CN115255679A

CN115255679A - High-precision annular steel plate laser cutting equipment

Info

Publication number: CN115255679A
Application number: CN202211169310.7A
Authority: CN
Inventors: 李敦明
Original assignee: Aibote Laser Technology Xuzhou Co ltd
Current assignee: Jiangsu Feiquan Laser Technology Co ltd
Priority date: 2022-09-26
Filing date: 2022-09-26
Publication date: 2022-11-01
Anticipated expiration: 2042-09-26
Also published as: CN115255679B

Abstract

The invention relates to the technical field of steel plate cutting, and particularly discloses high-precision annular steel plate laser cutting equipment which comprises two upright rods, wherein three main slide rails are arranged between the two upright rods, the three main slide rails are in a step shape from right to left, an auxiliary slide rail is arranged on the left side of the main slide rail on the leftmost side, material blocking plates are arranged on the auxiliary slide rails and the right side of the top of the main slide rail, and a longitudinal connecting plate is arranged on the rear side of the main slide rail; all install pushing equipment and laser cutting frame in three main slide rails of group department, can make the square steel sheet carry out many times cutting through like this, and make the waste material after the cutting utilize, two annular steel sheets of cutting shaping simultaneously are located different main slide rails respectively, can make things convenient for staff's later stage to collect through taking equipment like this, avoid appearing obscuring the condition of accomodating between two annular steel sheets, there is the stand under the multirow at taking equipment internally mounted, through can accomodating annular steel sheet and square plate clout ration like this.

Description

High-precision annular steel plate laser cutting equipment

Technical Field

The invention relates to the technical field of steel plate cutting, in particular to high-precision annular steel plate laser cutting equipment.

Background

The steel structure cutting refers to the process of cutting, processing and forming a steel plate according to needs in industrial production, and the laser cutting is carried out by using a focusing lens

The laser beam is focused on the surface of the material to melt the material, and the melted material is blown away by a compressed gas coaxial with the laser beam, so that the laser beam and the material are relatively moved along a certain trackAnd moving to form a shaped slit.

The prior art has at least the following problems: after the square steel plate passes through laser cutting equipment cutting and circularizes the annular steel plate, in order to avoid the waste of resource, can cut annular steel plate once more to remaining steel plate, and accomplish the back at the secondary cutting, need make the steel sheet after the cutting push away through the push pedal, promote the steel sheet to the assigned position when the push pedal, because the steel sheet after the cutting stacks together, the later stage is inconvenient to distinguish two annular steel plates after the cutting and accomodate, make multiple annular steel plate appear obscuring the condition of accomodating easily.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high accuracy annular steel sheet laser cutting equipment, includes two pole settings, two install three main slide rail between the pole setting, and three the main slide rail is the echelonment from turning left on the right side, leftmost side vice slide rail is installed in the left side of main slide rail, vice slide rail with the striker plate is all installed on the top right side of main slide rail, indulge the fishplate bar is installed to the rear side of main slide rail, there is the diaphragm front surface top sliding connection of indulging the fishplate bar, the feeding agencies is installed to the below of diaphragm, every install laser cutting frame, every directly over the main slide rail the internally mounted of main slide rail has pushing equipment, rightmost side the frame is installed on the top right side of main slide rail and accomodates.

Preferably, pushing equipment includes rack, tray, fluted disc, outer gimbal, drive frame, goes up rack and promotion frame down, the rack is installed down to the inside below of main slide rail, the inside intermediate position department sliding connection of main slide rail has tray and drive frame, the drive frame is located the right side of tray, the rack is installed to the right-hand member of tray, the promotion frame is installed at the top of drive frame, the left side of drive frame is connected with outer gimbal through separable set, outer gimbal's left end rotates and is connected with the fluted disc, the fluted disc respectively with down the rack with go up the rack meshing.

Preferably, the material taking mechanism comprises a support frame, a sliding frame, an upper connecting plate, an upper stand column, a lower stand column, a stripping frame, a material taking frame and an inserting rod, wherein three support frames are installed below the transverse plate, each support frame is connected with the sliding frame in a sliding mode inside, the upper stand columns are installed at the bottom of the sliding frame, the top of the sliding frame is connected with the upper connecting plate in a sliding mode from top to bottom in the corresponding positions of the upper stand columns, the inserting rod is connected with the inside of the upper connecting plate in a sliding mode, a second spring frame is sleeved above the outer side wall of the inserting rod, jacks are formed in the top of the support frame and correspond to the positions of the second spring frames, the lower stand columns are detachably connected to the bottom of the upper stand columns, the material taking frame is installed at the bottom of the lower stand columns, and the stripping frame is installed below the outer side wall of the lower stand columns.

Preferably, the separating assembly includes stopper, separation frame, first spring frame, pull rod and rubber wheel, the separation frame is all installed to the front surface and the rear surface of owner's slide rail, the stopper is installed to the inside wall of separation frame, the equal sliding connection in inside the place ahead and the rear of drive frame has the pull rod, every the pull rod runs through extend to behind the owner's slide rail the inside of separation frame, the pull rod is located the rubber wheel is installed to the one end of separation frame, first spring frame is installed to one side of pull rod, first spring frame with fixed connection between the drive frame.

Preferably, the material taking frame comprises a top plate, a fixed shaft, a third spring frame and a lower connecting plate, the bottom of the upper upright post is provided with the lower connecting plate, the front part, the rear part, the left part and the right part of the lower connecting plate are respectively and rotatably connected with the top plate through the fixed shaft, and the top plate faces the third spring frame arranged below one side of the lower connecting plate.

Preferably, the pushing frame comprises a cylindrical rod, a pushing plate and a vertical plate, the cylindrical rod is installed on the left side of the top of the driving frame, the pushing plate is hinged to the top of the cylindrical rod, and the vertical plate is installed on the right side of the cylindrical rod.

Preferably, the striker plate includes swash plate, separation frame and locating plate, main slide rail with the separation frame is all installed on the top right side of vice slide rail, the lateral wall of separation frame rotates and is connected with the swash plate, the locating plate is installed in the left side of swash plate.

Preferably, a magnet block is mounted on the top of the tray.

Preferably, the left side and the right side of the containing frame are both provided with long grooves.

Compared with the prior art, the invention has the following beneficial effects: 1. pushing equipment and laser cutting frame are all installed to main slide rail department of three groups, can carry out many times cutting to square steel sheet like this, and make the waste material after the cutting utilize, and two annular steel sheets of cutting fashioned simultaneously are located different main slide rails respectively, can make things convenient for the staff later stage to collect through feeding agencies like this, avoid appearing obscuring the condition of accomodating between two annular steel sheets.

2. The material taking mechanism is internally provided with a plurality of rows of lower stand columns, after the stand columns take in a certain amount of annular steel plates or square plate excess materials under the first row, the stand columns can automatically move to the position under the laser cutting frame under the second row, and therefore the stand columns reciprocate and can quantitatively take in the annular steel plates and the square plate excess materials.

3. Can make drive frame and external frame can separate when moving to the assigned position left through the separable set, avoid when the drive frame is continuously moved to the right, the condition of rack under the fluted disc breaks away from appears.

Drawings

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

Fig. 2 is a schematic sectional view (from front to back) of the main slide rail and the auxiliary slide rail of the present invention.

FIG. 3 is an enlarged schematic view of region A in the present invention.

Fig. 4 is a schematic cross-sectional view (from top to bottom) of the main slide rail of the present invention.

Fig. 5 is an enlarged schematic view of the region B in the present invention.

FIG. 6 is a schematic view of the structure of the separation module of the present invention.

Fig. 7 is a schematic structural view of a material taking mechanism in the invention.

FIG. 8 is a schematic cross-sectional view (viewed from the right to the left) of the stand of the present invention.

Fig. 9 is a schematic top view of a material extracting mechanism according to the present invention.

Fig. 10 is a schematic sectional view (from front to back) of the material taking frame according to the present invention.

In the figure: 1. a main slide rail; 2. a separation assembly; 3. a material pushing mechanism; 4. an accommodating frame; 5. erecting a rod; 6. a longitudinal joint plate; 7. a transverse plate; 8. a material taking mechanism; 9. a laser cutting frame; 11. a striker plate; 111. a sloping plate; 112. a separation frame; 113. positioning a plate; 12. an auxiliary slide rail; 21. a limiting block; 22. separating the frame; 23. a first spring holder; 24. a pull rod; 25. a rubber wheel; 31. a lower rack; 32. a tray; 321. a magnet block; 33. a fluted disc; 34. an external frame; 35. a drive frame; 36. an upper rack; 37. a pushing frame; 371. a cylindrical rod; 372. a push plate; 373. a vertical plate; 81. a support frame; 82. a sliding frame; 83. an upper connecting plate; 84. an upper upright post; 85. a lower upright post; 86. a stripping frame; 87. a material taking frame; 871. a top plate; 872. a fixed shaft; 873. a third spring holder; 874. a lower connecting plate; 88. a rod is inserted; 881. a second spring holder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1, a high accuracy annular steel sheet laser cutting equipment, including two pole settings 5, install three main slide rail 1 between two pole settings 5, and three main slide rail 1 is the echelonment from right side to left side, vice slide rail 12 is installed in the left side of leftmost main slide rail 1, striker plate 11 is all installed on the top right side of vice slide rail 12 and main slide rail 1, indulge fishplate bar 6 is installed to the rear side of main slide rail 1, it has diaphragm 7 to indulge the front surface top sliding connection of fishplate bar 6, extracting mechanism 8 is installed to the below of diaphragm 7, laser cutting frame 9 is installed directly over every main slide rail 1, the internally mounted of every main slide rail 1 has pushing equipment 3, accomodate frame 4 is installed on the top right side of rightmost right side main slide rail 1, the elongated slot has all been seted up on the left side and the right side of accomodating frame 4.

As shown in fig. 2 and 3, the material pushing mechanism 3 includes a lower rack 31, a tray 32, a toothed disc 33, an external frame 34, a driving frame 35, an upper rack 36 and a pushing frame 37, the lower rack 31 is installed below the inside of the main slide rail 1, the tray 32 and the driving frame 35 are slidably connected to the middle position inside the main slide rail 1, the driving frame 35 is located on the right side of the tray 32, the driving frame 35 is connected to an external electric push rod, the upper rack 36 is installed on the right end of the tray 32, the pushing frame 37 is installed on the top of the driving frame 35, the external frame 34 is connected to the left side of the driving frame 35 through the separating assembly 2, the toothed disc 33 is rotatably connected to the left end of the external frame 34, and the toothed disc 33 is respectively engaged with the lower rack 31 and the upper rack 36.

When the laser cutting machine works, a plurality of square steel plates are placed in the storage frame 4, then the driving frame 35 is pulled to move to the right through the external electric push rod, when the driving frame 35 of the rightmost main slide rail 1 moves to the right side of the storage frame 4, then the driving frame 35 is driven to move to the left through the electric push rod, in the process, the pushing frame 37 can push the square steel plate at the bottommost part of the storage frame 4 to slide to the left along the rightmost main slide rail 1, after the square steel plate moves to the position right above the laser cutting frame 9, the laser cutting frame 9 is used for primarily cutting the square steel plate, the cut large circular steel plate can fall onto the tray 32, then the electric push rod is continuously made to push the driving frame 35 to move to the left, in the process, the driving frame 35 can push the external frame 34 to synchronously move to the left, and under the matching of the lower rack 31, the fluted disc 33 and the upper rack 36, the tray 32 and the large circular steel plate on the top can move twice distance relative to the cut square plate excess material, when the pushing frame 37 pushes the cut square plate excess material to move to the left side of the rightmost main slide rail 1, the tray 32 can push the large circular steel plate to move to the second main slide rail 1, then the electric push rod drives the driving frame 35 to move right, the large circular steel plate can be left on the second main slide rail 1 through the obstruction of the material baffle plate 11, and in the process, the external frame 34 can be separated from the driving frame 35 under the cooperation of the separating assembly 2, so that when the driving frame 35 continues to move right, the fluted disc 33 is prevented from being separated from the lower rack 31, when the driving frame 35 moves to the rightmost side of the accommodating frame 4, the steps can be continuously repeated, the second square steel plate is pushed and cut, when the primarily cut large circular steel plate moves to the second main slide rail 1, the large circular steel plate can be moved right above the laser cutting frame 9 through the material pushing mechanism 3, then the large circular steel plate is cut into a large circular steel plate, the remaining small circular steel plate after cutting can fall onto the tray 32, then the large circular steel plate is moved onto the leftmost main slide rail 1 through the material pushing mechanism 3, after the small circular steel plate is cut on the leftmost main slide rail 1, the small circular steel plate and the remaining waste materials can be moved to the left under the cooperation of the material pushing mechanism 3, and finally the remaining waste materials can fall into a waste material box placed below through the auxiliary slide rail 12 and the material blocking plate 11.

As shown in fig. 3, the pushing frame 37 includes a cylindrical rod 371, a pushing plate 372 and a vertical plate 373, the cylindrical rod 371 is installed on the left side of the top of the driving frame 35, the pushing plate 372 is hinged to the top of the cylindrical rod 371, the vertical plate 373 is installed on the right side of the cylindrical rod 371, in particular, in operation, when the pushing frame 37 moves to the right, the pushing frame 37 passes through the bottom of the steel plate while rotating counterclockwise through the blocking of the steel plate, when the pushing plate 372 is located on the right side of the pushing frame 37, the pushing plate 372 rotates clockwise under the action of gravity, and by blocking of the vertical plate 373, the bottom of the pushing plate 372 can be kept in a horizontal state, and then when the driving frame 35 moves to the left, the pushing frame 37 pushes the steel plate to move to the left, so that the steel plate can be transported continuously.

As shown in fig. 3, magnet block 321 is installed at the top of tray 32, and when the circular steel plate after cutting falls to the top of tray 32, during specific work, the circular steel plate can be adsorbed through magnet block 321, so that the circular steel plate can be fixed, and the circular steel plate is prevented from falling from tray 32.

As shown in fig. 4 and 5, the separating assembly 2 includes a limiting block 21, a separating frame 22, a first spring frame 23, a pull rod 24 and a rubber wheel 25, a concave hole is formed at the left end of the driving frame 35, the right end of the external frame 34 penetrates through the concave hole and extends into the driving frame 35, the separating frame 22 is installed on the front surface and the rear surface of the main slide rail 1, the limiting block 21 is installed on the inner side wall of the separating frame 22, the pull rod 24 is connected with the front side and the rear side of the inside of the driving frame 35 in a sliding manner, the pull rod 24 corresponds to a positioning hole formed in the external frame 34, each pull rod 24 penetrates through the main slide rail 1 and extends into the separating frame 22, the rubber wheel 25 is installed at one end of the pull rod 24 located at the separating frame 22, the first spring frame 23 is installed on one side of the pull rod 24, the first spring frame 23 is fixedly connected with the driving frame 35, and during specific work, when drive frame 35 is turned left from the right side, external frame 34 can insert in the inside shrinkage pool of drive frame 35, then the promotion through drive frame 35 can make external frame 34 move left in step, at this in-process, rubber wheel 25 can rotate along the inclined plane of stopper 21, then pull rod 24 that rubber wheel 25 connects can be embedded into the round hole of external frame 34, when rubber wheel 25 moved to the horizontal segment of stopper 21, can make pull rod 24 embed into the inside of external frame 34 all the time, when drive frame 35 drives external frame 34 and moves to the inclined plane of stopper 21 from a left side to the right side, rubber wheel 25 can rotate along the inclined plane, then under the cooperation of first spring bracket 23, pull rod 24 can break away from external frame 34, can be when drive frame 35 continues to move to the right side like this, avoid the left fluted disc 33 of external frame 34 to break away from lower rack 31.

As shown in fig. 6, the striker plate 11 includes the swash plate 111, separation frame 112 and locating plate 113, separation frame 112 is all installed on the top right side of main slide rail 1 and vice slide rail 12, the lateral wall of separation frame 112 rotates and is connected with swash plate 111, locating plate 113 is installed in the left side of swash plate 111, in concrete work, when tray 32 drives the steel sheet and turns left from the right side and move, can promote swash plate 111 and turn left and rotate, when the steel sheet breaks away from swash plate 111, swash plate 111 can keep vertical state under gravity and locating plate 113's cooperation, when tray 32 moves right, the obstruction through swash plate 111 can make the steel sheet stay in the left side of swash plate 111, can guarantee through like this that every process can normally go on.

As shown in fig. 7, 8 and 9, the material taking mechanism 8 includes a support frame 81, a sliding frame 82, an upper connecting plate 83, an upper upright post 84, a lower upright post 85, a material releasing frame 86, a material taking frame 87 and an insertion rod 88, three support frames 81 are installed below the transverse plate 7, the sliding frame 82 is slidably connected inside each support frame 81, the rear surface of each sliding frame 82 is connected with an external spring frame, the upper upright posts 84 are installed at the bottom of the sliding frame 82, the upper connecting plate 83 is slidably connected at the top of the sliding frame 82 and at the positions corresponding to the upper upright posts 84 up and down, the insertion rod 88 is slidably connected inside the upper connecting plate 83, the second spring frame 881 is sleeved on the outer side wall of the insertion rod 88, the top of each support frame 81 is provided with an insertion hole corresponding to the position of the second spring frame 881, the lower upright post 85 is detachably connected at the bottom of the upper upright post 84, the material taking frame 87 is installed at the bottom of the lower upright post 85, the stripping frame 86 is installed below the outer side wall of the lower upright post 85, when the automatic steel plate stacking machine works, the transverse plate 7 is connected with external lifting equipment, the transverse plate 7 can drive the plurality of stripping frames 87 connected with the lower upright posts 85 to reciprocate up and down synchronously through the lifting equipment, in the process, the stripping frames 87 can continuously pull the cut and formed annular steel plates and the rest square plate remnants to stack up along the first row of lower upright posts 85, the stripping frames 86 can move up when the steel plates are stacked up, after a certain number of steel plates are stacked, the tops of the stripping frames 86 can push the insertion rods 88 inside the upper connecting plates 83 to be separated from the insertion holes formed in the supporting frame 81, meanwhile, under the forward pushing of an external spring, the insertion rods 88 inside the second row of upper connecting plates 83 can be inserted into the insertion holes formed in the supporting frame 81 along the sliding frame 82, and then the steel plates are stacked on the outer side wall of the second row of lower upright posts 85, therefore, the lower columns 85 in multiple rows are used for quantitatively containing the cut and formed annular steel plates and the rest of the annular steel plates in sequence in a reciprocating mode, and when the annular steel plates and the square plate excess materials on the outer side walls of the lower columns 85 need to be taken out, the lower columns 85 can be screwed off to be separated from the upper columns 84.

As shown in fig. 10, the material taking frame 87 includes a top plate 871, a fixing shaft 872, a third spring frame 873 and a lower plate 874, the lower plate 874 is installed at the bottom of the upper column 84, the top plate 871 is rotatably connected to the front, the rear, the left and the right of the lower plate 874 through the fixing shaft 872, the third spring frame 873 is installed below the side of the bottom plate 871 facing the lower plate 874, in the specific operation, when the material taking frame 87 moves down along the circular hole of the steel plate, the lower end of the top plate 871 rotates to the side away from the lower plate 874, when the side of the top plate 871 away from the lower plate 874 is vertical, the top plate 871 can pass through the circular hole of the steel plate, when the top plate 871 is below the steel plate, the top plate 871 maintains an initial inclined state in cooperation with the third spring frame 873, and then the top plate 871 can push the circular steel plate and the square plate excess material to move upward through the lower plate 874, thereby performing a reciprocating operation, and taking a square shape of the cut circular steel plate and a remaining square material can be obtained.

The working principle of the invention is as follows: when the cutting equipment is used, the first step is that; the square steel plate is placed in the containing frame 4, the square steel plate is moved to the position below the laser cutting frame 9 to be cut through the material pushing mechanism 3, then the cut large circular steel plate is moved to the second main slide rail 1 through the material pushing mechanism 3, the large circular steel plate is moved to the position right above the laser cutting frame 9 through the material pushing mechanism 3 on the second main slide rail 1, the large circular steel plate is cut into the large circular steel plate, the remaining small circular steel plate after cutting can fall onto the tray 32, then the small circular steel plate is moved to the leftmost main slide rail 1 through the material pushing mechanism 3, the small circular steel plate is cut on the leftmost main slide rail 1, after cutting is completed, the small circular steel plate and the remaining waste materials can move to the left under the cooperation of the material pushing mechanism 3, and finally the remaining waste materials can fall into a waste material box placed below through the auxiliary slide rail 12 and the material blocking plate 11.

A second step; can make diaphragm 7 drive the synchronous up-and-down reciprocating motion of work or material rest 87 that a plurality of lower stands 85 are connected through jacking equipment, in this process, work or material rest 87 can constantly stimulate the fashioned annular steel sheet of cutting and remaining square board clout and up pile up along first row lower stand 85, pile up behind the steel sheet of certain quantity on first row lower stand 85, second row lower stand 85 can automatic movement to laser cutting frame under, then continue to pile up, from this circulation operation, through can accomodate annular steel sheet and the square clout steel sheet of surplus ration like this.

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

Claims

1. The utility model provides a high accuracy annular steel sheet laser cutting equipment, includes two pole setting (5), its characterized in that: the laser cutting machine is characterized in that three main slide rails (1) are arranged between the two upright rods (5), the three main slide rails (1) are in a step shape from the right to the left, the leftmost side of the main slide rail (1) is provided with an auxiliary slide rail (12), the auxiliary slide rail (12) and the right side of the top of the main slide rail (1) are provided with a baffle plate (11), the rear side of the main slide rail (1) is provided with a longitudinal connecting plate (6), a transverse plate (7) is connected above the front surface of the longitudinal connecting plate (6) in a sliding manner, a material taking mechanism (8) is arranged below the transverse plate (7), a laser cutting frame (9) is arranged right above each main slide rail (1), a material pushing mechanism (3) is arranged inside each main slide rail (1), and a storage frame (4) is arranged on the right side of the top of the rightmost main slide rail (1);

pushing equipment (3) include rack (31), tray (32), fluted disc (33), external frame (34), drive frame (35), go up rack (36) and promote frame (37) down, rack (31) are installed to the inside below of main slide rail (1), sliding connection has tray (32) and drive frame (35) to the inside intermediate position department of main slide rail (1), drive frame (35) are located the right side of tray (32), rack (36) are installed to the right-hand member of tray (32), it pushes away frame (37) to install at the top of drive frame (35), the left side of drive frame (35) is connected with external frame (34) through separator (2), the left end rotation of external frame (34) is connected with fluted disc (33), fluted disc (33) respectively with lower rack (31) with go up rack (36) meshing.

2. A high precision annular steel plate laser cutting device according to claim 1, characterized in that: reclaiming mechanism (8) include support frame (81), sliding frame (82), upper junction plate (83), go up stand (84), stand (85) down, take off material frame (86), material taking frame (87) and inserted bar (88), three support frame (81) are installed to the below of diaphragm (7), every the inside sliding connection of support frame (81) has sliding frame (82), a plurality of upper junction plate (84) are installed to the bottom of sliding frame (82), the top of sliding frame (82) and with sliding connection has upper junction plate (83) about the position that upper junction plate (84) is corresponding, the inside sliding connection of upper junction plate (83) has inserted bar (88), second spring frame (881) has been cup jointed to the lateral wall top of inserted bar (88), the jack has been seted up at the top of support frame (81), the jack with the position of second spring frame (881) is corresponding, the bottom of upper junction plate (84) can be dismantled and be connected with stand (85) down, material taking frame (87) are installed to the bottom of stand (85) down, the lateral wall (86) take off material frame (86) are installed to the below.

3. A high precision annular steel plate laser cutting apparatus according to claim 1, wherein: separating component (2) include stopper (21), separation frame (22), first spring frame (23), pull rod (24) and rubber wheel (25), separation frame (22) are all installed to the front surface and the rear surface of main slide rail (1), stopper (21) are installed to the inside wall of separation frame (22), the inside the place ahead and the equal sliding connection in rear of drive frame (35) have pull rod (24), every pull rod (24) run through extend to behind main slide rail (1) the inside of separation frame (22), pull rod (24) are located rubber wheel (25) are installed to the one end of separation frame (22), first spring frame (23) are installed to one side of pull rod (24), first spring frame (23) with fixed connection between drive frame (35).

4. A high precision annular steel plate laser cutting apparatus according to claim 2, wherein: the material taking frame (87) comprises a top plate (871), a fixing shaft (872), a third spring frame (873) and a lower connecting plate (874), the lower connecting plate (874) is installed at the bottom of the upper upright column (84), the top plate (871) is rotatably connected to the front, the rear, the left and the right of the lower connecting plate (874) through the fixing shaft (872), and the third spring frame (873) is installed below one side of the top plate (871) facing the lower connecting plate (874).

5. A high precision annular steel plate laser cutting apparatus according to claim 1, wherein: the pushing frame (37) comprises a cylindrical rod (371), a pushing plate (372) and a vertical plate (373), the cylindrical rod (371) is installed on the left side of the top of the driving frame (35), the pushing plate (372) is hinged to the top of the cylindrical rod (371), and the vertical plate (373) is installed on the right side of the cylindrical rod (371).

6. A high precision annular steel plate laser cutting apparatus according to claim 1, wherein: striker plate (11) include swash plate (111), separation frame (112) and locating plate (113), main slide rail (1) with separation frame (112) are all installed on the top right side of vice slide rail (12), the lateral wall of separation frame (112) rotates and is connected with swash plate (111), locating plate (113) are installed in the left side of swash plate (111).

7. A high precision annular steel plate laser cutting apparatus according to claim 1, wherein: and a magnet block (321) is arranged at the top of the tray (32).

8. A high precision annular steel plate laser cutting device according to claim 6, characterized in that: the left side and the right side of the containing frame (4) are both provided with long grooves.