CN116441770B - Metal accessory laser cutting equipment convenient to unloading - Google Patents

Abstract

The invention relates to the technical field of laser cutting, in particular to metal fitting laser cutting equipment convenient for blanking, which comprises a device shell, wherein a hatch cover is rotatably connected to the side surface of the device shell; a clamping structure is arranged in the device shell; an adjusting structure is arranged on the side face of the clamping structure; a driving structure is connected between the clamping structure and the device shell; a positioning structure is arranged on the side surface of the clamping structure; a turnover structure is arranged in the device shell; a blanking structure is arranged at the bottom side of the device shell; the internally mounted of device shell has laser cutting head, guarantees the accuracy of work piece fixed position through the clamping structure, carries out fixed position's further adjustment to the more regular work piece of shape through adjustment structure, conveniently carries out the centre gripping to the work piece through driving structure, improves cutting work's efficiency and quality through location structure, rotates the work piece through flip structure conveniently, takes out the work piece that drops in the cutting process that can be convenient through the unloading structure.

Description

Metal accessory laser cutting equipment convenient to unloading

Technical Field

The invention relates to the technical field of laser cutting, in particular to metal fitting laser cutting equipment convenient for blanking.

Background

The fiber laser cutter is a laser cutter using a fiber laser generator as a light source. The optical fiber laser is a novel optical fiber laser which is newly developed internationally, outputs laser beams with high energy density, gathers the laser beams on the surface of a workpiece, enables an area of the workpiece irradiated by an ultrafine focus spot to be instantaneously melted and gasified, and realizes automatic cutting by moving the irradiation position of the spot through a numerical control mechanical system. There are significant advantages over the bulky gas and solid state lasers. The optical fiber laser cutting equipment can accurately cut and process different kinds of metal workpieces.

However, when conventional fiber laser cutting equipment is cutting, the work piece that waits to process is usually directly placed on the loading surface of downside and is cut, this kind of mode is applicable to and processes platy metal material, to the regular work piece of volume less, or when the great work piece of thickness is processed, the mode of cutting by work piece unilateral probably is difficult to run through, and manual upset of work piece then can lead to the inconsistent accuracy that leads to processing of position, on the other hand, for the work piece of the comparatively regular cuboid class shape of structure, still can need carry out cutting operation to the different sides of work piece, when adopting traditional fixed mode to rotate, because the position of centre gripping is difficult to guarantee unanimously, can lead to the skew when rotating the work piece, traditional cutting equipment is in the unsettled state when processing to the work piece simultaneously, the part inconvenient collection that the cutting dropped.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a metal fitting laser cutting device convenient for blanking.

The technical scheme adopted for solving the technical problems is as follows: a metal fitting laser cutting device convenient for blanking comprises a device shell, wherein the side surface of the device shell is rotatably connected with a hatch cover; a clamping structure is arranged in the device shell; an adjusting structure is arranged on the side face of the clamping structure; a driving structure is connected between the clamping structure and the device shell; a positioning structure is arranged on the side surface of the clamping structure; a turnover structure is arranged in the device shell; a blanking structure is arranged at the bottom side of the device shell; the laser cutting head is arranged in the device shell.

Specifically, the clamping structure comprises a supporting slide column, the inside of device shell rotates and is connected with the supporting slide column, the tip vertical fixedly connected with mount pad of supporting slide column, the mount pad is cylindrical structure, the side sliding connection of mount pad has two grip blocks, two parallel arrangement each other between the grip blocks, the inboard rotation of mount pad is connected with first screw rod, the both sides screw thread opposite direction of first screw rod just threaded connection between the both sides of first screw rod and two grip blocks respectively, the inboard rotation of grip block is connected with a plurality of rollers, and one side sliding connection that two grip blocks are close has the extrusion slide, a plurality of roller shapes size that the grip block inboard set up equals, and a plurality of parallel arrangement each other between the rollers, the both sides of roller are equipped with the conflict piece, the inboard fixedly connected with fifth spring of conflict piece, the other end of conflict piece is hemispherical structure, just the sphere end of conflict piece is in the extrusion slide, the inboard fixedly connected with first dog of grip block.

Specifically, the adjustment structure includes the second screw rod, the side rotation of mount pad is connected with the second screw rod, the both sides screw thread opposite direction of second screw rod, the both sides of second screw rod respectively threaded connection has a screw thread piece, two the midpoint of line between the screw thread piece is located the midpoint department of second screw rod, the side rotation of screw thread piece is connected with the extrusion pole, the side perpendicular fixedly connected with second dog of screw thread piece, the side of second dog is in contact with the extrusion pole, the inboard sliding connection of mount pad has the third reference column, fixedly connected with sixth spring between third reference column and the mount pad, the draw-in hole has been seted up to the tip of extrusion pole, the tip inboard sliding connection of extrusion pole has the slide bar.

Specifically, the drive structure includes the second worm wheel, a second worm wheel of fixedly connected with is respectively at the both ends of first screw rod, the inboard rotation of device shell is connected with first worm wheel, the tooth form structural specification of first worm wheel and second worm wheel side is the same, the side meshing of first worm wheel has the worm, the middle part fixedly connected with rocker of worm, the rocker rotates the side of connecting in the device shell, the side spout has been seted up to the side of mount pad, the inboard parallel fixedly connected with two guide rails of device shell, the slip is furnished with the support slider on the guide rail, the top side of support slider rotates and is connected with the pulley, two the both sides of mount pad are located respectively to the pulley, the side roll connection of side spout and mount pad is passed through to the pulley.

Specifically, the location structure includes the cooperation pole, the inboard sliding fit of device shell has the cooperation pole, mutually perpendicular sets up between cooperation pole and the support traveller, the one end sliding connection of cooperation pole has first reference column, fixedly connected with third spring between first reference column and the cooperation pole, the guide way has been seted up to the side of support traveller, the direction of guide way with the extending direction of support traveller is the same, the tip of first reference column is title hemisphere type structure, just the sphere end of first reference column is contradicted in support traveller, the other end fixedly connected with control rod of cooperation pole, one side of control rod is equipped with the helicitic texture, the screw hole has been seted up to the side of device shell, threaded connection between control rod and the device shell passes through between screw hole and the device shell, fixedly connected with first spring between the inboard of cooperation pole and the device shell, the tip sliding connection of first reference column has the second reference column, fixedly connected with second spring between second reference column and the first reference column, the other end of second reference column is the cambered surface structure, the support traveller is the side of support traveller has been seted up through the guide way mutually perpendicular positioning groove.

Specifically, the flip structure includes the connection slide shaft, the inboard sliding connection who supports the slide column has the connection slide shaft, the tip perpendicular fixedly connected with first gear of connection slide shaft, the side meshing of first gear has the second gear, the middle part fixedly connected with drive hand wheel of second gear, drive hand wheel rotates the side of connecting in the device shell.

Specifically, the unloading structure includes the collecting vat, the inboard of device shell is equipped with the collecting vat, the top side of collecting vat is equipped with the screen cloth, one side of screen cloth is rotated with the inboard of device shell and is connected, the opposite side fixedly connected with installation side piece of screen cloth, the side of installation side piece rotates and is connected with the lantern ring, the side of lantern ring cup joints in the device shell, the side sliding connection of device shell has the locating piece, fixedly connected with fourth spring between locating piece and the device shell, the side of locating piece is contradicted in the lantern ring.

The beneficial effects of the invention are as follows:

(1) The invention relates to metal fitting laser cutting equipment convenient for blanking, wherein a clamping structure is arranged in a device shell; an adjusting structure is arranged on the side face of the clamping structure; the workpiece to be processed is stably clamped through the clamping structure, the workpiece is guaranteed to be continuously subjected to position adjustment in the clamping state, the accuracy of the fixed position of the workpiece is guaranteed, the workpiece with a more regular shape is further adjusted in the fixed position through the adjusting structure, the center line of the workpiece is guaranteed to be positioned on the rotating shaft line, and therefore the accuracy of the workpiece in multi-angle processing is further guaranteed, namely: firstly, before cutting a workpiece, an operator needs to confirm the processing position of the workpiece, then, a hatch cover on the side surface of a device shell is opened, a disc-shaped mounting seat is arranged on the inner side surface of the device shell, two clamping blocks are arranged on the mounting seat in parallel, the clamping blocks are used for clamping and fixing the workpiece, the inner side of the mounting seat is provided with a first screw rod, the thread directions of the two sides of the first screw rod are opposite, the two sides of the first screw rod are respectively in threaded connection with the two clamping blocks, and the two clamping blocks can be driven to move reversely when the first screw rod rotates, so that the clamping of the workpiece is realized, in order to enable the bottom side of the extrusion sliding plate on the inner side of the clamping blocks to be in contact with the surface of the workpiece when the workpiece is clamped by the two clamping blocks, simultaneously, due to the extrusion effect of the clamping blocks, the other side of the extrusion sliding plate can be in contact with the roller inside the clamping blocks, at the moment, the extrusion sliding plate can still slide on the surface of the roller, and an operator can also adjust the position of the workpiece when the workpiece is in a clamping state, the workpiece is not required to be repeatedly taken down, the inner side of the clamping block is provided with a collision block, the first stop block is matched with the sliding range of the collision block to limit the sliding range of the collision block, the collision block can prevent the extrusion sliding plate from shaking in the clamping block when the workpiece is not clamped, meanwhile, an operator can conveniently take down the machined workpiece, on the other hand, the mounting seat can rotate between the supporting sliding column on the other side and the device shell, the workpiece in the clamping state can be conveniently adjusted, the cutting machining is convenient, the machining accuracy is ensured, if the machined workpiece is relatively regular, the fixed position of the workpiece is positioned at the center line position of the mounting seat, so that the workpiece is ensured not to deviate when rotating, meanwhile, the workpiece is not slipped out from two sides of the clamping blocks in the clamping state, two pushing rods are arranged between the clamping blocks, the end parts of the pushing rods are rotationally connected to the threaded blocks, a second stop block is arranged on the side surfaces of the threaded blocks and used for ensuring the parallel state between the pushing rods and the surface of the mounting seat, the two threaded blocks are respectively in threaded connection with two sides of the second screw rod, the two side threads of the second screw rod are opposite in direction, when an operator rotates the extending part of the second screw rod positioned on the side surface of the mounting seat, the two pushing rods can be driven to move towards the workpiece in the clamping state until the workpiece is pushed to move between the two clamping blocks, and finally the workpiece is pushed to move to the central position of the mounting seat, at this time, if the mounting seat rotates, the position of the workpiece is not deviated, so that the accuracy of machining different side surfaces of the workpiece is ensured, on the other hand, when machining the workpiece of the type such as a plate, in order to avoid the interference of the pushing rods on clamping, a user can move the two pushing rods to two sides firstly, then bend the pushing rods towards the middle part until the pushing rods are completely embedded into the slots in the middle part of the mounting seat, the clamping holes at the end parts of the pushing rods are clamped with the third positioning columns, the pushing rods can be stored, the workpiece of different types is conveniently machined, and when taking the pushing rods, an operator can release the clamping state by only pressing the sliding rods at the end parts of the pushing rods, and taking out the pushing rod.

(2) According to the metal fitting laser cutting equipment convenient for blanking, a driving structure is connected between the clamping structure and the device shell; a positioning structure is arranged on the side surface of the clamping structure; the workpiece is driven to transversely move through the driving structure, the workpiece is clamped conveniently, and the mounting seat is positioned at different positions inside the device shell through the positioning structure, so that the efficiency and the quality of cutting work are improved, namely: the two sides of the mounting seat are respectively supported by a supporting slide block, the supporting slide blocks freely slide on the guide rail at the inner side of the device shell, the pulleys on the supporting slide blocks support the mounting seat through the sideslip grooves at the side surface of the mounting seat, the mounting seat is ensured to freely and transversely slide, the clamping step of workpieces is combined, the accurate position adjustment of the workpieces in all directions in space is ensured, on the other hand, in order to facilitate clamping of the workpiece, two ends of the first screw rod are respectively fixedly connected with a second worm wheel, when the mounting seat slides to the vicinity of the inner side surface of the device shell, the second worm wheel is meshed with the first worm wheel arranged on the inner side of the device shell under the vertical condition of the first screw rod, at the moment, the relative position between the mounting seat and the device shell is kept, the distance between the two clamping blocks can be adjusted through rocking a rocker on the outer side of the device shell through a worm meshed with the first worm wheel, in order to fix and keep the mounting seat at different positions inside the device shell, the inside of the device shell is provided with a matching rod, an operator can control and adjust the position of the matching rod inside the device shell through a control rod on the outer side of the device shell, the end part of the matching rod is slidably connected with a first positioning column, when an operator rotates the control rod to enable the threaded structure part of the control rod to be screwed into the threaded hole, the matching rod is positioned in the middle of the inner cavity, the first positioning column can collide with the side surface of the supporting sliding column under the pushing of the third spring, the first positioning column can play a role in positioning the rotation of the mounting seat, the mounting seat can be conveniently rotated at different angles, the outer side of the supporting sliding column is provided with a guide groove, if the end part of the first positioning column is positioned in one of the guide grooves, when the operator continues to rotate the control rod until the threaded part of the control rod is completely screwed into the threaded hole, at the moment, under the blocking effect of the matching rod, the first positioning column cannot slide back, so that the supporting sliding column cannot rotate continuously, the rotation angle of a workpiece is kept at the moment, the workpiece cannot rotate in the machining process, on the other hand, a plurality of annular positioning grooves are further formed in the side face of the supporting sliding column and used for preventing the supporting sliding column from sliding radially, the end part of the first positioning column is slidably connected with the second positioning column, the second positioning column is flat, the end part of the second positioning column is of an arc-shaped structure, when the positioning groove on the supporting sliding column moves to the position of the first positioning column, the second positioning column is embedded into the positioning groove, so that the supporting sliding column is prevented from sliding continuously, and the above steps are combined, carry out complete fixed to the position of work piece, on the other hand, also can guarantee the continuous meshing between first worm wheel and the second worm wheel in the centre gripping in-process, and when the cooperation pole slides to the cavity middle part, owing to the existence of second reference column, the constant head tank is annular structure simultaneously, also can guarantee that support the traveller can not take place to slide when rotating this moment, finally, if need remove the locate mode, operating personnel need with the control lever unscrew screw hole to carry out the pulling to the control lever, can remove first reference column and second reference column completely and support the traveller conflict state.

(3) According to the metal fitting laser cutting equipment convenient for blanking, a turnover structure is arranged in the device shell; the workpiece is conveniently rotated through the overturning structure, so that cutting at different angles is realized, namely: in order to facilitate the rotation of the mounting seat and a workpiece fixed on the mounting seat, a user can rotate a driving hand wheel positioned on the side face of the device shell, the first gear is driven to rotate through the rotation of a second gear on the driving hand wheel, the first gear is in sliding connection with the supporting sliding column through a connecting sliding shaft, and due to the fact that the diameter of the first gear is far larger than that of the second gear, an operator can rotate the mounting seat in a relatively labor-saving mode, the purpose of adjusting the angle of the workpiece is achieved, after the position of the workpiece is adjusted, the operator can close the cabin cover, and the workpiece is cut through a mode that the laser cutting head of the device shell is used for cutting the laser.

(4) The invention relates to a metal fitting laser cutting device convenient for blanking, wherein a blanking structure is arranged at the bottom side of a device shell; work piece that drops in the cutting process can be conveniently taken out through unloading structure, namely: the inside that is located the device shell is equipped with the collecting vat and is used for collecting the sweeps that produce in the cutting process, and the great leftover bits of volume or finished product work piece can be blocked by the screen cloth, in order to conveniently take out these materials of remaining on the screen cloth, operating personnel can be through removing the sleeve joint state between ring cover and the device shell, and the screen cloth rotates for the screen cloth slope, thereby can take out great leftover bits of volume or finished product fast, facilitate the use.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of a metal fitting laser cutting apparatus for facilitating blanking according to the present invention;

FIG. 2 is a schematic view of the connection structure of the device housing and positioning structure shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 2;

FIG. 4 is a schematic view of the connection structure of the clamping structure and the push rod shown in FIG. 2;

FIG. 5 is a schematic structural view of the adjusting structure shown in FIG. 2;

FIG. 6 is a schematic view of the connection structure of the device housing and support strut shown in FIG. 2;

FIG. 7 is a schematic view of the connection structure of the device housing and the drive structure shown in FIG. 2;

FIG. 8 is an enlarged schematic view of the structure of the portion B shown in FIG. 7;

fig. 9 is a schematic view of the connection structure of the device housing and the first gear shown in fig. 2.

In the figure: 1. a device housing 2, a hatch cover 3, a positioning structure 31, a guide groove 32, a positioning groove 33, a control rod 34, a screw hole 35, a mating rod 36, a first spring 37, a first positioning column 38, a second positioning column 39, a second spring 39a, a third spring 4, a turnover structure 41, a first gear 42, a connecting slide shaft 43, a second gear 44, a driving hand wheel 5, a blanking structure 51, a collecting groove 52, a screen mesh 53, a mounting side block 54, a collar 55, a positioning block 56, a fourth spring 6, a clamping structure 61, a mounting seat, 62, a supporting slide column, 63, a clamping block, 64, a first screw rod, 65, a roller, 66, a squeezing slide plate, 67, a collision block, 68, a fifth spring, 69, a first stop block, 7, an adjusting structure, 71, a pushing rod, 72, a third positioning column, 73, a sixth spring, 74, a slide rod, 75, a clamping hole, 76, a thread block, 77, a second stop block, 78, a second screw rod, 8, a driving structure, 81, a rocker, 82, a worm, 83, a first worm wheel, 84, a second worm wheel, 85, a side sliding groove, 86, a pulley, 87, a supporting slide block, 88, a guide rail, 9 and a laser cutting head.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 9, the metal fitting laser cutting equipment convenient for blanking comprises a device shell 1, wherein a hatch cover 2 is rotatably connected to the side surface of the device shell 1; a clamping structure 6 is arranged in the device shell 1; an adjusting structure 7 is arranged on the side surface of the clamping structure 6; a driving structure 8 is connected between the clamping structure 6 and the device shell 1; the side surface of the clamping structure 6 is provided with a positioning structure 3; a turnover structure 4 is arranged in the device shell 1; the bottom side of the device shell 1 is provided with a blanking structure 5; the inside of the device housing 1 is provided with a laser cutting head 9.

Specifically, the clamping structure 6 includes a supporting slide column 62, the inside of the device housing 1 is rotatably connected with the supporting slide column 62, the end portion of the supporting slide column 62 is vertically and fixedly connected with a mounting seat 61, the mounting seat 61 is in a cylindrical structure, the side surface of the mounting seat 61 is slidably connected with two clamping blocks 63, the two clamping blocks 63 are mutually parallel, the inner side of the mounting seat 61 is rotatably connected with a first screw 64, the threads on the two sides of the first screw 64 are opposite in direction, the two sides of the first screw 64 are respectively in threaded connection with the two clamping blocks 63, the inner side of the clamping blocks 63 is rotatably connected with a plurality of rollers 65, the two clamping blocks 63 are connected with an extrusion sliding plate 66 in a sliding manner on one side close to each other, a plurality of rollers 65 are arranged on the inner side of the clamping blocks 63, the shapes and the sizes of the rollers 65 are equal, the rollers 65 are arranged in parallel, two sides of each roller 65 are provided with a collision block 67, one side of each collision block 67 is fixedly connected with a fifth spring 68 on the inner side of each clamping block 63, the other end of each collision block 67 is in a hemispherical structure, the spherical end of each collision block 67 is in collision with the extrusion sliding plate 66, and a first stop block 69 is fixedly connected on the inner side of each clamping block 63; and then through the stable centre gripping of the work piece of treating processing is carried out to the clamp structure 6, guarantees simultaneously that the work piece can continue to carry out the position adjustment under the clamping state, guarantees the accuracy of work piece fixed position, namely: firstly, before cutting a workpiece, an operator needs to confirm the processing position of the workpiece, then, the hatch cover 2 on the side surface of the device shell 1 is opened, a disc-shaped mounting seat 61 is arranged on the inner side surface of the device shell 1, two clamping blocks 63 are arranged on the mounting seat 61 in parallel, the clamping blocks 63 are used for clamping and fixing the workpiece, the first screw rod 64 is arranged on the inner side of the mounting seat 61, the two sides of the first screw 64 are in opposite screw thread directions, the two sides of the first screw 64 are respectively in screw thread connection with the two clamping blocks 63, when the first screw 64 rotates, the two clamping blocks 63 can be driven to move reversely, so that clamping of a workpiece is realized, in order to enable the bottom side of the extrusion sliding plate 66 at the inner side of the clamping block 63 to be in contact with the surface of the workpiece when the workpiece is clamped by the two clamping blocks 63, meanwhile, due to the extrusion effect of the clamping block 63, the other side of the extrusion sliding plate 66 is in contact with the rolling shaft 65 at the inner side of the clamping block 63, at the moment, the extrusion sliding plate 66 can still slide on the surface of the rolling shaft 65, the operator can adjust the position of the workpiece in the clamping state without repeatedly taking down the workpiece, the inner side of the clamping block 63 is provided with the abutting block 67, the abutting block 67 cooperates with the first stop block 69 limiting the sliding range of the abutting block 67, the abutting block 67 can prevent the extrusion sliding plate 66 from shaking in the clamping block 63 when not clamped, and simultaneously the operator can more conveniently take down the workpiece which is finished, on the other hand, the mounting seat 61 can rotate between the supporting sliding column 62 on the other side and the device shell 1 to facilitate the adjustment of the gesture of the workpiece in the clamping state, the cutting processing is convenient, and the processing accuracy is ensured.

Specifically, the adjusting structure 7 includes a second screw 78, the side surface of the mounting seat 61 is rotatably connected with the second screw 78, the two sides of the second screw 78 are in opposite screw thread directions, two sides of the second screw 78 are respectively in screw thread connection with a screw thread block 76, the midpoint of the connection line between the two screw thread blocks 76 is located at the midpoint of the second screw 78, the side surface of the screw thread block 76 is rotatably connected with a pushing rod 71, the side surface of the screw thread block 76 is vertically and fixedly connected with a second stop block 77, the side surface of the second stop block 77 is abutted against the pushing rod 71, the inner side of the mounting seat 61 is slidably connected with a third positioning column 72, a sixth spring 73 is fixedly connected between the third positioning column 72 and the mounting seat 61, a clamping hole 75 is formed at the end part of the pushing rod 71, and the inner side of the end part of the pushing rod 71 is slidably connected with a sliding rod 74; further, the fixing position of the workpiece with a more regular shape is further adjusted by the adjusting structure 7, so that the center line of the workpiece is ensured to be positioned on the rotating axis, and the accuracy of the workpiece in multi-angle processing is further ensured, namely: if the machined workpiece is relatively regular, the fixing position of the workpiece is located at the center line position of the mounting seat 61, so that the workpiece is not deviated when rotating, and is not slipped out from two sides of the clamping block 63 in the clamping state, two pushing rods 71 are further arranged between the clamping blocks 63, the end parts of the pushing rods 71 are rotatably connected to the threaded blocks 76, the side surfaces of the threaded blocks 76 are provided with second stop blocks 77 for ensuring the parallel state between the pushing rods 71 and the surface of the mounting seat 61, the two threaded blocks 76 are respectively in threaded connection with two sides of the second screw rod 78, the two side threads of the second screw rod 78 are opposite in direction, when an operator rotates the extending part of the second screw rod 78 located at the side surface of the mounting seat 61, the two pushing rods 71 can be driven to move towards the workpiece in the clamping state, until the workpiece is pushed to move between the two clamping blocks 63, the workpiece is finally pushed to move to the central position of the mounting seat 61, at this time, if the mounting seat 61 rotates, the position of the workpiece will not deviate, so that the accuracy of machining different sides of the workpiece is ensured, on the other hand, when machining the plate type workpiece, the user can move the two pushing rods 71 to two sides firstly in order to avoid the interference of clamping caused by the pushing rods 71, then bend the pushing rods 71 to the middle part until the pushing rods 71 are completely embedded into the slots in the middle part of the mounting seat 61, the clamping holes 75 at the end parts of the pushing rods 71 and the third positioning columns 72 are clamped, so that the pushing rods 71 can be stored, and the workpiece of different types can be conveniently machined, the operator can release the engagement state by pressing the slide bar 74 at the end of the push rod 71, and take out the push rod 71.

Specifically, the driving structure 8 includes a second worm gear 84, two ends of the first screw 64 are fixedly connected with a second worm gear 84 respectively, the inner side of the device housing 1 is rotatably connected with a first worm gear 83, the tooth-shaped structural specifications of the sides of the first worm gear 83 and the second worm gear 84 are the same, the side of the first worm gear 83 is meshed with a worm 82, a rocker 81 is fixedly connected with the middle part of the worm 82, the rocker 81 is rotatably connected with the side of the device housing 1, a side chute 85 is formed in the side of the mounting seat 61, two guide rails 88 are fixedly connected with the inner side of the device housing 1 in parallel, a supporting sliding block 87 is slidably arranged on the guide rails 88, the top side of the supporting sliding block 87 is rotatably connected with a pulley 86, the two pulleys 86 are respectively arranged on two sides of the mounting seat 61, and the pulley 86 is in rolling connection with the side of the mounting seat 61 through the side chute 85; and then drive through drive structure 8 the work piece carries out lateral movement, conveniently carries out the centre gripping to the work piece simultaneously, namely: the two sides of the mounting seat 61 are respectively supported by one supporting slide block 87, the supporting slide blocks 87 freely slide on the guide rails 88 on the inner side of the device shell 1, the pulleys 86 on the supporting slide blocks 87 support the mounting seat 61 through the side sliding grooves 85 on the side surface of the mounting seat 61, the mounting seat 61 can freely slide transversely, in combination with the clamping step of workpieces, the accurate position adjustment of the workpieces in all directions in space can be ensured, on the other hand, in order to facilitate the clamping of the workpieces, two ends of the first screw rod 64 are respectively fixedly connected with one second worm wheel 84, when the mounting seat 61 slides to the vicinity of the inner side surface of the device shell 1, the first screw rod 64 is in a vertical condition, the second worm wheel 84 is meshed with the first worm wheel 83 arranged on the inner side of the device shell 1, at the moment, the relative position between the mounting seat 61 and the device shell 1 is kept, and the distance between the two worm wheels 81 on the outer side of the device shell 1 can be adjusted through rocking the rocking of the rocking rod 81 and the two worm wheels 83.

Specifically, the positioning structure 3 includes a mating rod 35, the inner side of the device housing 1 is slidably fitted with the mating rod 35, the mating rod 35 and the supporting slide post 62 are vertically disposed, one end of the mating rod 35 is slidably connected with a first positioning post 37, a third spring 39a is fixedly connected between the first positioning post 37 and the mating rod 35, a guiding slot 31 is formed on the side surface of the supporting slide post 62, the direction of the guiding slot 31 is the same as the extending direction of the supporting slide post 62, the end of the first positioning post 37 is named as a hemispherical structure, and the spherical end of the first positioning post 37 is abutted against the supporting slide post 62, the other end of the matching rod 35 is fixedly connected with a control rod 33, one side of the control rod 33 is provided with a thread structure, the side surface of the device shell 1 is provided with a thread hole 34, the control rod 33 is in threaded connection with the device shell 1 through the thread hole 34, a first spring 36 is fixedly connected between the matching rod 35 and the inner side of the device shell 1, the end part of the first positioning column 37 is slidably connected with a second positioning column 38, a second spring 39 is fixedly connected between the second positioning column 38 and the first positioning column 37, the other end of the second positioning column 38 is in a cambered surface structure, the inner side of the supporting sliding column 62 is provided with a positioning groove 32, the positioning groove 32 and the guiding groove 31 are mutually perpendicular, and the end part of the second positioning column 38 is in sliding connection with the side surface of the supporting sliding column 62 through the positioning groove 32; and then, the positioning structure 3 is used for positioning the mounting seat 61 at different positions inside the device housing 1, so that the efficiency and quality of cutting work are improved, namely: in order to fix and maintain the mounting seat 61 at different positions inside the device housing 1, the fitting rod 35 is provided inside the device housing 1, an operator can control and adjust the position of the fitting rod 35 inside the device housing 1 through the control rod 33 outside the device housing 1, and the end of the fitting rod 35 is slidably connected with a first positioning post 37, when the operator rotates the control rod 33 so that the screw structure portion of the control rod 33 is screwed into the screw hole 34, at this time, the matching rod 35 is located in the middle of the inner cavity, at this time, the first positioning post 37 is pushed by the third spring 39a to abut against the side surface of the supporting sliding post 62, at this time, the first positioning post 37 may play a role in positioning the rotation of the mounting seat 61, so as to facilitate the rotation of the mounting seat 61 at different angles, the guiding slot 31 is formed on the outer side of the supporting sliding post 62, if the end of the first positioning post 37 is located in one of the guiding slots 31, when the operator continues to rotate the control rod 33 until the threaded portion of the control rod 33 is completely screwed into the threaded hole 34, at this time, under the blocking action of the matching rod 35, the first positioning post 37 cannot slide back, so that the supporting slide post 62 cannot rotate continuously, thereby maintaining the rotation angle of the workpiece at this time, ensuring that the workpiece cannot rotate in the machining process, on the other hand, the side surface of the supporting slide post 62 is further provided with a plurality of annular positioning slots 32 for preventing the supporting slide post 62 from sliding radially, the end part of the first positioning post 37 is slidably connected with the second positioning post 38 in cooperation with the positioning slots 32, the second positioning post 38 is flat, and the end part of the second positioning post 38 is in an arc structure, when the positioning groove 32 on the support slide post 62 moves to the position of the first positioning post 37, the second positioning post 38 is embedded into the positioning groove 32, so that the support slide post 62 is prevented from sliding continuously, and the position of a workpiece is completely fixed in combination with the above, on the other hand, continuous engagement between the first worm wheel 83 and the second worm wheel 84 can be ensured during clamping, and when the matching rod 35 slides to the middle part of the cavity, due to the existence of the second positioning post 38, the positioning groove 32 is in a ring structure, and the support slide post 62 can be ensured not to slide during rotation at the moment, finally, if the positioning state needs to be released, the operator needs to unscrew the control rod 33 from the threaded hole 34 and pull the control rod 33, so that the abutting state of the first positioning column 37 and the second positioning column 38 with the support slide column 62 can be completely released.

Specifically, the turnover structure 4 includes a connection sliding shaft 42, the inner side of the support sliding column 62 is slidably connected with the connection sliding shaft 42, the end of the connection sliding shaft 42 is vertically and fixedly connected with a first gear 41, the side surface of the first gear 41 is meshed with a second gear 43, the middle part of the second gear 43 is fixedly connected with a driving hand wheel 44, and the driving hand wheel 44 is rotatably connected to the side surface of the device housing 1; and then rotate the work piece conveniently through flip structure 4, realize the cutting of different angles, namely: in order to facilitate the rotation of the mounting seat 61 and the workpiece fixed thereon, the user may rotate the driving hand wheel 44 located at the side of the device housing 1, and drive the first gear 41 to rotate through the rotation of the second gear 43 on the driving hand wheel 44, and the first gear 41 is slidably connected with the supporting slide post 62 through the connecting slide shaft 42, because the diameter of the first gear 41 is far greater than that of the second gear 43, the operator may drive the mounting seat 61 to rotate in a relatively labor-saving manner, so as to achieve the purpose of adjusting the angle of the workpiece, after the adjustment of the workpiece position is completed, the operator may close the hatch cover 2, and cut the workpiece by adopting a fiber laser cutting mode through the laser cutting head 9 installed inside the device housing 1.

Specifically, the blanking structure 5 includes a collecting tank 51, the inner side of the device housing 1 is provided with the collecting tank 51, the top side of the collecting tank 51 is provided with a screen 52, one side of the screen 52 is rotationally connected with the inner side of the device housing 1, the other side of the screen 52 is fixedly connected with a mounting side block 53, the side surface of the mounting side block 53 is rotationally connected with a collar 54, the side surface of the collar 54 is sleeved on the device housing 1, the side surface of the device housing 1 is slidingly connected with a positioning block 55, a fourth spring 56 is fixedly connected between the positioning block 55 and the device housing 1, and the side surface of the positioning block 55 is abutted against the collar 54; and then through unloading structure 5 can be convenient take out the work piece that drops in the cutting process, namely: the collecting tank 51 is arranged in the device housing 1 and is used for collecting scraps produced in the cutting process, and the scraps or finished products with larger volume can be blocked by the screen 52, so that the materials remained on the screen 52 can be conveniently taken out, an operator can remove the sleeving state between the lantern ring 54 and the device housing 1 and rotate the screen 52, so that the screen 52 is inclined, and the scraps or finished products with larger volume can be quickly taken out, and the device is convenient to use.

When the invention is used, firstly, before the workpiece is cut, an operator needs to confirm the processing position of the workpiece, then, the hatch cover 2 on the side surface of the device shell 1 is opened, a disc-shaped mounting seat 61 is arranged on the inner side surface of the device shell 1, two clamping blocks 63 are arranged on the mounting seat 61 in parallel, the clamping blocks 63 are used for clamping and fixing the workpiece, a first screw 64 is arranged on the inner side of the mounting seat 61, the two sides of the first screw 64 are in opposite screw thread directions, two sides of the first screw 64 are respectively in screw thread connection with the two clamping blocks 63, and when the first screw 64 rotates, the two clamping blocks 63 can be driven to reversely move, therefore, the clamping of the workpiece is realized, in order to enable the bottom side of the extrusion slide plate 66 at the inner side of the clamping block 63 to collide with the surface of the workpiece when the workpiece is clamped by the two clamping blocks 63, simultaneously, due to the extrusion effect of the clamping block 63, the other side of the extrusion slide plate 66 can collide with the roller 65 at the inner side of the clamping block 63, at the moment, the extrusion slide plate 66 can still slide on the surface of the roller 65, so that an operator can adjust the position of the workpiece when the workpiece is in a clamping state without repeatedly taking down the workpiece, the inner side of the clamping block 63 is provided with the collision block 67, and the first stop block 69 for limiting the sliding range of the collision block 67 is matched, the abutting block 67 can prevent the extrusion sliding plate 66 from shaking in the clamping block 63 when not clamped, and simultaneously, an operator can more conveniently take down the machined workpiece, on the other hand, the mounting seat 61 can rotate between the supporting sliding column 62 on the other side and the device shell 1, so that the workpiece in the clamping state can be conveniently adjusted in posture, the cutting machining is convenient, the machining accuracy is ensured, if the machined workpiece is more regular, the fixed position of the workpiece is positioned at the center line position of the mounting seat 61, the workpiece is ensured not to deviate when rotating, and the workpiece is ensured not to slide out from two sides of the clamping block 63 in the clamping state, two pushing rods 71 are further arranged between the clamping blocks 63, the end parts of the pushing rods 71 are rotatably connected to the threaded blocks 76, a second stop block 77 is arranged on the side surface of the threaded blocks 76 and used for guaranteeing the parallel state between the pushing rods 71 and the surface of the mounting seat 61, the two threaded blocks 76 are respectively connected to the two sides of the second screw rod 78 in a threaded mode, the two sides of the second screw rod 78 are opposite in threaded direction, when an operator rotates the extending part of the second screw rod 78 positioned on the side surface of the mounting seat 61, the two pushing rods 71 can be driven to move towards the workpiece in the clamping state until the workpiece is pushed to move between the two clamping blocks 63, the workpiece is pushed to move to the center position of the mounting seat 61 finally, at this time, if the mounting seat 61 rotates, the position of the workpiece will not deviate, so that the accuracy of machining different side surfaces of the workpiece is ensured, on the other hand, when machining the workpiece such as a plate, in order to avoid the interference of the pushing rods 71 to clamping, a user can move the two pushing rods 71 to two sides first, then bend the pushing rods 71 towards the middle part until the pushing rods 71 are completely embedded into the slots in the middle part of the mounting seat 61, the clamping holes 75 at the end parts of the pushing rods 71 are clamped with the third positioning columns 72, so that the pushing rods 71 can be stored, the workpiece of different types can be conveniently machined, and when taking the pushing rods 71, the operator can release the clamping state by pressing the sliding rod 74 at the end part of the pushing rod 71, take out the pushing rod 71, support the two sides of the mounting seat 61 through a supporting sliding block 87 respectively, the supporting sliding block 87 slides freely on a guide rail 88 at the inner side of the device shell 1, a pulley 86 on the supporting sliding block 87 supports the mounting seat 61 through a sideslip groove 85 at the side surface of the mounting seat 61, and ensures that the mounting seat 61 can slide freely and transversely, and in combination with the workpiece clamping step, the accurate position adjustment of the workpieces in all directions in space can be ensured, on the other hand, in order to facilitate the workpiece clamping, two ends of the first screw 64 are fixedly connected with a second worm gear 84 respectively, when the mounting seat 61 slides to the vicinity of the inner side surface of the device housing 1, the second worm gear 84 is engaged with the first worm gear 83 provided inside the device housing 1 in a vertical condition of the first screw 64, at this time, the relative position between the mounting seat 61 and the device housing 1 is maintained, that is, the distance between the two clamping blocks 63 can be adjusted by rocking the rocker 81 outside the device housing 1 through the worm 82 engaged with the first worm gear 83, in order to fix and maintain the different positions of the mounting seat 61 inside the device housing 1, the inside of the device housing 1 is provided with the fitting lever 35, the operator can control and adjust the position of the fitting lever 35 inside the device housing 1 through the control lever 33 outside the device housing 1, the first positioning column 37 is slidably connected to the end of the mating rod 35, when the operator rotates the control rod 33 to make the threaded structure portion of the control rod 33 screwed into the threaded hole 34, the mating rod 35 is located at the middle position of the internal cavity, the first positioning column 37 will collide with the side surface of the supporting slide column 62 under the pushing of the third spring 39a, the first positioning column 37 can position the rotation of the mounting seat 61, so as to facilitate the rotation of the mounting seat 61 at different angles, the outer side of the supporting slide column 62 is provided with the guide groove 31, if the end of the first positioning column 37 is located in one of the guide grooves 31, when the operator continues to rotate the control rod 33 until the threaded portion of the control rod 33 is completely screwed into the threaded hole 34, at this time, under the blocking action of the matching rod 35, the first positioning column 37 cannot slide back, so that the supporting sliding column 62 cannot continue to rotate, thereby maintaining the rotation angle of the workpiece at this time and ensuring that the workpiece cannot rotate in the processing process, on the other hand, a plurality of annular positioning grooves 32 are further arranged on the side surface of the supporting sliding column 62 and used for preventing the supporting sliding column 62 from sliding radially, the end portion of the first positioning column 37 is slidably connected with a second positioning column 38, the second positioning column 38 is flat, and the end of the second positioning column 38 is in an arc structure, when the positioning groove 32 on the supporting slide column 62 moves to the position of the first positioning column 37, the second positioning column 38 can be embedded into the positioning groove 32, thereby preventing the supporting slide column 62 from sliding continuously, and the position of the workpiece is completely fixed in combination with the above, on the other hand, continuous engagement between the first worm wheel 83 and the second worm wheel 84 can be ensured in the clamping process, and when the matching rod 35 slides to the middle part of the cavity, due to the existence of the second positioning column 38, the positioning groove 32 is in an annular structure, and the supporting slide column 62 can be ensured not to slide during rotation at the moment, finally, if the positioning state needs to be released, the operator needs to unscrew the control rod 33 from the threaded hole 34 and pull the control rod 33, so that the abutting state of the first positioning column 37 and the second positioning column 38 with the supporting slide column 62 can be completely released, in order to facilitate the rotation of the mounting seat 61 and the workpiece fixed thereon, the user can rotate the driving hand wheel 44 positioned on the side surface of the device housing 1, the first gear 41 is driven to rotate by the rotation of the second gear 43 on the driving hand wheel 44, the first gear 41 is connected with the supporting slide column 62 in a sliding manner through the connecting slide shaft 42, because the diameter of the first gear 41 is far larger than that of the second gear 43, the operator can drive the mounting seat 61 to rotate in a labor-saving way, the purpose of adjusting the angle of the workpiece is achieved, after the position adjustment of the workpiece is completed, the operator can close the hatch cover 2 and cut the workpiece by adopting a fiber laser cutting mode through the laser cutting head 9 arranged in the device shell 1, the collecting tank 51 is arranged in the device shell 1 and used for collecting scraps produced in the cutting process, the scraps or finished workpieces with larger volume can be blocked by the screen mesh 52, in order to conveniently take out the materials remained on the screen mesh 52, the operator can remove the sleeving state between the lantern ring 54 and the device shell 1, and the screen 52 is rotated, so that the screen 52 is inclined, and therefore, the scraps or finished products with larger volume can be rapidly taken out, and the use is convenient.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The metal fitting laser cutting equipment convenient for blanking is characterized by comprising a device shell (1), wherein the side surface of the device shell (1) is rotatably connected with a hatch cover (2); a clamping structure (6) is arranged in the device shell (1); an adjusting structure (7) is arranged on the side surface of the clamping structure (6); a driving structure (8) is connected between the clamping structure (6) and the device shell (1); a positioning structure (3) is arranged on the side surface of the clamping structure (6); a turnover structure (4) is arranged in the device shell (1); a blanking structure (5) is arranged at the bottom side of the device shell (1); a laser cutting head (9) is arranged in the device shell (1);

the clamping structure (6) comprises a supporting slide column (62), the supporting slide column (62) is rotationally connected to the inside of the device shell (1), an installation seat (61) is vertically and fixedly connected to the end part of the supporting slide column (62), the installation seat (61) is of a cylindrical structure, two clamping blocks (63) are slidingly connected to the side face of the installation seat (61), the two clamping blocks (63) are mutually parallel, a first screw (64) is rotationally connected to the inner side of the installation seat (61), threads on two sides of the first screw (64) are opposite in direction, threads on two sides of the first screw (64) are respectively connected with the two clamping blocks (63), a plurality of rollers (65) are rotationally connected to the inner side of the clamping blocks (63), and an extrusion slide plate (66) is slidingly connected to one side, close to the two clamping blocks (63).

The shape and the size of a plurality of rollers (65) arranged on the inner side of the clamping block (63) are equal, the rollers (65) are arranged in parallel, two sides of each roller (65) are provided with a collision block (67), one side of each collision block (67) is fixedly connected with a fifth spring (68) with the inner side of the clamping block (63), the other end of each collision block (67) is of a hemispherical structure, the spherical end of each collision block (67) is in collision with the extrusion sliding plate (66), and the inner side of each clamping block (63) is fixedly connected with a first stop block (69);

The adjusting structure (7) comprises a second screw (78), the side of the mounting seat (61) is rotationally connected with the second screw (78), the two side screw threads of the second screw (78) are opposite in direction, two threaded blocks (76) are respectively connected with two sides of the second screw (78), the middle point of a connecting line between the threaded blocks (76) is located at the middle point of the second screw (78), the side of the threaded blocks (76) is rotationally connected with a pushing rod (71), the side of the threaded blocks (76) is vertically and fixedly connected with a second stop block (77), the side of the second stop block (77) is abutted against the pushing rod (71), a third positioning column (72) is connected to the inner side of the mounting seat (61) in a sliding mode, a sixth spring (73) is fixedly connected between the third positioning column (72) and the mounting seat (61), a clamping hole (75) is formed in the end portion of the pushing rod (71), and a sliding rod (74) is connected to the inner side of the end portion of the pushing rod (71).

2. The metal fitting laser cutting device convenient for blanking according to claim 1, wherein: the driving structure (8) comprises a second worm wheel (84), two ends of the first screw rod (64) are respectively fixedly connected with a second worm wheel (84), the inner side of the device shell (1) is rotationally connected with a first worm wheel (83), the toothed structure specifications of the sides of the first worm wheel (83) and the second worm wheel (84) are the same, the side of the first worm wheel (83) is meshed with a worm (82), the middle part of the worm (82) is fixedly connected with a rocker (81), and the rocker (81) is rotationally connected to the side of the device shell (1).

3. The metal fitting laser cutting device facilitating blanking according to claim 2, wherein: side spout (85) have been seted up to the side of mount pad (61), the inboard parallel fixedly connected with of device shell (1) two guide rails (88), slide on guide rail (88) and be furnished with supporting shoe (87), the top side of supporting shoe (87) rotates and is connected with pulley (86), two both sides of mount pad (61) are located respectively to pulley (86), pulley (86) are through side spout (85) and the side roll connection of mount pad (61).

4. The metal fitting laser cutting device convenient for blanking according to claim 1, wherein: the positioning structure (3) comprises a matching rod (35), the inner side of the device shell (1) is slidingly matched with the matching rod (35), the matching rod (35) and the supporting sliding column (62) are vertically arranged, one end of the matching rod (35) is slidingly connected with a first positioning column (37), a third spring (39 a) is fixedly connected between the first positioning column (37) and the matching rod (35), a guide groove (31) is formed in the side face of the supporting sliding column (62), the direction of the guide groove (31) is the same as the extending direction of the supporting sliding column (62), the end portion of the first positioning column (37) is of a hemispherical structure, the spherical end of the first positioning column (37) is abutted to the supporting sliding column (62), the other end of the matching rod (35) is fixedly connected with a control rod (33), one side of the control rod (33) is provided with a threaded structure, a threaded hole (34) is formed in the side face of the device shell (1), and the control rod (33) is connected with the first spring (36) through the threaded hole (34) and the device shell (1).

5. The metal fitting laser cutting equipment convenient for blanking according to claim 4, wherein: the end sliding connection of first reference column (37) has second reference column (38), fixedly connected with second spring (39) between second reference column (38) and first reference column (37), the other end of second reference column (38) is cambered surface structure, constant head tank (32) have been seted up to the inboard of supporting slide post (62), constant head tank (32) and guide way (31) mutually perpendicular set up, the side sliding connection of second reference column (38) through constant head tank (32) and supporting slide post (62).

6. The metal fitting laser cutting device convenient for blanking according to claim 1, wherein: the overturning structure (4) comprises a connecting sliding shaft (42), the inner side of the supporting sliding column (62) is connected with the connecting sliding shaft (42) in a sliding mode, the end portion of the connecting sliding shaft (42) is vertically and fixedly connected with a first gear (41), the side face of the first gear (41) is meshed with a second gear (43), the middle portion of the second gear (43) is fixedly connected with a driving hand wheel (44), and the driving hand wheel (44) is rotationally connected to the side face of the device shell (1).

7. The metal fitting laser cutting device convenient for blanking according to claim 1, wherein: unloading structure (5) are including collecting vat (51), the inboard of device shell (1) is equipped with collecting vat (51), the top side of collecting vat (51) is equipped with screen cloth (52), one side of screen cloth (52) is rotated with the inboard of device shell (1) and is connected, the opposite side fixedly connected with installation side piece (53) of screen cloth (52), the side rotation of installation side piece (53) is connected with lantern ring (54), the side of lantern ring (54) cup joints in device shell (1), the side sliding connection of device shell (1) has locating piece (55), fixedly connected with fourth spring (56) between locating piece (55) and device shell (1), the side of locating piece (55) is contradicted in lantern ring (54).