding assembly includes an inner cavity 67 disposed in the matching connection box 61, symmetrical transmission matching gears 63 are rotationally disposed in the inner cavity 67, the transmission matching gears 63 are meshed with each other, a side connection motor 62 is disposed on one side of the inner cavity 67, the side connection motor 62 is in power connection with one of the transmission matching gears 63, a rotating threaded shaft 64 is disposed on one side of the transmission matching gear 63, the rotating threaded shaft 64 is in rotation matching connection with the sliding matching groove 68, and the sliding matching groove 68 is in threaded matching connection with the internal thread connection slider 65.

In an initial state, the device, the components and the structure are in a stop working state, the device can clamp the wheels on one side of the sliding matching frame 24 and the support 19 which penetrates through the inner cavity 25 and the lower side on the movable support of the laser cutting machine in advance, and the device can efficiently remove impurities from the toothed platform along with the movement of the movable support of the laser cutting machine.

When the device works, firstly, the sliding matching frame 24 and the lower side support 19 are separated, the lower side support 19 penetrates through the inner cavity 25 and is clamped on a movable support of the laser cutting machine, the movable support is a movable gantry support of the gantry laser cutting machine, wheels on one side of the sliding matching frame 24 are abutted against the upper side of the movable support, then the lower side support 19 is abutted against the lower side of the movable support, then the sliding matching frame 24 is inserted into the sliding inner cavity 22, then the top box body 23 is pulled to move upwards, the top box body 23 drives the matching slide rod 34 to move upwards and then pass through the lifting movable plate 33, after the swinging connecting rod 37 swings, the sliding clamping block 32 retracts into the sliding inner groove 38, the squeezing springs 39 are compressed mutually, and after the swinging connecting rod 37 swings, the sliding clamping block 32 is driven to separate from the clamping block 32 of the side groove 21 Then the sliding fixture block 32 is retracted into the internal transmission cavity 40, and then the top box 23 is released after the wheel on one side of the sliding fitting frame 24 and the wheel passing through the inner cavity 25 abut against the movable bracket, so that the sliding fixture block 32 passes through the sliding fitting frame 24 again under the action of the extrusion spring 39, the sliding fixture block 32 abuts against the side groove 21 for clamping, at this time, the lower side bracket 19 moves along with the movable bracket, and then the orientation of the abutting plate 66 can be adjusted according to the direction of the tooth-shaped platform to be cleaned, specifically, the matching connection box 61 rotates after the output motor 13 works, and then the transmission fitting gear 63 is driven to rotate after the side connection motor 62 works according to the tooth-shaped intervals of different tooth-shaped platforms, the internal thread connecting sliding block 65 slides in the sliding fit groove 68 after the transmission fit gear 63 drives the rotating threaded shaft 64 to rotate, the sliding fit groove 68 drives the abutting plate 66 to slide, then the inclined surfaces of the abutting plates 66 at two sides are in contact with the tooth shapes with different sizes, the conveyor belt 12 continuously moves after the rotating cylinder 15 works, the abutting plates 66 are ground for the tooth shapes after running, the grinding aims at grinding the left side and the right side of the tooth shape groove, when the output motor 13 works in front and back grinding, the fit connecting box 61 rotates after the output motor 13 works, the abutting plates 66 can abut against the front side groove and the back side groove of the tooth shape, then the internal motor 17 drives the fit connecting shell 16 to rotate, so that the abutting plates 66 can fully remove impurities from the front side groove and the back side groove of the tooth shape along with the movement of the bottom side support 18, therefore, sundries among the tooth forms of the tooth-shaped platform can be completely removed.

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 are not thought of through the inventive work should be 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

1. A numerical control laser cutting machine comprises a lower side support, wherein a sliding inner cavity is arranged in the lower side support, a sliding fit frame is arranged in the sliding inner cavity in a sliding mode, a clamping and fixing device capable of clamping and fixing the sliding fit frame and the lower side support is arranged between the sliding inner cavity and the sliding fit frame, a motor-driven roller is arranged on the lower side of the sliding fit frame, a penetrating inner cavity is arranged in the lower side support, a fit connection shell is arranged on the lower side of the lower side support, internal motors are arranged on two sides of the lower side support, output shafts of the internal motors are fixedly matched and connected with the fit connection shell, a fit box body is arranged in the fit connection shell, symmetrical rotating cylinders are arranged in the fit connection shell body and rotate in the fit box body, the rotating cylinders are driven to rotate by the motors, and a conveying belt is wound on the outer surface of the rotating cylinders, the conveying belt is used for connecting the rotating cylinder body in a power mode, and a plurality of cleaning devices capable of cleaning sundries on the toothed platform are arranged on the outer surface of the conveying belt.

2. The numerical control laser cutting machine according to claim 1, characterized in that: the clamping and fixing device comprises an internal transmission cavity arranged in the sliding fit frame, a plurality of lifting moving plates are arranged in the internal transmission cavity in a sliding mode, a fit sliding rod is arranged in the internal transmission cavity and fixed with the lifting moving plates, the fit sliding rod penetrates through the sliding fit frame in a sliding mode, a top box body is arranged at the top of the fit sliding rod, and a sliding locking assembly which enables the sliding fit frame to be locked after sliding in the sliding cavity is arranged in the sliding fit frame.

3. The numerical control laser cutting machine according to claim 2, characterized in that: the sliding locking assembly comprises an inner transmission cavity arranged in the matching slide rod, a plurality of sliding inner grooves are formed in the inner transmission cavity, symmetrical sliding clamping blocks are arranged in the sliding inner grooves in a sliding mode, the sliding clamping blocks penetrate through the inner transmission cavity and the sliding matching frame in a sliding mode, the sliding clamping blocks are arranged in a clamping mode in a side groove in the lower side support in a butting mode, an extrusion spring is arranged between the sliding clamping blocks and located in the sliding inner grooves, and a connecting structure enabling the sliding clamping blocks to slide along with the matching slide rod is arranged between the matching slide rod and the sliding clamping blocks.

4. The numerical control laser cutting machine according to claim 3, characterized in that: the connecting structure comprises a swing connecting rod connected with the sliding clamping block in a rotating fit mode, a plurality of lifting moving plates are arranged in the matching sliding rod, and the lifting moving plates are connected with the swing connecting rod in a rotating fit mode.

5. The numerical control laser cutting machine according to claim 4, characterized in that: the clearing device comprises a side convex block arranged on the outer surface of the conveyor belt, an output motor is arranged in the side convex block, a matching connection box is arranged on one side of an output shaft of the output motor, sliding fit grooves which are symmetrical front and back are formed in the matching connection box, an internal thread connection sliding block is arranged in the sliding fit grooves in a sliding mode, a butt plate is arranged on the lower side of the internal thread connection sliding block, an inclined opening is formed in the bottom of the butt plate, and a sliding assembly which enables the butt plates on the two sides to slide alternately is arranged in the matching connection box.

6. The numerical control laser cutting machine according to claim 5, characterized in that: the sliding assembly comprises an inner accommodating cavity arranged in the matching connection box, symmetrical transmission matching gears are arranged in the inner accommodating cavity in a rotating mode, the transmission matching gears are meshed with each other, a side connection motor is arranged on one side of the inner accommodating cavity and is in power connection with one of the side connection motors, a rotating threaded shaft is arranged on one side of the transmission matching gears and is in rotating matching connection with the sliding matching groove, and the sliding matching groove is in threaded matching connection with the inner threaded connection sliding block.