CN213162629U - Continuous stainless steel part stamping and stretching device - Google Patents

Abstract

The utility model discloses a continuous type stainless steel part punching press stretching device, including first workstation and the frame of setting at first workstation top, the bottom of frame is equipped with the tensile equipment of punching press, one side bottom of the tensile equipment of punching press is equipped with carries the platform, the bottom of conveyer is connected with the second workstation, just the top of carrying the platform is equipped with a plurality of mechanisms of putting of getting. The utility model discloses a start first driving motor and the work of second driving motor for second driving motor drives the worm and rotates, the worm drives two worm wheel rotations, thereby the worm wheel drives hollow sleeve and rotates and then drives first threaded rod and rotate and drive the lifter plate and carry out the up-and-down motion, then second driving motor drives the pivot and drives first bevel gear and rotate, first bevel gear meshing drives second bevel gear and rotates, second bevel gear drives the backup pad through the pivot and rotates and then drive the gripper rotation through the support column, the tensile work efficiency of stainless steel punching press has been improved.

Description

Continuous stainless steel part stamping and stretching device

Technical Field

The utility model relates to a stainless steel spare production facility technical field, concretely relates to continuous type stainless steel spare punching press stretching device.

Background

The stamping forming is a common mechanical processing method, and refers to a processing and forming method for applying external force to plates, strips, pipes, profiles and the like by a press machine and a die to enable the plates, the strips, the pipes, the profiles and the like to generate plastic deformation or separation, so as to obtain workpieces (stamping parts) with required shapes and sizes.

However, in practical use, the existing stamping and stretching devices on the market have many defects, for example, stainless steel parts are mainly taken and placed manually during stamping, so that automatic taking and placing cannot be realized, and the working efficiency is low.

Therefore, it is necessary to develop a continuous stainless steel stamping and drawing device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a continuous stainless steel stamping and stretching device, which is characterized in that by starting a first driving motor and a second driving motor, so that the second driving motor drives the worm to rotate, the worm drives the two worm gears to rotate, the worm gears drive the hollow sleeve to rotate so as to drive the first threaded rod to rotate, and then the lifting plate is driven to move up and down, then the second driving motor drives the rotating shaft to drive the first bevel gear to rotate, the first bevel gear is meshed to drive the second bevel gear to rotate, the second bevel gear drives the supporting plate to rotate through the rotating shaft and further drives the mechanical claw to rotate through the supporting column, the working efficiency of stamping and stretching the stainless steel part is improved, therefore, the problems that the existing stainless steel piece is mainly taken and placed manually when being stamped, automatic taking and placing cannot be realized, and the working efficiency is low can be solved, and the defects in the technology are overcome.

In order to achieve the above object, the present invention provides the following technical solutions: a continuous stainless steel stamping and stretching device comprises a first workbench and a rack arranged at the top of the first workbench, wherein stamping and stretching equipment is arranged at the bottom end of the rack, a conveying table is arranged at the bottom of one side of the stamping and stretching equipment, a conveyor is arranged at one end of the conveying table, the bottom of the conveyor is connected with a second workbench, a plurality of pick-and-place mechanisms are arranged at the top end of the conveying table, each pick-and-place mechanism comprises a base, a first driving motor which is horizontally arranged is arranged in an inner cavity of each base, the output end of each first driving motor is connected with a worm, two ends of each worm are respectively connected with a worm wheel in a meshing manner, a hollow sleeve is rotatably connected at the center of each worm wheel, a first threaded rod is respectively connected in each hollow sleeve in a meshing manner through threads, and the top ends of every two adjacent first threaded rods are respectively connected with a lifting plate through connection, every the top one end of lifter plate is provided with the second driving motor that is the level setting, every second driving motor's output all is connected with first bevel gear through the pivot, every first bevel gear's top all meshes and is connected with second bevel gear, every second bevel gear's top all is connected with the backup pad through the pivot, every the top of backup pad all is connected with the support column, every the top of support column all is connected with the linking arm after running through corresponding base, every the equal symmetric connection in both ends bottom of linking arm has the gripper.

Preferably, the sliding grooves are symmetrically formed in two sides of the conveying table, the bases are connected with the sliding grooves in a sliding mode, and the top end of the conveying table is provided with the through hole groove.

Preferably, the number of the pick and place mechanisms is three.

Preferably, every the top both ends of backup pad all symmetric connection have buffer spring, every buffer spring's top all is connected with the interior cavity roof that corresponds the base.

Preferably, the inner cavity of the conveying table is provided with a third driving motor which is horizontally arranged, the output end of the third driving motor is connected with a driving wheel, one side of the driving wheel is rotatably connected with a driven wheel through a belt, the centers of the driven wheel and one side of the driving wheel are respectively rotatably connected with a second threaded rod and a third threaded rod, one ends of the second threaded rod and the third threaded rod are respectively and correspondingly connected with a plurality of first moving blocks and a plurality of second moving blocks, and the first moving blocks and the second moving blocks are respectively provided with three blocks.

Preferably, a fixed rod is connected between each adjacent first moving block and each adjacent second moving block, a supporting rod is connected to the top end of each first moving block and the top end of each second moving block, and the top end of each supporting rod penetrates through the corresponding through hole groove and then is connected with the base.

In the technical scheme, the utility model provides a technological effect and advantage: work through starting first driving motor and second driving motor, make second driving motor drive worm rotate, the worm drives two worm wheel rotations, the worm wheel drives hollow sleeve and rotates and then drives first threaded rod and rotate thereby drive the lifter plate and carry out the up-and-down motion, then second driving motor drive pivot drives first bevel gear and rotates, first bevel gear meshing drives second bevel gear and rotates, second bevel gear drives the backup pad through the pivot and rotates and then drive the gripper through the support column and rotate, the tensile work efficiency of stainless steel piece punching press has been improved, thereby can solve current stainless steel piece and mainly manually go to carry out the article when carrying out the punching press and get and put, can not realize automatic getting and put, the problem that work efficiency is low.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic view of the overall mechanism of the present invention.

Fig. 2 is a partial schematic view of the structure of the conveying table of the present invention.

Fig. 3 is a partial schematic view of the internal structure of the conveying table of the present invention.

Fig. 4 is a schematic view of the pick-and-place mechanism of the present invention.

Fig. 5 is an enlarged view of the region a in fig. 4 according to the present invention.

Fig. 6 is an enlarged view of the area B in fig. 4 according to the present invention.

Description of reference numerals: 1. a first table; 2. a frame; 3. punching and stretching equipment; 4. a conveying table; 41. a chute; 42. a through hole slot; 43. a third drive motor; 44. a driving wheel; 441. a third threaded rod; 45. a support bar; 46. a second moving block; 47. a first moving block; 48. fixing the rod; 49. a driven wheel; 491. a second threaded rod; 5. a pick and place mechanism; 51. a base; 52. a first drive motor; 521. a worm; 53. a worm gear; 531. a hollow sleeve; 532. a first threaded rod; 54. a lifting plate; 55. a second drive motor; 56. a first bevel gear; 57. a second bevel gear; 58. a support plate; 581. a support pillar; 59. a buffer spring; 6. a second table; 7. a conveyor; 8. a connecting arm; 9. and (4) a mechanical claw.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides a continuous stainless steel stamping and stretching device as shown in figures 1-6, which comprises a first workbench 1 and a frame 2 arranged on the top of the first workbench 1, wherein the bottom end of the frame 2 is provided with a stamping and stretching device 3, the bottom of one side of the stamping and stretching device 3 is provided with a conveying table 4, one end of the conveying table 4 is provided with a conveyor 7, the bottom of the conveyor 7 is connected with a second workbench 6, the top end of the conveying table 4 is provided with a plurality of taking and placing mechanisms 5, each taking and placing mechanism 5 comprises a base 51, a first driving motor 52 which is horizontally arranged is arranged in an inner chamber of each base 51, the output end of each first driving motor 52 is connected with a worm 521, the two ends of each worm 521 are engaged with a worm wheel 53, the center of each worm wheel 53 is rotatably connected with a hollow sleeve 531, every all be connected with first threaded rod 532 through threaded engagement in the hollow sleeve 531, every two adjacent first threaded rod 532 all through being connected with lifter plate 54, every the top one end of lifter plate 54 is provided with the second driving motor 55 that is the level setting, every the output of second driving motor 55 all is connected with first bevel gear 56 through the pivot, every first bevel gear 56's top all meshing is connected with second bevel gear 57, every second bevel gear 57's top all is connected with backup pad 58 through the pivot, every the top of backup pad 58 all is connected with support column 581, every the top of support column 581 runs through and all is connected with linking arm 8 behind the corresponding base 51, every the equal symmetric connection in both ends bottom of linking arm 8 has gripper 9.

Further, in the above technical solution, sliding grooves 41 are symmetrically formed on both sides of the conveying table 4, the plurality of bases 51 are slidably connected to the sliding grooves 41, and a through hole groove 42 is formed at the top end of the conveying table 4.

Further, in the above technical solution, the number of the pick-and-place mechanisms 5 is three, two ends of the top of each support plate 58 are symmetrically connected with buffer springs 59, and the top end of each buffer spring 59 is connected with the top wall of the inner chamber of the corresponding base 51.

Furthermore, in the above technical solution, the inner chamber of the conveying table 4 is provided with a horizontally arranged third driving motor 43, the output end of the third driving motor 43 is connected with a driving wheel 44, one side of the driving wheel 44 is rotatably connected with a driven wheel 49 through a belt, a second threaded rod 491 and a third threaded rod 441 are respectively and rotatably connected at the centers of one sides of the driven wheel 49 and the driving wheel 44, one ends of the second threaded rod 491 and the third threaded rod 441 are respectively and correspondingly connected with a plurality of first moving blocks 47 and second moving blocks 46, three first moving blocks 47 and three second moving blocks 46 are provided, a fixed rod 48 is connected between every two adjacent first moving blocks 47 and second moving blocks 46, and the top end of each of the first moving block 47 and the second moving block 46 is connected with a support rod 45, and the top end of each support rod 45 penetrates through the corresponding through hole groove 42 and then is connected with the base 51.

The implementation mode is specifically as follows: when the device is used in practice, the first driving motor 52 and the second driving motor 55 are started to work at first, the second driving motor 55 drives the worm 521 to rotate, the worm 521 drives the two worm gears 53 to rotate, the worm gears 53 drive the hollow sleeves 531 to rotate so as to drive the first threaded rods 532 to rotate so as to drive the lifting plate 54 to move up and down, then the second driving motor 55 drives the rotating shaft to drive the first bevel gears 56 to rotate, the first bevel gears 56 are meshed to drive the second bevel gears 57 to rotate, the second bevel gears 57 drive the supporting plate 58 to rotate through the rotating shaft and further drive the mechanical claws 9 to rotate through the supporting columns 581, the working efficiency of stamping and stretching of stainless steel parts is improved, and therefore the problems that the existing stainless steel parts are mainly taken and placed manually during stamping and cannot be taken and placed automatically and the work efficiency is low are solved The automatic taking and placing cannot be realized, and the working efficiency is low.

This practical theory of operation:

referring to the attached drawings 1-6 of the specification, by starting the first driving motor 52 and the second driving motor 55, the second driving motor 55 drives the worm 521 to rotate, the worm 521 drives the two worm gears 53 to rotate, the worm gears 53 drive the hollow sleeves 531 to rotate and further drive the first threaded rods 532 to rotate so as to drive the lifting plate 54 to move up and down, then the second driving motor 55 drives the rotating shaft to drive the first bevel gears 56 to rotate, the first bevel gears 56 are meshed to drive the second bevel gears 57 to rotate, the second bevel gears 57 drive the supporting plate 58 to rotate through the rotating shaft and further drive the mechanical claws 9 to rotate through the supporting columns 581, and the working efficiency of stamping and stretching of stainless steel parts is improved.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. The utility model provides a continuous type stainless steel spare punching press stretching device, includes first workstation (1) and sets up frame (2) at first workstation (1) top, its characterized in that: the punching and stretching device is characterized in that a punching and stretching device (3) is arranged at the bottom end of the rack (2), a conveying table (4) is arranged at the bottom of one side of the punching and stretching device (3), a conveyor (7) is arranged at one end of the conveying table (4), the bottom of the conveyor (7) is connected with a second workbench (6), a plurality of picking and placing mechanisms (5) are arranged at the top end of the conveying table (4), each picking and placing mechanism (5) comprises a base (51), a first driving motor (52) horizontally arranged is arranged in an inner cavity of each base (51), the output end of each first driving motor (52) is connected with a worm (521), two ends of each worm (521) are respectively connected with a worm wheel (53) in a meshed manner, a hollow sleeve (531) is rotatably connected at the center of each worm wheel (53), a first threaded rod (532) is respectively connected in each hollow sleeve (531) in a meshed manner through threads, every two adjacent the top of first threaded rod (532) all is through being connected with lifter plate (54), every the top one end of lifter plate (54) is provided with second driving motor (55) that is the level setting, every the output of second driving motor (55) all is connected with first bevel gear (56) through the pivot, every the top of first bevel gear (56) all meshes and is connected with second bevel gear (57), every the top of second bevel gear (57) all is connected with backup pad (58) through the pivot, every the top of backup pad (58) all is connected with support column (581), every the top of support column (581) all is connected with linking arm (8) after running through corresponding base (51), every the equal symmetric connection in both ends bottom of linking arm (8) has gripper (9).

2. The continuous stainless steel stamping and drawing device of claim 1, wherein: the conveying table is characterized in that sliding grooves (41) are symmetrically formed in two sides of the conveying table (4), the bases (51) are connected with the sliding grooves (41) in a sliding mode, and through hole grooves (42) are formed in the top end of the conveying table (4).

3. The continuous stainless steel stamping and drawing device of claim 1, wherein: the number of the pick-and-place mechanisms (5) is three.

4. The continuous stainless steel stamping and drawing device of claim 1, wherein: the top both ends of every backup pad (58) all the symmetric connection have buffer spring (59), every the top of buffer spring (59) all is connected with the interior cavity roof that corresponds base (51).

5. The continuous stainless steel stamping and drawing device of claim 2, wherein: the conveying device is characterized in that a third driving motor (43) which is horizontally arranged is arranged in an inner cavity of the conveying table (4), an output end of the third driving motor (43) is connected with a driving wheel (44), one side of the driving wheel (44) is rotatably connected with a driven wheel (49) through a belt, centers of one sides of the driven wheel (49) and the driving wheel (44) are respectively and rotatably connected with a second threaded rod (491) and a third threaded rod (441), one ends of the second threaded rod (491) and the third threaded rod (441) are respectively and correspondingly connected with a plurality of first moving blocks (47) and second moving blocks (46), and the number of the first moving blocks (47) and the number of the second moving blocks (46) are respectively three.

6. The continuous stainless steel stamping and drawing device of claim 5, wherein: a fixed rod (48) is connected between each adjacent first moving block (47) and each adjacent second moving block (46), the top ends of the first moving blocks (47) and the second moving blocks (46) are connected with supporting rods (45), and the top ends of the supporting rods (45) penetrate through corresponding through hole grooves (42) and then are connected with a base (51).

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