CN111604431B

CN111604431B - Automatic metal spinning equipment

Info

Publication number: CN111604431B
Application number: CN202010519349.1A
Authority: CN
Inventors: 莫卫国
Original assignee: Taizhou Mingfang Machinery Co ltd
Current assignee: Taizhou Mingfang Machinery Co.,Ltd.
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2020-12-22
Anticipated expiration: 2040-06-09
Also published as: CN111604431A; GB202014812D0

Abstract

The invention discloses automatic metal spinning equipment which comprises an equipment body, wherein a working cavity is arranged in the equipment body, a clamp mechanism is arranged in the middle of the working cavity, a feeding mechanism is arranged at the upper part of the working cavity, a spinning mechanism is arranged at the left part of the working cavity, and a discharging mechanism is arranged at the lower part of the working cavity.

Description

Automatic metal spinning equipment

Technical Field

The invention relates to the technical field of metal processing, in particular to automatic metal spinning equipment.

Background

The metal spinning process usually includes the steps of clamping a metal plate on a spinning machine, driving a blank and a mold core to rotate by a spindle, and applying pressure to the rotating blank by a spinning wheel so as to obtain hollow rotator parts in various shapes.

Disclosure of Invention

Aiming at the technical defects, the invention provides automatic metal spinning equipment which can overcome the defects.

The invention relates to an automatic metal spinning device, which comprises a machine body, wherein a working cavity is arranged in the machine body, a clamp mechanism is arranged in the middle of the working cavity, a feeding mechanism is arranged at the upper part of the working cavity, a spinning mechanism is arranged at the left part of the working cavity, a blanking mechanism is arranged at the lower part of the working cavity, the clamp mechanism comprises a central rotating rod rotatably arranged in the middle of the working cavity, rotating discs are fixedly arranged at the front end and the rear end of the central rotating rod, four guide rods are fixedly arranged between the rotating discs in a centrosymmetric manner, clamp threaded rods are rotatably arranged at the front ends of the clamp threaded rods, connecting gears are fixedly arranged on the clamp threaded rods, four clamp mounting blocks which are centrosymmetric by taking the central rotating rod as the center are arranged on the clamp mounting rods in a threaded manner, the clamp mounting blocks are slidably arranged on the guide rods in, the connecting rod other end rotates and installs on the anchor clamps arm, anchor clamps arm slidable mounting is on the pull rod, pull rod fixed mounting is on the elasticity slider, the elasticity slider slidable mounting in anchor clamps installation piece both sides, the elasticity slider with be provided with the tension spring between the anchor clamps arm, anchor clamps arm top slidable mounting has the buffering clamp splice, the buffering clamp splice with be provided with buffer spring between the anchor clamps arm, slidable mounting around buffering clamp splice the place ahead is provided with in the anchor clamps arm presss from both sides tight clamp splice, press from both sides tight clamp splice with be provided with clamping spring between the anchor clamps arm, anchor clamps installation piece is kept away from center bull stick one side slidable mounting has the side clamp splice, the side clamp splice with be provided with the side clamp spring between the anchor clamps installation piece.

Beneficially, spinning mechanism including rotate install in the left spinning screw shaft of working chamber antetheca, spinning installation piece is installed to spinning screw epaxial screw thread, sliding mounting around spinning installation piece in the working chamber antetheca, spinning installation piece rear portion horizontal sliding mounting has spinning block, spinning block with be provided with the spinning spring between the spinning installation piece, spinning block right rear side rotates and installs spinning gyro wheel, sliding mounting has spinning slider around spinning installation piece right side, spinning slider with be provided with pressure spring between the spinning installation piece, the spinning spline housing is installed in the rotation in the spinning slider, spinning spline housing rear end fixed mounting has the rotation briquetting.

Beneficially, feed mechanism including set up in deposit the chamber in the working chamber upper wall, slidable mounting has the push pedal around in depositing the chamber, the push pedal rear side be provided with the thrust spring that the organism is connected, it is provided with the inclined plane to deposit chamber front side export department the left side, the inclined plane below is provided with horizontal slidable mounting in baffle on the working chamber upper wall, baffle and fixed mounting be provided with between the counter-push pedal on the working chamber and block the spring, unloading mechanism including around slidable mounting in the wedge ejector pad of working chamber antetheca downside, the wedge ejector pad front side be provided with the unloading spring that the organism is connected.

Beneficially, a motor is arranged on the front side of the machine body, a power spline shaft is connected to the left side of the motor, a steering bevel gear is fixedly mounted on the power spline shaft, an output bevel gear is connected to the rear side of the steering bevel gear in a meshed manner, the output bevel gear is fixedly mounted on a central shaft, the central shaft is rotatably mounted in the machine body, a central rotating rod is rotatably mounted on the central shaft, a reduction gear is fixedly mounted on the central shaft, a rotating gear is connected to the left side of the reduction gear in a meshed manner, the rotating gear is fixedly mounted on a reduction shaft, the reduction shaft is rotatably mounted in the front wall of the working chamber, a dial wheel is fixedly mounted on the reduction shaft, a sheave is connected to the right side of the dial wheel in.

Beneficially, the spinning mechanism further comprises a power spline housing arranged on the power spline shaft in a spline mode, a transmission bevel gear, a driving bevel gear and a power bevel gear are fixedly arranged on the power spline housing, the rear side of the power bevel gear is connected with a rotation bevel gear in a meshed mode, the rotation bevel gear is fixedly arranged on the spinning spline shaft, the spinning spline shaft is rotatably arranged in the machine body, the spinning spline housing is arranged on the spinning spline shaft in a splined mode, the rear side of the driving bevel gear is connected with a linking bevel gear in a meshed mode, the linking bevel gear is fixedly arranged at the front end of the spinning threaded shaft, a transmission belt wheel is fixedly arranged on the spinning threaded shaft and connected with a driven belt wheel through a transmission belt, the driven belt wheel is fixedly arranged on a driven shaft, the driven shaft is rotatably arranged in the machine body, the driven bevel gear capable of being meshed with the transmission Gear engagement's drive gear, power spline housing left end rotate install horizontal slidable mounting in rack slider in the organism, rack slider upside meshing is connected with driven gear, driven gear right side meshing is connected with the rack briquetting, rack briquetting rear side be provided with rotate install in the haulage rope that the bobbin of spinning installation piece front end is connected, center pin rear end fixed mounting has driving pulley, driving pulley passes through driving belt and links up the band pulley and be connected, it is epaxial in the mould to link up band pulley fixed mounting, mould axle rotate install in the working chamber rear wall and with the coaxial integral key shaft of spinning, mould axle front end fixed mounting has spinning mould.

The beneficial effects are that: the equipment is capable of automatically finishing the processes from material taking to processing to material discharging, wherein the clamp is rotationally arranged in the equipment in a central symmetry mode, and can be circularly switched among all stations through rotation, so that each station can work at the same time, and the processing efficiency during batch production can be improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of an automatic metal spinning apparatus according to the present invention;

FIG. 2 is an enlarged view of a portion "A" in FIG. 1;

FIG. 3 is a schematic sectional view taken along the direction "B-B" in FIG. 1;

FIG. 4 is a schematic sectional view of the structure of FIG. 1 taken along the direction of "C-C";

FIG. 5 is an enlarged view of a portion "D" in FIG. 3;

FIG. 6 is a schematic sectional view taken along the direction "E-E" in FIG. 3.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic metal spinning device, which comprises a machine body 10, wherein a working cavity 11 is arranged in the machine body 10, a clamp mechanism capable of clamping a metal sheet 71 and a metal piece 78 and driving the metal sheet and the metal piece to move in each function is arranged in the middle of the working cavity 11, a feeding mechanism capable of loading the metal sheet 71 into the clamp mechanism is arranged at the upper part of the working cavity 11, a spinning mechanism capable of spinning the metal sheet 71 is arranged at the left part of the working cavity 11, a blanking mechanism capable of taking the processed metal piece 78 out of the clamp mechanism is arranged at the lower part of the working cavity 11, the clamp mechanism comprises a central rotating rod 21 rotatably arranged in the middle of the working cavity 11, rotating discs 22 are fixedly arranged at the front end and the rear end of the central rotating rod 21, four guide rods 23 are fixedly arranged in the center between the rotating discs 22 in a symmetrical mode, and clamps 24 are rotatably arranged, the front end of the clamp threaded rod 24 is positioned in front of the rotating disc 22 and is fixedly provided with a linking gear 25, four clamp mounting blocks 26 which are centrosymmetric by taking the central rotating rod 21 as a center are mounted on the clamp threaded rod 24 in a threaded manner, the clamp mounting blocks 26 are slidably mounted on the guide rod 23 in a front-back manner, two symmetrical connecting rods 31 are rotatably mounted in the middle of each clamp mounting block 26, the other ends of the connecting rods 31 are rotatably mounted on clamp arms 29, each clamp arm 29 is slidably mounted on a pull rod 28, the pull rod 28 is fixedly mounted on an elastic slider 27, the elastic sliders 27 are slidably mounted on two sides of each clamp mounting block 26, an elastic spring 30 is arranged between each elastic slider 27 and each clamp arm 29, a buffer clamping block 32 is slidably mounted at the top end of each clamp arm 29, and a buffer spring 33 is arranged between each buffer clamping block 32 and each clamp arm 29, the front of the buffering clamping block 32 is provided with a clamping block 34 which is slidably mounted in the clamp arm 29 in a front-back manner, a clamping spring 35 is arranged between the clamping block 34 and the clamp arm 29, one side of the clamp mounting block 26, which is far away from the central rotating rod 21, is slidably mounted with a side clamping block 36, and a side clamping spring 37 is arranged between the side clamping block 36 and the clamp mounting block 26.

Beneficially, the spinning mechanism includes a spinning threaded shaft 46 rotatably mounted on the left side of the front wall of the working chamber 11, a spinning mounting block 49 is mounted on the spinning threaded shaft 46 in a threaded manner, the spinning mounting block 49 is slidably mounted in the front wall of the working chamber 11 in a front-back manner, a spinning block 50 is slidably mounted on the rear portion of the spinning mounting block 49 in a left-right manner, a spinning spring 52 is arranged between the spinning block 50 and the spinning mounting block 49, a spinning roller 51 is rotatably mounted on the right rear side of the spinning block 50, a spinning slider 53 is slidably mounted on the right side of the spinning mounting block 49 in a front-back manner, a compression spring 54 is arranged between the spinning slider 53 and the spinning mounting block 49, a spinning spline sleeve 55 is rotatably mounted in the spinning slider 53, and a rotating pressing block 56 is fixedly mounted on the rear end.

Beneficially, the feeding mechanism includes a storage cavity 70 disposed in the upper wall of the working cavity 11, a push plate 72 is slidably mounted in the storage cavity 70 in a front-back direction, a thrust spring 73 connected with the machine body 10 is disposed at the rear side of the push plate 72, an inclined plane 74 is disposed at the left side of an outlet of the front side of the storage cavity 70, a baffle 75 slidably mounted on the upper wall of the working cavity 11 in a left-right direction is disposed below the inclined plane 74, a blocking spring 77 is disposed between the baffle 75 and a counter-push plate 76 fixedly mounted on the working cavity 11, the discharging mechanism includes a wedge-shaped push block 79 slidably mounted on the lower side of the front wall of the working cavity 11 in a front-back direction, and a discharging spring 80 connected with the machine body 10 is disposed at the front.

Advantageously, the front side of the machine body 10 is provided with a motor 12, the left side of the motor 12 is connected with a power spline shaft 13, a steering bevel gear 14 is fixedly arranged on the power spline shaft 13, an output bevel gear 15 is engaged and connected with the rear side of the steering bevel gear 14, the output bevel gear 15 is fixedly installed on a central shaft 65, the central shaft 65 is rotatably installed in the machine body 10, the central shaft 65 is rotatably provided with the central rotating rod 21 and fixedly provided with a reduction gear 16, the left side of the reduction gear 16 is engaged with a rotating gear 17, the rotating gear 17 is fixedly arranged on a reduction shaft 18, the speed reducing shaft 18 is rotatably arranged in the front wall of the working cavity 11, a thumb wheel 19 is fixedly arranged on the speed reducing shaft 18, the right side of the thumb wheel 19 is connected with a grooved wheel 20 in a matching manner, and the grooved wheel 20 is fixedly arranged at the front end of the central rotating rod 21.

Advantageously, the spinning mechanism further comprises a power spline housing 38 splined on the power spline shaft 13, a transmission bevel gear 39, a driving bevel gear 48 and a power bevel gear 59 are fixedly mounted on the power spline housing 38, a rotating bevel gear 58 is engaged and connected to the rear side of the power bevel gear 59, the rotating bevel gear 58 is fixedly mounted on a spinning spline shaft 57, the spinning spline shaft 57 is rotatably mounted in the machine body 10, the spinning spline housing 55 is splined on the spinning spline shaft 57, a connecting bevel gear 47 is engaged and connected to the rear side of the driving bevel gear 48, the connecting bevel gear 47 is fixedly mounted at the front end of the spinning threaded shaft 46, a transmission pulley 45 is fixedly mounted on the spinning threaded shaft 46, the transmission pulley 45 is connected with a driven pulley 43 through a transmission belt 44, the driven pulley 43 is fixedly mounted on a driven shaft 41, the driven shaft 41 is rotatably installed in the machine body 10, the driven shaft 41 is fixedly provided with a driven bevel gear 40 which can be meshed with the driving bevel gear 39 and a transmission gear 42 which can be meshed with the engaging gear 25, the left end of the power spline housing 38 is rotatably provided with a rack slider 60 which is slidably installed in the machine body 10 from left to right, the upper side of the rack slider 60 is meshed with a driven gear 61, the right side of the driven gear 61 is meshed with a rack press block 62, the rear side of the rack press block 62 is provided with a traction rope 63 which is connected with a winding drum 64 rotatably installed at the front end of the spinning installation block 49, the rear end of the central shaft 65 is fixedly provided with a driving pulley 66, the driving pulley 66 is connected with an engaging pulley 68 through a driving belt 67, the engaging pulley 68 is fixedly installed on a die shaft 69, the die shaft 69 is rotatably installed in the rear wall of the working cavity 11 and is coaxial with, the front end of the mold shaft 69 is fixedly provided with a spinning mold 81.

In an initial state, the spinning mounting block 49 is positioned at the foremost end, the driving bevel gear 48 is meshed with the engaging bevel gear 47, the power bevel gear 59 is meshed with the rotating bevel gear 58, the transmission bevel gear 39 is separated from the driven bevel gear 40, the spinning spring 52 and the pressing spring 54 are in a normal state, and the thrust spring 73 and the blocking spring 77 are in a compressed state;

when the work is started, the motor 12 is started, so that the power spline shaft 13 rotates, the central shaft 65 is driven to rotate through the meshing transmission of the steering bevel gear 14 and the output bevel gear 15, the speed reduction shaft 18 is driven to rotate through the meshing transmission of the speed reduction gear 16 and the rotating gear 17, the central rotating rod 21 is driven to rotate intermittently through the matching of the thumb wheel 19 and the grooved wheel 20, so that the clamp mechanism is driven to rotate intermittently, when the clamp mechanism rotates to the upper part of the work cavity 11, the clamp arm 29 pushes the baffle plate 75 leftwards, so that the metal sheet 71 in the storage cavity 70 falls between the clamp arms 29, when the central rotating rod 21 continues to rotate, the clamp arm 29 drives the metal sheet 71 to rotate to pass through the inclined plane 74, the metal sheet 71 is pressed downwards, so that the clamp arm 29 is pushed to open leftwards and rightwards and slide upwards, meanwhile, the clamping clamp block 34 is pushed forwards, so that the clamping block 34 and the buffering clamp block 32, and the metal sheet 71 pushes the side clamping blocks 36 downward toward both sides, so that the side clamping blocks 36 clamp the metal sheet 71.

When the fixture rotates the left part of the working chamber 11, the metal sheet 71 is clamped between the rotary pressing block 56 and the spinning die 81, the engaging gear 25 is engaged with the transmission gear 42, the power spline shaft 13 drives the power spline housing 38 to rotate, so that the spinning spline shaft 57 is driven to rotate by the engagement transmission of the rotary bevel gear 58 and the power bevel gear 59, so that the spinning spline housing 55 is driven to rotate, so that the driving gear 51 is driven to rotate, meanwhile, the central shaft 65 drives the die shaft 69 to rotate by the belt transmission of the driving pulley 66 and the engaging pulley 68, so that the spinning die 81 is driven to rotate, meanwhile, the power spline housing 38 drives the spinning threaded shaft 46 to rotate by the engagement transmission of the driving bevel gear 48 and the engaging bevel gear 47, so that the spinning mounting block 49 is driven to slide backwards by the threaded connection with the spinning mounting block 49, and simultaneously, the driven shaft 41 is driven to rotate, thereby driving the clamp threaded rod 24 to rotate through the meshing transmission of the transmission gear 42 and the engaging gear 25, driving the clamp mounting block 26 and the spinning mounting block 49 to synchronously slide backwards through the threaded connection with the clamp mounting block 26, driving the spinning slider 53 to slide backwards through the backward sliding of the spinning mounting block 49, driving the rotating slider 56 and the spinning die 81 to clamp the metal sheet 71 together, driving the spinning block 50 to continuously slide by the spinning mounting block 49 to spin-machine the metal sheet 71 into a metal piece 78, when the spinning mounting block 49 slides backwards to the rearmost end, pulling out all the pulling ropes 63 on the bobbin 64, pulling the pulling ropes 63, pulling the rack pressing block 62 backwards, driving the rack slider 60 to slide rightwards through the driven gear 61, separating the driving bevel gear 48 from the engaging bevel gear 47, separating the power bevel gear 59 from the rotating bevel gear 58, engaging the driving bevel gear 39 with the driven bevel gear 40, therefore, the power spline housing 38 drives the driven shaft 41 to rotate reversely through the meshing transmission of the transmission bevel gear 39 and the driven bevel gear 40, so as to drive the spinning mounting blocks 49 and the clamp mounting blocks 26 to slide forwards, so that the clamp arms 29 take down the metal piece 78, then the central rotating rod 21 continues to rotate, so that the clamp mechanism rotates to the lower part of the working cavity 11, and the metal piece 78 is in contact with the wedge-shaped pushing block 79 and is ejected out from between the clamp arms 29 by the wedge-shaped pushing block 79 to fall to the bottom of the working cavity 11.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an automatic metal spinning equipment, includes the organism, its characterized in that: a working cavity is arranged in the machine body, a clamp mechanism is arranged in the middle of the working cavity, a feeding mechanism is arranged at the upper part of the working cavity, a spinning mechanism is arranged at the left part of the working cavity, and a discharging mechanism is arranged at the lower part of the working cavity;

the fixture mechanism comprises a central rotating rod rotatably mounted in the middle of the working cavity, rotating discs are fixedly mounted at the front end and the rear end of the central rotating rod, four guide rods are fixedly mounted between the rotating discs in a centrosymmetric manner, fixture threaded rods are rotatably mounted at the front ends of the fixture threaded rods, four fixture mounting blocks which are centrosymmetric by taking the central rotating rod as the center are mounted on the fixture threaded rods in a threaded manner, the fixture mounting blocks are slidably mounted on the guide rods in a front-and-rear manner, two symmetrical connecting rods are rotatably mounted in the middle of the fixture mounting blocks, the other ends of the connecting rods are rotatably mounted on fixture arms, the fixture arms are slidably mounted on pull rods, the pull rods are fixedly mounted on tensioning slide blocks, the tensioning slide blocks are slidably mounted on two sides of the fixture mounting blocks, and tensioning springs are arranged between the tensioning slide blocks, the clamp comprises a clamp arm and is characterized in that a buffer clamping block is arranged at the top end of the clamp arm in a sliding manner, a buffer spring is arranged between the buffer clamping block and the clamp arm, the front part of the buffer clamping block is provided with a front clamping block and a rear clamping block which are arranged in the clamp arm in a sliding manner, the clamp clamping block is provided with a clamping spring between the clamp arms, the clamp mounting block is far away from one side of a central rotating rod and is provided with a side clamping block in a sliding manner, and the side clamping block is provided with a side clamping spring between the clamp mounting.

2. The automatic metal spinning apparatus of claim 1, wherein: spinning mechanism including rotate install in the left spinning screw shaft of working chamber antetheca, spinning installation piece is installed to spinning screw epaxial screw thread, sliding mounting around spinning installation piece in the working chamber antetheca, spinning installation piece rear portion horizontal sliding mounting has spinning block, spinning block with be provided with the spinning spring between the spinning installation piece, spinning block right rear side rotates installs spinning gyro wheel, sliding mounting has the spinning slider around spinning installation piece right side, the spinning slider with be provided with pressure spring between the spinning installation piece, rotate in the spinning slider and install the spinning spline housing, spinning spline housing rear end fixed mounting has the rotation briquetting.

3. The automatic metal spinning apparatus of claim 2, wherein: feed mechanism including set up in deposit the chamber in the working chamber upper wall, slidable mounting has the push pedal around in depositing the chamber, the push pedal rear side be provided with the thrust spring that the organism is connected, it is provided with the inclined plane to deposit chamber front side export department the left side, the inclined plane below be provided with horizontal slidable mounting in baffle on the working chamber upper wall, baffle and fixed mounting in be provided with between the counter-push pedal on the working chamber and block the spring, unloading mechanism including around slidable mounting in the wedge ejector pad of working chamber antetheca downside, wedge ejector pad front side be provided with the unloading spring that the organism is connected.

4. The automatic metal spinning apparatus of claim 3, wherein: the machine body is characterized in that a motor is arranged on the front side of the machine body, a power spline shaft is connected to the left side of the motor, a steering bevel gear is fixedly mounted on the power spline shaft, an output bevel gear is connected to the rear side of the steering bevel gear in a meshed manner, the output bevel gear is fixedly mounted on a central shaft, the central shaft is rotatably mounted in the machine body, a central rotating rod is rotatably mounted on the central shaft, a reduction gear is fixedly mounted on the central shaft, a rotating gear is meshed with the left side of the reduction gear and fixedly mounted on the reduction shaft, the reduction shaft is rotatably mounted in the front wall of the working cavity, a shifting wheel is fixedly mounted on the reduction shaft, a grooved wheel is connected to the right side of the shifting wheel in.

5. The automatic metal spinning apparatus of claim 4, wherein: the spinning mechanism further comprises a power spline housing arranged on the power spline shaft through a spline, a transmission bevel gear, a driving bevel gear and a power bevel gear are fixedly arranged on the power spline housing, the rear side of the power bevel gear is meshed with the rotation bevel gear, the rotation bevel gear is fixedly arranged on the spinning spline shaft, the spinning spline shaft is rotatably arranged in the machine body, the spinning spline housing is arranged on the spinning spline shaft through a spline, the rear side of the driving bevel gear is meshed with a linking bevel gear, the linking bevel gear is fixedly arranged at the front end of the spinning threaded shaft, a transmission belt wheel is fixedly arranged on the spinning threaded shaft, the transmission belt wheel is connected with a driven belt through a transmission belt, the driven belt wheel is fixedly arranged on a driven shaft, the driven shaft is rotatably arranged in the machine body, the driven bevel gear capable of being meshed with the transmission bevel gear and the driven bevel gear capable The drive gear of (1), power spline housing left end rotate install horizontal slidable mounting in rack slider in the organism, rack slider upside meshing is connected with driven gear, driven gear right side meshing is connected with the rack briquetting, rack briquetting rear side be provided with rotate install in the haulage rope that the bobbin of spinning installation piece front end is connected, center pin rear end fixed mounting has driving pulley, driving pulley passes through driving belt and links up the band pulley and be connected, it is epaxial in the mould to link up band pulley fixed mounting, mould axle rotate install in the working chamber back wall and with the integral key shaft spinning is coaxial, mould axle front end fixed mounting has spinning mould.