CN114273945A

CN114273945A - Part for processing based on metal material and method thereof

Info

Publication number: CN114273945A
Application number: CN202111611596.5A
Authority: CN
Inventors: 高猛
Original assignee: Jiangsu Kaile Metal Technology Co ltd
Current assignee: Jiangsu Kaile Metal Technology Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-04-05

Abstract

The invention relates to the technical field of metal material processing, in particular to a part based on metal material processing and a method thereof. According to the invention, the push block of the L-shaped limiting plate can be inserted into the groove, the push block can push one end of the limiting inserted rod to rotate along the outer part of the fixing shaft rod, the other end of the limiting inserted rod is embedded into the limiting slot of the L-shaped limiting plate, the waste box can be connected with the L-shaped limiting plate and used for limiting the positions of the waste box and the L-shaped limiting plate, the sucking disc can be used for sucking waste chips or waste gas placed on the bedplate, and the gas can be guided into the waste box along the matching of the sucking disc, the fixing arc pipe, the connecting pipe and the through pipe, or the L-shaped limiting plate can be separated from the waste box.

Description

Part for processing based on metal material and method thereof

Technical Field

The invention relates to the technical field of metal material processing, in particular to a part for processing based on a metal material and a method thereof.

Background

The metal material is a generic term for a metal element or a material mainly composed of a metal element and having a metal property. Including pure metals, alloys, intermetallic compounds of metallic materials, special metallic materials, etc.

The existing metal material processing part aims at the problems that scraps and waste gas are easy to generate and the position of the metal material is inconvenient to limit when the metal material is processed, so that the part for processing the metal material and the method thereof are provided.

Disclosure of Invention

The invention aims to provide a part for processing based on a metal material and a method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

a part for processing based on a metal material and a method thereof comprise a processing frame, wherein a fixed transverse plate fixedly connected with the processing frame is arranged in the processing frame, a placing bedplate and an auxiliary limiting mechanism are arranged on the fixed transverse plate, and two waste recovery mechanisms which are symmetrically distributed are arranged on the processing frame.

Preferably, the auxiliary limiting mechanism comprises a fixing column, a groove, a fixing block, a limiting notch, a fixing column sleeve, a column casing, a rubber column, a support arm, a guide groove plate, a guide push rod, a support rod, a side plate, a through groove, a connecting rod, a limiting compression rod, a positioning pin and a pressing block, the placing platen is provided with the through groove, a disc is embedded into the through groove, the through groove is provided with a plurality of grooves, the groove is internally provided with the fixing block matched with the groove in size, and the fixing block is integrally fixed on the disc.

Preferably, the disc is provided with a fixing column extending out of the placing bedplate and the fixing transverse plate, the fixing column is sleeved with a fixing column sleeve, the tail end of the fixing column is sleeved with a column sleeve matched with the fixing column in size, and a rubber column is arranged in the column sleeve.

Preferably, the fixed column sleeve is provided with two symmetrically distributed support arms, one end of each support arm is movably connected with the fixed column sleeve in a pin joint mode, the other end of each support arm is provided with a guide groove plate, and the guide groove plates are fixed on the fixed transverse plate through bolts.

Preferably, a guide push rod matched with the guide groove plate in size is arranged in the guide groove plate, the other end of the support arm is movably connected to the guide push rod in a pin joint mode, and a support rod is movably connected to one end, far away from the support arm, of the guide push rod in a pin joint mode.

Preferably, the both ends of fixed diaphragm all are equipped with the curb plate, logical groove has been seted up in the curb plate, lead to the connecting rod that the inslot was worn out and connect spacing depression bar, branch loose pin connects on the connecting rod, wear to be equipped with the locating pin on the spacing depression bar, spacing depression bar passes through locating pin swing joint on processing frame, be equipped with on the spacing depression bar with spacing depression bar integral type fixed and with spacing notch size complex briquetting.

Preferably, waste recycling mechanism includes sucking disc, fixed arc pipe, connecting pipe, aspirator pump, siphunculus, dump bin, location pin pole, L type limiting plate, ejector pad, recess, spacing inserted bar, return spring, fixed axostylus axostyle and spacing slot, fixed arc pipe is connected to the sucking disc, fixed arc union coupling connecting pipe, the aspirator pump is connected to the connecting pipe, the inside of processing frame is extended to the siphunculus that the aspirator pump is connected to the connection on the dump bin, the dump bin passes through the bolt fastening on processing frame, the location pin pole is worn to be equipped with by dump bin and processing frame's junction, the dump bin passes through location pin pole swing joint on processing frame.

Preferably, be equipped with L type limiting plate on the waste bin, L type limiting plate movable pin joint is on the waste bin, still set up the recess on the waste bin, the ejector pad has been inserted in the recess, ejector pad swing joint is on L type limiting plate, spacing slot has been seted up on the L type limiting plate, embedding has the spacing inserted bar with spacing slot size complex in the spacing slot.

Preferably, the limiting inserted bar is provided with a return spring, a fixed shaft lever penetrates through the return spring, and the limiting inserted bar is movably connected to the waste bin through the matching of the return spring and the fixed shaft lever.

A processing method based on metal materials comprises the following steps:

s1, placing the metal material to be processed on the disc, enabling the metal material to be processed to push the fixing column to move through the disc until the fixing block of the disc is embedded into the groove, and enabling the disc and the placing bedplate to be meshed;

s2, enabling the fixed column to synchronously push the fixed column sleeve to move downwards and extend the fixed column into the column casing, enabling the fixed column sleeve to pull one end of the guide push rod to move along the horizontal center direction of the guide groove plate through the support arm, pulling one end of the support rod to move through the other end of the guide push rod, and pulling the connecting rod upwards through the other end of the support rod to move along the central axis direction of the through groove of the side plate;

s3, pushing one end of the limiting pressure rod to rotate anticlockwise along the outer part of the positioning pin, and pressing a pressure block at the end part of the limiting pressure rod into a limiting notch of the placing bedplate;

s4, assembling cutting equipment, welding equipment or drilling equipment on the processing frame for processing the metal material to be processed;

s5, the waste bin can be rotated along the outer part of the positioning pin rod and tightly attached to the processing frame, so that the waste bin is kept in a vertical state, the L-shaped limiting plate is rotatably embedded on the waste bin, the push block of the L-shaped limiting plate can be inserted into the groove, the push block can push one end of the limiting inserted rod to rotate along the outer part of the fixing shaft rod, the other end of the limiting inserted rod is embedded into the limiting slot of the L-shaped limiting plate, and the waste bin can be connected with the L-shaped limiting plate and used for limiting the positions of the waste bin and the L-shaped limiting plate;

s6, under the action of the suction pump, the suction cup can be used for extracting the waste chips or the waste gas on the platen, and the gas is guided into the waste box along the matching of the suction cup, the fixed arc pipe, the connecting pipe and the through pipe, or the L-shaped limiting plate can be separated from the waste box.

The invention has at least the following beneficial effects:

the invention can place the metal material to be processed on the disc, so that the metal material to be processed pushes the fixed column to move through the disc until the fixed block of the disc is embedded into the groove, the disc and the placing bedplate can be occluded, and the fixed column synchronously pushes the fixed column sleeve to move downwards and extends the fixed column into the column barrel, the fixed column sleeve can pull one end of the guide push rod to move along the horizontal center direction of the guide groove plate through the support arm, the other end of the guide push rod is movably connected with the support rod, so that the other end of the guide push rod pulls one end of the support rod to move, and pulls the other end of the support rod upwards to move along the central axis direction of the through groove of the side plate, and the connection rod is movably connected with the limit pressure rod through a pin, so that one end of the limit pressure rod can be pushed to rotate anticlockwise along the outer part of the positioning pin, and the pressing block at the end of the limit pressure rod is pressed into the limit notch of the placing bedplate, thereby effectively limiting the position of the placing bedplate and avoiding the rotation of the placing bedplate;

the invention can rotate the waste bin along the outside of the positioning pin rod, and tightly attach the waste bin to the processing frame, so that the waste bin is kept in a vertical state, the L-shaped limiting plate is rotatably embedded on the waste bin, the push block of the L-shaped limiting plate can be inserted into the groove, one end of the limiting inserted rod can be pushed by the push block to rotate along the outside of the fixing shaft rod, the other end of the limiting inserted rod is embedded into the limiting slot of the L-shaped limiting plate, the waste bin can be connected with the L-shaped limiting plate, the positions of the waste bin and the L-shaped limiting plate can be limited, a sucking disc can be used for sucking waste chips or waste gas on a bedplate, the gas can be guided into the waste bin along the matching of the sucking disc, the fixing arc pipe, the connecting pipe and the through pipe, or the L-shaped limiting plate can be separated from the waste bin.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic top view of the placement platen of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 1 at A;

FIG. 4 is an enlarged view of a portion of FIG. 1 at B;

FIG. 5 is an enlarged view of a portion of FIG. 1 at C;

fig. 6 is a partially enlarged view of fig. 1 at D.

In the figure: 1. processing the frame; 2. fixing the transverse plate; 3. placing a bedplate; 4. an auxiliary limiting mechanism; 401. fixing a column; 402. a groove; 403. a fixed block; 404. a limiting notch; 405. fixing the column sleeve; 406. a column casing; 407. a rubber column; 408. a support arm; 409. a guide groove plate; 410. a guide push rod; 411. a strut; 412. a side plate; 413. a through groove; 414. a connecting rod; 415. a limiting pressure lever; 416. positioning pins; 417. briquetting; 5. a waste recovery mechanism; 501. a suction cup; 502. fixing the arc tube; 503. a connecting pipe; 504. a getter pump; 505. pipe passing; 506. a waste bin; 507. positioning the pin rod; 508. an L-shaped limiting plate; 509. a push block; 510. a groove; 511. a limiting inserted rod; 512. a return spring; 513. fixing the shaft lever; 514. and limiting the slot.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-6, a part for processing based on metal materials and a method thereof, comprising a processing frame 1, wherein a fixed transverse plate 2 fixedly connected with the processing frame 1 is arranged in the processing frame 1, a placing bedplate 3 and an auxiliary limiting mechanism 4 are arranged on the fixed transverse plate 2, and two symmetrically distributed waste recovery mechanisms 5 are arranged on the processing frame 1.

The scheme has the following working processes:

firstly, the waste bin 506 can be rotated along the outside of the positioning pin 507, the waste bin 506 is tightly attached to the processing frame 1, the waste bin 506 is kept in a vertical state, the L-shaped limit plate 508 is rotatably embedded on the waste bin 506, the push block 509 of the L-shaped limit plate 508 can be inserted into the groove 510, the push block 509 can push one end of the limit inserting rod 511 to rotate along the outside of the fixed shaft 513, the other end of the limit inserting rod 511 is embedded into the limit inserting groove 514 of the L-shaped limit plate 508, the waste bin 506 and the L-shaped limit plate 508 can be connected for limiting the positions of the waste bin 506 and the L-shaped limit plate 508, then, the metal material to be processed can be placed on the disc, the metal material to be processed can be pushed by the disc to push the fixed column 401 to move until the fixed block 403 of the disc is embedded into the groove 402, and the disc and the placing bedplate 3 can be meshed, the fixed column 401 synchronously pushes the fixed column sleeve 405 to move downwards and extends the fixed column 401 into the column barrel 406, the fixed column sleeve 405 can pull one end of the guide push rod 410 to move along the horizontal center direction of the guide groove plate 409 through the support arm 408, the other end of the guide push rod 410 is movably connected with the support rod 411, so that the other end of the guide push rod 410 pulls one end of the support rod 411 to move, the other end of the support rod 411 pulls the connecting rod 414 upwards to move along the central axis direction of the through groove 413 of the side plate 412, the connecting rod 414 is movably connected with the limit compression rod 415 in a pin joint mode, one end of the limit compression rod 415 can be pushed to rotate anticlockwise along the outer portion of the positioning pin 416, and the pressing block 417 at the end of the limit compression rod 415 is pressed into the limit notch 404 of the placing platen 3; then, the suction cup 501 may draw the waste chips or the waste gas placed on the platen 3 by the suction pump 504, and the gas may be introduced into the inside of the waste tank 506 along the cooperation of the suction cup 501, the fixed arc tube 502, the connection tube 503, and the through tube 505, or the L-shaped restriction plate 508 may be separated from the waste tank 506.

According to the working process, the following steps are known:

the metal material to be processed can be placed on the disc, the metal material to be processed pushes the fixed column 401 to move through the disc until the fixed block 403 of the disc is embedded into the groove 402, the disc can be meshed with the placing platen 3, and the fixed column 401 synchronously pushes the fixed column sleeve 405 to move downwards, and the fixed column 401 extends into the column barrel 406, the fixed column sleeve 405 can pull one end of the guide push rod 410 to move along the horizontal center direction of the guide groove plate 409 through the support arm 408, while the other end of the guide push rod 410 is movably connected with the support rod 411, so that the other end of the guide push rod 410 pulls one end of the support rod 411 to move, and pulls the other end of the support rod 411 upwards to move along the central axis direction of the through groove 413 of the side plate 412, while the connection rod 414 is movably pinned with the limit compression rod 415, and can push one end of the limit compression rod 415 to rotate anticlockwise along the outside of the positioning pin 416, the pressing block 417 at the end part of the limiting pressing rod 415 is pressed into the limiting notch 404 of the placing bedplate 3, so that the position of the placing bedplate 3 can be effectively limited, and the placing bedplate 3 is prevented from rotating; the waste bin 506 may be rotated around the outside of the dowel pins 507, and the waste bin 506 may be attached to the process frame 1, the waste bin 506 is kept in a vertical state, the L-shaped limit plate 508 is rotatably fitted to the waste bin 506, the pushing block 509 of the L-shaped position-limiting plate 508 can be inserted into the inside of the groove 510, and the pushing block 509 can push one end of the position-limiting insertion rod 511 to rotate along the outside of the fixing shaft 513, the other end of the limit inserting rod 511 is embedded into the limit slot 514 of the L-shaped limit plate 508, so that the waste bin 506 can be connected with the L-shaped limit plate 508, for limiting the position of waste bin 506 and L-shaped restriction plate 508, and may be acted upon by suction pump 504, the suction cup 501 can draw the waste chips or waste gas on the platen 3 and guide the gas into the waste bin 506 along the cooperation of the suction cup 501, the fixed arc pipe 502, the connecting pipe 503 and the through pipe 505, or the L-shaped limit plate 508 can be separated from the waste bin 506.

Further, the auxiliary limiting mechanism 4 comprises a fixing column 401, a groove 402, a fixing block 403, a limiting notch 404, a fixing column sleeve 405, a column barrel 406, a rubber column 407, a support arm 408, a guide groove plate 409, a guide push rod 410, a support rod 411, a side plate 412, a through groove 413, a connecting rod 414, a limiting compression rod 415, a positioning pin 416 and a pressing block 417, wherein a through groove is formed in the placing bedplate 3, a disc is embedded in the through groove, a plurality of grooves 402 are formed in the through groove, the fixing block 403 matched with the size of the groove 402 is arranged in the groove 402, and the fixing block 403 is integrally fixed on the disc.

Further, a fixing column 401 extending out of the placing bedplate 3 and the fixing transverse plate 2 is arranged on the circular disc, a fixing column sleeve 405 is sleeved outside the fixing column 401, a column barrel 406 matched with the fixing column 401 in size is sleeved at the tail end of the fixing column 401, and a rubber column 407 is arranged in the column barrel 406.

Furthermore, two symmetrically distributed support arms 408 are arranged on the fixed column sleeve 405, one end of each support arm 408 is movably connected to the fixed column sleeve 405 in a pin joint mode, the other end of each support arm 408 is provided with a guide groove plate 409, and the guide groove plates 409 are fixed on the fixed transverse plate 2 through bolts.

Further, a guide push rod 410 which is matched with the guide groove plate 409 in size is arranged in the guide groove plate 409, the other end of the support arm 408 is movably pinned on the guide push rod 410, and a support rod 411 is movably pinned at one end, far away from the support arm 408, of the guide push rod 410.

Further, both ends of the fixed transverse plate 2 are provided with side plates 412, a through groove 413 is formed in the side plate 412, a connecting rod 414 penetrating out of the through groove 413 is connected with a limiting compression rod 415, the supporting rod 411 is movably pinned on the connecting rod 414, a positioning pin 416 is arranged on the limiting compression rod 415 in a penetrating mode, the limiting compression rod 415 is movably connected to the processing frame 1 through the positioning pin 416, and a pressing block 417 which is fixed with the limiting compression rod 415 in an integrated mode and matched with the limiting notch 404 in size is arranged on the limiting compression rod 415.

Further, the waste recycling mechanism 5 comprises a suction cup 501, a fixed arc pipe 502, a connecting pipe 503, an air suction pump 504, a through pipe 505, a waste box 506, a positioning pin 507, an L-shaped limiting plate 508, a pushing block 509, a groove 510, a limiting insertion rod 511, a return spring 512, a fixed shaft 513 and a limiting insertion groove 514, wherein the suction cup 501 is connected with the fixed arc pipe 502, the fixed arc pipe 502 is connected with the connecting pipe 503, the connecting pipe 503 is connected with the air suction pump 504, the through pipe 505 connected with the air suction pump 504 extends out of the processing frame 1 and is connected to the waste box 506, the waste box 506 is fixed on the processing frame 1 through bolts, the positioning pin 507 is arranged at the connection part of the waste box 506 and the processing frame 1 in a penetrating manner, and the waste box 506 is movably connected to the processing frame 1 through the positioning pin 507.

Further, be equipped with L type limiting plate 508 on the waste bin 506, L type limiting plate 508 activity round pin joint is on waste bin 506, still has seted up recess 510 on the waste bin 506, has inserted ejector pad 509 in the recess 510, and ejector pad 509 swing joint is on L type limiting plate 508, has seted up spacing slot 514 on the L type limiting plate 508, and the embedding has the spacing inserted bar 511 with spacing slot 514 size complex in the spacing slot 514.

Furthermore, a return spring 512 is arranged on the limit inserted bar 511, a fixed shaft 513 penetrates through the return spring 512, and the limit inserted bar 511 is movably connected to the waste bin 506 through the matching of the return spring 512 and the fixed shaft 513.

A processing method based on metal materials comprises the following steps:

s1, the metal material to be processed can be placed on the disc, so that the metal material to be processed pushes the fixing column 401 to move through the disc until the fixing block 403 of the disc is embedded into the groove 402, and the disc and the placing bedplate 3 can be meshed;

s2, enabling the fixed column 401 to synchronously push the fixed column sleeve 405 to move downwards and extend the fixed column 401 into the column casing 406, the fixed column sleeve 405 can pull one end of the guide push rod 410 to move along the horizontal center direction of the guide groove plate 409 through the support arm 408, pull one end of the support rod 411 to move through the other end of the guide push rod 410, and pull the connecting rod 414 upwards through the other end of the support rod 411 to move along the central axis direction of the through groove 413 of the side plate 412;

s3, pushing one end of the limit compression bar 415 to rotate anticlockwise along the outer part of the positioning pin 416, and pressing the pressing block 417 at the end part of the limit compression bar 415 into the limit notch 404 of the placing bedplate 3;

s3, cutting equipment, welding equipment or drilling equipment can be assembled on the processing frame 1 and used for processing the metal material to be processed;

s4, rotating the waste bin 506 along the outside of the positioning pin 507, attaching the waste bin 506 to the processing frame 1, keeping the waste bin 506 in a vertical state, rotatably embedding the L-shaped limiting plate 508 on the waste bin 506, inserting the push block 509 of the L-shaped limiting plate 508 into the groove 510, pushing one end of the limiting insertion rod 511 by the push block 509 to rotate along the outside of the fixing shaft 513, embedding the other end of the limiting insertion rod 511 into the limiting slot 514 of the L-shaped limiting plate 508, connecting the waste bin 506 with the L-shaped limiting plate 508, and limiting the positions of the waste bin 506 and the L-shaped limiting plate 508;

s5, the suction cup 501 can suck the waste chips or waste gas on the platen 3 by the suction pump 504, and the gas can be guided into the waste bin 506 along the cooperation of the suction cup 501, the fixed arc tube 502, the connecting tube 503 and the through tube 505, or the L-shaped position limiting plate 508 can be separated from the waste bin 506.

The foregoing shows and describes the general principles, essential 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 embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a part for processing based on metal material, includes processing frame (1), its characterized in that, be equipped with in processing frame (1) with processing frame (1) fixed connection's fixed diaphragm (2), be equipped with on fixed diaphragm (2) and place platen (3) and supplementary stop gear (4), be equipped with two symmetric distribution's waste recovery mechanism (5) on processing frame (1).

2. The part is used for processing based on the metal material according to claim 1, wherein the auxiliary limiting mechanism (4) comprises a fixing column (401), a groove (402), a fixing block (403), a limiting notch (404), a fixing column sleeve (405), a column casing (406), a rubber column (407), a support arm (408), a guide groove plate (409), a guide push rod (410), a support rod (411), a side plate (412), a through groove (413), a connecting rod (414), a limiting compression rod (415), a positioning pin (416) and a pressing block (417), the placing platen (3) is provided with the through groove, a disc is embedded in the through groove, the through groove is provided with a plurality of grooves (402), the fixing block (403) matched with the groove (402) in size is arranged in the groove (402), and the fixing block (403) is integrally fixed on the disc.

3. The part for processing the metal material is characterized in that a fixing column (401) extending out of the placing bedplate (3) and the fixing transverse plate (2) is arranged on the circular disc, a fixing column sleeve (405) is sleeved outside the fixing column (401), a column sleeve (406) matched with the fixing column (401) in size is sleeved at the tail end of the fixing column (401), and a rubber column (407) is arranged in the column sleeve (406).

4. The part for processing the metal material is characterized in that two symmetrically distributed support arms (408) are arranged on the fixed column sleeve (405), one end of each support arm (408) is movably connected to the fixed column sleeve (405) in a pin mode, the other end of each support arm (408) is provided with a guide groove plate (409), and the guide groove plates (409) are fixed on the fixed transverse plate (2) through bolts.

5. The part for processing the metal material according to claim 2, wherein a guide push rod (410) matched with the guide groove plate (409) in size is arranged in the guide groove plate (409), the other end of the support arm (408) is movably pinned on the guide push rod (410), and a support rod (411) is movably pinned at one end, far away from the support arm (408), of the guide push rod (410).

6. The part for processing based on the metal material is characterized in that two ends of the fixed transverse plate (2) are respectively provided with a side plate (412), a through groove (413) is formed in each side plate (412), a connecting rod (414) penetrating out of the through groove (413) is connected with a limiting pressure rod (415), each supporting rod (411) is movably connected to the corresponding connecting rod (414) in a pin mode, a positioning pin (416) penetrates through the corresponding limiting pressure rod (415), the limiting pressure rods (415) are movably connected to the processing frame (1) through the positioning pins (416), and pressing blocks (417) which are fixed with the limiting pressure rods (415) in an integrated mode and matched with the limiting groove openings (404) in size are arranged on the corresponding limiting pressure rods (415).

7. The part is used for processing based on the metal material according to claim 1, wherein the scrap recycling mechanism (5) comprises a suction cup (501), a fixed arc tube (502), a connecting tube (503), a suction pump (504), a through tube (505), a scrap box (506), a positioning pin rod (507), an L-shaped limiting plate (508), a push block (509), a groove (510), a limiting inserted rod (511), a return spring (512), a fixed shaft rod (513) and a limiting slot (514), the suction cup (501) is connected with the fixed arc tube (502), the fixed arc tube (502) is connected with the connecting tube (503), the connecting tube (503) is connected with the suction pump (504), the through tube (505) connected with the suction pump (504) extends out of the processing frame (1) and is connected with the scrap box (506), and the scrap box (5) (06) is fixed on the processing frame (1) through bolts, and a positioning pin rod (507) is arranged at the joint of the waste bin (506) and the processing frame (1) in a penetrating way, and the waste bin (506) is movably connected to the processing frame (1) through the positioning pin rod (507).

8. The part is used in processing based on metal material according to claim 7, characterized in that, be equipped with L type limiting plate (508) on waste bin (506), L type limiting plate (508) activity pin joint is on waste bin (506), still set up fluted (510) on waste bin (506), push block (509) has been inserted in recess (510), push block (509) swing joint is on L type limiting plate (508), spacing slot (514) have been seted up on L type limiting plate (508), embedded have with spacing slot (514) size complex spacing inserted bar (511) in spacing slot (514).

9. The part is used for processing based on the metal material according to claim 7, wherein a return spring (512) is arranged on the limit inserted rod (511), a fixed shaft rod (513) penetrates through the return spring (512), and the limit inserted rod (511) is movably connected to the waste bin (506) through the matching of the return spring (512) and the fixed shaft rod (513).

10. The metal material based processing component according to any one of claims 1 to 9, wherein the metal material based processing method comprises the steps of:

s1, the metal material to be processed can be placed on the disc, so that the metal material to be processed pushes the fixing column (401) to move through the disc until the fixing block (403) of the disc is embedded into the groove (402), and the disc and the placing bedplate (3) can be meshed;

s2, enabling the fixed column (401) to synchronously push the fixed column sleeve (405) to move downwards and extend the fixed column (401) into the column casing (406), wherein the fixed column sleeve (405) can pull one end of the guide push rod (410) to move along the horizontal center direction of the guide groove plate (409) through the support arm (408), pull one end of the support rod (411) to move through the other end of the guide push rod (410), and pull the connecting rod (414) upwards through the other end of the support rod (411) to move along the central axis direction of the through groove (413) of the side plate (412);

s3, pushing one end of the limiting pressure lever (415) to rotate anticlockwise along the outer part of the positioning pin (416), and pressing a pressing block (417) at the end part of the limiting pressure lever (415) into a limiting notch (404) of the placing bedplate (3);

s3, cutting equipment, welding equipment or drilling equipment can be assembled on the processing frame (1) and used for processing the metal material to be processed;

s4, the waste bin (506) can be rotated along the outside of the positioning pin rod (507), the waste bin (506) is attached to the processing frame (1) tightly, the waste bin (506) is kept in a vertical state, the L-shaped limiting plate (508) is rotatably embedded on the waste bin (506), a push block (509) of the L-shaped limiting plate (508) can be inserted into the groove (510), the push block (509) can push one end of the limiting insertion rod (511) to rotate along the outside of the fixed shaft rod (513), the other end of the limiting insertion rod (511) is embedded into a limiting insertion groove (514) of the L-shaped limiting plate (508), and the waste bin (506) and the L-shaped limiting plate (508) can be connected for limiting the positions of the waste bin (506) and the L-shaped limiting plate (508);

s5, under the action of the suction pump (504), the suction cup (501) can suck the waste chips or waste gas on the bedplate (3), and the gas is guided into the waste tank (506) along the matching of the suction cup (501), the fixed arc pipe (502), the connecting pipe (503) and the through pipe (505), or the L-shaped limiting plate (508) can be separated from the waste tank (506).