CN116871703A - Laser cutting machine capable of automatically collecting scraps based on synchronous transmission and collecting method - Google Patents

Abstract

The invention relates to the technical field of chip collection of laser cutters, in particular to a laser cutter capable of automatically collecting chips based on synchronous transmission and a collecting method. The cutting machine comprises a cutting machine frame and an auxiliary processing device arranged inside the cutting machine frame, wherein the auxiliary processing device supports articles to be cut, the cutting machine frame cools the position of the articles after cutting when cutting the articles supported by the auxiliary processing device, and scraps generated by cutting the articles by the cutting machine frame are collected in the process of cooling the articles. According to the invention, the collecting piece is driven to move in the placing groove by the driving piece, so that the collecting piece gathers the scraps in the placing groove together, and meanwhile, the collecting piece gathers the gathered scraps into the collecting groove, so that a user can collect the scraps conveniently, and the trouble of manually and actively collecting the scraps in the placing groove is avoided.

Description

Laser cutting machine capable of automatically collecting scraps based on synchronous transmission and collecting method

Technical Field

The invention relates to the technical field of chip collection of laser cutters, in particular to a laser cutter capable of automatically collecting chips based on synchronous transmission and a collecting method.

Background

When cutting article, the laser cutting machine has the piece to fall on the machine, if do not clear up for a long time, the piece can pile up and influence the normal cutting of cutting machine, so need clear up the piece on the cutting machine, simultaneously when laser cutting machine cuts article, the molten liquid that melts can drip on the support of support article, and can solidify on the support after the molten liquid cooling, influence the support of support follow-up to article, so after the long-time back of support, can change the support, so not only influence the normal use of laser cutting machine, still can cause the waste of resource, so need one kind can collect the piece, and protect the device of support to protect the laser cutting machine.

Disclosure of Invention

The invention aims to provide a laser cutting machine and a collecting method for automatically collecting scraps based on synchronous transmission, so as to solve the problems in the background art.

In order to achieve the above object, one of the objects of the present invention is to provide a laser cutting machine capable of automatically collecting chips based on synchronous transmission, comprising a cutting frame and an auxiliary processing device disposed inside the cutting frame, wherein the auxiliary processing device supports an article to be cut, the cutting frame reduces the temperature of the cut article by the auxiliary processing device when cutting the article supported by the auxiliary processing device, and collects chips generated by cutting the article by the cutting frame during the temperature reduction of the article;

the auxiliary processing device comprises a collecting piece and a plurality of receiving pieces arranged inside the collecting piece, wherein the receiving pieces support objects, the collecting piece drives liquid in the cutting machine frame to move when moving, the liquid drives the liquid to contact with the objects, the objects after being cut are cooled, and meanwhile chips generated by cutting the objects by the cutting machine frame are collected in the moving process of the collecting pieces.

As a further improvement of the technical scheme, the cutting machine frame comprises a base, a laser cutting head is arranged on the upper side of the base, a placing groove is formed in the upper side face of the base, and liquid for cooling objects is contained in the placing groove.

As the further improvement of this technical scheme, auxiliary processing device sets up in the inside of standing groove, a plurality of the piece is evenly arranged in the standing groove to the accepting piece, just the accepting piece includes two planks that are parallel to each other set up, two the both ends screw connection of planking is on the lateral wall of standing groove, planking is vertical to be set up in the standing groove, the top of planking sets up in liquid.

As the further improvement of this technical scheme, collect the piece and be used for driving the driving piece that collects the piece and remove in the standing groove including collecting the piece, the driving piece drive is collected the piece and is followed laser cutting head and remove, collect the piece and be arranged in proper order by a plurality of water-shifting mechanism and make up, water-shifting mechanism includes the slider, a plurality of connect through the connecting rod strip who link up the slider between the slider.

As a further improvement of the technical scheme, the driving piece comprises two shaft rods arranged in the base, belt pulleys are arranged at two ends of the shaft rods, the two belt pulleys of the two shaft rods are connected through a belt, and one shaft rod is provided with a driving motor for driving the shaft rod to rotate.

As a further improvement of the technical scheme, the pull block is arranged on the belt, one side of the pull block is connected with the connecting rod, and the belt drives the pull block to move, so that the pull block drives the connecting rod to drive the water stirring mechanism to move in the placing groove.

As a further improvement of the technical scheme, the sliding block is arranged in a gap between the two bearing pieces, two sides, which are not close to the bearing pieces, of the sliding block are provided with arc-shaped upper guide grooves, one side of each upper guide groove is fixedly provided with an inclined guide plate, the upper end of each inclined guide plate faces away from the direction of each upper guide groove, when the sliding block moves in the placing groove, the upper guide grooves guide liquid in the placing groove upwards, and the inclined guide plates guide the liquid guided by the upper guide grooves upwards, so that the liquid is contacted with the bottom surface of a cut article.

As a further improvement of the technical scheme, a middle separating plate is fixed between two outer plates, the bottom of the middle separating plate is below the bottom of the outer plates, a gap exists between the middle separating plate and the outer plates, one side of each sliding block is fixed with a side shifting block, the upper end of each side shifting block is fixed with a side guide block, when the sliding block moves, each side shifting block guides liquid between the middle separating plate and the outer plates upwards and guides the liquid upwards again through the side guide block, a plurality of supporting blocks are arranged on the upper side of each middle separating plate, each supporting block is n-shaped, each supporting block supports an article, two ends of each supporting block are spliced on the side wall of each outer plate, inclined guide grooves are formed in two sides of each supporting block, the liquid guided upwards impacts the article through the guide of each inclined guide groove, and chips generated by cutting the article are separated from the article.

As the further improvement of this technical scheme, the position that the slider both sides are close to the bottom is fixed with the closure plate, and two adjacent the lateral wall of closure plate of slider side contacts each other, the slider is when removing, and the slider is with the direction guide of garrulous bits towards the closure plate in the standing groove, and the closure plate blocks the piece, makes the piece remove towards the both ends of standing groove, the collecting vat has been seted up to the bottom at standing groove both ends, the piece that the closure plate blockked enters into the collecting vat in collecting.

It is a second object of the present invention to provide a method of operating a laser cutter including any of the above, based on synchronous transfer, for automatically collecting debris, comprising the method steps of:

s1, placing an article to be cut on a supporting block, supporting the article by a plurality of supporting blocks, cutting the article by a laser cutting head, driving a water-shifting mechanism to move by a driving piece when the article is cut by the laser cutting head, and enabling the liquid in a placing groove to be driven by the moving water-shifting mechanism to contact the article so as to cool the article;

s2, simultaneously, the inclined guide groove guides liquid driven by the water shifting mechanism, so that the liquid washes away chips on the supporting block, and when the water shifting mechanism moves, the chips falling into the placing groove are collected, so that the chips enter the collecting groove.

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

1. according to the laser cutting machine and the collecting method based on synchronous transmission and automatic collection of the scraps, the collecting piece is driven to move in the placing groove through the driving piece, so that the collecting piece gathers the scraps in the placing groove together, and meanwhile, the collecting piece collects the collected scraps into the collecting groove, so that a user can collect the scraps conveniently, and the trouble of manually and actively collecting the scraps in the placing groove is avoided.

2. This laser cutting machine and collection method based on synchronous transmission automatic collection piece, remove the in-process of collecting the piece to the piece, the piece is collected to the piece and is driven the liquid in the standing groove, make liquid flow towards the position that the article was cut by laser cutting head, cool down the article, take away remaining piece on the article simultaneously, reduce the quantity of piece on the article, make things convenient for the use of follow-up article, collect simultaneously and drive liquid and cool down the supporting shoe, make the melt of drip on the supporting shoe solidify fast, avoid the melt to fix on the supporting shoe and influence the supporting shoe to the supporting effect of article, the piece on the supporting shoe is washed to the liquid is washed to the piece is collected to the piece of collecting of will piece simultaneously.

Drawings

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

FIG. 2 is a schematic view of a cutter frame according to the present invention;

FIG. 3 is a schematic view of an auxiliary processing device according to the present invention;

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

FIG. 5 is a schematic view of a collecting member portion according to the present invention;

FIG. 6 is a schematic view of a water-shifting mechanism according to the present invention;

FIG. 7 is a schematic view of an explosion structure of a socket according to the present invention;

FIG. 8 is a schematic view of an assembly structure of a socket and a water-shifting mechanism according to the present invention;

fig. 9 is a schematic diagram showing movement of liquid when the water-shifting mechanism of the present invention is moved.

The meaning of each reference sign in the figure is:

1. a cutter frame; 11. a base; 12. a placement groove; 13. a collection tank;

2. an auxiliary processing device;

21. a receiving member; 211. an outer plate; 212. a middle separation plate; 213. a support block; 214. an inclined guide groove;

22. a collection member; 221. a shaft lever; 222. a driving motor; 223. a liquid poking mechanism; 2231. a slide block; 2232. up to the trough; 2233. an inclined guide plate; 2234. a closure plate; 2235. a side shifting block; 2236. a side guide block; 2237. a bottom scraper; 224. a belt; 225. pulling blocks; 226. and connecting the bars.

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", "liquid level", "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 device or element being 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 the laser cutting machine cuts articles, scraps fall onto the machine, if the scraps are not cleaned for a long time, the scraps can be piled up to influence the normal cutting of the cutting machine, so the scraps on the cutting machine are required to be cleaned, meanwhile, molten liquid which is melted can drop onto a support for supporting the articles when the laser cutting machine cuts the articles, and can be solidified on the support after the molten liquid is cooled, the support of the articles is influenced, so the support can be replaced after the support is long-time, the normal use of the laser cutting machine is not only influenced, but also the waste of resources can be caused.

In order to clean the chips and prevent the melted liquid from solidifying on the support to affect the subsequent use of the support, as shown in fig. 1-9, one of the purposes of this embodiment is to provide a laser cutting machine based on synchronous transmission and automatic chip collection, which comprises a cutting frame 1 and an auxiliary processing device 2 arranged inside the cutting frame 1, wherein the auxiliary processing device 2 supports the chips to be cut, when the cutting frame 1 cuts the chips supported by the auxiliary processing device 2, the auxiliary processing device 2 cools the position of the chips after cutting, so that the temperature of the cut position of the chips is lowered, and in the process of cooling the chips by the auxiliary processing device 2, the chips generated by cutting the chips by the cutting frame 1 are collected, so that the chips are prevented from being accumulated on the cutting frame 1 to affect the normal cutting of the chips by the cutting frame 1, the normal use of the device is ensured, and the device can be continuously used.

The auxiliary processing device 2 comprises a collecting piece 22 and a plurality of carrying pieces 21 arranged inside the collecting piece 22, the carrying pieces 21 support objects, when the collecting piece 22 moves, liquid in the cutting machine frame 1 is driven to move and is driven to contact with the objects, the objects after being cut are cooled, meanwhile, in the moving process of the collecting piece 22, scraps generated by the cutting machine frame 1 cutting the objects are collected, scraps of the cutting machine frame 1 cutting the objects are collected together, a user can conveniently clean the scraps, the trouble that the user stops the cutting machine frame 1 to clean is avoided, meanwhile, the position of the cutting machine frame 1 cutting the objects is located along with the movement of the collecting piece 22, in the moving process of the collecting piece 22, molten liquid generated by the cutting machine frame 1 cutting the objects is driven to be cooled, and the molten liquid is prevented from being solidified on the carrying pieces 21 to influence the normal use of the carrying pieces 21.

The following refines the structures of the cutting frame 1 and the auxiliary processing device 2, so that the cutting frame 1 and the auxiliary processing device 2 achieve the above-described effects, please refer to fig. 4-9, the cutting frame 1 comprises a base 11, a laser cutting head is mounted on the upper side of the base 11, a placing groove 12 is formed in the upper side surface of the base 11, and liquid for cooling objects is contained in the placing groove 12, so that cost is saved, and the cooled liquid can be water.

The auxiliary processing device 2 is arranged in the placing groove 12, a plurality of carrying pieces 21 are uniformly distributed in the placing groove 12, gaps are reserved between every two carrying pieces 21, each carrying piece 21 comprises two outer plates 211 which are arranged in parallel, two ends of each outer plate 211 are connected to the side wall of the placing groove 12 through screws, each outer plate 211 is vertically arranged in the placing groove 12, the top of each outer plate 211 is arranged in liquid, namely, each outer plate 211 is immersed in water, the gaps between the two carrying pieces 21 are the spaces between the adjacent outer plates 211 on the two carrying pieces 21, a middle separating plate 212 is fixed between the two outer plates 211, the bottom of each middle separating plate 212 is below the bottom of each outer plate 211, the upper end of each middle separating plate 212 is arranged on the upper end of each outer plate 211, each middle separating plate 212 is used for separating the liquid between the two outer plates 211 on the same carrying piece 21, meanwhile, gaps exist between each middle separating plate 212 and each outer plate 211, and water is filled in the gaps between the middle separating plates 212 and the outer plates 211.

The collecting piece 22 comprises a collecting piece and a driving piece used for driving the collecting piece to move in the placing groove 12, the collecting piece is driven to move along with the laser cutting head by the driving piece, the collecting piece is formed by sequentially arranging and combining a plurality of water pulling mechanisms 223, the water pulling mechanisms 223 comprise sliding blocks 2231, the sliding blocks 2231 are connected through connecting rods 226 penetrating through the sliding blocks 2231, the driving piece comprises two shafts 221 installed inside the base 11, belt pulleys are installed at two ends of the shafts 221, two belt pulleys of the two shafts 221 are connected through a belt 224, a driving motor 222 for driving the shafts 221 to rotate is installed on one shaft 221, a pull block 225 is installed on the belt 224, one side of the pull block 225 is connected with the connecting rods 226, the belt 224 drives the pull block 225 to move, the connecting rods 226 drive the water pulling mechanisms 223 to move in the placing groove 12, when the rotating shafts of the driving motor 222 rotate, and the belt 224 drives the pull block 225 to move, and the moving pull block 225 drives the water pulling mechanisms 223 to move in the placing groove 12 through the connecting rods 223.

The slider 2231 is disposed in a gap between the two receiving members 21, two side walls of the slider 2231 are in contact with side walls of the outer plate 211 between the two receiving members 21, the bottom of the slider 2231 is in contact with the bottom of the placing groove 12, two sides of the slider 2231, which are not close to the receiving members 21, are provided with arc-shaped upper guide grooves 2232, an inclined guide plate 2233 with the upper end facing away from the upper guide groove 2232 is fixed on one side of the upper guide groove 2232, when the slider 2231 moves in the placing groove 12, the upper guide groove 2232 guides liquid in the placing groove 12 upwards, and the liquid guided by the upper guide groove 2232 is guided upwards through the inclined guide plate 2233, so that the liquid is in contact with the bottom surface of a cut article, and the liquid contacted with the article cools the article.

A side block 2235 is fixed on one side of the sliding block 2231, a side guide block 2236 is fixed on the upper end of the side block 2235, the side block 2235 and the side guide block 2236 are arranged in a gap between the middle split plate 212 and the outer plate 211, when the sliding block 2231 moves, the side block 2235 guides the liquid between the middle split plate 212 and the outer plate 211 upwards, the middle split plate 212 cuts off the liquid on the other side of the middle split plate 212, the liquid on the other side of the middle split plate 212 is prevented from flowing over, the liquid on the other side of the middle split plate 212 is influenced to be guided upwards by the side block 2235, and the liquid guided upwards by the side block 2235 is guided upwards again through the side guide block 2236;

and be provided with a plurality of supporting shoe 213 in the upside of well minute board 212, supporting shoe 213 is n shape, supporting shoe 213 supports the article, and the both ends of supporting shoe 213 peg graft on the lateral wall of planking 211, make supporting shoe 213 when damaging appears in the in-process of follow-up use, be convenient for change down the supporting shoe 213 that damages, inclined guide groove 214 has been seted up in the both sides of supporting shoe 213, inclined guide groove 214 upwards slope, the liquid that side guide block 2236 upwards guides is through the guide of inclined guide groove 214 to the article is impacted, and take the piece that article cutting produced away from article, simultaneously the water-shifting mechanism 223 moves along with the laser cutting head, when the article is cut to the laser cutting head, the molten liquid drip that the article was cut produced is cooled by the liquid that the water-shifting mechanism 223 removes and is driven, make molten liquid can not solidify on supporting shoe 213, ensure that supporting shoe 213 can use for a long time.

Simultaneously, the position that is close to the bottom at the both sides of slider 2231 is fixed with closure plate 2234, the lateral wall of closure plate 2234 of two adjacent slider 2231 sides is contacted each other, simultaneously, be fixed with end scraper 2237 at closure plate 2234's both sides, slider 2231 is when moving, the slider 2231 is with the chip in the standing groove 12 to the direction guide of closure plate 2234, closure plate 2234 blocks the piece, end scraper 2237 scrapes the piece on the standing groove 12, the slider 2231 that moves drives the piece and makes the piece remove towards the both ends of standing groove 12, in order to conveniently handle the piece that dials water mechanism 223 and collect, collecting tank 13 has been seted up at the bottom at standing groove 12 both ends, the piece that closure plate 2234 blockked enters into collecting tank 13 and collects, the user can through collecting the piece in the collecting tank 13, need not the user to stop the use of cutting frame 1 again to handle the trouble of piece.

It is a second object of the present invention to provide a method of use for operating a synchronous conveyor based automatic debris collection laser cutter including any of the above, comprising the method steps of:

s1, placing an article to be cut on a supporting block 213, supporting the article by a plurality of supporting blocks 213, cutting the article by a laser cutting head, driving a water-shifting mechanism 223 to move by a driving piece when the laser cutting head cuts the article, and enabling the liquid in a placing groove 12 to be driven by the moving water-shifting mechanism 223 to contact the article so as to cool the article;

s2, the inclined guide groove 214 guides the liquid driven by the water shifting mechanism 223, so that the liquid washes away the chips on the supporting block 213, and the water shifting mechanism 223 collects the chips falling into the placing groove 12 when moving, so that the chips enter the collecting groove 13.

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. Laser cutting machine based on synchronous transmission automatic collection piece, including cutting frame (1) and set up at inside auxiliary processing device (2) of cutting frame (1), auxiliary processing device (2) support the article that needs the cutting, its characterized in that: when the cutting machine frame (1) cuts an article supported by the auxiliary processing device (2), the auxiliary processing device (2) cools the position of the article after cutting, and in the process of cooling the article, scraps generated when the cutting machine frame (1) cuts the article are collected;

wherein, auxiliary processing device (2) are including collecting piece (22) and setting up a plurality of receiver (21) inside collecting piece (22), a plurality of receiver (21) support the article, collecting piece (22) are when removing, drive the liquid removal in cutting frame (1) to with liquid drive and article contact, cool down the article after being cut, collect the piece that cutting frame (1) cut article produced at the in-process that collecting piece (22) removed simultaneously.

2. The laser cutter for automatically collecting chips based on synchronous transmission according to claim 1, wherein: the cutting machine frame (1) comprises a base (11), a laser cutting head is arranged on the upper side of the base (11), a placing groove (12) is formed in the upper side face of the base (11), and liquid for cooling objects is contained in the placing groove (12).

3. The laser cutter for automatically collecting chips based on synchronous transmission according to claim 1, wherein: auxiliary processing device (2) set up in the inside of standing groove (12), a plurality of adapting piece (21) evenly arranges in standing groove (12), just adapting piece (21) include two planking (211) of mutual parallel arrangement, two the both ends screw connection of planking (211) is on the lateral wall of standing groove (12), planking (211) vertical setting is in standing groove (12), the top setting of planking (211) is in liquid.

4. The laser cutter for automatically collecting chips based on synchronous transmission according to claim 3, wherein: the collecting piece (22) comprises a collecting piece and a driving piece used for driving the collecting piece to move in the placing groove (12), the driving piece drives the collecting piece to move along with the laser cutting head, the collecting piece is formed by sequentially arranging and combining a plurality of water shifting mechanisms (223), the water shifting mechanisms (223) comprise sliding blocks (2231), and the sliding blocks (2231) are connected through connecting rods (226) penetrating through the sliding blocks (2231).

5. The laser cutter for automatically collecting chips based on synchronous transmission according to claim 4, wherein: the driving piece comprises two shaft rods (221) arranged in the base (11), belt pulleys are arranged at two ends of the shaft rods (221), the two belt pulleys of the two shaft rods (221) are connected through a belt (224), and one shaft rod (221) is provided with a driving motor (222) for driving the shaft rods (221) to rotate.

6. The laser cutter for automatic collection of chips based on synchronous transmission according to claim 5, wherein: the pull block (225) is arranged on the belt (224), one side of the pull block (225) is connected with the connecting bar (226), the belt (224) drives the pull block (225) to move, and the connecting bar (226) is driven by the belt (224) to drive the water shifting mechanism (223) to move in the placing groove (12).

7. The laser cutter for automatically collecting chips based on synchronous transmission according to claim 4, wherein: the sliding block (2231) is arranged in a gap between the two bearing pieces (21), an arc-shaped upper guide groove (2232) is formed in the two sides, which are not close to the bearing pieces (21), of the sliding block (2231), an inclined guide plate (2233) with the upper end facing away from the upper guide groove (2232) is fixed on one side of the upper guide groove (2232), when the sliding block (2231) moves in the placing groove (12), the upper guide groove (2232) guides liquid in the placing groove (12) upwards, and the inclined guide plate (2233) guides the liquid guided by the upper guide groove (2232) upwards, so that the liquid is in contact with the bottom surface of a cut article.

8. The laser cutter for automatic collection of chips based on synchronous transmission according to claim 5, wherein: the device comprises an outer plate (211), wherein a middle division plate (212) is fixed between the outer plate (211), the bottom of the middle division plate (212) is below the bottom of the outer plate (211), a gap exists between the middle division plate (212) and the outer plate (211), a side shifting block (2235) is fixed on one side of the sliding block (2231), a side guide block (2236) is fixed on the upper end of the side shifting block (2235), when the sliding block (2231) moves, the side shifting block (2235) guides liquid between the middle division plate (212) and the outer plate (211) upwards and guides the liquid upwards again through the side guide block (2236), a plurality of supporting blocks (213) are arranged on the upper side of the middle division plate (212), the supporting blocks (213) are n-shaped, the supporting blocks (213) support articles, two ends of the supporting blocks (213) are spliced on the side walls of the outer plate (211), oblique guide grooves (214) are formed in two sides of the supporting blocks (213), and the side guide blocks (6) guide the liquid upwards and guide the oblique guide grooves (214) to cut the articles and impact the articles.

9. The laser cutter for automatically collecting chips based on synchronous transmission according to claim 4, wherein: the position that slider (2231) both sides are close to the bottom is fixed with closure plate (2234), and two adjacent the lateral wall of closure plate (2234) of slider (2231) side contacts each other, slider (2231) are when removing, and slider (2231) is with the direction guide of chippings towards closure plate (2234) in standing groove (12), and closure plate (2234) block the chippings, make the chippings remove towards the both ends of standing groove (12), collecting vat (13) have been seted up to the bottom at standing groove (12) both ends, the chippings that closure plate (2234) block get into collecting vat (13) in collecting.

10. A method of use for operating a laser cutter comprising automatic collection of chips based on synchronous transport according to any one of claims 1-9, characterized in that: the method comprises the following steps:

s1, placing an article to be cut on a supporting block (213), supporting the article by a plurality of supporting blocks (213), cutting the article by a laser cutting head, driving a water-shifting mechanism (223) to move by a driving piece when the laser cutting head cuts the article, and enabling the liquid in a placing groove (12) to be driven by the moving water-shifting mechanism (223) to contact the article so as to cool the article;

s2, the inclined guide groove (214) guides liquid driven by the water shifting mechanism (223) to enable the liquid to wash away chips on the supporting block (213), and when the water shifting mechanism (223) moves, the chips falling into the placing groove (12) are collected, so that the chips enter the collecting groove (13).