CN110652083A

CN110652083A - Automatic double-side micro-carving machine for turning pattern

Info

Publication number: CN110652083A
Application number: CN201910890753.7A
Authority: CN
Inventors: 刘华昌; 朱冬亮; 陈文娟
Original assignee: Laofengxiang Dongguan Jewelry Co Ltd
Current assignee: Laofengxiang Dongguan Jewelry Co Ltd
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2020-01-07
Anticipated expiration: 2039-09-20
Also published as: CN110652083B

Abstract

The utility model provides an automatic two-sided miniascape machine of turning patterns, its includes the frame and installs trade a device, car flower device, positioner in the frame, be provided with a mounting bracket in the frame, trade a device and car flower device and all install on the mount pad, positioner installs on the frame top surface, and positioner and trade a device, car flower device are relative setting from top to bottom. And after the processing is finished, the surface changing device changes the unprocessed surface of the to-be-processed flower piece to the upper part to carry out flower processing again. According to the invention, the first material clamping device and the second material clamping device are arranged to perform face changing processing on the pattern piece to be turned, so that automatic double-face turning of the sheet-shaped ornament can be realized, and the automation degree and the production efficiency are high. The positioning device for opening and closing by arranging the compression spring can improve the stroke precision of the opening and closing clamping materials and the softness during closing, and can avoid damage to the ornaments caused by overlarge stroke of the clamping materials made of soft materials.

Description

Automatic double-side micro-carving machine for turning pattern

Technical Field

The invention relates to ornament processing equipment, in particular to an automatic double-sided micro-carving lathing machine.

Background

The jewelry is a wearing ornament, a craft ornament or an artistic collection which is made of raw materials such as jewelry jades, precious metals and the like and semi-finished products. At present, a plurality of flaky precious metal ornaments are arranged in the jewelry and ornaments, and most flaky ornaments are provided with patterns which need a pattern turning machine to carry out pattern turning processing. For ornaments with two surfaces needing to be turned with patterns, the traditional processing method is to process one surface firstly, then manually change the surface of the ornament and then process the other surface, however, the manual surface changing method has low working efficiency and high labor intensity after working for a long time.

In addition, when the decorating machine carries out decorating processing on the ornaments, the decorating machine is generally provided with a corresponding positioning device for positioning. However, when the conventional embroidery machine is used for machining ornaments with different specifications, different positioning devices need to be replaced or complicated specification adjustment needs to be performed, and the operation is extremely inconvenient.

Disclosure of Invention

Therefore, the invention aims to provide an automatic double-sided micro-carving pattern turning machine to solve the problems that a traditional pattern turning machine is low in pattern turning efficiency and cannot perform automatic double-sided pattern turning.

An automatic double-sided micro-carving lathing machine is used for carrying out double-sided lathing on a sheet-shaped ornament; the automatic double-sided micro-carving pattern turning machine comprises a rack, and a face changing device, a pattern turning device and a positioning device which are arranged on the rack, wherein a mounting frame is arranged on the rack, a first moving block is arranged on a mounting seat and can move left and right along the mounting frame, and the face changing device and the pattern turning device are arranged on the first moving block; the positioning device is arranged on the top surface of the frame and is arranged opposite to the surface changing device and the flower turning device up and down; the noodle changing device comprises a driving device, a first clamping device and a second clamping device, wherein the first clamping device is provided with a first clamping part which is horizontally arranged, and the second clamping device is provided with a second clamping part which vertically extends; the pattern turning device comprises a pattern turning driving device and a cutter device arranged on the pattern turning device, and the pattern turning driving device drives the cutter device to move up and down and rotate; the positioning device comprises a shell, an air cylinder, a positioning shaft, a compression spring, a limiting piece, a limiting sleeve assembly and a rotating device, wherein the top surface of the shell is provided with a through hole which penetrates through the shell from top to bottom, the positioning shaft penetrates through the through hole, and the limiting sleeve assembly is sleeved outside the positioning shaft; the top of the positioning shaft is provided with a positioning part which is arranged in a horn shape with gradually increased outer diameter from inside to outside, and the middle part of the end face of the outer side of the positioning part is also provided with a containing groove for installing the sheet ornaments; the outer side end face of the positioning part extends inwards to form a cross-shaped separation groove which separates the positioning part into a plurality of extension blocks; the outer diameter of the maximum position of the positioning part is larger than the inner diameter of the limiting sleeve component; the compression spring is sleeved on the positioning shaft in the shell, and the limiting piece is screwed on the positioning shaft below the compression spring; the cylinder is arranged in the shell, an ejection rod extends outwards in the cylinder, and the ejection rod and the positioning shaft are arranged in an up-and-down opposite mode; the rotating device is connected to the positioning shaft and can drive the positioning shaft to rotate.

Furthermore, the limiting sleeve assembly comprises an upper shell, an outer cover and an inner shell, the inner shell is arranged in the through hole in a penetrating mode and limited in the outer shell, and the upper shell is arranged on the inner shell extending out of the outer shell; the outer cover covers the upper cover on the outer side of the outer shell and the outer side of the inner shell.

Furthermore, a driving gear is arranged on the rotating device, a transmission gear is further arranged on the positioning shaft, the driving gear and the transmission gear are connected through a belt or directly meshed with each other, and the driving gear drives the transmission gear to rotate.

Furthermore, the first clamping device further comprises a first driving device arranged on the first clamping part and a first moving seat arranged on the first moving block, and the first clamping part is arranged on the first moving seat; the first driving device drives the first clamping part to rotate.

Furthermore, the first clamping device further comprises a first mounting seat arranged on the first moving block and a second driving device arranged on the first moving seat, and the first moving seat is arranged on the first mounting seat.

Furthermore, the first material clamping device further comprises an opening and closing driving device, a clamping jaw is arranged at the end part of the first clamping part, and the opening and closing driving device is used for driving the clamping jaw to be opened or closed.

Furthermore, the second clamping device further comprises a second moving seat arranged on the first moving block and a third driving device arranged on the second moving seat, the second clamping part is arranged on the second moving seat, and the third driving device drives the second moving seat to move up and down.

Furthermore, the second clamping device further comprises a fourth driving device arranged on the second clamping part, a clamping jaw is arranged at the end part of the second clamping part, and the fourth driving device drives the clamping jaw of the second clamping part to open or close.

Furthermore, the flower turning device further comprises a third moving seat, a guide block which extends vertically is further arranged on the first moving block, and the third moving seat is arranged on the guide block and can move up and down along the guide block to carry out flower turning or keep away.

Furthermore, the turning device further comprises a rotating frame arranged on the third movable seat, the cutter device is arranged on the rotating frame, and the rotating frame can drive the cutter device to rotate so as to adjust the angle.

In conclusion, the first material clamping device and the second material clamping device are arranged to perform face changing processing on the pattern piece to be turned, so that automatic double-face turning of the sheet-shaped ornament can be achieved, and the automation degree and the production efficiency are high. The positioning device for opening and closing by arranging the compression spring can improve the stroke precision of the opening and closing clamping materials and the softness during closing, and can avoid damage to the ornaments caused by overlarge stroke of the clamping materials made of soft materials. In addition, the design of the rotating device not only can realize the processing of the whole surface of the sheet ornament, but also can realize the processing of various patterns through rotation; the invention has strong practicability and stronger pushing significance.

Drawings

FIG. 1 is a schematic structural diagram of an automatic double-sided micro-engraving and lathing machine of the present invention;

FIGS. 2 and 3 are schematic views of the frame of the chip stitching machine of FIG. 1 from other perspectives, wherein the frame portion of FIG. 3 is not shown;

FIG. 4 is a cross-sectional view of the positioning device of FIG. 1;

FIG. 5 is a schematic view of the internal structure of the positioning device in FIG. 4;

fig. 6 is a schematic structural view of the positioning shaft in fig. 5.

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. 1 to fig. 6, the present invention provides an automatic double-sided micro-carving machine for double-sided carving of a sheet-shaped ornament 100. The automatic double-sided micro-carving car flower piece machine comprises a frame 10, a face changing device 20, a car flower device 30 and a positioning device 40, wherein the face changing device 20, the car flower device 30 and the positioning device 40 are arranged on the frame 10, a mounting frame is arranged on the frame 10 and comprises two mounting columns 11 and mounting seats 12 arranged on the two mounting columns 11. The face-changing device 20 and the flower turning device 30 are both mounted on the mounting base 12, the positioning device 40 is mounted on the top surface of the frame 10, and the positioning device 40 is arranged opposite to the face-changing device 20 and the flower turning device 30 in the vertical direction.

A first moving block 13 is arranged on the side surface of the mounting seat 12, the upper side and the lower side of the mounting seat 12 are both provided with a clamping groove 121, the upper side and the lower side of the first moving block 13 are both provided with a clamping block 131, and the two clamping blocks 131 are respectively clamped in the corresponding clamping grooves 121. The first moving block 13 can move horizontally along the mounting base 12. The surface changing device 20 and the flower turning device 30 are both mounted on the first moving block 13, and the first moving block 13 can drive the surface changing device 20 and the flower turning device 30 to move left and right for position adjustment.

The noodle changing device 20 includes a first material clamping device 21 and a second material clamping device 22, wherein the first material clamping device 21 includes a first driving device 211, a second driving device 212, a first mounting base 213, a first moving base 214 and a first clamping portion 215. The first mounting seat 213 is mounted on the first moving block 13, the first moving seat 214 is mounted on the first mounting seat 213, and the first clamping portion 215 is mounted on the first moving seat 214. The first driving device 211 is mounted on the first clamping portion 215, and the second driving device 212 is mounted on the first movable base 214. The first driving device 211 drives the first clamping portion 215 to rotate along the central axis thereof, and the second driving device 212 drives the first moving base 214 to drive the first clamping portion 215 to move toward the positioning device 40 or move away from the positioning device 40. In addition, the first material clamping device 21 further includes an opening/closing driving device (not shown), and a clamping jaw is disposed at an end of the first clamping portion 215, and the opening/closing driving device is used for driving the clamping jaw to open or close.

The second clamping device 22 includes a third driving device 221, a second movable base 222, a second clamping portion 223 and a fourth driving device 224, and the first moving block 13 is provided with a vertically extending guide rail 132. The second movable base 222 is mounted on the guide rail 132, the second clamping portion 223 is mounted on the second movable base 222, the third driving device 221 is mounted on the second movable base 222, and the fourth driving device 224 is mounted on the second clamping portion 223. The third driving device 221 drives the second movable base 222 to move along the guide rail 132, and the fourth driving device 224 drives the jaws of the second clamping portion 223 to open or close. In addition, the first clamping portion 215 and the second clamping portion 223 are vertically disposed, the first clamping portion 215 is vertically disposed, and the second clamping portion 223 is horizontally disposed.

The flower turning device 30 includes a third moving seat 31, a rotating frame 32 and a cutter device 33, the first moving block 13 is further provided with a guide block 133 extending vertically, and the third moving seat 31 is mounted on the guide block 133 and can move up and down along the guide block 133 to perform flower turning or to move away. The rotating frame 32 is installed on the third moving seat 31, and the cutter device 33 is installed on the rotating frame 32. The cutter device 33 further comprises a cutter (not shown) vertically installed downwards, the rotating frame 32 can drive the cutter device 33 to rotate so as to adjust the turning angle of the cutter,

the positioning device 40 includes a housing 41, a cylinder 42, a positioning shaft 43, a compression spring 44, a limiting member 45 and a limiting sleeve assembly, wherein a through hole penetrating up and down is formed in the top surface of the housing 41, and the positioning shaft 43 penetrates through the through hole. The compression spring 44 is sleeved on the positioning shaft 43 in the housing 41, and the limiting member 45 is screwed on the positioning shaft 43 of the compression spring 44 to limit the compression spring 44. The cylinder 42 is installed in the housing 41, an ejector rod 421 is disposed in the cylinder 42 and is repaired outwards, and the ejector rod 421 and the positioning shaft 43 are disposed opposite to each other in the vertical direction. The position limiting sleeve assembly comprises an upper shell 46, an outer cover 47 and an inner shell 48, wherein the inner shell 47 penetrates through the through hole and is limited in the outer shell 41, and the upper shell 46 is arranged on the inner shell 47 extending out of the outer shell 41. The outer cover 47 covers the outer side of the upper cover 46 and the inner shell 48 of the outer shell 41 and limits the two, and the positioning shaft 43 penetrates through the upper shell 46 and the inner shell 47.

The top of the positioning shaft 43 is provided with a positioning portion, the positioning portion is arranged in a horn shape with an outer diameter gradually increasing from inside to outside, and the middle of the outer end face of the positioning portion is further provided with a containing groove 432 for installing the sheet ornament 100. The outer end surface of the positioning part is provided with a cross-shaped separation groove extending inwards, and the cross-shaped separation groove separates the positioning part into a plurality of extension blocks 431. The outer diameter of the maximum position of the positioning portion is larger than the inner diameter of the upper shell 46, so that the positioning shaft 43 can be limited.

In addition, the positioning device 40 further comprises a rotating device, the rotating device comprises a rotating drive 49, and a driving gear 491 is arranged on the rotating drive 49. The positioning shaft 43 is further provided with a transmission gear 433, and the driving gear 491 is connected with the transmission gear 433 through a belt (not shown). The rotary drive 49 drives the transmission gear 433 to rotate through the drive gear 491 and the belt, and the rotary gear 433 drives the positioning shaft 43 to rotate.

During operation, the cylinder 41 of the positioning device 40 drives the ejector rod 421 to eject the positioning shaft 43 upward for a certain distance, and since the positioning shaft 43 extends out of the upper shell 46 and the outer shell 46 is less confined, the extending blocks 431 of the positioning shaft 43 will expand outward, so that the accommodating groove 432 becomes larger. The pattern piece to be machined is placed in the containing groove 432, the air cylinder 41 drives the ejector rod 421 to move downwards, the compression spring 44 rebounds downwards, the positioning shaft 43 is pulled downwards, the four extending blocks 431 of the positioning portion are folded downwards to clamp the pattern piece to be machined, and the pattern machining device 30 moves downwards to the upper surface of the pattern piece to be machined to conduct pattern machining. Meanwhile, the rotary drive 49 drives the positioning shaft 43 to rotate, so that the whole upper surface of the flower piece to be turned can be machined.

After the upper surface of the flower piece to be turned is machined, the cylinder 41 drives the ejector rod 421 to move upwards to eject the positioning shaft 43, so that the positioning portion releases the flower piece to be turned, the first moving block 13 drives the second clamping device 22 to move right above the positioning device 40 towards the direction, and the clamping jaws of the second clamping device 22 are opened to move downwards to the inner side or the outer side of the flower piece to be turned, so that the flower piece to be turned is clamped and moved upwards. The first material clamping device 21 moves forwards to the position of the flower piece to be turned and is opened to clamp the flower piece to be turned. Then the second clamping device 22 is released to rise, and the first clamping device 21 drives the pattern piece to be turned to rotate 180 degrees for face changing. The second material clamping device 22 moves downwards again to clamp the flower piece to be turned. The first material clamping device 21 is released and returns to the original position, the second material clamping device 22 moves the flower piece to be turned after the surface is changed down and places the flower piece in the containing groove 432, and the flower turning device 30 performs flower turning on the other surface.

In conclusion, the first material clamping device and the second material clamping device are arranged to perform face changing processing on the pattern piece to be turned, so that automatic double-face turning of the sheet-shaped ornament can be achieved, and the automation degree and the production efficiency are high. The positioning device for opening and closing by arranging the compression spring can improve the stroke precision of the opening and closing clamping materials and the softness during closing, and can avoid damage to the ornaments caused by overlarge stroke of the clamping materials made of soft materials. In addition, the design of the rotating device not only can realize the processing of the whole surface of the sheet ornament, but also can realize the processing of various patterns through rotation; in addition, the positioning device in the application can position sheet ornaments of various specifications, and is wide in application range, strong in practicability and strong in pushing significance.

The above-mentioned embodiments only represent one embodiment of the present invention, and the description is specific and detailed, but not understood as the limitation of the scope of the invention, it should be noted that, for those skilled in the art, many variations and modifications can be made without departing from the concept of the present invention, and these are within the scope of the invention, and therefore, the scope of the invention should be determined by the appended claims.

Claims

1. An automatic double-sided micro-carving lathing machine is used for carrying out double-sided lathing on a sheet-shaped ornament; the method is characterized in that: the automatic double-sided micro-carving pattern turning machine comprises a rack, and a face changing device, a pattern turning device and a positioning device which are arranged on the rack, wherein a mounting frame is arranged on the rack, a first moving block is arranged on a mounting seat and can move left and right along the mounting frame, and the face changing device and the pattern turning device are both arranged on the first moving block; the positioning device is arranged on the top surface of the frame and is arranged opposite to the surface changing device and the flower turning device up and down; the noodle changing device comprises a first clamping device and a second clamping device, the first clamping device is provided with a first clamping part which is horizontally arranged, and the second clamping device is provided with a second clamping part which extends vertically; the pattern turning device comprises a pattern turning driving device and a cutter device arranged on the pattern turning device, and the pattern turning driving device drives the cutter device to move up and down and rotate;

the positioning device comprises a shell, an air cylinder, a positioning shaft, a compression spring, a limiting piece, a limiting sleeve assembly and a rotating device, wherein the top surface of the shell is provided with a through hole which penetrates through the shell from top to bottom, the positioning shaft penetrates through the through hole, and the limiting sleeve assembly is sleeved outside the positioning shaft; the top of the positioning shaft is provided with a positioning part which is arranged in a horn shape with gradually increased outer diameter from inside to outside, and the middle part of the end face of the outer side of the positioning part is also provided with a containing groove for installing the sheet ornaments; the outer side end face of the positioning part extends inwards to form a cross-shaped separation groove which separates the positioning part into a plurality of extension blocks; the outer diameter of the maximum position of the positioning part is larger than the inner diameter of the limiting sleeve component; the compression spring is sleeved on the positioning shaft in the shell, and the limiting piece is screwed on the positioning shaft below the compression spring; the cylinder is arranged in the shell, an ejection rod extends outwards in the cylinder, and the ejection rod and the positioning shaft are arranged in an up-and-down opposite mode; the rotating device is connected to the positioning shaft and can drive the positioning shaft to rotate.

2. The automatic double-sided microembossed machine for lathing dies of claim 1, wherein: the limiting sleeve assembly comprises an upper shell, an outer shell and an inner shell, the inner shell is arranged in the through hole in a penetrating mode and limited in the outer shell, and the upper shell is arranged on the inner shell extending out of the outer shell; the outer cover covers the upper cover on the outer side of the outer shell and the outer side of the inner shell.

3. The automatic double-sided microembossed machine for lathing dies of claim 1, wherein: the rotating device is provided with a driving gear, the positioning shaft is further provided with a transmission gear, the driving gear and the transmission gear are connected through a belt or directly meshed with each other, and the driving gear drives the transmission gear to rotate.

4. The automatic double-sided microembossed machine for lathing dies of claim 1, wherein: the first clamping device also comprises a first driving device arranged on the first clamping part and a first moving seat arranged on the first moving block, and the first clamping part is arranged on the first moving seat; the first driving device drives the first clamping part to rotate.

5. The automatic double-sided microembossed machine for lathing dies of claim 4, wherein: the first material clamping device further comprises a first mounting seat arranged on the first moving block and a second driving device arranged on the first moving seat, and the first moving seat is arranged on the first mounting seat.

6. The automatic double-sided microembossed machine for lathing dies of claim 4, wherein: the first material clamping device further comprises an opening and closing driving device, a clamping jaw is arranged at the end part of the first clamping part, and the opening and closing driving device is used for driving the clamping jaw to be opened or closed.

7. The automatic double-sided microembossed machine for lathing dies of claim 1, wherein: the second clamping device further comprises a second moving seat arranged on the first moving block and a third driving device arranged on the second moving seat, the second clamping part is arranged on the second moving seat, and the third driving device drives the second moving seat to move up and down.

8. The automatic double-sided microembossed machine for lathing dies of claim 7, wherein: the second clamping device further comprises a fourth driving device arranged on the second clamping part, a clamping jaw is arranged at the end part of the second clamping part, and the fourth driving device drives the clamping jaw of the second clamping part to be opened or closed.

9. The automatic double-sided microembossed machine for lathing dies of claim 7, wherein: the flower turning device further comprises a third moving seat, a guide block extending vertically is further arranged on the first moving block, and the third moving seat is arranged on the guide block and can move up and down along the guide block to carry out flower turning or keep away.

10. The automatic double-sided microembossed machine for lathing dies of claim 9, wherein: the turning device further comprises a rotating frame arranged on the third movable seat, the cutter device is arranged on the rotating frame, and the rotating frame can drive the cutter device to rotate so as to adjust the angle.