CN116393841A - Stainless steel product cutting device and method with cleaning mechanism - Google Patents

Abstract

The invention relates to the technical field of laser cutting assistance, in particular to a stainless steel product cutting device with a cleaning mechanism and a stainless steel product cutting method. The stainless steel cutting machine comprises a cutting bed, wherein a laser cutting head is arranged on a moving frame of a moving frame and provided with a cutting groove, a supporting device is arranged in the cutting groove and used for supporting stainless steel products to be cut, and the laser cutting head is used for cutting the stainless steel products placed on the supporting device. According to the invention, the support piece is driven to move downwards by the moving control piece, so that the laser cutting head can not cut the support piece when cutting the stainless steel product, the support piece is ensured to stably support the stainless steel product, meanwhile, frequent replacement is avoided, the loss of the device when the device cuts the stainless steel product is reduced, and the maintenance cost of the device is reduced.

Description

Stainless steel product cutting device and method with cleaning mechanism

Technical Field

The invention relates to the technical field of laser cutting assistance, in particular to a stainless steel product cutting device with a cleaning mechanism and a stainless steel product cutting method.

Background

The laser cutting machine melts the stainless steel product of cutting part in the in-process of cutting the stainless steel product, the metal that melts can drop, just so cut the position that the stainless steel product needs to cut down, when using the laser cutting machine to cut the stainless steel product, because of the mechanism that the laser cutting opportunity cut to support the stainless steel product, can often use metal support piece to support the stainless steel product, but when carrying out laser cutting to the stainless steel product, the laser cutting head still can cut the metal support piece that supports the stainless steel product, can appear when cutting to the metal support piece at the next time supporting the stainless steel product, can appear unable problem of supporting the stainless steel product, so when the laser cutting head cuts the stainless steel product, make the stainless steel product appear rocking and lead to cutting inaccuracy, the metal residue that is cut off can accumulate on the support piece simultaneously, after long-time use, a large amount of metal residues on the metal support piece gathers and makes the metal support piece unable steady support to carry out steady to the stainless steel product.

Disclosure of Invention

The invention aims to provide a stainless steel product cutting device with a cleaning mechanism and a stainless steel product cutting method, so as to solve the problems in the prior art.

In order to achieve the above object, one of the purposes of the present invention is to provide a stainless steel product cutting device with a cleaning mechanism, which comprises a cutting bed, wherein a moving frame is installed on the cutting bed, a laser cutting head is arranged on the moving frame, the moving frame drives a laser head to move on the upper side of the cutting bed, a cutting groove is formed in the cutting bed, a receiving device is arranged in the cutting groove, the receiving device supports a stainless steel product to be cut, the laser cutting head cuts the stainless steel product placed on the receiving device, the receiving device comprises a plurality of receiving pieces arranged in parallel, a moving control piece is arranged on the lower side of the receiving pieces, a receiving group is arranged on the upper side of the receiving pieces, the receiving group is formed by combining a plurality of supporting pieces, the receiving pieces limit the positions of the supporting pieces, the moving control piece drives the supporting pieces positioned on the same positions on the plurality of receiving pieces to move downwards when moving, the supporting pieces do not support the stainless steel product, after the moving control piece moves again, the moving control piece moves downwards, the moving support pieces returns to the original position to the position, and the moving control piece moves downwards, and the supporting piece drives the supporting piece to move the stainless steel product to the position when the moving control piece, and the moving control piece moves the supporting piece to remove residues.

As a further improvement of the technical scheme, the bearing piece comprises a middle connecting frame in a U shape, two ends of the middle connecting frame are fixed on opposite side walls of the cutting groove, the middle connecting frames are uniformly arranged in the cutting groove, and gaps exist between the bottoms of the middle connecting frames and the bottoms of the cutting groove.

As a further improvement of the technical scheme, the supporting piece consists of a sliding piece and a fastener, the sliding piece and the fastener both comprise a sliding plate, two supporting plates are fixed on the upper side of the sliding plate, the side walls of the supporting plates are inclined planes which incline downwards, supporting surfaces are arranged at the tops of the supporting plates, and the supporting surfaces support stainless steel products.

As a further improvement of the technical scheme, two sliding plates are arranged in a mutually attached mode, meanwhile, the two sliding plates are arranged in a staggered mode, an M-shaped arc-shaped groove is formed in the position, close to the bottom, of one side, away from the other sliding plate, of the sliding plate, and the arc-shaped groove is communicated with the track groove in the other supporting piece adjacent to the supporting piece.

As a further improvement of the technical scheme, a quadrangular prism with a small upper part and a large lower part is formed when the side walls of the supporting plates on the two sliding plates are tightly attached, the sliding plates are slidably inserted into the middle connecting frame, and the sliding plates in the supporting pieces are all arranged in a staggered manner, so that the supporting plates on the sliding plates and the supporting plates on the other sliding plates are combined to form the quadrangular prism.

As a further improvement of the technical scheme, a compression bar is fixed at the bottom of the sliding plate corresponding to the position of the supporting plate, a plurality of sliding pipes are fixed in the middle connecting frame, springs are arranged in the sliding pipes, the sliding pipes and the compression bar are correspondingly arranged, one end of the compression bar is slidably inserted in the sliding pipes, and the springs are extruded when the compression bar moves downwards.

As a further improvement of the technical scheme, the movable control piece comprises a translation plate arranged at the bottom of the middle connecting frame, and driving pieces are arranged at two ends of the translation plate and drive the translation plate to reciprocate at the bottom of the middle connecting frame along the track direction of the middle connecting frame.

As a further improvement of the technical scheme, a plurality of sleeve frames which correspond to the middle connecting frames in position and are U-shaped are fixed on the upper side of the translation plate, the sleeve frames are sleeved on the side walls of the middle connecting frames, sliding pins are fixed on the two upper end portions of the sleeve frames, the two sliding pins are arranged in the direction close to each other, the sliding pins are arranged on the upper side of the middle connecting frames, one ends of the sliding pins are connected in the track grooves in a sliding mode, and when the sliding pins move, the supporting plates move downwards through extrusion of the sliding pins to the side walls of the bottoms of the track grooves.

As a further improvement of the technical scheme, a side sliding groove is formed in the side wall of the inside of the sleeve frame, a side sliding strip is fixed on the outer side wall of the middle connecting frame, the side sliding strip is arranged in the side sliding groove in a sliding mode, side plates fixed on the cutting groove are arranged on the two sides of the middle connecting frame, and one end of the sleeve frame is arranged between the middle connecting frame and the side plates in a sliding mode.

The second object of the present invention is to provide a method for operating a stainless steel product cutting device comprising a cleaning mechanism as described above, comprising the following method steps:

s1, placing stainless steel products on a plurality of supporting pieces, supporting the stainless steel products by the supporting pieces, driving a laser cutting head to move on the upper side of a cutting bed by a moving frame, and moving a moving control piece on the lower side of a receiving piece in the process that the moving frame drives a laser head to move, wherein the moving position of the moving control piece is consistent with the transverse position of the laser head;

s2, when the movable control piece moves along with the laser cutting head, driving a plurality of supporting pieces at the longitudinal position below the laser cutting head to move downwards, so that the supporting pieces driven to move downwards are separated from the stainless steel product, and when the laser cutting head cuts the stainless steel product, the supporting pieces below the laser cutting head are not cut;

s3, when the movable control piece drives the supporting piece to move downwards, the supporting piece driven to move downwards and the adjacent supporting piece not driven to move downwards are rubbed with each other, when the movable control piece leaves the supporting piece driven to move downwards, the supporting piece moving downwards moves upwards, metal residues falling on the adjacent supporting piece are scraped, and the metal residues on the supporting piece are removed.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the stainless steel product cutting device and method with the cleaning mechanism, the supporting piece is driven to move downwards by the moving control piece, so that the laser cutting head cannot cut the supporting piece when cutting the stainless steel product, stable supporting of the supporting piece on the stainless steel product is ensured, frequent replacement is avoided, loss of the device when the device cuts the stainless steel product is reduced, and maintenance cost of the device is reduced.

2. According to the stainless steel product cutting device and method with the cleaning mechanism, the supporting piece at the corresponding position is driven to move up and down in the moving process of the moving control piece, on the premise that the supporting piece is prevented from being cut by the laser cutting head, the moving supporting piece rubs the adjacent supporting piece, adjacent and self metal residues are scraped off, and the metal residues are prevented from gathering on the supporting plate to influence the stability of the supporting plate on the stainless steel product.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a receiving device according to the present invention;

FIG. 3 is a schematic view of a combination of a carrier and a plurality of supports according to the present invention;

FIG. 4 is a schematic view of a socket according to the present invention;

FIG. 5 is a schematic view of a mobile control member according to the present invention;

FIG. 6 is a schematic view of a support structure according to the present invention;

FIG. 7 is a second schematic diagram of the mobile control member of the present invention;

FIG. 8 is a schematic view of the combined structure of a support and a portion of a motion control member of the present invention;

FIG. 9 is a schematic view of the apparatus of the present invention supporting a stainless steel article;

FIG. 10 is a schematic view of the apparatus of the present invention in a configuration for avoiding molten liquid under a cutting flow.

The meaning of each reference sign in the figure is:

1. a cutting bed; 11. cutting a groove;

2. a receiving device;

21. a support; 211. a slide plate; 212. a support plate; 213. a track groove; 214. a slide pin; 215. a compression bar; 216. a pin slot;

22. moving the control member; 221. a translation plate; 222. a sleeve frame; 223. a sliding pin; 224. a side chute; 225. a nut block; 226. a threaded rod;

23. a receiving member; 231. a middle connecting frame; 232. a side plate; 233. a slide tube; 234. a spring; 235. an upper guide plate; 236. a side slide bar;

3. and (5) moving the frame.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1

When carrying out laser cutting to stainless steel goods, the laser cutting head still can cut the metal support piece that supports stainless steel goods, can appear unable problem of supporting stainless steel goods when the metal support piece is supporting stainless steel goods next time by the cutting, so when laser cutting head cuts stainless steel goods, make stainless steel goods appear rocking easily and lead to cutting inaccuracy, the metal residue that is cut off can accumulate on support piece simultaneously, after long-time use, the collection gathers a large amount of metal residues on the metal support piece and makes the metal support piece unable steady carry out steady support to stainless steel goods.

In order to solve the above-mentioned problems, referring to fig. 1-10, one of the purposes of the present embodiment is to provide a stainless steel product cutting device with a cleaning mechanism, which includes a cutting bed 1, a moving frame 3 is mounted on the cutting bed 1, a laser cutting head is disposed on the moving frame 3, the moving frame 3 drives a laser head to move on the upper side of the cutting bed 1, so that the laser cutting head moves on the upper side of the cutting bed 1, a cutting groove 11 is formed on the cutting bed 1, a supporting device 2 is disposed in the cutting groove 11, the supporting device 2 supports a stainless steel product to be cut, the laser cutting head cuts the stainless steel product placed on the supporting device 2, and when the laser cutting head cuts the stainless steel product, the supporting device 2 avoids the laser cutting head from cutting the supporting device 2 according to the cutting position of the laser cutting head, so that the supporting device 2 cannot support the stainless steel product smoothly.

The carrying device 2 comprises a plurality of carrying pieces 23 which are arranged in parallel, the carrying pieces 23 are arranged on the same horizontal plane, the lower sides of the carrying pieces 23 are provided with moving control pieces 22, the upper sides of the carrying pieces 23 are provided with carrying groups, the carrying groups are formed by combining the carrying pieces 21, the carrying pieces 23 limit the positions of the carrying pieces 21, so that the carrying groups can stably move up and down in the carrying pieces 23, meanwhile, the moving control pieces 22 drive the carrying pieces 21 which are positioned at the same position on the carrying pieces 23 to move downwards when moving, namely, the carrying pieces 21 which are positioned on the same longitudinal straight line on the cutting bed 1 in reference to fig. 1 move downwards, so that the downwards moving supporting pieces 21 do not support stainless steel products, the moving control pieces 22 drive the supporting pieces 21 to move downwards to be the positions of the laser cutting heads for cutting the stainless steel products, the laser cutting heads cut the positions of the stainless steel products, the supporting pieces 21 are prevented from being cut off when the laser cutting the stainless steel products, the trouble of the supporting pieces 21 is avoided, and meanwhile, the stainless steel products can be cut by the laser cutting heads are replaced;

meanwhile, after the movable control piece 22 moves again, the movable control piece 22 does not limit the position of the support piece 21 driven to move downwards, the support piece 21 which moves downwards restores to the original position to support the stainless steel product, and in the process that the support piece 21 moves upwards and downwards, metal residues on the edges of the adjacent support pieces 21 are removed, so that the metal residues are prevented from being accumulated on the support piece 21 to influence the normal support of the support piece 21 on the stainless steel product.

The structure described above is refined as follows;

referring to fig. 3-4, the receiving member 23 includes a U-shaped middle frame 231, two ends of the middle frame 231 are fixed on opposite side walls of the cutting slot 11, and a plurality of middle frames 231 are uniformly disposed inside the cutting slot 11, and a gap exists between the bottom of the middle frame 231 and the bottom of the cutting slot 11.

Referring to fig. 6 to 8, the supporting member 21 is composed of a slider and a fastener, each of which includes two sliding plates 211, the two sliding plates 211 are attached to each other, and simultaneously the two sliding plates 211 are staggered, the staggered positions of which are the positions of the left and right symmetry lines of the sliding plates 211, that is, the positions of the intersections of the two sliding plates 211 are the positions of the left and right symmetry lines of one side of the sliding plates 211, and two supporting plates 212 are fixed on the upper sides of the sliding plates 211, the side walls of the supporting plates 212 are inclined planes inclined downward, and supporting surfaces are provided on the tops of the supporting plates 212, the supporting surfaces support the stainless steel product, and a quadrangular prism with a small top and a large bottom is formed when the side walls of the supporting plates 212 on the two sliding plates 211 are tightly attached to each other, so that when the laser cutting head cuts the stainless steel product, the cut residues are guided downward through the inclined planes inclined downward of the supporting plates 212 to avoid the residues gathering on the supporting plates 212, and simultaneously, the sliding plates 211 in the plurality of the supporting members 21 are staggered, so that the supporting plates 212 on the sliding plates 211 are combined to form four, and the supporting plates 212 on the other, and the supporting plates 212 are combined to form the four, so that the supporting plates 212 and the mutually staggered and the stable stainless steel product is stably supported.

In order to enhance the stability of the connection between the slider and the fastener, a sliding pin 214 is fixed on the slider at one side of the support plate 212, and a pin slot 216 is formed on the corresponding fastener at one side of the support plate 212, and the sliding pin 214 is slidably disposed inside the pin slot 216, so as to enhance the stability of the connection between the slider and the fastener.

Meanwhile, an arc-shaped groove in an M shape is formed at a position, close to the bottom, of one side, far away from the other sliding plate 211, of the sliding plate 211, and is communicated with a track groove 213 in the other supporting piece 21 adjacent to the supporting piece 21, so that a plurality of track grooves 213 on the same side of a bearing group are combined to form a continuous corrugated notch.

Referring to fig. 3 to 4 again, and fig. 6 to 8, the sliding plate 211 is slidably inserted into the middle connecting frame 231, and a barrier bar is fixed to one side of the bottom of the sliding plate 211 and an inner side wall of the middle connecting frame 231 near the top, the barrier bar blocks the sliding plate 211 from sliding down from the middle connecting frame 231, meanwhile, a compression bar 215 is fixed to a position of the bottom of the sliding plate 211 corresponding to the support plate 212, a plurality of sliding tubes 233 are fixed to the middle connecting frame 231, a spring 234 is arranged in the sliding tube 233, the sliding tubes 233 and the compression bar 215 are correspondingly arranged, one end of the compression bar 215 is slidably inserted into the sliding tube 233, and when the compression bar 215 moves down, the spring 234 presses the compression bar 215, the support member 21 is supported to move upwards through the support of the spring 234, and the support member 21 supports a stainless steel product.

The moving control member 22 drives the supporting member 21 to move downwards, wherein the specific structure of the moving control member 22 is shown in fig. 5, the moving control member 22 comprises a translation plate 221 arranged at the bottom of the middle connecting frame 231, driving members are arranged at two ends of the translation plate 221 and drive the translation plate 221 to reciprocate along the track direction of the middle connecting frame 231, the driving members comprise nut blocks 225 fixed at two ends of the translation plate 221, threaded rods 226 are connected to the nut blocks 225 in a threaded manner, one ends of the threaded rods 226 are provided with driving motors for driving the threaded rods 226 to rotate, the threaded rods 226 are rotatably arranged on one side of the cutting groove 11, the driving motors are fixed on the side walls of the cutting groove 11, and the driving motors drive the threaded rods 226 to rotate, so that the translation plate 221 slides at the bottom of the middle connecting frame 231 through the threaded connection of the threaded rods 226 and the nut blocks 225.

Referring to fig. 2, 5 and 8, a plurality of U-shaped brackets 222 corresponding to the middle brackets 231 are fixed on the upper side of the translation plate 221, the brackets 222 sleeve the side walls of the middle brackets 231 inside, the sliding pins 223 are fixed at the two upper ends of the brackets 222, the two sliding pins 223 are arranged in directions close to each other, the sliding pins 223 are arranged on the upper side of the middle brackets 231, one ends of the sliding pins 223 are slidably inserted into the track grooves 213, when the sliding pins 223 move, the supporting plate 212 moves downwards through the extrusion of the sliding pins 223 on the side walls of the bottoms of the track grooves 213, when the sliding pins 223 move to the positions close to the middle and the two ends of the track grooves 213, the sliding plates 211 are restored to the original positions to support stainless steel products, and when the sliding pins 223 move to the positions of one fourth and three fourth of the track grooves 213, the supporting plate 212 is far away from the stainless steel products, so that when the laser cutting heads cut the stainless steel products, the supporting plate 212 cannot be cut, the supporting plate 212 is ensured to be smoothly cut, the metal residues 212 are smoothly dropped on the supporting plate 212 and the two adjacent supporting plates are removed, and the metal residues 212 drop on the supporting plate 212 are removed by friction between the two supporting plates and the supporting plate 212.

Meanwhile, in order to ensure that the sleeve frame 222 can stably slide on the middle connecting frame 231, referring to fig. 5-8, a side sliding groove 224 is formed in the side wall of the interior of the sleeve frame 222, a side sliding bar 236 is fixed on the outer side wall of the middle connecting frame 231, the side sliding bar 236 is slidably arranged in the side sliding groove 224, side plates 232 fixed on the cutting groove 11 are arranged on two sides of the middle connecting frame 231, one end of the sleeve frame 222 is slidably arranged between the middle connecting frame 231 and the side plates 232, and the sleeve frame 222 can stably slide on the middle connecting frame 231 through the limitation of the side sliding bar 236 and the side plates 232 on the position of the sleeve frame 222, so that the sleeve frame 222 can be ensured to drive the supporting piece 21 to stably move downwards.

When the metal residue falls, there is an effect that a part of the residue falls into the track groove 213 to affect the sliding of the sliding pin 223 in the track groove 213, and an upper guide plate 235 is fixed on the side edge of the sliding plate 211, and the upper guide plate 235 guides the metal residue cut by the laser cutting head, so that the metal residue is guided to a position in the middle of the two middle connection frames 231, and the metal residue is prevented from entering the track groove 213.

The using process comprises the following steps:

placing stainless steel products on a plurality of supporting pieces 21 in a cutting groove 11, supporting plates 212 support the stainless steel products, a laser cutting head is driven by a moving frame 3 to move on the upper side of a cutting bed 1, in the process that the moving frame 3 drives a laser head to move, a driving motor drives a threaded rod 226 to rotate, the threaded rod 226 drives a translation plate 221 to move on the lower side of a middle connecting frame 231 by driving a nut block 225, the translation plate 221 moves correspondingly to the transverse position of the laser cutting head, namely, when the laser cutting head moves to a certain position of the transverse position, the translation plate 221 moves right below the laser cutting head, in the process of moving the translation plate 221, a sliding pin 223 slides in a track groove 213, as shown in fig. 9-10, when the translation plate 221 moves to a position between two supporting plates 212, the sliding pin 223 is positioned at the lowest position of the track groove 213, at the moment, the supporting plates 212 support the stainless steel products, metal residues cut by the laser cutting head are guided on two sides by the side walls of the obliquely arranged supporting plates 212, when the translation plate 221 moves to the highest position of the track groove 213, namely, the supporting plates 212 are driven to move away from the lower side of the supporting plates 212, the stainless steel cutting head is driven to move away from the stainless steel cutting head, and the metal residues are cut by the adjacent supporting plates 212, and the stainless steel products are rubbed on the adjacent supporting plates 212, and the stainless steel cutting heads are cut by the supporting plates 212, and the stainless steel products are cut by the stainless steel products in the process, and the position of the stainless steel cutting heads are cut by the supporting plates 212, and the stainless steel products are moved on the supporting plates 212 and the adjacent to the supporting plates and the stainless steel cutting heads, and the stainless steel products are cut by the cutting heads and the stainless steel products.

Another object of the present invention is to provide a method for operating a stainless steel product cutting device comprising the above-mentioned cleaning mechanism, comprising the following method steps:

s1, placing stainless steel products on a plurality of supporting pieces 21, supporting the stainless steel products by the supporting pieces 21, driving a laser cutting head to move on the upper side of a cutting bed 1 by a moving frame 3, and moving a moving control piece 22 on the lower side of a bearing piece 23 in the process that the moving frame 3 drives a laser head to move, wherein the moving position of the moving control piece 22 is consistent with the transverse position of the laser head;

s2, when the movable control piece 22 moves along with the laser cutting head, driving a plurality of supporting pieces 21 at the longitudinal position below the laser cutting head to move downwards, so that the supporting pieces 21 driven to move downwards are separated from the stainless steel product, and when the laser cutting head cuts the stainless steel product, the supporting pieces 21 below the laser cutting head are not cut;

and S3, when the moving control piece 22 drives the supporting piece 21 to move downwards, the supporting piece 21 driven to move downwards and the adjacent supporting pieces 21 not driven to move downwards are rubbed with each other, and when the moving control piece 22 leaves the supporting piece 21 driven to move downwards, the supporting piece 21 moving downwards moves upwards, and metal residues falling on the adjacent supporting pieces 21 are scraped and rubbed, so that the metal residues on the supporting pieces 21 are removed.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Stainless steel products cutting device with clean mechanism, including cutting bed (1), install on cutting bed (1) and remove frame (3) remove and be provided with the laser cutting head on frame (3), remove frame (3) and drive the laser head and move in the upside of cutting bed (1), cut groove (11) have been seted up on cutting bed (1), the inside of cutting groove (11) is provided with adapting unit (2), adapting unit (2) support the stainless steel products that need cut, and the laser cutting head cuts the stainless steel products of placing on adapting unit (2), its characterized in that: the bearing device comprises a plurality of bearing pieces (23) which are arranged in parallel, a plurality of movable control pieces (22) are arranged on the lower sides of the bearing pieces (23), bearing groups are arranged on the upper sides of the bearing pieces (23), the bearing groups are formed by combining a plurality of supporting pieces (21), the bearing pieces (23) limit the positions of the supporting pieces (21), the movable control pieces (22) drive the supporting pieces (21) which are positioned at the same position on the bearing pieces (23) to move downwards when moving, the downwards moved supporting pieces (21) support stainless steel products, after the movable control pieces (22) move again, the downwards moved supporting pieces (21) return to the original positions, the position where the movable control pieces (22) drive the supporting pieces (21) to move downwards is the position where a laser cutting head cuts the stainless steel products, and metal residues on the edges of adjacent supporting pieces (21) are removed in the process of moving upwards and downwards.

2. The stainless steel product cutting apparatus with cleaning mechanism as claimed in claim 1, wherein: the bearing piece (23) comprises a middle connecting frame (231) which is U-shaped, two ends of the middle connecting frame (231) are fixed on opposite side walls of the cutting groove (11), the middle connecting frames (231) are uniformly arranged inside the cutting groove (11), and gaps exist between the bottoms of the middle connecting frames (231) and the bottoms of the cutting groove (11).

3. The stainless steel product cutting apparatus with cleaning mechanism as claimed in claim 2, wherein: the support piece (21) is composed of a slider and a fastener, the slider and the fastener both comprise a sliding plate (211), two support plates (212) are fixed on the upper side of the sliding plate (211), the side walls of the support plates (212) are inclined planes inclined downwards, a support surface is arranged at the top of the support plates (212), and the support surface supports stainless steel products.

4. A stainless steel product cutting apparatus with cleaning mechanism as claimed in claim 3, wherein: two slide (211) laminating sets up each other, and simultaneously two slide (211) are crisscross to be set up, just the one side that slide (211) kept away from another slide (211) is close to the arc groove of bottom to set up and be the M type, and with track groove (213) in another support (21) adjacent to support (21) are linked together.

5. The stainless steel product cutting apparatus with cleaning mechanism according to claim 4, wherein: the side walls of the supporting plates (212) on the two sliding plates (211) are tightly attached to form a quadrangular prism with a small upper part and a large lower part, the sliding plates (211) are slidably inserted into the middle connecting frame (231), and the sliding plates (211) in the plurality of supporting pieces (21) are all arranged in a staggered mode, so that the supporting plates (212) on the sliding plates (211) and the supporting plates (212) on the other sliding plates (211) are combined to form the quadrangular prism.

6. A stainless steel product cutting apparatus with cleaning mechanism as claimed in claim 3, wherein: the bottom of slide (211) corresponds the position of backup pad (212) and is fixed with depression bar (215), the inside of well connect frame (231) is fixed with a plurality of slide pipe (233), and be provided with spring (234) in the inside of slide pipe (233), the position of slide pipe (233) and depression bar (215) corresponds the setting, just the one end of depression bar (215) is slided and is pegged graft in the inside of slide pipe (233) to extrude spring (234) when depression bar (215) move down.

7. The stainless steel product cutting apparatus with cleaning mechanism as claimed in claim 1, wherein: the movable control piece (22) comprises a translation plate (221) arranged at the bottom of the middle connecting frame (231), driving pieces are arranged at two ends of the translation plate (221), and the driving pieces drive the translation plate (221) to reciprocate at the bottom of the middle connecting frame (231) along the track direction of the middle connecting frame (231).

8. The stainless steel product cutting apparatus with cleaning mechanism as claimed in claim 7, wherein: the upper side of translation board (221) is fixed with a plurality of and connects frame (231) position to correspond and be cover frame (222) of U type in, cover frame (222) connect the lateral wall cover of frame (231) to be established inside, just two upper ends of cover frame (222) are all fixed slide pin (223), two slide pin (223) set up towards the direction that is close to each other, just slide pin (223) set up in the upside that connects frame (231) in, just slide pin (223) one end slip grafting is in the inside of track groove (213), when slide pin (223) remove, through slide pin (223) to the extrusion of track groove (213) bottom lateral wall, make backup pad (212) downwardly moving.

9. The stainless steel product cutting apparatus with cleaning mechanism of claim 8, wherein: side spout (224) have been seted up on the inside lateral wall of cover frame (222), be fixed with side slide bar (236) on the lateral wall of well frame (231), side slide bar (236) slip setting is in side spout (224), and is provided with curb plate (232) of fixing on cutting groove (11) in the both sides of well frame (231), the one end slip setting of cover frame (222) is in between frame (231) and curb plate (232) of connecing.

10. A method for operating a cutting device for stainless steel articles comprising the cleaning mechanism of any one of claims 1, characterized by: the method comprises the following steps:

s1, placing stainless steel products on a plurality of supporting pieces (21), supporting the stainless steel products by the supporting pieces (21), driving a laser cutting head to move on the upper side of a cutting bed (1) by a moving frame (3), and moving a moving control piece (22) on the lower side of a receiving piece (23) in the process that the moving frame (3) drives a laser head to move, wherein the moving position of the moving control piece (22) is consistent with the transverse position of the laser head;

s2, when the movable control piece (22) moves along with the laser cutting head, driving a plurality of supporting pieces (21) at the longitudinal position below the laser cutting head to move downwards, so that the supporting pieces (21) driven to move downwards are separated from the stainless steel product, and when the laser cutting head cuts the stainless steel product, the supporting pieces (21) below the laser cutting head are not cut;

s3, when the moving control piece (22) drives the supporting piece (21) to move downwards, the supporting piece (21) which is driven to move downwards and the adjacent supporting pieces (21) which are not driven to move downwards are rubbed with each other, when the moving control piece (22) leaves the supporting piece (21) which is driven to move downwards, the supporting piece (21) which moves downwards moves upwards, metal residues which fall on the adjacent supporting pieces (21) are scraped, and the metal residues on the supporting pieces (21) are removed.

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