CN107309332B

CN107309332B - Full-automatic pearl hammering machine

Info

Publication number: CN107309332B
Application number: CN201710541193.5A
Authority: CN
Inventors: 尹汉成
Original assignee: Dongguan Meihe Jewelry Co ltd
Current assignee: Dongguan Meihe Jewelry Co ltd
Priority date: 2017-07-05
Filing date: 2017-07-05
Publication date: 2023-03-07
Anticipated expiration: 2037-07-05
Also published as: CN107309332A

Abstract

A full-automatic bead hammering machine comprises a frame, and a feeding mechanism, a rotating device, a lifting device, a stamping device and a discharging device which are arranged on the frame; the feeding mechanism, the rotating device, the lifting device, the stamping device and the discharging device are matched with one another to complete the processing of the olive beads. The feeding mechanism and the discharging device are respectively arranged on the left side and the right side of the stamping device, the rotating device is movably connected to the feeding mechanism, and the lifting device is fixedly arranged on the feeding mechanism. The feeding mechanism feeds the raw material pipe into the stamping device, the stamping device performs stamping processing on the raw material pipe, and the olive bead pipe processed by the stamping device is led out from the discharging device. The invention has simple processing steps, high production efficiency and excellent product quality, and is suitable for mass production. In addition, the full-automatic hammer bead machine has the advantages of simple structure, simplicity and convenience in maintenance, compact layout among devices, greatly reduced size, energy conservation, environmental friendliness, high safety, strong practicability and strong popularization significance.

Description

Full-automatic pearl hammering machine

Technical Field

The invention relates to accessory processing equipment, in particular to a full-automatic bead hammering machine.

Background

Bead-shaped ornaments such as hollow round beads, olive-shaped beads and the like are common ornaments in various gold, platinum and other products, and are usually used on ornaments such as necklaces, earrings, pendants and the like. In the past, when jewelry processing enterprises manufacture the bead-shaped jewelry, manual operation is usually carried out by adopting a manual punching machine. However, the processing mode causes great labor intensity of workers and low processing efficiency, and the quality of the manufactured product is also influenced by external factors such as the technical proficiency of the workers, and the stability is poor. At present, some enterprises use mechanical bead hammering machines, however, the existing bead hammering machines have large size, heavy weight, complex structure, troublesome maintenance and low intelligence degree, so that the cost of bead-shaped ornaments is overhigh.

Disclosure of Invention

Therefore, the invention aims to provide a full-automatic bead hammering machine to solve the problem that the processing efficiency of the existing hollow bead-shaped ornament is low.

In order to achieve the purpose, the invention mainly adopts the following technical scheme:

a full-automatic bead hammering machine is used for processing a strip-shaped raw material pipe into an olive bead pipe, wherein the olive bead pipe comprises a plurality of sequentially connected olive beads; the full-automatic bead hammering machine comprises a rack, and a feeding mechanism, a rotating device, a lifting device, a stamping device and a discharging device which are arranged on the rack, wherein the feeding mechanism and the discharging device are respectively arranged on the left side and the right side of the stamping device; the feeding mechanism comprises a material guiding device and a material feeding device, the material guiding device comprises a material guiding pipe, a limiting plate and a material guiding piece, the limiting plate and the material guiding piece are respectively arranged at two ends of the material guiding pipe, a transmission gear is arranged on the material guiding pipe, and the material feeding device is arranged between the limiting plate and the transmission gear; the rotating device comprises a first sliding rail and a first sliding block, the first sliding rail is fixedly arranged on the rack, the first sliding block is arranged in the first sliding rail, a rack is arranged on the inner side surface of the lower end of the first sliding block, and the rack is meshed with a transmission gear on the material guide pipe; the lifting device comprises a second sliding rail and a second sliding block, the second sliding rail is fixedly arranged on the rack, the second sliding block is clamped in the second sliding rail, a shell is arranged on the outer side of the transmission gear, and the bottom end of the second sliding block is fixedly arranged on the top surface of the shell; the stamping device comprises a stamping die, and the stamping die comprises an upper die and a lower die which correspond to each other up and down; the raw material pipe certainly the guide device penetrates extremely carry out stamping process in the stamping die, rotary device drives the raw material pipe rotation and carries out all-round processing, material feeding unit sends into the raw material pipe to the stamping die in and outside the olive pearl pipe that will process shifts out stamping die, the olive pearl pipe that has processed certainly discharging device derives to next manufacturing procedure.

The driving device comprises a rotating shaft, a driving motor for driving the rotating shaft to rotate, and a first eccentric wheel, a second eccentric wheel, a third eccentric wheel and a fourth eccentric wheel which are sleeved on the rotating shaft; the first eccentric wheel, the second eccentric wheel, the third eccentric wheel and the fourth eccentric wheel respectively drive the feeding device, the rotating device, the lifting device and the stamping device to work.

Further, material feeding unit includes drive roller, support and last drive roller down, support swing joint in the frame, it installs in the lower extreme of support to go up the drive roller, goes up the drive roller and sets up in the top of drive roller down.

Further, the first eccentric drives the carriage to move downward.

Further, the support is integrally inclined towards the limiting plate, the first eccentric wheel drives the support to move downwards, the lower driving roller rotates towards the limiting plate, and the upper driving roller moves towards the rear lower side and pushes the limiting plate backwards.

Further, the rack comprises a base, a workbench arranged on the top surface of the base and a mounting rack arranged on the base; the feeding mechanism, the stamping device and the discharging device are sequentially and transversely arranged on the workbench, and the rotating device and the lifting device are vertically arranged on the mounting frame side by side.

Furthermore, a mounting seat is further arranged on the outer side of the material guiding piece, the mounting seat is fixedly arranged on the workbench, the shell is accommodated in the mounting seat, and the limiting plate and the material guiding piece are respectively arranged on two sides of the shell.

Furthermore, the top end of the mounting seat is also provided with a limiting rod, the limiting rod is connected to two side walls of the mounting seat far away from one side of the lifting device, and the limiting rod limits the shell.

Furthermore, a limiting frame is arranged on each of the feeding mechanism and the discharging device, a limiting hole is formed in each limiting frame, and the raw material pipe penetrates into the material guide device from the limiting hole or is led out from the limiting hole of the discharging device.

Furthermore, the full-automatic ball hammering machine further comprises an induction device, the induction device is arranged between the limiting frame and the limiting plate of the feeding mechanism, when the induction device cannot induce the raw material pipe, the induction device sends a signal to the punching device, and after a buffering time, the punching device automatically stops working.

In conclusion, the material guide mechanism, the rotating device, the lifting device and the stamping device are arranged and matched with one another, so that the processing steps are simple, the production efficiency is high, the product quality is excellent, and the method is suitable for mass production. In addition, the full-automatic bead hammering machine is simple in structure, simple and convenient to maintain, compact in layout among devices, energy-saving, environment-friendly, high in safety and practicability, and has strong popularization significance, and the size of the bead hammering machine is greatly reduced.

Drawings

Fig. 1 is a schematic structural view of a raw material pipe before processing and after processing into olive bead pipes.

FIG. 2 is a schematic structural diagram of an embodiment of a full-automatic bead hammering machine according to the present invention.

Fig. 3 is a schematic view of the assembly between the feeding device and the limiting plate in fig. 2.

Fig. 4 is a schematic structural view of the material guiding device, the rotating device and the lifting device in fig. 1.

Fig. 5 is a schematic structural view of the punching device in fig. 1.

Fig. 6 is a top view of a portion of the structure of fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 2 to 6, the invention provides a full-automatic bead hammering machine, which is used for processing a metal raw material pipe 100 into an olive bead pipe 101, wherein the olive bead pipe 101 comprises a plurality of sequentially connected olive beads 102. In this embodiment, the metal material pipe 100 is made of gold.

The full-automatic bead hammering machine comprises a machine frame 10, and a feeding mechanism 20, a rotating device 30, a lifting device 40, a stamping device 50 and a discharging device 60 which are arranged on the machine frame 10. The feeding mechanism 20 and the discharging device 60 are respectively arranged at the left side and the right side of the stamping device 50, the rotating device 30 is movably connected to the feeding mechanism 20, and the lifting device 40 is fixedly arranged on the feeding mechanism 20. The feeding mechanism 20 feeds the raw material pipe 100 into the stamping device 50, the stamping device 50 performs stamping processing on the raw material pipe 100, and the olive bead pipe 101 processed by the stamping device 50 is led out from the discharging device 60.

The frame 10 includes a base 11, a worktable 12 disposed on the top surface of the base 11, and a mounting bracket 13 disposed on the worktable 12. The feeding mechanism 20, the stamping device 50 and the discharging device 60 are sequentially and transversely arranged on the workbench 12, the rotating device 30 and the lifting device 40 are vertically arranged on the mounting frame 13 side by side, the lower end of the rotating device 30 is movably connected to the feeding mechanism 20, and the lower end of the lifting device 40 is fixedly arranged on the feeding mechanism 20. The feeding mechanism 20 includes a limiting frame 21, a material guiding device 22 and a feeding device 23, wherein the limiting frame 21 and the stamping device 50 are respectively disposed on the left and right sides of the material guiding device 22. A limiting long hole (not shown) is formed on the limiting frame 21, and the raw material pipe 100 penetrates into the material guiding device 22 through the limiting long hole. In addition, the discharging device 60 also includes the limiting frame 21.

The material guiding device 22 includes a material guiding pipe 221, a limiting plate 222 and a material guiding member 223, wherein the material guiding member 223 and the limiting plate 222 are respectively disposed at two ends of the material guiding pipe 221. A transmission gear (not shown) is disposed on an outer surface of the material guide pipe 221, and a rack 34 is disposed at a lower end of the rotating device 30, and the rack 34 is engaged with the transmission gear. The material guiding device 22 further includes a housing 224 and a mounting base 225, the mounting base 225 is fixedly disposed on the working platform 12, a containing groove (not shown) with an upward opening is disposed on the mounting base 225, and the housing 224 is disposed in the containing groove. The transmission gear is accommodated in the housing 224, and the position-limiting plate 222 and the material-guiding member 223 are respectively located at two outer sides of the mounting seat 225. The top end of the mounting seat 225 is further provided with a limiting rod 226, and the limiting rod 266 is used for limiting the shell 224. In addition, a plurality of buffer springs are further arranged between the bottom of the shell 224 and the mounting base 225, so that the shell 224 is prevented from colliding with the mounting base 225 in the lifting process.

The full-automatic ball hammering machine further comprises a driving device, the driving device comprises a rotating shaft 70, a driving motor 71 for driving the rotating shaft 70 to rotate, and a first eccentric wheel 235, a second eccentric wheel 35, a third eccentric wheel 45 and a fourth eccentric wheel 55 which are sleeved on the rotating shaft 70, and the rotating shaft 70 is arranged at the top of the mounting frame 13. The feeding device 23, the rotating device 30, the lifting device 40 and the stamping device 50 are respectively provided with a return device, and the first eccentric wheel 235, the second eccentric wheel 35, the third eccentric wheel 45 and the fourth eccentric wheel 55 are respectively matched with a return device to drive the feeding device 23, the rotating device 30, the lifting device 40 and the stamping device 50 to complete processing.

The feeding device 23 includes a feeding motor 231, a lower driving roller 232, a bracket 233 and an upper driving roller 234, the feeding motor 231 is installed on the working table 12, and the lower driving roller 232 is installed on the feeding motor 231. The bracket 233 is movably mounted on the mounting frame 13 through a rotating shaft, and the whole bracket 233 is disposed to be inclined toward the limiting plate 222. The upper driving roller 234 is mounted at the bottom end of the bracket 233; the lower driving roller 232 and the upper driving roller 234 are arranged oppositely up and down; the top end of the bracket 233 abuts against the first eccentric wheel 235. The rotating shaft 70 drives the first eccentric wheel 235 to rotate, the first eccentric wheel 235 presses the bracket 233 downwards, and the bracket 233 moves downwards. When the first eccentric wheel 235 moves away from the bracket 233, the return device on the bracket 233 moves the bracket 233 up to return to the original position.

The rotating device 30 includes a first connecting frame 31, a first slide rail 32 and a first sliding block 33, the first slide rail 32 is fixedly disposed on the mounting frame 13, the first sliding block 33 is disposed in the first slide rail 32, and the first sliding block 33 can move up and down in the first slide rail 32. The first connecting frame 31 is fixedly arranged at the top end of the first sliding block 33, and the top end of the first connecting frame 31 abuts against the second eccentric wheel 35. The inner side surface of the lower end of the first sliding block 33 is provided with a rack 34, and the rack 34 is meshed with the driving gear on the material guiding device 22. The rotating shaft 70 drives the second eccentric wheel 35 to rotate, and the second eccentric wheel 35 drives the first connecting frame 31 to move upwards and drives the material guiding device 22 to rotate. When the second eccentric wheel 235 is far away from the first connecting frame 31, the return device on the second eccentric wheel 235 moves the first connecting frame 31 downwards to return to the original position.

The lifting device 40 is fixedly disposed on the top surface of the housing 224, the lifting device 40 includes a second connecting frame 41, a second sliding rail 42 and a second sliding block 43, and the second sliding rail 42 is fixedly disposed on the mounting frame 13. The second sliding block 43 is installed in the second sliding rail 42, the second sliding block 43 can move up and down in the second sliding rail 42, and the bottom end of the second sliding block 43 is fixedly installed on the top surface of the housing 224. The second connecting frame 41 is installed on the top end of the second sliding block 43, and the top end of the second connecting frame 41 abuts against the third eccentric wheel 45. The rotating shaft 70 drives the third eccentric wheel 45 to rotate, and the third eccentric wheel 45 drives the second receiving frame 41 to move upwards and drive the material guiding device 22 and the raw material tube to move upwards. A return device is arranged on the second connecting frame 41, and when the third eccentric wheel 45 is far away from the second connecting frame 41, the return device on the third eccentric wheel 45 moves the material guiding device 22 downwards to return to the original position.

The stamping device 50 comprises a third connecting frame 51, a positioning block 52 and a stamping die, wherein the stamping die comprises an upper die 53 and a lower die 54, the lower die 54 is arranged on the workbench 12, and the upper die 53 covers the lower die 54. The top of the upper mold 53 is provided with a limiting part, the limiting part is clamped in the positioning block 52, and the limiting part can drive the upper mold 53 to move up and down in the positioning block 52, so that the upper mold 53 is opened or covered on the lower mold 54. The rotating shaft 70 drives the fourth eccentric wheel 55 to rotate, and the fourth eccentric wheel 55 drives the third connecting frame 51 to move downwards, so that the upper die 53 is clamped on the lower die 54 for punching. When the fourth eccentric wheel 45 is far away from the third connecting frame 51, the return device on the fourth eccentric wheel 45 moves the upper die 53 upwards to open the stamping die.

The full-automatic bead hammering machine further comprises an induction device, and the induction device is arranged between the limiting frame 21 on the feeding mechanism 20 and the limiting plate 222. When the raw material pipe 100 is not sensed by the sensing device, the sensing device sends a signal to the punching device 50, and after a buffer time, the punching device 50 automatically stops working, thereby avoiding unnecessary electric energy waste and equipment abrasion. Wherein the buffering time is a time required for finishing the processing of the remaining raw material pipe 100 when the sensing device cannot sense the raw material pipe. In addition, an illuminating device 80 is further arranged on the outer side of the stamping device 50, and the arrangement of the illuminating device 80 is beneficial for workers to check the processing condition of the stamping device 50 at any time.

When the full-automatic bead hammering machine works, the raw material pipe 100 is loaded into the stamping device 50 from the feeding device 20, and the stamping device 50 performs stamping processing on the raw material pipe 100 inside the stamping device; after the olive beads are processed in one direction; the stamping die is opened, the rotating device 30 drives the material guiding device 22 and the raw material pipe in the material guiding device 22 to rotate for an angle, then the stamping die is closed again, and the steps are repeated in sequence until the raw material pipe 100 rotates for a circle to form a complete olive ball. It is understood that the stamping die can also stamp a plurality of olive beads simultaneously.

After the olive ball is punched, the punching die is in a die closing state, and the raw material pipe 100 is clamped in the punching die; the first eccentric wheel 235 presses the bracket 233 downwards, meanwhile, the lower roller 232 rotates towards the direction of the limiting plate 222, and as the bracket 233 is wholly inclined towards the direction of the limiting plate 222, under the action of the downward force of the first eccentric wheel 235 and the backward thrust of the lower roller 232, the lower roller 232 drives the bracket 233 to move towards the back lower part and press the limiting plate 222; since the raw material tube 100 is still held in the pressing device 50 and cannot move, the stopper plate 222 only moves the material guide 22 backward, so that the length of the raw material tube 100 between the material guide 22 and the pressing device 50 is increased.

When the length of the raw material pipe between the material guiding device 22 and the stamping device 50 is increased, the upper die 53 is opened upwards, and at the same time, the lifting device 40 drives the material guiding device 20 to move upwards until the olive pipe in the stamping die moves upwards and is erected between the upper die 53 and the lower die 52, the first eccentric wheel 235 leaves the bracket 233 of the feeding device 23, the pressure of the first eccentric wheel 235 on the bracket 233 disappears, the bracket 233 drives the upper driving wheel 234 to move forwards and upwards, so that the pressure of the bracket 233 on the limiting plate 222 disappears, the limiting plate 222 pushes the material guiding device 22 to move forwards, and the material guiding device 22 drives the raw material pipe 100 to move towards the stamping device 50, so that the feeding of the raw material pipe 100 is realized. Then, the elevating device 40 moves downward to replace the material guider 22, and the upper die 53 of the press device 50 covers the lower die 54 to perform the press process, and this process is repeated. Finally, the processed olive ball tube is gradually moved out of the discharging device 60 and then is guided out of the discharging device 60, and the olive ball tube is cut into single olive balls through shearing in the next working procedure.

In summary, the material guiding mechanism 20, the rotating device 30, the lifting device 40 and the stamping device 50 are arranged, and the material guiding mechanism 20, the rotating device 30, the lifting device 40 and the stamping device 50 are matched with each other, so that the processing steps are simple, the production efficiency is high, the product quality is excellent, and the method is suitable for mass production. In addition, full-automatic hammer pearl machine's simple structure, the maintenance is simple and convenient, and the overall arrangement between each device is compact, has reduced the volume of hammer pearl machine greatly, and energy-concerving and environment-protective and security is high, and the practicality is strong, has stronger popularization meaning.

The above-mentioned embodiments only express one embodiment of the invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the invention patent should be subject to the appended claims.

Claims

1. A full-automatic bead hammering machine is used for processing a strip-shaped raw material pipe into an olive bead pipe, wherein the olive bead pipe comprises a plurality of sequentially connected olive beads; the method is characterized in that: the full-automatic bead hammering machine comprises a rack, and a feeding mechanism, a rotating device, a lifting device, a stamping device and a discharging device which are arranged on the rack, wherein the feeding mechanism and the discharging device are respectively arranged on the left side and the right side of the stamping device; the feeding mechanism comprises a material guiding device and a material feeding device, the material guiding device comprises a material guiding pipe, a limiting plate and a material guiding piece, the limiting plate and the material guiding piece are respectively arranged at two ends of the material guiding pipe, a transmission gear is arranged on the material guiding pipe, and the material feeding device is arranged between the limiting plate and the transmission gear; the rotating device comprises a first sliding rail and a first sliding block, the first sliding rail is fixedly arranged on the rack, the first sliding block is arranged in the first sliding rail, a rack is arranged on the inner side surface of the lower end of the first sliding block, and the rack is meshed with a transmission gear on the material guide pipe; the lifting device comprises a second sliding rail and a second sliding block, the second sliding rail is fixedly arranged on the rack, the second sliding block is clamped in the second sliding rail, a shell is arranged on the outer side of the transmission gear, and the bottom end of the second sliding block is fixedly arranged on the top surface of the shell; the stamping device comprises a stamping die, and the stamping die comprises an upper die and a lower die which correspond to each other up and down; the raw material pipe from the guide device penetrates to carry out stamping process in the stamping die, rotary device drives the raw material pipe rotation and carries out all-round processing, material feeding unit sends into the raw material pipe to the stamping die in and with the olive pearl pipe that has processed outside shifting out the stamping die, the olive pearl pipe that has processed is from discharging device derives to next manufacturing procedure.

2. The full-automatic bead hammering machine according to claim 1, characterized in that: the driving device comprises a rotating shaft, a driving motor for driving the rotating shaft to rotate, and a first eccentric wheel, a second eccentric wheel, a third eccentric wheel and a fourth eccentric wheel which are sleeved on the rotating shaft; the first eccentric wheel, the second eccentric wheel, the third eccentric wheel and the fourth eccentric wheel respectively drive the feeding device, the rotating device, the lifting device and the stamping device to work.

3. The full-automatic bead hammering machine according to claim 2, wherein: material feeding unit includes drive roller, support and last drive roller down, support swing joint in the frame, it installs in the lower extreme of support to go up the drive roller, goes up the drive roller and sets up in the top of drive roller down.

4. The full-automatic bead hammering machine according to claim 3, characterized in that: the first eccentric wheel drives the bracket to move downwards.

5. The full-automatic bead hammering machine according to claim 4, characterized in that: the support is integrally arranged towards the limiting plate in an inclined mode, the first eccentric wheel drives the support to move downwards, the lower driving roller rotates towards the limiting plate, and the upper driving roller moves towards the rear lower side and pushes the limiting plate backwards.

6. The full-automatic bead hammering machine according to claim 1, characterized in that: the rack comprises a base, a workbench arranged on the top surface of the base and a mounting frame arranged on the base; the feeding mechanism, the stamping device and the discharging device are sequentially and transversely arranged on the workbench, and the rotating device and the lifting device are vertically arranged on the mounting frame side by side.

7. The full-automatic bead hammering machine according to claim 6, characterized in that: the outer side of the material guiding piece is further provided with a mounting seat, the mounting seat is fixedly arranged on the workbench, the shell is contained in the mounting seat, and the limiting plate and the material guiding piece are respectively arranged on two sides of the shell.

8. The full-automatic bead hammering machine according to claim 7, wherein: the top end of the mounting seat is further provided with a limiting rod, the limiting rod is connected to two side walls of the mounting seat far away from one side of the lifting device, and the limiting rod limits the shell.

9. The full-automatic bead hammering machine according to claim 1, characterized in that: and the feeding mechanism and the discharging device are both provided with a limiting frame, the limiting frame is provided with a limiting hole, and the raw material pipe penetrates into the material guide device from the limiting hole or is led out from the limiting hole of the discharging device.

10. The full-automatic bead hammering machine according to claim 9, wherein: the full-automatic bead hammering machine further comprises an induction device, wherein the induction device is arranged between the limiting frame and the limiting plate of the feeding mechanism, when the induction device cannot induce a raw material pipe, the induction device sends a signal to the stamping device, and after a buffering time, the stamping device automatically stops working.