CN115958314B - Ultrafast laser cutting forming equipment with built-in processing bin - Google Patents

Abstract

The invention relates to the technical field of laser cutting, in particular to ultra-fast laser cutting forming equipment with a built-in processing bin, which comprises a processing bin, wherein one side of the processing bin is connected with a bin door, the bin door is blocked at a square door hole formed in the processing bin, a laser cutting device is arranged above the processing bin, the laser cutting device partially penetrates through a top plate of the processing bin, a welding head of the laser cutting device is positioned in the processing bin, a control track penetrates through the bottom of the square door hole of the processing bin, and a position control vehicle is connected to the control track.

Description

Ultrafast laser cutting forming equipment with built-in processing bin

Technical Field

The invention relates to the technical field of laser cutting, in particular to ultra-fast laser cutting forming equipment with a built-in processing bin.

Background

Along with the progress of information technology, mechanization and industrialization gradually become the main melody of enterprise production, and are no exception to welding process, and in many welding workshops today, we can see not only traditional welder operation, but also emerging welding modes such as laser welding and robot welding, and they have the advantage that can improve operating efficiency and promote operation accuracy, and application is also more and more extensive. However, no matter which welding mode is adopted, the generation of welding smoke is always unavoidable, and the laser welding device aims at laser welding, and although intense spark splashing can not occur like manual welding, mixture smoke with extremely fine particles can also be generated in the operation process, and if the mixture smoke is not effectively treated, the mixture smoke can not only harm the physical health of workshop workers, but also pollute laser precise parts, and influence the service life of equipment.

Disclosure of Invention

The invention aims to provide ultra-fast laser cutting forming equipment with a built-in processing bin, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an ultrafast laser cutting former of built-in processing storehouse, includes the processing storehouse, one side of processing storehouse is connected with the door, the door shutoff is provided with square door hole department of seting up on the processing storehouse, the top of processing storehouse is provided with laser cutting device, laser cutting device part runs through the roof of processing storehouse, laser cutting device's soldered connection is located the processing storehouse, the square door hole bottom of processing storehouse runs through there is the control track, be connected with accuse position car on the control track, accuse position car removes to in the processing storehouse, the door falls completely, accuse position car removes to the outside back of processing storehouse, accuse position roof struts the door of its top, the below of processing storehouse is provided with the air disk spare, be connected with two symmetrical distribution's braking long pieces between air disk spare and the door, air disk spare one side is connected with accuse flow piece, the both sides of accuse position car all are provided with the collection and scatter pipe fitting runs through the bottom plate of processing storehouse, and collection and scatter pipe fitting one end and accuse flow piece intercommunication.

Preferably, the processing bin side plates except for the processing bin square door hole are provided with light-transmitting plate holes, and glass is blocked at the light-transmitting plate holes.

Preferably, the bin gate comprises a spring seat, a reset piece, a door plate, an L-shaped long plate, an auxiliary wheel and a wheel frame, wherein the door plate is square, the door plate is covered at a square door hole of a processing bin, one side, opposite to the processing bin, of the door plate is connected with the spring seat, the reset piece and the auxiliary wheel, the two sides of the bottom end of the door plate are uniformly and integrally connected with the L-shaped long plate, a plurality of uniformly distributed plate holes are formed in the L-shaped long plate, the auxiliary wheel is arranged in each plate hole, the reset piece is arranged above the L-shaped long plate, the middle of the top end of the door plate is connected with the spring seat, the upper end of the spring seat is connected with the outer wall of the processing bin, the spring seat applies downward elastic force to the door plate, the two sides of the bottom end of the door plate in the processing bin are connected with the wheel frame, the bottommost end of the wheel frame and the auxiliary wheel are arranged on the same horizontal plane, and one end of the brake long plate is connected with the reset piece.

Preferably, the reset piece comprises an L-shaped steering rod, a first spring and a supporting plate, one end of the L-shaped steering rod is fixed on the outer wall of the processing bin, the other end of the L-shaped steering rod movably penetrates through a through hole formed in the supporting plate, the supporting plate is vertically fixed on the outer wall of the door plate, the upper portion of the supporting plate is contacted with one end of a braking long piece, the first spring is contacted with the upper portion of the braking long piece, the first spring is sleeved on the L-shaped steering rod, and the L-shaped steering rod movably penetrates through the through hole formed in one end of the braking long piece.

Preferably, the wheel carrier comprises a roller, a wheel stay bar, an L-shaped stay bar and a rotary drum, wherein the rotary drum is a circular drum, a drum groove is formed in the inner side wall of the circular drum, one end of the L-shaped stay bar is fixed on the door plate, a plurality of uniformly distributed wheel stay bars are arranged on the other end fixing ring of the L-shaped stay bar, one end, far away from the L-shaped stay bar, of the wheel stay bar is connected with the roller, and the roller is propped against the bottom surface of the drum groove of the rotary drum.

Preferably, the accuse position car includes bow-shaped post, on-vehicle board and rail wheel, the both sides upper surface position of on-vehicle board all is fixed with bow-shaped post, and the both sides position of on-vehicle board all is connected with two rail wheels, control track includes long concave rail, braking longeron and gusset plate, and two long concave rail parallel distribution, and the groove is relative, and two long concave rail all have one end to be fixed on the inner wall of processing storehouse, and all have the other end and gusset plate fixed connection, braking longeron activity runs through the plate hole of seting up in the middle part of the gusset plate, and the one end of braking longeron is fixed on-vehicle board, and when bow-shaped post was through the square door hole of processing storehouse, can prop the wheel carrier that its top set up, rail wheel part protrusion is to in the groove of long concave rail.

Preferably, the distributing pipe fitting comprises a main pipe and branch pipes, one end side surface of the main pipe is communicated with a plurality of branch pipes which are uniformly distributed, the other end of the main pipe is communicated with the flow control part, two rows of branch pipes are relatively distributed at two side positions of the position control vehicle, and the main pipe penetrates through a bottom shell of the processing bin.

Preferably, the air disc piece comprises a single-control elastic piece, a disc shell and a piston piece, wherein the disc shell is in a flat round box shape, the bottom of the disc shell is provided with an opening, the piston piece is movably arranged in the disc shell, a through hole is formed in the middle of a top plate of the disc shell, the single-control elastic piece is arranged above the through hole, the single-control elastic piece comprises a disc body and a U-shaped piece integrally connected with one side of the disc body, the disc body of the single-control elastic piece is covered on a middle hole of the disc shell, one end of the U-shaped piece of the single-control elastic piece is fixed on the disc shell, one side of the disc shell is connected with a flow control piece, and the bottom of the braking long piece is fixed on the piston piece.

Preferably, the flow control member comprises a concave folded pipe, a fluid fan, fan rods, an L-shaped inner plate, a brake shaft, a blocking body and a gas box, wherein the gas box is a cylindrical box with one end open, the opening end of the gas box is fixed on a disc shell, the gas box is fixed on one side of the disc shell, a backflow small hole is formed in a top plate of the disc shell, one end of the concave folded pipe is covered on the backflow small hole of the disc shell, the other end of the concave folded pipe is vertically connected with the gas box in a butt joint mode, air holes are formed in two side positions of one end of the gas box, the air holes are communicated with a main pipe, the blocking body is fixed on one side face of one end of the brake shaft, the blocking body is in a fan-shaped shell, the blocking body is controlled to move in a circulating mode by rotation, the outer arc surface of the blocking body is alternately arranged on the two air holes of the blocking gas box, the other end of the brake shaft is connected with the fan rods in a transmission mode, shaft gears are fixed on the fan rods and the fan rods at the butt joint position, transmission is realized through two bevel gears, one end of the fan rods extends into the concave folded pipe, fluid is fixed on the end of the fan rods, the fan rods is movably sleeved on the inner plate, one end of the L-shaped inner plate is movably sleeved on the inner plate, and fixed on one end of the L-shaped inner plate.

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

1. according to the invention, through alternate air extraction of the two rows of branch pipes, smoke generated in the laser cutting process is timely extracted, the operation power of the air extraction mechanism comes from the movement of the door plate, the position control vehicle pushes the bin gate when passing through the square gate hole of the processing bin, the bin gate moves to control the air disc piece, and then the air flow movement in the flow control piece is controlled, so that the automatic air exhaust function is realized, the air exhaust work does not need to be supported by an additional electric device, and the energy conservation of the whole cutting forming equipment is improved.

2. When the air flow in the flow control part flows, the continuous surrounding movement of the blocking body is caused, and then the alternate diversion work of the flow control part is triggered, so that the alternate air suction of the two collecting and distributing pipes in the processing bin is caused, the influence of the air flow countermeasure is avoided, and the flue gas discharging effect is improved.

Drawings

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

Fig. 2 is a schematic view of a processing bin structure.

FIG. 3 is a schematic view of the position of the air disc member.

Fig. 4 is a schematic view of a bin gate structure.

Fig. 5 is a schematic diagram of a structure of a position control vehicle.

FIG. 6 is a schematic diagram of a control track position.

Fig. 7 is a schematic diagram of a flow control member structure.

Fig. 8 is a schematic view of a distributed pipe structure.

Fig. 9 is a schematic view of the piston plate position.

Fig. 10 is a schematic diagram of a single-control spring structure.

In the figure: the device comprises a processing bin 1, a bin gate 2, a laser cutting device 3, a control track 4, a position control vehicle 5, a gas disc piece 6, a braking long piece 7, a collecting and distributing pipe piece 8, a flow control piece 9, a spring seat 10, a reset piece 11, a door plate 12, an L-shaped long plate 13, an auxiliary wheel 14, a wheel frame 15, a roller 16, a wheel supporting rod 17, an L-shaped supporting rod 18, a rotary drum 19, an L-shaped steering rod 20, a first spring 21, a supporting plate 22, an arched column 23, a vehicle-mounted plate 24, a track wheel 25, a long concave rail 26, a braking long plate 27, a reinforcing plate 28, a single control elastic piece 29, a disc shell 30, a piston piece 31, a main pipe 32, a branch pipe 33, a concave folding pipe 34, a fluid fan 35, a fan rod 36, an L-shaped inner plate 37, a braking shaft 38, a blocking body 39 and a gas box 40.

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. Based on the technical solutions of the present invention, all other embodiments obtained by a person skilled in the art without making any creative effort fall within the protection scope of the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: an ultrafast laser cutting forming device with a built-in processing bin comprises a processing bin 1, one side of the processing bin 1 is connected with a bin door 2, the bin door 2 is plugged at a square door hole arranged on the processing bin 1, a laser cutting device 3 is arranged above the processing bin 1, the laser cutting device 3 partially penetrates through a top plate of the processing bin 1, a welding head of the laser cutting device 3 is positioned in the processing bin 1, a control track 4 penetrates through the bottom of the square door hole of the processing bin 1, a position control vehicle 5 is connected to the control track 4, the position control vehicle 5 moves into the processing bin 1, the bin door 2 can completely fall down, the position control vehicle 5 supports the bin door 2 above the position control vehicle 5 after moving outside the processing bin 1, a gas disc piece 6 is arranged below the processing bin 1, two symmetrically distributed braking long pieces 7 are connected between the gas disc piece 6 and the bin door 2, the gas disk spare 6 one side is connected with accuse flow spare 9, the both sides of accuse position car 5 all are provided with collection and distribution pipe fitting 8 in processing storehouse 1, collection and distribution pipe fitting 8 runs through the bottom plate of processing storehouse 1, and collection and distribution pipe fitting 8 one end and accuse flow spare 9 intercommunication, laser cutting device 3 is the small-size multiaxis linkage welding lathe in the prior art, the lifter of elevating system runs through the body of rod of processing storehouse 1 on the lathe, the laser welding head that is the horizontal mechanism of lathe and bottom horizontal mechanism bottom connection in the processing storehouse 1, the lathe control laser welding head is in the space removal in processing storehouse 1, the product of waiting to cut is fixed through installing prior art anchor clamps on the accuse position car 5, the accuse position car 5 is sent the product to processing storehouse 1 inside, after the laser cutting, send out the product to processing storehouse 1 outside again.

Light-transmitting plate holes are formed in side plates of the processing bin 1 except square door holes of the processing bin 1, and glass is blocked at the light-transmitting plate holes.

The bin door 2 comprises a spring seat 10, a reset piece 11, a door plate 12, L-shaped long plates 13, auxiliary wheels 14 and a wheel frame 15, wherein the door plate 12 is square, the door plate 12 covers the square door hole of the processing bin 1, one side, opposite to the processing bin 1, of the door plate 12 is connected with the spring seat 10, the reset piece 11 and the auxiliary wheels 14, the L-shaped long plates 13 are uniformly and integrally connected with the two sides of the bottom end of the door plate 12, a plurality of uniformly distributed plate holes are formed in the L-shaped long plates 13, the auxiliary wheels 14 are arranged in each plate hole, the reset piece 11 is arranged above the L-shaped long plates 13, the spring seat 10 is connected with the middle of the top end of the door plate 12, the upper end of the spring seat 10 is connected with the outer wall of the processing bin 1, the spring seat 10 applies downward elastic force to the door plate 12, the two sides of the bottom end of the door plate 12 in the processing bin 1 are both connected with the wheel frame 15, the bottommost end of the wheel frame 15 and the bottommost end of the auxiliary wheels 14 are on the same horizontal plane, one end of the brake long plate 7 is connected with the reset piece 11, the spring pressing device is understood by referring to fig. 1 and 4, and the spring pressing device in the prior art, and the door plate 12 tends to fall.

The reset piece 11 comprises an L-shaped steering rod 20, a first spring 21 and a supporting plate 22, one end of the L-shaped steering rod 20 is fixed on the outer wall of the processing bin 1, the other end of the L-shaped steering rod 20 movably penetrates through a through hole formed in the supporting plate 22, the supporting plate 22 is vertically fixed on the outer wall of the door plate 12, the upper portion of the supporting plate 22 is contacted with one end of the braking long plate 7, the upper portion of the braking long plate 7 is contacted with the first spring 21, the first spring 21 is sleeved on the L-shaped steering rod 20, and the L-shaped steering rod 20 movably penetrates through a through hole formed in one end of the braking long plate 7.

The wheel carrier 15 comprises a roller 16, a wheel stay 17, an L-shaped stay 18 and a rotary drum 19, the rotary drum 19 is a circular drum, a drum groove is formed in the inner side wall of the circular drum, one end of the L-shaped stay 18 is fixed on the door plate 12, a plurality of evenly distributed wheel stays 17 are fixedly arranged on the other end of the L-shaped stay 18 in a ring mode, one end, far away from the L-shaped stay 18, of the wheel stay 17 is connected with the roller 16, the roller 16 is propped against the bottom surface of the drum groove of the rotary drum 19, as understood by referring to fig. 1 and 4, if the door plate 12 rises, the door plate 12 can drive the supporting plate 22, the supporting plate 22 can lift the braking long plate 7, after the door plate 12 loses upward supporting force, the spring seat 10 pushes the door plate 12 and falls down, the first spring 21 rebounds to push the braking long plate 7, and the braking long plate 7 slowly falls.

The position control vehicle 5 comprises an arch column 23, a vehicle-mounted plate 24 and track wheels 25, wherein the arch column 23 is fixed at the upper surface positions of the two sides of the vehicle-mounted plate 24, the two track wheels 25 are connected at the two side positions of the vehicle-mounted plate 24, the control track 4 comprises a long concave rail 26, a braking long plate 27 and a reinforcing plate 28, the two long concave rails 26 are distributed in parallel, the grooves are opposite, one ends of the two long concave rails 26 are fixed on the inner wall of the processing bin 1, the other ends of the two long concave rails are fixedly connected with the reinforcing plate 28, the braking long plate 27 movably penetrates through a plate hole formed in the middle of the reinforcing plate 28, one end of the braking long plate 27 is fixed on the vehicle-mounted plate 24, when the arch column 23 passes through a square door hole of the processing bin 1, a wheel frame 15 arranged above the arch column is propped, part of the track wheels 25 protrudes into the grooves of the long concave rails 26, as understood by referring to fig. 1 and 5, one ends of the braking long plate 27 are connected to the outside of the processing bin 1, and the driving mechanism in the prior art is abutted to control the braking long plate 27 to move axially, so that the braking long plate 27 pulls the control vehicle 5.

The distributed pipe fitting 8 comprises a main pipe 32 and branch pipes 33, wherein a plurality of branch pipes 33 which are uniformly distributed are communicated with the side surface of one end of the main pipe 32, the other end of the main pipe 32 is communicated with the flow control member 9, two rows of branch pipes 33 are relatively distributed at the two side positions of the position control vehicle 5, and the main pipe 32 penetrates through the bottom shell of the processing bin 1.

The air disc 6 comprises a single-control elastic sheet 29, a disc shell 30 and a piston sheet 31, wherein the disc shell 30 is in a flat round box shape, the bottom of the disc shell 30 is open, the piston sheet 31 is movably arranged in the disc shell 30, a through hole is formed in the middle of a top plate of the disc shell 30, the single-control elastic sheet 29 is arranged above the through hole, the single-control elastic sheet 29 comprises a disc body and a U-shaped sheet integrally connected with one side of the disc body, the disc body of the single-control elastic sheet 29 is covered on a middle hole of the disc shell 30, one end of the U-shaped sheet of the single-control elastic sheet 29 is fixed on the disc shell 30, one side of the disc shell 30 is connected with the flow control piece 9, and the bottom end of the long braking sheet 7 is fixed on the piston sheet 31.

The flow control member 9 comprises a concave folding pipe 34, a fluid fan 35, a fan rod 36, an L-shaped inner plate 37, a brake shaft 38, a blocking body 39 and an air box 40, wherein the air box 40 is a cylindrical box with one end opening, the opening end of the air box 40 is fixed on the disc shell 30, the air box 40 is fixed on one side of the disc shell 30, a back flow small hole is formed in the top plate of the disc shell 30, one end of the concave folding pipe 34 is covered on the back flow small hole of the disc shell 30, the other end of the concave folding pipe 34 is vertically connected with the air box 40 in a butt joint mode, air holes are formed in two sides of one end of the air box 40, a main pipe 32 is communicated at each air hole, the blocking body 39 is fixed on one side face of the brake shaft 38, the blocking body 39 is in a fan-shaped shell, the brake shaft 38 rotates to control the blocking body 39 to move circularly, the outer cambered surface of the blocking body 39 is alternately arranged on the two air holes of the blocking air box 40, the other end of the brake shaft 38 is in a transmission connection with the fan rod 36, shaft gears are fixed on the brake shaft 38 and the fan rod 36 at the butt joint position, the direction-changing transmission is realized through two bevel gears, one end of a fan rod 36 extends into a concave folding pipe 34, the end part of the fan rod 36 is fixedly provided with a fluid fan 35, the fan rod 36 and a brake shaft 38 are movably sleeved in a through hole formed in an L-shaped inner plate 37, one end of the L-shaped inner plate 37 is fixedly arranged on a disc shell 30, as understood by referring to fig. 7 and 8, a brake long plate 7 is lifted to push a piston plate 31, the piston plate 31 is lifted to extrude the gas in the disc shell 30, the gas props a single-control elastic sheet 29, the gas is discharged outside through a middle hole of the disc shell 30, the process is realized rapidly, the gas returning process in the disc shell 30 is realized slowly, the gas in the main pipe 32 is sucked into a gas box 40, then sucked into the disc shell 30 through the concave folding pipe 34, the gas flow drives the fluid fan 35 to rotate through the concave folding pipe 34, the gas returning process drives the brake shaft 38 through the fan rod 36, the blocking body 39 is controlled to move circularly, so that gas in the brake shafts 38 at two sides is alternately sucked into the gas inlet box 40, and the flue gas generated in the laser cutting process in the processing bin 1 is alternately sucked away by the branch pipes 33 at two sides, and compared with the prior art, the alternative suction can avoid air flow antagonism and complete the flue gas discharge work with minimum energy consumption.

After the brake long plate 27 controls the position control vehicle 5 to move to a cutting position in the processing bin 1, the laser cutting device 3 performs cutting work of workpieces, branch pipes 33 on two sides alternately exhaust air in the process, the power of exhausting air is derived from the fact that the door plate 12 timely drops to seal the door after the position control vehicle 5 passes through the bin door 2, but the first spring 21 elastically supports the brake long plate 7, the brake long plate 7 slowly drops to drive the piston plate 31, the position control vehicle 5 enters the processing bin 1, the air exhaust work starts, a certain time is required after the air supplement in the disc shell 30 is finished, the laser cutting work is finished, the air exhaust work is finished, then the position control vehicle 5 moves to the outside of the processing bin 1 with the processed workpieces, the arc-shaped column 23 supports the L-shaped long plate 13 outside the processing bin 1, the door plate 12 does not drop, after the workpieces are taken away, new workpieces to be processed are placed on the position control vehicle 5, and the position control vehicle 5 moves to the inside the processing bin 1, and the circular operation is performed.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Ultra-fast laser cutting former of built-in processing storehouse, including processing storehouse (1), its characterized in that: one side of processing storehouse (1) is connected with bin gate (2), bin gate (2) shutoff is in the square door hole department of seting up on processing storehouse (1), the top of processing storehouse (1) is provided with laser cutting device (3), the roof of processing storehouse (1) is run through to laser cutting device (3) part, welding head of laser cutting device (3) is arranged in processing storehouse (1), the square door hole bottom of processing storehouse (1) runs through there is control track (4), be connected with accuse position car (5) on control track (4), accuse position car (5) remove in processing storehouse (1), bin gate (2) whereabouts completely, accuse position car (5) remove to processing storehouse (1) outside back, accuse position car (5) jack-prop bin gate (2) of its top, the below of processing storehouse (1) is provided with air disc spare (6), be connected with two braking longsheet (7) of symmetric distribution between air disc spare (6) and bin gate (2), air disc spare (6) one side is connected with accuse stream control member (9), accuse position car (8) are in processing storehouse (1) and are located the main pipe fitting (8) and are connected with one end (8) of collecting pipe (8) and are connected with each other, collecting pipe (8) are connected with each other (8), the side surface of one end of the main pipe (32) is communicated with a plurality of branch pipes (33) which are uniformly distributed, the other end of the main pipe (32) is communicated with the flow control part (9), two rows of branch pipes (33) are relatively distributed at two side positions of the position control vehicle (5), the main pipe (32) penetrates through the bottom shell of the processing bin (1), the air disc piece (6) comprises a single control elastic sheet (29), a disc shell (30) and a piston sheet (31), the disc shell (30) is in a flat round box shape, the bottom of the disc shell (30) is open, the piston sheet (31) is movably arranged in the disc shell (30), a through hole is formed in the middle of a top plate of the disc shell (30), the single control elastic sheet (29) is arranged above the through hole, the single-control spring piece (29) comprises a disc body and a U-shaped piece integrally connected with one side of the disc body, the disc body of the single-control spring piece (29) is covered on a middle hole of the disc shell (30), one end of the U-shaped piece of the single-control spring piece (29) is fixed on the disc shell (30), one side of the disc shell (30) is connected with a flow control piece (9), the bottom end of the braking long piece (7) is fixed on a piston piece (31), the flow control piece (9) comprises a concave folding pipe (34), a fluid fan (35), a fan rod (36), an L-shaped inner plate (37), a braking shaft (38), a blocking body (39) and a gas box (40), the gas box (40) is a cylindrical box with one end open, and the open end of the air box (40) is fixed on the disc shell (30), the air box (40) is fixed on one side of the disc shell (30), a backflow small hole is formed in the top plate of the disc shell (30), one end of the concave folding pipe (34) is covered on the backflow small hole of the disc shell (30), the other end of the concave folding pipe (34) is vertically connected with the air box (40), air holes are formed in two sides of one end of the air box (40), a main pipe (32) is communicated with each air hole, a plugging body (39) is fixed on one side surface of the brake shaft (38), the plugging body (39) is in a fan-shaped shell, the brake shaft (38) rotates to control the plugging body (39) to move circularly, the outer cambered surface of the plugging body (39) is alternately arranged on the two air holes of the plugging air box (40), a fan-shaped rod (36) is connected to the other end of the brake shaft (38), a bevel gear is fixed on the brake shaft (38) and the fan-shaped rod (36) at the butt joint position, the two bevel gears are used for realizing direction changing, one end of the fan-shaped rod (36) extends into the concave folding pipe (34), the fan-shaped pipe (36), the fan-shaped body (36) is fixedly connected with the fan-shaped inner plate (37) through the inner plate (37), and the inner plate (37) is fixedly sleeved on the inner plate (L-shaped plate (37).

2. The ultra-fast laser cutting and forming equipment with a built-in processing bin according to claim 1, wherein: the processing bin (1) side plates except for the square door holes are provided with light-transmitting plate holes, and glass is blocked at the light-transmitting plate holes.

3. The ultra-fast laser cutting and forming equipment with a built-in processing bin according to claim 1, wherein: the bin gate (2) comprises a spring seat (10), a reset piece (11), a door plate (12), an L-shaped long plate (13), an auxiliary wheel (14) and a wheel frame (15), wherein the door plate (12) is square, the door plate (12) is covered at a square door hole of the processing bin (1), one side, opposite to the processing bin (1), of the door plate (12) is connected with the spring seat (10), the reset piece (11) and the auxiliary wheel (14), the two sides of the bottom end of the door plate (12) are uniformly connected with the L-shaped long plate (13), a plurality of evenly distributed plate holes are formed in the L-shaped long plate (13), the auxiliary wheel (14) is arranged in each plate hole, the reset piece (11) is arranged above the L-shaped long plate (13), the middle of the top end of the door plate (12) is connected with the spring seat (10), the upper end of the spring seat (10) is connected with the outer wall of the processing bin (1), the spring seat (10) is connected with the door plate (12) by applying downward elastic force, the two sides of the bottom end of the door plate (12) in the processing bin (1) are uniformly connected with the wheel frame (15), and the bottom end (15) of the most horizontal surface of the wheel frame (14) is connected with the most horizontal surface of the most horizontal surface (11).

4. An ultrafast laser cutting molding apparatus with a built-in processing bin as recited in claim 3, wherein: the reset piece (11) comprises an L-shaped steering rod (20), a first spring (21) and a supporting plate (22), one end of the L-shaped steering rod (20) is fixed on the outer wall of the processing bin (1), the other end of the L-shaped steering rod (20) movably penetrates through a through hole formed in the supporting plate (22), the supporting plate (22) is vertically fixed on the outer wall of the door plate (12), the upper portion of the supporting plate (22) is in contact with one end of a braking long plate (7), the first spring (21) is in contact with the upper portion of the braking long plate (7), the first spring (21) is sleeved on the L-shaped steering rod (20), and the L-shaped steering rod (20) movably penetrates through the through hole formed in one end of the braking long plate (7).

5. An ultrafast laser cutting molding apparatus with a built-in processing bin as recited in claim 3, wherein: the wheel carrier (15) comprises a roller (16), a wheel stay bar (17), an L-shaped stay bar (18) and a rotary drum (19), wherein the rotary drum (19) is a ring drum, a drum groove is formed in the inner side wall of the ring drum, one end of the L-shaped stay bar (18) is fixed on the door plate (12), a plurality of evenly distributed wheel stay bars (17) are fixedly arranged on the other end of the L-shaped stay bar (18) in a ring, one end, far away from the L-shaped stay bar (18), of the wheel stay bar (17) is connected with the roller (16), and the roller (16) is propped against the bottom surface of the drum groove of the rotary drum (19).

6. The ultra-fast laser cutting and forming equipment with a built-in processing bin according to claim 1, wherein: the utility model provides a accuse position car (5) includes bow-shaped post (23), on-vehicle board (24) and rail wheel (25), the both sides upper surface position of on-vehicle board (24) all is fixed with bow-shaped post (23), and the both sides position of on-vehicle board (24) all is connected with two rail wheel (25), control track (4) are including long recess rail (26), braking longeron (27) and gusset plate (28), two long recess rail (26) parallel distribution, and the groove is relative, two long recess rail (26) all have one end to be fixed on the inner wall of processing storehouse (1), and all have the other end and gusset plate (28) fixed connection, braking longeron (27) activity runs through the plate hole of seting up in the middle part of gusset plate (28), and the one end of braking longeron (27) is fixed on-vehicle board (24), and when bow-shaped post (23) are through the square door hole of processing storehouse (1), can prop wheel carrier (15) that its top set up, rail wheel (25) part protrusion is to the groove of long recess rail (26).