CN111644500A - Stamping equipment for sheet metal parts - Google Patents

Abstract

The invention relates to the technical field of sheet metal processing, and discloses sheet metal part stamping equipment which comprises a bracket, wherein a hydraulic press is fixedly connected to the top of the bracket, the sheet metal part stamping equipment drives a sliding plate and an upper die to move through the hydraulic press, so that not only is the effect of stamping a sheet metal through the upper die realized, but also the effect that a guide rod slides along a chute I in a chute through the upward movement of the sliding plate is realized, a gear disc is pushed to rotate clockwise through a tooth block arranged in a concave block, the gear disc rotates clockwise to drive the stamped sheet metal to be separated from the position right below the upper die, the sheet metal which is not stamped moves to the position right below the upper die is also realized, when the guide rod moves to a vertical chute I, the sliding plate drives a push column to take out the stamped sheet metal in the inner groove I through a support column, and finally, when the guide rod moves to the chute II, the concave block and a fixed rod drive the push block to push the stamped sheet metal to, therefore, the processes of stamping, taking out and pushing the metal plate are completed.

Description

Stamping equipment for sheet metal parts

Technical Field

The invention relates to the technical field of sheet metal processing, in particular to sheet metal part stamping equipment.

Background

The panel beating, a processing technology, including cutting, dash, cut, it is compound, roll over, the riveting, the concatenation, the shaping etc., its characteristic that is showing is exactly same part thickness unanimous, at the in-process of panel beating, at first transport the panel beating to the workstation through the conveyer, then carry out the punching press to the panel beating again, then the panel beating that the rethread other machinery was good with the punching press is taken out, then release the good panel beating of punching press through the machine, then transport the not panel beating of punching press again to the workstation through the conveyer on, thereby repeated carries out the punching press to the panel beating, but in this punching press process, each link all needs a power supply, just so also caused the more wasted energy of device, also caused work efficiency low simultaneously.

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides stamping equipment for sheet metal parts, which has the advantages of reducing energy loss and efficiently stamping, and solves the problems of energy waste and low working efficiency of devices.

(II) technical scheme

In order to achieve the purposes of reducing energy loss and efficiently stamping, the invention provides the following technical scheme: the utility model provides a sheet metal component stamping equipment, includes the support, its characterized in that: the top of the bracket is fixedly connected with a hydraulic press, the bottom of the hydraulic press is fixedly connected with a hydraulic plate, the left side of the bottom of the hydraulic plate is fixedly connected with a supporting column, the bottom of the supporting column is fixedly connected with an upper die, the right side of the bottom of the hydraulic plate is fixedly connected with a sliding plate, the right side of the sliding plate is fixedly connected with a positioning block, the outer surface of the positioning block is slidably connected with a positioning seat, the front surface and the back surface of the positioning seat are fixedly connected with a fixed plate, the left side of the fixed plate is fixedly connected with a sliding seat, the inside of the sliding seat is slidably connected with a concave block, the right side of the concave block is fixedly connected with a guide rod, the outer surface of the guide rod is slidably connected with the sliding seat, the rightmost side of the guide rod is slidably connected with the, the top of the tooth block is hinged with the concave block, the top of the concave block is fixedly connected with a first fixing rod, part of the right side of the first fixing rod is positioned above the sliding seat, the left side of the first fixing rod is fixedly connected with a push block, the inner side bottom of the support is fixedly connected with a rotating device, the rotating device is positioned below the push block, the rotating device is meshed with a latch, the bottom of the latch is fixedly connected with a second reset spring, the bottom of the second reset spring is fixedly connected with a support, the bottom of the support is fixedly connected with a second fixing rod, the bottom of the slide plate is fixedly connected with a second fixing rod, the left side of the second fixing rod is slidably connected with a positioning block, the bottom of the positioning block is fixedly connected with the inner side bottom of the support, the left side of the top of the second fixing rod is fixedly connected with a push column, the push column is positioned under the center of the rotating, and the conveying device is positioned right ahead the push column, the top of the left side of the rotating device is provided with a material guide pipe, the top of the material guide pipe is fixedly connected with a feeding device, and the left side and the right side of the feeding device are fixedly connected with the support.

Preferably, the rotating device comprises a gear disc, an inner groove I, a lower die, a metal plate, a pushing groove and a rotating rod, the inner groove I is formed in the gear disc, the inner groove is arranged in the gear disc at equal intervals, the inner groove I is located below the fixing rod I, the lower die is fixedly mounted in the inner part of the inner groove I, the metal plate is placed at the top of the lower die, the lower die and the inner groove I are provided with the same pushing groove, the diameter of the pushing groove is matched with that of a pushing column, the pushing column is located under the pushing groove, the rotating rod is connected to the inner part of the gear disc in a rotating mode, the rotating rod is fixedly connected with the bottom of the inner side of the support, and the inner groove I comprises an inner groove II, an inner groove III, an.

Preferably, the conveyer includes supporting seat, bull stick one, conveyer belt one, runner one, connecting band one, runner two, motor one, the inside rotation in top of supporting seat is connected with bull stick one, and the bottom and the support fixed connection of supporting seat, the surface of bull stick one rotates and is connected with conveyer belt one, the left side fixedly connected with runner one of bull stick one, the surface of runner one rotates and is connected with connecting band one, the bottom of connecting band one rotates and is connected with runner two, the inside fixedly connected with output shaft of motor one of runner two.

Preferably, material feeding unit includes shell one, bull stick two, conveyer belt two, runner three, connecting band two, runner four, motor two, the inside rotation in top of shell one is connected with bull stick two, and shell one and support fixed connection, the surface rotation of bull stick two is connected with conveyer belt two, the left side fixedly connected with runner three of bull stick two, the surface rotation of runner three is connected with connecting band two, the bottom rotation of connecting band two is connected with runner four, the output shaft of the inside fixedly connected with motor two of runner four.

Preferably, the slide is inside to be seted up with the spout that the guide bar size matches, the spout includes chute one, vertical groove one, chute two, vertical groove two is located the top of chute one, chute one is located the top of vertical groove one, vertical groove one is located the top of chute two, and when the guide bar was in chute two, the tooth piece breaks away from the teeth of a cogwheel of toothed disc.

Preferably, the shape of ejector pad is the U type, and the inside recess width of ejector pad is greater than the diameter of pushing away the post, the width of ejector pad is less than the width of panel beating, the constant head tank that matches with the locating piece size is seted up to the inside of positioning seat, the shape of latch is right trapezoid, and the left side inclined plane of latch is circular-arcly.

(III) advantageous effects

Compared with the prior art, the invention provides stamping equipment for sheet metal parts, which has the following beneficial effects:

1. the sheet metal part stamping equipment drives the sliding plate through the hydraulic press, the upper die moves, the effect of stamping a sheet metal through the upper die is achieved, meanwhile, when the guide rod slides along a chute I in the chute through upward movement of the sliding plate is achieved, the toothed block installed inside the concave block pushes the gear disc to rotate clockwise, the gear disc rotates clockwise to drive the stamped sheet metal to be separated from the position under the upper die, the sheet metal which is not stamped moves to the position under the upper die, meanwhile, the guide rod moves to the position in the vertical chute I, the sliding plate drives the push column through the support column to take out the stamped sheet metal inside the inner chute I, and finally, when the guide rod moves to the chute II, the concave block and the fixed rod drive the push block to push the stamped sheet metal to be separated from the gear disc, the chute, the sliding plate, the toothed block, the concave block, the fixed rod I, the fixed rod II, The push block, the support column, the push column, the chute I, the vertical chute I and the chute II are arranged on the upper portion of the push block, the support column, the push column, the chute I, the vertical chute I and the chute II, and therefore the processes of stamping, taking out and pushing the metal plate are completed.

2. This sheet metal component stamping equipment through the use of the vertical groove two in the spout to when preventing that the mould upward movement from not breaking away from inside groove two, the dead guide bar of card drives the tooth piece through the slide and promotes the toothed disc rotation, is the U type through the ejector pad, thereby has arrived and has prevented to be appeared by the dead phenomenon of ejector pad card.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the gear of the present invention through the teeth of the gear;

FIG. 4 is a schematic left side view of the positioning base and the sliding base according to the present invention;

FIG. 5 is a schematic top cross-sectional view of the positioning base and the sliding base according to the present invention;

FIG. 6 is a schematic view of the internal structure of the rotating device according to the present invention;

FIG. 7 is a schematic top view of the rotating device of the present invention;

FIG. 8 is a schematic view of the structure of the transportation device of the present invention;

FIG. 9 is a schematic view of a partial structure of the feeding device of the present invention.

In the figure: 1-bracket, 2-hydraulic press, 3-hydraulic plate, 4-support column, 5-upper die, 6-sliding plate, 61-sliding groove, 611-chute I, 612-vertical groove I, 613-chute II, 614-vertical groove II, 7-positioning slide block, 8-positioning seat, 81-positioning groove, 9-fixing plate, 10-sliding seat, 11-concave block, 12-guide rod, 13-reset spring I, 14-tooth block, 15-fixing rod I, 16-push block, 17-rotating device, 171-gear disc, 172-internal groove I, 1721-internal groove II, 1722-internal groove III, 1723-internal groove IV, 1724-internal groove V, 173-lower die, 174-sheet metal, 175-push groove, 176-rotating rod, 18-latch, 19-reset spring II, 20-support, 21-fixed rod II, 22-positioning block, 23-push column, 24-transportation device, 241-supporting seat, 242-rotating rod I, 243-conveying belt I, 244-rotating wheel I, 245-connecting belt I, 246-rotating wheel II, 247-motor I, 25-material guide pipe, 26-feeding device, 261-shell, 262-rotating rod II, 263-conveying belt II, 264-rotating wheel III, 265-connecting belt II, 266-rotating wheel IV and 267-motor II.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, a sheet metal part stamping device comprises a bracket 1, a hydraulic press 2 is fixedly connected to the top of the bracket 1, a hydraulic plate 3 is fixedly connected to the bottom of the hydraulic press 2, a support column 4 is fixedly connected to the left side of the bottom of the hydraulic plate 3, an upper die 5 is fixedly connected to the bottom of the support column 4, a sliding plate 6 is fixedly connected to the right side of the bottom of the hydraulic plate 3, a positioning block 7 is fixedly connected to the right side of the sliding plate 6, a positioning seat 8 is slidably connected to the outer surface of the positioning block 7, a fixing plate 9 is fixedly connected to the front and back of the positioning seat 8, a sliding seat 10 is fixedly connected to the left side of the fixing plate 9, a concave block 11 is slidably connected to the inside of the sliding seat 10, a guide rod 12 is fixedly connected to the right side of the concave block 11, the outer surface of the guide rod 12 is slidably connected to, a tooth block 14 is fixedly connected to the left side of a first return spring 13, the top of the tooth block 14 is hinged to a concave block 11, a first fixed rod 15 is fixedly connected to the top of the concave block 11, a part of the right side of the first fixed rod 15 is positioned above a sliding seat 10, a push block 16 is fixedly connected to the left side of the first fixed rod 15, a rotating device 17 is fixedly connected to the inner bottom of the support 1, the rotating device 17 is positioned below the push block 16, a latch 18 is meshed inside the rotating device 17, a second return spring 19 is fixedly connected to the bottom of the latch 18, a support column 20 is fixedly connected to the bottom of the second return spring 19, the bottom of the support column 20 is fixedly connected to the support 1, a second fixed rod 21 is fixedly connected to the bottom of the sliding plate 6, a positioning block 22 is slidably connected to the left side of the second fixed rod 21, the bottom of the positioning block 22 is fixedly connected to the inner bottom of the support, the push column 23 is positioned below the rotating device 17, the bottom inside the bracket 1 is fixedly connected with the transportation device 24, the transportation device 24 is positioned right ahead of the push column 23, the top of the left side of the rotating device 17 is provided with the material guide pipe 25, the top of the material guide pipe 25 is fixedly connected with the material feeding device 26, the left side and the right side of the material feeding device 26 are fixedly connected with the bracket 1, the sheet metal part stamping equipment drives the sliding plate 6 and the upper die 5 to move through the hydraulic press 2, so that the effect of stamping the sheet metal 174 through the upper die 5 is realized, meanwhile, when the guide rod 12 slides along a chute 611 in the chute 61 through the upward movement of the sliding plate 6, the gear block 14 arranged inside the concave block 11 pushes the gear disc 171 to rotate clockwise, the gear disc 171 rotates clockwise to drive the stamped sheet metal 174 to be separated from the position right below the upper die 5, and the sheet metal 174 not stamped moves to the position right position below the upper die 5, meanwhile, when the guide rod 12 moves to the first vertical groove 612, the sliding plate 6 drives the push post 23 to take out the punched metal plate 174 in the first inner groove 172 through the support post 20, and finally when the guide rod 12 moves to the second chute 613, the push block 16 is driven by the concave block 11 and the first fixing rod 15 to push the punched metal plate 174 to be separated from the gear disc 171 through the sliding groove 61, the sliding plate 6, the tooth block 14, the concave block 11, the first fixing rod 15, the push block 16, the support post 20, the push post 23, the first chute 611, the first vertical groove 612 and the second chute 613 in the above process, so that the processes of punching, taking out and pushing the metal plate 174 are completed.

The rotating device 17 comprises a gear disc 171, a first inner groove 172, a lower die 173, a metal plate 174, a pushing groove 175 and a rotating rod 176, the first inner groove 172 is formed in the gear disc 171, the first inner groove 172 is arranged in the gear disc 171 at equal intervals, the first inner groove 172 is positioned below a first fixing rod 15, the lower die 173 is fixedly installed in the first inner groove 172, the metal plate 174 is placed on the top of the lower die 173, the lower die 173 and the first inner groove 172 are provided with the same pushing groove 175 in the center, the diameter of the pushing groove 175 is matched with that of a pushing column 23, the pushing column 23 is positioned under the pushing groove 175, the rotating rod 176 is rotatably connected in the gear disc 171, the rotating rod 176 is fixedly connected with the bottom of the inner side of the bracket 1, the first inner groove 172 comprises a second inner groove 1721, a third inner groove 1722, a fourth inner groove 1723 and a fifth inner groove 1724, when the fifth inner groove 1724 is positioned under the upper die 5, inner groove four 1723 is located right below the material guiding pipe 25, inner groove three 1722 is located right above the pushing post 23, and inner groove two 1721 is located between inner groove five 1724 and inner groove three 1722.

The transportation device 24 includes a supporting seat 241, a first rotating rod 242, a first conveying belt 243, a first rotating wheel 244, a first connecting belt 245, a second rotating wheel 246 and a first motor 247, the top internal rotation of the supporting seat 241 is connected with the first rotating rod 242, the bottom of the supporting seat 241 is fixedly connected with the support 1, the outer surface of the first rotating rod 242 is connected with the first conveying belt 243 in a rotating manner, the left side fixedly connected with first rotating wheel 244 of the first rotating rod 242, the outer surface of the first rotating wheel 244 is connected with the first connecting belt 245 in a rotating manner, the bottom of the first connecting belt 245 is connected with the second rotating wheel 246 in a rotating manner, and the internal fixedly connected with first motor 247 of the second.

Feeding device 26 includes shell one 261, bull stick two 262, two 263 of conveyer belt, three 264 of runner, two 265 of connecting band, four 266 of runner, two 267 of motor, the inside rotation in top of shell one 261 is connected with bull stick two 262, and shell one 261 and support 1 fixed connection, the surface rotation of bull stick two 262 is connected with two 263 of conveyer belt, three 264 of left side fixedly connected with runner of bull stick two 262, the surface rotation of three 264 of runner is connected with two 265 of connecting band, the bottom rotation of two 265 of connecting band is connected with four 266 of runner, four 266 of runner's inside fixedly connected with motor's two 267's output shaft.

The slide 6 is internally provided with a slide groove 61 matched with the guide rod 12 in size, the slide groove 61 comprises a first inclined groove 611, a first vertical groove 612, a second inclined groove 613 and a second vertical groove 614, the second vertical groove 614 is positioned at the top of the first inclined groove 611, and through the use of the second vertical groove 614 in the slide groove 61, when the upper die 5 is prevented from moving upwards and not being separated from the second inner groove 1721, the guide rod 12 is locked and drives the gear block 14 to push the gear disc 171 to rotate through the slide seat 10, the first inclined groove 611 is positioned at the top of the first vertical groove 612, the first vertical groove 612 is positioned at the top of the second inclined groove 613, and when the guide rod 12 is positioned at the second inclined groove 613, the gear block 14 is separated from the gear teeth of the gear disc 171.

The shape of ejector pad 16 is the U type, and the inside recess width of ejector pad 16 is greater than the diameter of ejector pad 23 to reached and prevented to appear by the dead phenomenon of ejector pad 23 card, the width of ejector pad 16 is less than the width of panel beating 174, the constant head tank 81 that matches with locating piece 7 size has been seted up to the inside of positioning seat 8, latch 18's shape is right trapezoid, and the left slope of latch 18 is circular-arcly, thereby has arrived and has fixed toothed disc 171 pivoted position, prevents that toothed disc 171 pivoted position from taking place the skew.

When the stamping die is used, the hydraulic press 2 drives the hydraulic plate 3 to move downwards, the hydraulic plate 3 moves downwards to drive the supporting column 4, the upper die 5, the sliding plate 6 and the positioning block 7 to move downwards, the sliding plate 6 moves downwards to drive the guide rod 12 to slide leftwards through the sliding groove 61, meanwhile, the fixing rod II 21 and the pushing column 23 are also driven to move downwards, the pushing column 23 moves downwards to be separated from the pushing groove 175, (as shown in figure 4), then the guide rod 12 slides leftwards to drive the concave block 11 and the tooth block 14 to slide leftwards, when the guide rod 12 passes through the inclined groove I611, the tooth block 14 is extruded by the gear teeth of the gear disc 171, meanwhile, the fixing rod I15 and the pushing block 16 slide through the inner groove II 1721, then when the guide rod 12 moves to the top of the vertical groove II 614, the hydraulic press 2 pushes the upper die 5 to stamp the metal plate 174 in the inner groove II 1721 through the hydraulic plate 3 and the supporting column 4, (as shown in figure, When the upper die 5, the sliding plate 6 and the positioning block 7 move upwards, the sliding plate 6 moves upwards to move the guide rod 12 to the bottom of the second vertical groove 614, so as to prevent the upper die 5 from moving upwards and not being separated from the second internal groove 1721, the blocking guide rod 12 drives the gear block 14 to push the gear disc 171 to rotate through the sliding seat 10, after the upper die 5 moves upwards and is separated from the second internal groove 1721 (as shown in figure 4), the sliding plate 6 moves upwards to enable the guide rod 12 to slide rightwards along the first inclined groove 611 through the bottom of the second vertical groove 614, the guide rod 12 slides rightwards to drive the concave block 11 and the gear block 14 to slide rightwards, the gear block 14 slides rightwards to push the gear disc 171 to rotate clockwise, (as shown in figure 4) and then when the guide rod 12 slides rightwards to the bottom of the first inclined groove 611 (as shown in figure 1), the gear disc 171 rotates to press the blocking tooth 18 to move downwards, the blocking tooth 18 moves downwards to compress, then, when the gear plate 171 does not rotate, the second return spring 19 pushes the latch 18 to insert into the tooth socket of the gear plate 171, so as to reach the position where the gear plate 171 is fixed to rotate, and prevent the position where the gear plate 171 rotates from deviating, (as shown in fig. 2), the gear plate 171 rotates to drive the third inner groove 1722 to move right above the push post 23, the gear plate 171 rotates to drive the second inner groove 1721 to separate from the right below the upper mold 5, the gear plate 171 rotates to drive the fifth inner groove 1724 to move right below the upper mold 5, the gear plate 171 rotates to drive the fourth inner groove 1723 to move right below the material guiding pipe 25, then the metal plate 174 is sent to the fourth inner groove 1723 inside the gear plate 171 through the material guiding pipe 25 by the feeding device 26, then the metal plate 174 falls on the top of the lower mold 173, (as shown in fig. 4) the concave block 11 slides to drive the first fixing rod 15 and the push block 16 to move right, (as shown in fig. 2) the push block 16 moves right to the, (see fig. 4) then the sliding plate 6 continues to move upwards to make the guiding rod 12 continue to slide rightwards, the sliding plate 6 continues to move upwards to make the guiding rod 12 move to the top of the second inclined groove 613 through the first vertical groove 612, (see fig. 3) at the same time, the sliding plate 6 continues to move upwards to drive the pushing post 23 to move upwards through the second fixing rod 21, the pushing post 23 moves upwards to push the punched metal plate 174 to move upwards through the third internal groove 1722 and the pushing groove 175 formed inside the pushing groove 175, (see fig. 4) then the sliding plate 6 continues to move upwards to make the guiding rod 12 continue to slide rightwards along the second inclined groove 613, the guiding rod 12 continues to slide rightwards to drive the concave block 11 and the tooth block 14 to continue to slide rightwards, (see fig. 3) the concave block 11 continues to slide to drive the pushing block 16 to push the metal plate 174 to slide out of the top of the pushing post 23 through the first fixing rod 15, the push column 23 moves upwards and is inserted into the groove in the U-shaped push block 16, then the metal plate 174 slides out of the top of the push column 23 and the top of the gear disc 171 and falls on the second conveying belt 263 in the feeding device 26, and then the second conveying belt 263 is conveyed out through the feeding device 26, so that the processes of stamping, taking out and pushing the metal plate 174 are completed.

In conclusion, the purpose of punching the sheet metal 174 is finished by pushing the upper die 5 through the movement of the hydraulic press 2, the slide plate 6 is driven to move upwards by the upward movement of the hydraulic press 2, the guide rod 12 drives the concave block 11, the tooth block 14, the fixing rod one 15 and the push block 16 to move rightwards by the upward movement of the slide plate 6, the tooth block 14 moves rightwards to push the gear disc 171 to rotate, the guide rod 12 is fixed in place through the vertical groove one 612 by the upward movement of the slide plate 6, the fixing rod two 21 arranged at the bottom of the slide plate 6 and the push post 23 arranged at the top of the fixing rod two 21 move upwards, the push post 23 moves upwards to push the punched sheet metal 174 out of the inner groove one 172, the guide rod 12 moves rightwards along 163 by the upward movement of the slide plate 6, and the 163 moves rightwards to push the punched sheet metal 174 to separate from the top of the push post 23 and the top of the gear disc 171, and then the punched metal plate 174 falls on the top of the feeding device 26, so that the processes of punching, taking out and pushing the metal plate 174 are completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (6)

1. The utility model provides a sheet metal component stamping equipment, includes support (1), its characterized in that: the hydraulic press is characterized in that a hydraulic press (2) is fixedly connected to the top of the support (1), a hydraulic plate (3) is fixedly connected to the bottom of the hydraulic press (2), a support column (4) is fixedly connected to the left side of the bottom of the hydraulic plate (3), an upper die (5) is fixedly connected to the bottom of the support column (4), a sliding plate (6) is fixedly connected to the right side of the bottom of the hydraulic plate (3), a positioning block (7) is fixedly connected to the right side of the sliding plate (6), a positioning seat (8) is slidably connected to the outer surface of the positioning block (7), a fixed plate (9) is fixedly connected to the front side and the back side of the positioning seat (8), a sliding seat (10) is fixedly connected to the left side of the fixed plate (9), a concave block (11) is slidably connected to the inner portion of the sliding seat (10), a guide rod (12) is fixedly connected to the, the rightmost side of the guide rod (12) is in sliding connection with the sliding plate (6), the right side of the groove inner wall of the concave block (11) is fixedly connected with a first reset spring (13), the left side of the first reset spring (13) is fixedly connected with a toothed block (14), the top of the toothed block (14) is hinged to the concave block (11), the top of the concave block (11) is fixedly connected with a first fixed rod (15), part of the right side of the first fixed rod (15) is located above the sliding seat (10), the left side of the first fixed rod (15) is fixedly connected with a push block (16), the bottom of the inner side of the support (1) is fixedly connected with a rotating device (17), the rotating device (17) is located below the push block (16), the rotating device (17) is meshed with a clamping tooth (18), the bottom of the clamping tooth (18) is fixedly connected with a second reset spring (19), and the bottom of the second reset spring (19) is fixedly connected with a support column (20, the bottom of the strut (20) is fixedly connected with the bracket (1), the bottom of the sliding plate (6) is fixedly connected with a second fixing rod (21), the left side of the second fixing rod (21) is connected with a positioning block (22) in a sliding manner, the bottom of the positioning block (22) is fixedly connected with the bottom of the inner side of the bracket (1), the left side of the top of the second fixed rod (21) is fixedly connected with a push column (23), the push column (23) is positioned right below the center inside of the rotating device (17), the bottom inside the bracket (1) is fixedly connected with a conveying device (24), and the transportation device (24) is positioned right ahead of the push column (23), the top of the left side of the rotating device (17) is provided with a material guide pipe (25), the top of the material guide pipe (25) is fixedly connected with a feeding device (26), and the left side and the right side of the feeding device (26) are fixedly connected with the support (1).

2. The sheet metal component stamping apparatus of claim 1, wherein: the rotating device (17) comprises a gear disc (171), a first internal groove (172), a lower die (173), a metal plate (174), a pushing groove (175) and a rotating rod (176), wherein the first internal groove (172) is formed in the gear disc (171), the first internal groove (172) is arranged in the gear disc (171) at equal intervals, the first internal groove (172) is positioned below the first fixing rod (15), the lower die (173) is fixedly installed in the first internal groove (172), the metal plate (174) is placed at the top of the lower die (173), the same pushing groove (175) is formed in the centers of the lower die (173) and the first internal groove (172), the diameter of the pushing groove (175) is matched with that of the pushing column (23), the pushing column (23) is positioned under the pushing groove (175), the rotating rod (176) is rotatably connected in the gear disc (171), and the rotating rod (176) is fixedly connected with the inner bottom of the support (1), the first inner groove (172) comprises a second inner groove (1721), a third inner groove (1722), a fourth inner groove (1723) and a fifth inner groove (1724).

3. The sheet metal component stamping apparatus of claim 1, wherein: conveyer (24) are including supporting seat (241), bull stick (242), conveyer belt (243), runner (244), connecting band (245), runner two (246), motor (247), the inside rotation in top of supporting seat (241) is connected with bull stick (242), and the bottom and support (1) fixed connection of supporting seat (241), the surface of bull stick (242) rotates and is connected with conveyer belt (243), the left side fixedly connected with runner (244) of bull stick (242), the surface of runner (244) rotates and is connected with connecting band (245), the bottom of connecting band (245) rotates and is connected with runner two (246), the inside fixedly connected with output shaft of motor (247) of runner two (246).

4. The sheet metal component stamping apparatus of claim 1, wherein: feeding device (26) includes shell one (261), bull stick two (262), conveyer belt two (263), runner three (264), connecting band two (265), runner four (266), motor two (267), the inside rotation in top of shell one (261) is connected with bull stick two (262), and shell one (261) and support (1) fixed connection, the surface of bull stick two (262) rotates and is connected with conveyer belt two (263), the left side fixedly connected with runner three (264) of bull stick two (262), the surface of runner three (264) rotates and is connected with connecting band two (265), the bottom of connecting band two (265) is rotated and is connected with runner four (266), the inside fixedly connected with output shaft of motor two (267) of runner four (266).

5. The sheet metal part stamping apparatus as claimed in claims 1, 2, wherein: the sliding plate (6) is internally provided with a sliding groove (61) matched with the guide rod (12) in size, the sliding groove (61) comprises a first inclined groove (611), a first vertical groove (612), a second inclined groove (613) and a second vertical groove (614), the second vertical groove (614) is located at the top of the first inclined groove (611), the first inclined groove (611) is located at the top of the first vertical groove (612), the first vertical groove (612) is located at the top of the second inclined groove (613), and when the guide rod (12) is located at the second inclined groove (613), the tooth block (14) is separated from the teeth of the gear disc (171).

6. The sheet metal part stamping apparatus as claimed in claims 1, 2, wherein: the shape of ejector pad (16) is the U type, and the inside recess width of ejector pad (16) is greater than the diameter of pushing away post (23), the width of ejector pad (16) is less than the width of panel beating (174), constant head tank (81) that match with locating piece (7) size are seted up to the inside of positioning seat (8), the shape of latch (18) is right trapezoid, and the left side inclined plane of latch (18) is circular-arcly.

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