CN114289626A - Automatic waste material taking device of stamping equipment - Google Patents
Automatic waste material taking device of stamping equipment Download PDFInfo
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- CN114289626A CN114289626A CN202111530798.7A CN202111530798A CN114289626A CN 114289626 A CN114289626 A CN 114289626A CN 202111530798 A CN202111530798 A CN 202111530798A CN 114289626 A CN114289626 A CN 114289626A
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Abstract
The invention provides a device for automatically taking out waste materials of stamping equipment, which belongs to the field of waste material cleaning of stamping dies, wherein an upper sliding block and a lower sliding block move downwards to enable an upper driving block and a lower driving block to be in contact with a rotating mechanism to rotate the rotating mechanism out of the stamping equipment, a receiving hopper on the rotating mechanism transfers the received waste materials out of the stamping equipment, an unloading mechanism is used for unloading, and after the unloading is finished, the rotating mechanism returns to the stamping equipment to transfer the waste materials for the next time through the pull back of a pull-back spring, so that the upper sliding block and the lower sliding block of the stamping equipment are utilized to horizontally rotate to take out the waste materials.
Description
Technical Field
The invention relates to the field of cleaning of stamping die waste, in particular to a device for automatically taking out waste of stamping equipment.
Background
The automobile parts stamping industry focuses more and more on progressive die production, and in the continuous automatic production process, waste material cleaning needs manual cleaning, wastes time and energy, is not favorable to unmanned production, and aims to realize the aim. Prior art patent CN206373263U discloses a waste material shakes out device, and the waste material groove sets up in the stamping die below, and reciprocating swing makes the waste material to one side removal under the drive of swing piece, need not stamping equipment and shut down and can clear out the waste material that falls into in the waste material groove automatically, has safe in utilization, efficient advantage. However, the working principle of the stamping device is that the stamping device moves up and down, and a device can be designed by utilizing the upper and lower sliding blocks of the stamping device to convert the up and down movement into horizontal movement, so that the waste materials or parts can be automatically taken out in the stamping process, and therefore, the problem is very necessary to solve.
Disclosure of Invention
In order to solve the problems, the invention provides a device for automatically taking out waste materials from stamping equipment, wherein an upper sliding block and a lower sliding block move downwards to enable an upper driving block and a lower driving block to be in contact with a rotating mechanism to rotate the rotating mechanism out of the stamping equipment, a receiving hopper on the rotating mechanism transfers the received waste materials out of the stamping equipment, an unloading mechanism is used for unloading the waste materials, and after the unloading is finished, the rotating mechanism returns to the stamping equipment to transfer the waste materials for the next time through the pullback of a pullback spring.
The invention aims to provide a device for automatically taking out waste materials by stamping equipment, which comprises an upper sliding block and a lower sliding block of the stamping equipment and a fixed vertical plate of the stamping equipment, wherein the fixed vertical plate is positioned outside the stamping equipment and is arranged in a crossed manner with the upper sliding block and the lower sliding block;
the upper and lower slide blocks are provided with strip-shaped upper and lower driving blocks at one side close to the fixed vertical plate, and the fixed vertical plate and the upper and lower driving blocks are arranged in parallel in a crossed manner;
one end of the fixed vertical plate, which is close to the upper and lower driving blocks, is provided with a rotating mechanism, one side of the rotating mechanism, which is close to the upper and lower driving blocks, is provided with a receiving hopper, and the upper and lower driving blocks are in contact with the rotating mechanism to push the rotating mechanism outwards; the rotating mechanism is connected with the fixed vertical plate through a pull-back spring; the receiving hopper is driven to rotate to be far away from the upper sliding block and the lower sliding block through the downward movement of the upper driving block and the lower driving block, namely to rotate outwards, and the receiving hopper is used for discharging through the discharging mechanism.
The further improvement lies in that: the rotating mechanism comprises an upper rotating bearing block and a lower rotating bearing block which are arranged on the fixed vertical plate, the upper rotating bearing block and the lower rotating bearing block jointly and longitudinally penetrate through a rotating shaft, and one end of a driven rod and one end of a material receiving rod are arranged above and below the rotating shaft; the driven rod and the material receiving rod are arranged in an up-and-down alignment mode.
The further improvement lies in that: the other end of the driven rod is close to the upper and lower driving blocks and is positioned below the upper and lower driving blocks to rotate in contact with the upper and lower driving blocks; the material receiving hopper is arranged at the other end of the material receiving rod.
The further improvement lies in that: the material receiving rod is connected with one end of the rotating shaft, the other end of the rotating shaft is connected with the fixed block of the fixed vertical plate, and the fixed block is located at one end, far away from the upper sliding block and the lower sliding block, of the fixed vertical plate.
The further improvement lies in that: when the driven rod rotates to one side far away from the upper and lower driving blocks, the driven rod rotates forwards, and the pull-back spring is in a stretching state; the upper and lower driving blocks are not contacted with the driven rod, namely when the driven rod is positioned at the inner side, the pull-back spring is in a normal state.
The further improvement lies in that: one side of the upper and lower driving blocks, which is close to the driven rod, is provided with an inclined part, and the inclined part is contacted with the driven rod to rotate the driven rod.
The further improvement lies in that: the material receiving hopper comprises a connecting plate connected with the material receiving rod, one side of the bottom of the connecting plate, which is close to the fixed vertical plate, is movably connected with a material receiving part through a shaft, and the side surface between the connecting plate and the material receiving part is also connected through a return spring; when the connecting plate and the material receiving part are in a vertical state, the return spring is in a normal state; one side of the material receiving part close to the fixed vertical plate is provided with a convex column.
The further improvement lies in that: the discharging mechanism comprises a waste material box which is positioned below the receiving hopper when the receiving hopper is positioned at the outermost side, one side of the top of the waste material box, which is far away from the fixed vertical plate, is provided with an installation block, and the installation block is provided with a servo motor;
the rotating shaft of the servo motor is connected with a material pushing rod, and the material pushing rod rotates one end, close to the fixed vertical plate, of the material pushing rod to be in contact with the convex column to push the material pushing rod downwards, so that the material receiving portion rotates downwards to discharge materials.
The invention has the beneficial effects that: according to the invention, the upper and lower driving blocks are contacted with the rotating mechanism through the descending of the upper and lower sliding blocks to rotate the upper and lower driving blocks out of the stamping equipment, the receiving hopper on the rotating mechanism transfers the received waste out of the stamping equipment, the discharging mechanism discharges the waste, and after the discharging is finished, the rotating mechanism returns to the stamping equipment for next waste transferring through the pulling back of the pulling-back spring, so that the upper and lower sliding blocks of the stamping equipment are utilized to horizontally rotate to take out the waste, the operation is convenient, the efficiency is high, the automatic production is realized, and the production cost is saved.
The rotating mechanism is provided with a longitudinal rotating shaft for rotating through a rotating bearing block on a fixed vertical plate, the rotating shaft is provided with a driven rod which is in contact with an upper driving block and a lower driving block of an upper sliding block and a lower sliding block, a material receiving rod is arranged to be connected with a material receiving hopper, the material receiving hopper rotates along with the rotation of the driven rod, so that when the upper driving block and the lower driving block move downwards to be in contact with the driven rod and rotate outwards, the material receiving hopper also rotates outwards to rotate waste materials out of the stamping equipment, the longitudinal movement of the upper sliding block and the lower sliding block of the stamping equipment is converted into the transverse movement of the rotating shaft, the waste materials are moved out and can move along with the movement of the stamping equipment, the automatic production is well realized, no additional power source is needed, and the cost is also saved.
The material receiving rod is connected with the fixed block through the pull-back spring, so that when the upper driving block and the lower driving block move upwards to be far away from the driven rod, the pull-back spring pulls back the rotating shaft, and the material receiving rod drives the material receiving hopper to rotate to the side close to the upper sliding block and the lower sliding block to be conveyed into the stamping equipment for next material receiving, a power mechanism is not needed, the operation is simple, and the rotating shaft can move along with the movement of the upper sliding block and the lower sliding block; compare in need extra power unit to carry out the return stroke and can't guarantee with the synchronous motion of upper and lower slider, this application can guarantee all the time to carry out synchronous motion with upper and lower slider.
The upper driving block and the lower driving block are contacted with the driven rod through the inclined part, the bottom end of the inclined part is contacted with the driven rod firstly, then the driven rod is stopped from the top end to the top end along the inclined surface of the inclined part, the rotating shaft is rotated outwards, the inclined part enables the driven rod to move more smoothly, the operation is smoother, and the automatic production is more suitable.
The material receiving part of the material receiving hopper is movably connected with the connecting plate through a shaft, and the material receiving part is connected with the connecting plate through a return spring, so that when the material is unloaded, the material pushing rod is driven to move downwards by rotating the servo motor to be in contact with the convex column of the material receiving part to push downwards, the material receiving part inclines downwards, the material is unloaded into a waste material box, the return of the servo motor is completed after the material is unloaded, the material receiving part is pulled back by the return spring, the material can be loaded next time, the material receiving hopper designed in the way can be well matched with an unloading mechanism to realize the automation of the material unloading, the whole working process is simple and smooth, the unloading return is quickly carried out after the material receiving hopper is well matched, and the production efficiency is greatly improved.
Drawings
Fig. 1 is a perspective view of the present invention.
Fig. 2 is a schematic front view of the present invention.
Fig. 3 is a schematic front view of the discharge mechanism of the present invention.
Fig. 4 is a top view of fig. 3.
Wherein: 1-upper and lower sliding blocks, 2-fixed vertical plates, 3-upper and lower driving blocks, 4-material receiving hoppers, 5-pull-back springs, 6-rotating bearing blocks, 7-rotating shafts, 8-driven rods, 9-material receiving rods, 10-fixed blocks, 11-inclined parts, 12-connecting plates, 13-material receiving parts, 14-return springs, 15-convex columns, 16-waste material boxes, 17-mounting blocks, 18-servo motors and 19-material pushing rods.
Detailed Description
For the purpose of enhancing understanding of the present invention, the present invention will be further described in detail with reference to the following examples, which are provided for illustration only and are not to be construed as limiting the scope of the present invention.
As shown in fig. 1-4, the present embodiment provides a device for automatically taking out waste materials from a stamping apparatus, which includes an upper and lower sliding blocks 1 of the stamping apparatus and a fixed vertical plate 2 of the stamping apparatus, where the fixed vertical plate 2 is located outside the stamping apparatus and is arranged to intersect with the upper and lower sliding blocks 1; the upper and lower slide blocks 1 are provided with strip-shaped upper and lower driving blocks 3 at one side close to the fixed vertical plate 2, and the fixed vertical plate 2 and the upper and lower driving blocks 3 are arranged in parallel in a crossed manner; a rotating mechanism is arranged at one end of the fixed vertical plate 2 close to the upper and lower driving blocks 3, a material receiving hopper 4 is arranged at one side of the rotating mechanism close to the upper and lower driving blocks 3, and the upper and lower driving blocks 3 are in contact with the rotating mechanism to push the rotating mechanism outwards; the rotating mechanism is also connected with the fixed vertical plate 2 through a pull-back spring 5; the material receiving hopper 4 is driven by the upper and lower driving block 3 to rotate by moving downwards to be far away from the upper and lower sliding blocks 1, namely to rotate outwards, and is used for discharging by the discharging mechanism; through the descending of upper and lower slider 1 like this, make upper and lower drive block 3 and rotary mechanism contact and rotate it out stamping equipment, and the waste material that connects on the rotary mechanism 4 will receive shifts out stamping equipment, unload through shedding mechanism, it finishes to unload, pull back through pull-back spring 5 makes rotary mechanism get back to and carries out the next transfer waste material in the stamping equipment, utilize the upper and lower slider of stamping equipment itself to realize the horizontal rotation and take out the waste material like this, and convenient for operation, high efficiency, realize automated production, and the production cost is saved.
The rotating mechanism comprises an upper rotating bearing block 6 and a lower rotating bearing block 6 which are arranged on the fixed vertical plate 2, the upper rotating bearing block 6 and the lower rotating bearing block 6 jointly and longitudinally penetrate through a rotating shaft 7, and one end of a driven rod 8 and one end of a material receiving rod 9 are arranged above and below the rotating shaft 7; the driven rod 8 and the material receiving rod 9 are arranged in an up-and-down alignment manner; the other end of the driven rod 8 is close to the lower part of the upper and lower driving blocks 3 and is in contact with the upper and lower driving blocks for rotation; the receiving hopper 4 is arranged at the other end of the receiving rod 9; the rotating mechanism is provided with a longitudinal rotating shaft 7 for rotating through a rotating bearing block 6 on the fixed vertical plate 2, the rotating shaft 7 is provided with a driven rod 8 which is in contact with an upper driving block 3 and a lower driving block 3 of an upper sliding block 1 and a lower sliding block 1, a material receiving rod 9 is arranged to be connected with a material receiving hopper 4, the material receiving hopper rotates along with the rotation of the driven rod 8, so that when the upper driving block 3 moves downwards to be in contact with the driven rod 8 to rotate outwards, the material receiving hopper 4 also rotates outwards to rotate waste materials out of the stamping equipment, the longitudinal movement of the upper sliding block 1 and the lower sliding block 1 of the stamping equipment are converted into the transverse movement of the rotating shaft 7 to move the waste materials out, the waste materials can move along with the movement of the stamping equipment, the automatic production is well realized, no additional power source is needed, and the cost is also saved.
The material receiving rod 9 and one end of the rotating shaft 7 are connected with one end of the pull-back spring 5, the other end of the pull-back spring 5 is connected with a fixed block 10 of the fixed vertical plate 2, and the fixed block 10 is positioned at one end, far away from the upper sliding block 1 and the lower sliding block 1, of the fixed vertical plate 2; when the driven rod 8 rotates to the side far away from the upper and lower driving blocks 3, the driven rod rotates forwards, and the pull-back spring 5 is in a stretching state; the upper and lower driving blocks 3 are not contacted with the driven rod 8, namely when the driven rod 8 is positioned at the inner side, the pullback spring 5 is in a normal state; the receiving rod 9 is connected with the fixed block 10 through the pull-back spring 5, so that when the upper and lower driving blocks 3 move upwards and away from the driven rod 8, the pull-back spring 5 pulls back the rotating shaft 7, and the receiving rod 9 drives the receiving hopper 4 to rotate to one side close to the upper and lower sliding blocks 1 to be received in the stamping equipment for the next time, so that a power mechanism is not needed, the operation is simple, and the rotating shaft 7 can move along with the movement of the upper and lower sliding blocks 1; compare in need extra power unit to carry out the return stroke and can't guarantee with the synchronous motion of upper and lower slider 1, this application can guarantee all the time to carry out synchronous motion with upper and lower slider 1.
The side of the upper and lower driving blocks 3 close to the driven rod 8 is provided with an inclined part 11, and the inclined part 11 is contacted with the driven rod 8 to rotate the driven rod; the upper and lower driving block 3 is contacted with the driven rod 8 through the inclined part 11, the bottom end of the inclined part 11 is firstly contacted with the driven rod 8, then the driven rod 8 upwards moves along the inclined surface of the inclined part 11 until the top end stops, the rotating shaft 7 is outwards rotated, the inclined part 11 enables the driven rod 8 to move more smoothly, the operation is smoother, and the automatic production is more suitable.
The receiving hopper 4 comprises a connecting plate 12 connected with the receiving rod 9, a receiving part 13 is movably connected to one side of the bottom of the connecting plate 12 close to the fixed vertical plate 2 through a shaft, and the side surface between the connecting plate 12 and the receiving part 13 is also connected through a return spring 14; when the connecting plate 12 and the material receiving part 13 are in a vertical state, the return spring 14 is in a normal state; one side of the material receiving part 13 close to the fixed vertical plate 2 is provided with a convex column 15; the discharging mechanism comprises a waste material box 16 positioned below the receiving hopper 4 when the receiving hopper 4 is positioned at the outermost side, an installation block 17 is arranged on one side of the top of the waste material box 16, which is far away from the fixed vertical plate 2, and a servo motor 18 is arranged on the installation block 17; a rotating shaft of the servo motor 18 is connected with a material pushing rod 19, one end of the material pushing rod 18, which is close to the fixed vertical plate 2, is rotated to be in contact with the convex column 17 to push down the material pushing rod so that the material receiving part 13 rotates downwards to discharge materials; connect material portion 13 and connecting plate 12 of hopper 4 to pass through axle swing joint, connect material portion 13 and connecting plate 12 still to be connected through return spring 14, when unloading like this, only need rotatory servo motor 18 to drive ejector ram 19 and move down and connect the projection 15 contact push-down of material portion 13, thereby will connect material portion 13 slope downwards, thereby unload to waste bin 16 in, unload and finish servo motor 18 return stroke, return spring 14 just will connect material portion 12 to draw the return, alright connect the material next time, the matching shedding mechanism that connects hopper 4 that so designs can be fine realizes the automation of unloading, whole working process is simple and smooth, fine matching connects hopper 4 to carry out quick unloading return after coming out, production efficiency is greatly improved.
In the production process: the upper and lower sliding blocks 1 move downwards to drive the upper and lower driving blocks 3 to move downwards, the bottom ends of inclined parts 11 of the upper and lower driving blocks 3 are firstly contacted with driven rods 8, the driven rods 8 move along the inclined surfaces of the inclined parts 11 to be contacted with the top ends of the inclined parts 11, at the moment, the upper and lower sliding blocks 1 stop moving, so that the driven rods 8 rotate to one side far away from the upper and lower sliding blocks 1, namely outwards rotate, so that the material receiving rods 9 which are level with the driven rods 8 up and down also move outwards, and the material receiving hopper 4 moves outwards to be above a waste material box 16; then, starting the servo motor 18 to drive the material pushing rod 19 to move downwards, so that the material receiving part 13 inclines downwards and is discharged into the waste material box 16, then, the servo motor 18 drives the material pushing rod 19 to return, and the return spring 14 drives the material receiving part 13 to return to be vertical to the connecting plate 12, so that the discharging is finished; and finally, the upper and lower sliding blocks 1 move upwards, the upper and lower driving blocks 3 move upwards to be far away from the driven rod 8, and the rotating shaft rotates towards one side close to the upper and lower sliding blocks 1 under the action of the pull-back spring 5, so that the material receiving hopper 4 rotates into the stamping equipment to receive materials.
Claims (8)
1. A device for automatically taking out waste materials by stamping equipment comprises an upper sliding block (1) and a lower sliding block (1) of the stamping equipment and a fixed vertical plate (2) of the stamping equipment, wherein the fixed vertical plate (2) is positioned outside the stamping equipment and is arranged in a crossed manner with the upper sliding block (1) and the lower sliding block (1);
the method is characterized in that: a strip-shaped upper driving block and a strip-shaped lower driving block (3) are arranged on one side, close to the fixed vertical plate (2), of the upper sliding block and the lower sliding block (1), and the fixed vertical plate (2) and the upper driving block and the lower driving block (3) are arranged in a parallel and crossed mode;
a rotating mechanism is arranged at one end of the fixed vertical plate (2) close to the upper and lower driving blocks (3), a material receiving hopper (4) is arranged at one side of the rotating mechanism close to the upper and lower driving blocks (3), and the upper and lower driving blocks (3) are in contact with the rotating mechanism to push the rotating mechanism outwards; the rotating mechanism is connected with the fixed vertical plate (2) through a pullback spring (5); the receiving hopper (4) is driven by the upper and lower driving blocks (3) to rotate to be far away from the upper and lower sliding blocks (1) through downward movement, namely, the receiving hopper rotates outwards, and the receiving hopper is used for discharging through the discharging mechanism.
2. The apparatus for automatically removing scrap in a stamping apparatus as defined in claim 1, wherein: the rotating mechanism comprises an upper rotating bearing block and a lower rotating bearing block (6) which are arranged on the fixed vertical plate (2), the upper rotating bearing block and the lower rotating bearing block (6) longitudinally penetrate through a rotating shaft (7) together, and one end of a driven rod (8) and one end of a material receiving rod (9) are arranged above and below the rotating shaft (7); the driven rod (8) and the material receiving rod (9) are arranged in an up-and-down alignment manner.
3. The apparatus for automatically removing scrap in a stamping apparatus as defined in claim 2, wherein: the other end of the driven rod (8) is close to the upper and lower driving blocks (3), is positioned below the driven rod and is contacted with the driven rod to rotate; the material receiving hopper (4) is arranged at the other end of the material receiving rod (9).
4. The apparatus for automatically removing scrap in a stamping apparatus as set forth in claim 3, wherein: the material receiving rod (9) and one end of the rotating shaft (7) are connected with one end of the pull-back spring (5), the other end of the pull-back spring (5) is connected with a fixing block (10) of the fixed vertical plate (2), and the fixing block (10) is located at one end, far away from the upper sliding block and the lower sliding block (1), of the fixed vertical plate (2).
5. The apparatus for automatically removing scrap in a stamping apparatus as set forth in claim 4, wherein: when the driven rod (8) rotates to the side far away from the upper and lower driving blocks (3), the driven rod rotates forwards, and the pull-back spring (5) is in a stretching state; the upper and lower driving blocks (3) are not contacted with the driven rod (8), namely when the driven rod (8) is positioned at the inner side, the pull-back spring (5) is in a normal state.
6. The apparatus for automatically removing scrap in a stamping apparatus as set forth in claim 3, wherein: one side of the upper and lower driving blocks (3) close to the driven rod (8) is provided with an inclined part (11), and the inclined part (11) is in contact with the driven rod (8) to rotate the driven rod.
7. The apparatus for automatically removing scrap in a stamping apparatus as set forth in claim 3, wherein: the receiving hopper (4) comprises a connecting plate (12) connected with the receiving rod (9), one side of the bottom of the connecting plate (12), which is close to the fixed vertical plate (2), is movably connected with a receiving part (13) through a shaft, and the side surface between the connecting plate (12) and the receiving part (13) is also connected through a return spring (14); when the connecting plate (12) and the material receiving part (13) are in a vertical state, the return spring (14) is in a normal state; one side of the material receiving part (13) close to the fixed vertical plate (2) is provided with a convex column (15).
8. The apparatus for automatically removing scrap in a stamping apparatus as set forth in claim 7, wherein: the discharging mechanism comprises a waste material box (16) which is positioned below the receiving hopper (4) when the receiving hopper is positioned at the outermost side, one side of the top of the waste material box (16) far away from the fixed vertical plate (2) is provided with a mounting block (17), and a servo motor (18) is arranged on the mounting block (17);
a rotating shaft of the servo motor (18) is connected with a material pushing rod (19), one end, close to the fixed vertical plate (2), of the material pushing rod (18) is rotated to be in contact with the convex column (17) to push the material pushing rod downwards, and the material receiving portion (13) rotates downwards to discharge materials.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202111530798.7A CN114289626A (en) | 2021-12-15 | 2021-12-15 | Automatic waste material taking device of stamping equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202111530798.7A CN114289626A (en) | 2021-12-15 | 2021-12-15 | Automatic waste material taking device of stamping equipment |
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| Publication Number | Publication Date |
|---|---|
| CN114289626A true CN114289626A (en) | 2022-04-08 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202111530798.7A Pending CN114289626A (en) | 2021-12-15 | 2021-12-15 | Automatic waste material taking device of stamping equipment |
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| CN (1) | CN114289626A (en) |
Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2000024852A (en) * | 1998-07-13 | 2000-01-25 | Amada Co Ltd | Punch-laser combine machine |
| CN103537582A (en) * | 2013-11-05 | 2014-01-29 | 苏州市天隆链条有限公司 | Automatic discharge device |
| CN109454683A (en) * | 2018-11-15 | 2019-03-12 | 倪晋挺 | A kind of strip-shaped materials cutting equipment |
| CN110523835A (en) * | 2019-07-26 | 2019-12-03 | 温岭市汇强机电股份有限公司 | A kind of rotor punching system of processing |
| CN111992630A (en) * | 2020-08-05 | 2020-11-27 | 山东高密高锻机械有限公司 | Automatic receiving device for stamping |
| CN212551432U (en) * | 2020-08-05 | 2021-02-19 | 山东高密高锻机械有限公司 | Automatic receiving device for stamping |
| CN213317309U (en) * | 2020-09-28 | 2021-06-01 | 中原利达铁路轨道技术发展有限公司 | Automatic receiving device of stamping compound die |
| CN112893590A (en) * | 2021-01-15 | 2021-06-04 | 重庆大江国立精密机械制造有限公司 | Automobile spare and accessory part stamping device |
-
2021
- 2021-12-15 CN CN202111530798.7A patent/CN114289626A/en active Pending
Patent Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2000024852A (en) * | 1998-07-13 | 2000-01-25 | Amada Co Ltd | Punch-laser combine machine |
| CN103537582A (en) * | 2013-11-05 | 2014-01-29 | 苏州市天隆链条有限公司 | Automatic discharge device |
| CN109454683A (en) * | 2018-11-15 | 2019-03-12 | 倪晋挺 | A kind of strip-shaped materials cutting equipment |
| CN110523835A (en) * | 2019-07-26 | 2019-12-03 | 温岭市汇强机电股份有限公司 | A kind of rotor punching system of processing |
| CN111992630A (en) * | 2020-08-05 | 2020-11-27 | 山东高密高锻机械有限公司 | Automatic receiving device for stamping |
| CN212551432U (en) * | 2020-08-05 | 2021-02-19 | 山东高密高锻机械有限公司 | Automatic receiving device for stamping |
| CN213317309U (en) * | 2020-09-28 | 2021-06-01 | 中原利达铁路轨道技术发展有限公司 | Automatic receiving device of stamping compound die |
| CN112893590A (en) * | 2021-01-15 | 2021-06-04 | 重庆大江国立精密机械制造有限公司 | Automobile spare and accessory part stamping device |
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