CN114346098B - Noble metal bracelet make-up machine with material loading structure - Google Patents

Abstract

The application relates to a precious metal bracelet forming machine with a feeding structure, which comprises a rack, wherein a clamping assembly for clamping precious metal bracelets and an inner ring processing assembly for processing inner rings of the precious metal bracelets are arranged on the rack, a storage assembly is arranged on the rack, the storage assembly comprises an inclined groove body for storing a plurality of precious metal bracelets and a blocking groove body for blocking the precious metal bracelets from falling out of the inclined groove body, the blocking groove body is arranged at one end of the inclined groove body, and the inclined groove body is arranged on the rack. The application is convenient for operators to operate, and the operators can take materials at the same position.

Description

Noble metal bracelet make-up machine with material loading structure

Technical Field

The application relates to the field of noble metal bracelet processing, in particular to a noble metal bracelet forming machine with a feeding structure.

Background

The noble metal bracelet forming machine is equipment for removing the tip of the inner ring of the noble metal bracelet and carrying out forming processing, so that the situation that the hand is scratched when the noble metal bracelet is worn is reduced.

When an operator processes a plurality of noble metal bracelets, the noble metal bracelets need to be taken out of the storage box and then processed.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: when an operator takes the noble metal bracelets, the noble metal bracelets need to be taken from different positions, and the operation of the operator is inconvenient.

Disclosure of Invention

In order to facilitate the operation of operators, the application provides a noble metal bracelet forming machine with a feeding structure, which is used for taking materials at the same position when the operators take materials.

The noble metal bracelet forming machine with the feeding structure provided by the application adopts the following technical scheme:

the utility model provides a noble metal bracelet make-up machine with loading structure, includes the frame, be provided with in the frame be used for the centre gripping subassembly of noble metal bracelet centre gripping and be used for the inner ring processing subassembly to noble metal bracelet inner ring processing, be provided with the storage subassembly in the frame, the storage subassembly is including being used for storing the inclined groove body of a plurality of noble metal bracelets and being used for blocking the baffle groove body that a plurality of noble metal bracelets deviate from the inclined groove body, baffle groove body set up in the one end of inclined groove body, the inclined groove body set up in the frame.

Through adopting above-mentioned technical scheme, operating personnel takes out the noble metal bracelet of waiting to process from the slope cell body during the use, stores a plurality of noble metal bracelets on the slope cell body under the effect of gravity and carries out automatic feeding, blocks the cell body and blocks noble metal bracelet afterwards, realizes can taking noble metal bracelet in same department when operating personnel material loading, makes things convenient for operating personnel's operation.

Optionally, the clamping component comprises a mounting column and a multi-jaw chuck for clamping the mounting column, the multi-jaw chuck is arranged on the frame, a mounting groove for placing a noble metal bracelet is formed in one end of the mounting column, and the inner ring processing component is used for limiting the noble metal bracelet in the mounting groove.

Through adopting above-mentioned technical scheme, operating personnel will install the cylinder centre gripping on many jaws chuck during the use, and then operating personnel will noble metal bracelet place in the mounting groove, reduce many jaws chuck and directly carry out the centre gripping with noble metal bracelet for noble metal bracelet warp the condition emergence.

Optionally, a pushing assembly for pushing out the processed noble metal bracelet from the mounting groove is arranged in the mounting groove, and the pushing assembly comprises a pushing rod, a rotating sleeve and a driving piece for driving the rotating sleeve to rotate; the rotary sleeve is coaxially and rotatably connected in the mounting groove, the push-out rod is in threaded connection with the inner wall of the rotary sleeve, and the push-out rod is axially and circumferentially clamped with the multi-jaw chuck.

Through adopting above-mentioned technical scheme, when the noble metal bracelet that will process the completion is released from the mounting groove, the driving piece drives and rotates the sleeve rotation, rotates the sleeve and drives the release lever and remove from wearing out the telescopic direction of rotation for the release lever pushes out noble metal bracelet from the mounting groove, makes things convenient for operating personnel's operation.

Optionally, the inner ring processing assembly comprises a processing column, a driving piece for driving the processing column to penetrate into the inner ring of the noble metal bracelet, and a moving piece for driving the processing column to collide with the inner ring of the noble metal bracelet, wherein the driving piece is arranged on the frame, the moving piece is arranged on the driving piece, and the processing column is rotationally connected to the moving piece; the multi-jaw chuck is rotationally connected to the frame; the rack is provided with a driving component for driving the multi-jaw chuck to rotate.

Through adopting above-mentioned technical scheme, the drive piece drives the processing post and wears to establish into noble metal bracelet inner ring during the use, and the moving part drives the processing post and contradicts with noble metal bracelet inner ring afterwards, and drive assembly drives many claws chuck and rotates for the processing post processes noble metal bracelet.

Optionally, the driving piece comprises a driving gear, a driving rack, a reversing gear and a disengaging structure for driving the driving rack to disengage; the length direction of the driving rack is parallel to the axis direction of the processing column, the driving rack is arranged on the driving piece, the reversing gear is rotationally connected to the frame, and the reversing gear is meshed with the driving rack; the driving gear is coaxially arranged at one end of the processing column; the driving rack is connected to the frame in a sliding manner through the disengaging structure, the driving rack is meshed with the driving gear, a plurality of gear teeth are arranged at one end, close to the reversing gear, of the driving rack, and the gear teeth are meshed with the reversing gear.

By adopting the technical scheme, when the noble metal bracelet pushing device is used, the driving piece drives the processing column to move along the direction away from the noble metal bracelet, so that the driving rack is driven to move, the driving rack is driven to move through the reversing gear, a plurality of gear teeth on the driving rack drive the driving gear to rotate, the rotation of the rotating sleeve drives the pushing rod to move along the direction penetrating out of the rotating sleeve, and the pushing rod pushes out the processed noble metal bracelet; the realization is in the drive piece drive processing post along the direction removal of keeping away from noble metal bracelet, realizes the rotation of drive rotation sleeve, realizes pushing out the noble metal bracelet of processing completion from the mounting groove, makes things convenient for operating personnel's operation.

Optionally, the disengagement structure comprises a disengagement lever, the disengagement lever is arranged at one end of the driving rack, and the driving gear is positioned right above the disengagement lever after the noble metal bracelet is pushed out by the push-out lever.

Through adopting above-mentioned technical scheme, when ejecting pole is located and rotates the sleeve and process noble metal bracelet, break away from the pole and be located under the drive gear for drive gear breaks away from with the drive rack, drive assembly drives many claws chuck rotation afterwards, realizes processing noble metal bracelet.

Optionally, the inclined groove body is slidingly connected to the frame along a direction approaching to or separating from the push-out rod, and a driving structure for driving the inclined groove body to move is arranged on the frame; the pushing rod is provided with a feeding assembly, and the feeding assembly comprises a penetrating rod and a collision spring for maintaining the penetrating rod to penetrate out of the pushing rod; the penetrating rod is rotatably arranged at one end of the pushing rod in a penetrating way, one end of the penetrating rod penetrates out of the pushing rod and is used for penetrating into the noble metal bracelet, one end of the penetrating rod, which penetrates out of the pushing rod, is provided with a guide chamfer, and the guide chamfer is used for abutting against the side wall of the blocking groove body; the blocking groove body is rotatably connected to one end of the inclined groove body, and a maintaining torsion spring for maintaining the blocking groove body to block a plurality of noble metal bracelets is arranged between the blocking groove body and the inclined groove body.

By adopting the technical scheme, during feeding, the driving structure drives the inclined groove body to move along the direction close to the multi-claw chuck, so that the guiding chamfer is in conflict with the blocking groove body, the guiding chamfer drives the penetrating rod to move along the direction penetrating into the pushing rod, the penetrating rod and the noble metal bracelet are coaxially arranged when the penetrating rod is separated from the side wall of the blocking groove body groove, the penetrating rod penetrates into the noble metal bracelet inner ring under the action of the conflict spring, and the driving rack is separated from the driving gear; then drive the structure and drive the inclined groove body and remove along the direction of keeping away from many claw chuck for stop the cell body and rotate, make the cover locate precious metal bracelet on wearing to establish the pole and deviate from blocking cell body and inclined groove body, block the cell body to reset and stop remaining precious metal bracelet under the effect of maintaining the torsional spring, drive rack and drive gear meshing later, make the release lever drive wear to establish pole and precious metal bracelet and enter into the mounting groove, realize automatic material loading, make things convenient for operating personnel's operation.

Optionally, the driving structure includes a driving rod, one end of the driving rod is disposed on the inclined groove body, and the other end of the driving rod is disposed on the driving rack.

Through adopting above-mentioned technical scheme, realize driving the inclined groove body and remove along being close to or keeping away from the direction of multi-jaw chuck when driving the piece and driving the processing post and wear to establish into noble metal bracelet, make things convenient for operating personnel to operate.

Optionally, be provided with the storage box that is used for storing the noble metal bracelet that finishes processing in the frame, be provided with the buffering sponge on the diapire in the storage box.

Through adopting above-mentioned technical scheme, during the use operating personnel will wear to establish the processing that the pole was gone up to overlap and is established and place with storing in the box after taking out, the buffering sponge reduces noble metal bracelet and directly contradicts with storing the box and lead to noble metal bracelet to warp the condition emergence.

Optionally, the storage box is disposed on the driving rack.

Through adopting above-mentioned technical scheme, during the use, drive rack drives the storage box and shifts out from driving piece and many claw chuck between, reduces the influence of storage box to the processing time, makes things convenient for operating personnel's operation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the inclined groove body and the blocking groove body, an operator can take the noble metal bracelets from the same place, and the operation of the operator is convenient;

2. the driving piece drives the noble metal bracelet to be processed and slides out of the mounting groove, and the processed noble metal bracelet is pushed out of the mounting groove;

3. automatic feeding to noble metal bracelet is realized through the material loading subassembly, makes things convenient for operating personnel's operation.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present application.

Fig. 2 is a schematic view of the inner ring tooling assembly of fig. 1.

Fig. 3 is a cross-sectional view of fig. 1 for illustrating the structure of the clamping assembly and the driving assembly.

Fig. 4 is a schematic view of the clamping assembly and the driving member shown in fig. 1.

Fig. 5 is a schematic structural view of the clamping assembly and the storage assembly of fig. 4.

Fig. 6 is a cross-sectional view of the ejector assembly and clamp assembly of fig. 5.

Reference numerals: 1. a frame; 11. a mounting frame; 12. a fixed sleeve; 13. a rotating shaft; 2. an inner ring processing assembly; 21. processing a column; 22. a contact column; 23. a driver; 231. a first drive motor; 232. a moving block; 233. a fixed block; 234. driving a screw rod; 235. a first slip groove; 24. a moving member; 241. moving the screw rod; 242. a second driving motor; 243. a sliding block; 244. a second slip groove; 3. a clamping assembly; 31. a mounting column; 32. a multi-jaw chuck; 33. a mounting groove; 4. a drive assembly; 41. a driving motor; 42. a belt wheel; 43. a belt; 5. a push-out assembly; 51. a push-out lever; 52. rotating the sleeve; 53. a driving member; 531. a drive gear; 532. a drive rack; 533. driving a rack; 534. a reversing gear; 5351. a first disengagement lever; 5352. a second release lever; 536. gear teeth; 54. a sliding rod; 6. a feeding assembly; 61. a rod is penetrated; 62. a mounting plate; 63. a contact spring; 64. guiding chamfering; 65. an anti-slip rubber; 7. a storage assembly; 71. an inclined groove body; 72. a blocking groove body; 73. a drive rod; 8. a storage box; 9. noble metal bracelets.

Detailed Description

The application is described in further detail below with reference to fig. 1-6.

The embodiment of the application discloses a noble metal bracelet forming machine with a feeding structure. Referring to fig. 1, a precious metal bracelet forming machine with a feeding structure comprises a frame 1, wherein a clamping component 3 for clamping a precious metal bracelet 9, an inner ring processing component 2 for processing an inner ring of the precious metal bracelet 9 and a storage component 7 for storing a plurality of precious metal bracelets 9 are arranged on the frame 1, the inner ring processing component 2 and the clamping component 3 are distributed along the length direction of the frame 1, and the storage component 7 is located between the inner ring processing component 2 and the clamping component 3.

When the noble metal bracelet 9 is used, an operator takes down the noble metal bracelet 9 on the storage assembly 7, clamps the noble metal bracelet 9 through the clamping assembly 3, and the inner ring machining assembly 2 machines the noble metal bracelet 9.

Referring to fig. 1 and 2, the inner ring processing assembly 2 includes a processing column 21, an abutting column 22, a driving member 23 for driving the processing column 21 along an inner ring penetrating into the noble metal bracelet 9, and a moving member 24 for driving the processing column 21 to abut against the inner ring of the noble metal bracelet 9; the driving piece 23 comprises a first driving motor 231, a moving block 232, a fixed block 233 and a driving screw rod 234, wherein the fixed block 233 is fixedly connected to the upper end surface of the frame 1, a first sliding groove 235 extending along the length direction of the frame 1 is formed in the upper end surface of the fixed block 233, the length direction of the driving screw rod 234 is parallel to the length direction of the first sliding groove 235, the driving screw rod 234 is rotationally connected to the groove side wall of the first sliding groove 235, the first driving motor 231 is fixedly connected to the frame 1, an output shaft of the first driving motor 231 is coaxially and fixedly connected with one end of the driving screw rod 234, the moving block 232 is slidingly connected in the first sliding groove 235, and the moving block 232 is in threaded connection with the driving screw rod 234; the moving member 24 comprises a moving screw 241, a second driving motor 242 and a sliding block 243, a second sliding groove 244 extending along the width direction of the frame 1 is formed in the upper end face of the moving block 232, the length direction of the moving screw 241 is parallel to the length direction of the second sliding groove 244, the moving screw 241 is rotationally connected to the side wall of the second sliding groove 244, the second driving motor 242 is fixedly connected to the moving block 232, an output shaft of the second driving motor 242 is fixedly connected with the moving screw 241 coaxially, the sliding block 243 is slidingly connected in the second sliding groove 244, and the sliding block 243 is in threaded connection with the moving screw 241; the contact column 22 is rotatably connected to one end of the sliding block 243 near the clamping assembly 3, and the processing column 21 is fixedly connected to one end of the contact column 22 away from the sliding block 243.

Referring to fig. 1 and 3, the clamping assembly 3 includes a mounting cylinder 31 and a multi-jaw chuck 32 for clamping the mounting cylinder 31; the upper end face of the frame 1 is fixedly connected with a mounting frame 11, the mounting frame 11 is fixedly connected with a fixing sleeve 12, the axis of the fixing sleeve 12 is parallel to the length direction of the frame 1, a rotating shaft 13 is fixedly connected to a multi-jaw chuck 32, the rotating shaft 13 is rotatably connected in the fixing sleeve 12, and the multi-jaw chuck 32 is fixedly connected to one end of the rotating shaft 13; the frame 1 is provided with a driving component 4 for driving the rotating shaft 13 to rotate; the driving assembly 4 comprises a driving motor 41, a belt wheel 42 and a belt 43, wherein the driving motor 41 is fixedly connected to the side wall of the frame 1, and the driving motor 41 drives the rotating shaft 13 to rotate through the belt wheel 42 and the belt 43; the mounting column 31 is held by the multi-jaw chuck 32, and a mounting groove 33 is formed in one end of the mounting column 31.

When in use, the first driving motor 231 drives the moving block 232 to move along the direction approaching to the clamping assembly 3, so that the processing column 21 penetrates into the inner ring of the noble metal bracelet 9, and the driving motor 41 drives the multi-jaw chuck 32 to rotate through the belt wheel 42 and the belt 43; then, the second driving motor 242 drives the sliding block 243 to move, so that the processing column 21 is abutted against the inner ring wall of the noble metal bracelet 9, and the inner ring of the noble metal bracelet 9 is processed.

Referring to fig. 5 and 6, a push-out unit 5 for pushing out the finished noble metal bracelet 9 from the mounting groove 33 is provided in the mounting groove 33; the push-out assembly 5 comprises a push-out rod 51, a rotary sleeve 52 and a driving piece 53 for driving the rotary sleeve 52 to rotate; the rotating sleeve 52 is coaxially arranged with the mounting groove 33, and the rotating sleeve 52 is rotatably connected in the mounting groove 33; the push rod 51 and the rotating sleeve 52 are coaxially arranged, the push rod 51 is in threaded connection with the inner wall of the rotating sleeve 52, one end, close to the multi-jaw chuck 32, of the push rod 51 is fixedly connected with two sliding rods 54, the length direction of the two sliding rods 54 is parallel to the axis direction of the push rod 51, and the sliding rods 54 are connected to the multi-jaw chuck 32 in a sliding manner.

When the machined noble metal bracelet 9 needs to be pushed out of the mounting groove 33, the driving piece 53 drives the rotating sleeve 52 to rotate, and the rotating sleeve 52 drives the push-out rod 51 to move along the direction of penetrating out of the mounting groove 33, so that the rotating sleeve 52 drives the machined noble metal bracelet 9 to be pushed out of the mounting groove 33.

Referring to fig. 1 and 4, the driving member 53 includes a driving gear 531, a driving rack 532, a driving rack 533, a reversing gear 534, and a disengaging structure for driving the driving rack 532 to disengage, where the reversing gear 534 is rotatably connected to an upper end surface of the frame 1; the driving rack 533 is fixedly connected to the moving block 232, the driving rack 533 is positioned on one side of the reversing gear 534, which is away from the fixed block 233, and the driving rack 533 is meshed with the reversing gear 534; the length direction of the driving rack 532 is parallel to the width direction of the rack 1, the driving rack 532 is slidingly connected to the upper end surface of the rack 1 along the width direction of the rack 1, the driving rack 532 is positioned above the driving rack 533, the driving rack 532 is positioned on one side of the reversing gear 534, which is away from the moving block 232, one end surface of the driving rack 532, which is close to the reversing gear 534, is fixedly connected with a plurality of gear teeth 536, the plurality of gear teeth 536 are fixedly connected to the driving rack 532, the plurality of gear teeth 536 are uniformly distributed along the length direction of the driving rack 532, and the plurality of gear teeth 536 are meshed with the reversing gear 534; the disengaging structure includes a first disengaging lever 5351 and a second disengaging lever 5352, wherein one end of the first disengaging lever 5351 is fixedly connected to one end of the driving rack 532, and one end of the second disengaging lever 5352 is fixedly connected to the other end of the driving rack 532.

Referring to fig. 5 and 6, a driving gear 531 is fixedly coupled to one end of the rotation sleeve 52, and a driving rack 532 is engaged with the driving gear 531.

When the multi-jaw chuck is used, the first driving motor 231 drives the moving block 232 to move along the direction away from the multi-jaw chuck 32, the driving rack 533 drives the reversing gear 534 to rotate, the reversing gear 534 drives the driving rack 532 to move through the plurality of gear teeth 536, the driving rack 532 drives the driving gear 531 to rotate, the rotating sleeve 52 drives the push-out rod 51 to slide out of the rotating sleeve 52, the machined noble metal bracelet 9 is pushed out of the mounting groove 33, and the operation of an operator is facilitated.

Referring to fig. 5 and 6, the pushing rod 51 is provided with a feeding assembly 6, and the feeding assembly 6 includes a penetrating rod 61, a mounting plate 62, and a pressing spring 63 for maintaining the penetrating rod 61 in a state of penetrating the pushing rod 51; the mounting plate 62 is positioned at one side of the push-out rod 51 away from the storage assembly 7 and positioned in the mounting groove 33, and the mounting plate 62 is fixedly connected to one end of the push-out rod 51; the penetrating rod 61 is coaxially and slidably penetrated at one end of the push-out rod 51, and one end of the penetrating rod 61 penetrates out of the push-out rod 51; one end of the abutting spring 63 is fixedly connected to the penetrating rod 61, and the other end of the abutting spring 63 abuts against the mounting plate 62; a guide chamfer 64 is arranged between one end of the penetrating rod 61 far away from the abutting spring 63 and the side wall of the penetrating rod 61, and the surface of the guide chamfer 64 is fixedly connected with an anti-skid rubber 65.

Referring to fig. 4 and 5, the storage assembly includes an inclined groove 71 for storing a plurality of precious metal bracelets 9 and a blocking groove 72 for blocking the precious metal bracelets 9 from falling out of the inclined groove 71, the rack 1 is provided with a driving structure for driving the inclined groove 71 to move along the radial direction of the driving gear 531, the driving structure includes a driving rod 73, one end of the driving rod 73 is fixedly connected to the first separating rod 5351, the other end of the driving rod 73 is fixedly connected to the inclined groove 71, and the lower end of the inclined groove 71 is close to the multi-claw chuck 32; one end of the blocking groove body 72 is rotatably connected to the lower end of the inclined groove body 71, and a maintaining torsion spring for maintaining the blocking state of the noble metal bracelet 9 by maintaining the blocking groove body 72 is arranged at the hinge joint of the blocking groove body 72 and the inclined groove body 71, and the outer wall of the blocking groove body 72 is used for being in contact with the anti-skid rubber 65.

Referring to fig. 1 and 4, a storage box 8 is fixedly connected to the driving rack 532, and a buffer sponge is fixedly connected to the inner bottom wall of the storage box 8.

The embodiment of the application provides a precious metal bracelet 9 forming machine with a feeding structure, which comprises the following implementation principle: when the multi-jaw chuck 32 is used, the first driving motor 231 drives the moving block 232 to move along the direction away from the multi-jaw chuck 32, the moving block 232 drives the driving rack 532 to move through the driving rack 533, the reversing gear 534 and the plurality of gear teeth 536, so that the driving gear 531 slides from being positioned right above the driving rack 532 to being positioned right above the first disengaging rod 5351, in the meshing process of the driving rack 532 and the driving gear 531, the rotating sleeve 52 drives the pushing rod 51 to move, so that the pushing rod 51 pushes out the processed precious metal bracelet 9 into the storage box 8, the inclined groove body 71 and the blocking groove body 72 move along with the driving rack 532 along the direction close to the multi-jaw chuck 32, after the pushing rod 51 pushes out the processed precious metal bracelet 9 into the storage box 8, the pushing rod 51 pushes out the blocking groove body 72 against the anti-slip rubber 65, the penetrating rod 61 moves along the direction penetrating into the pushing rod 51, when the penetrating rod 61 is disengaged from the blocking groove body 72, the penetrating rod 61 penetrates into the inner ring of the precious metal bracelet 9 under the action of the abutting spring 63, and the anti-slip rubber 65 relatively fixes the precious metal bracelet 9 on the penetrating rod 61.

During processing, the first driving motor 231 drives the moving block 232 to move along the direction close to the multi-jaw chuck 32, the moving block 232 drives the driving rack 532 to move through the driving rack 533, the reversing gear 534 and the plurality of gear teeth 536, so that the driving gear 531 slides from being positioned right above the first disengaging rod 5351 to being positioned right above the driving rack 532, in the process, the pushing rod 51 does not move, the blocking groove 72 rotates under the extrusion of the penetrating rod 61 and the noble metal bracelet 9 sleeved on the penetrating rod 61, finally the blocking groove 72 is separated, then the driving rack 532 drives the driving gear 531 to rotate, the pushing rod 51, the penetrating rod 61 and the noble metal bracelet 9 sleeved on the penetrating rod 61 enter the mounting groove 33, the driving gear 531 is positioned right above the second disengaging rod 5352, the driving motor 41 drives the multi-jaw chuck 32 to rotate, then the processing column 21 penetrates into the inner ring of the noble metal bracelet 9 and extrudes the penetrating rod 61, and the processing column 21 abuts against the inner ring of the noble metal bracelet 9 under the driving of the second driving motor 242, and the processing of the noble metal bracelet 9 is realized.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (6)

1. Noble metal bracelet make-up machine with material loading structure, its characterized in that: the device comprises a frame (1), wherein a clamping assembly (3) for clamping a noble metal bracelet (9) and an inner ring machining assembly (2) for machining the inner ring of the noble metal bracelet (9) are arranged on the frame (1), a storage assembly is arranged on the frame (1), the storage assembly comprises an inclined groove body (71) for storing a plurality of noble metal bracelets (9) and a blocking groove body (72) for blocking the noble metal bracelets (9) from falling out of the inclined groove body (71), the blocking groove body (72) is arranged at one end of the inclined groove body (71), and the inclined groove body (71) is arranged on the frame (1);

the clamping assembly (3) comprises a mounting column body (31) and a multi-jaw chuck (32) for clamping the mounting column body (31), the multi-jaw chuck (32) is arranged on the frame (1), a mounting groove (33) for placing a noble metal bracelet (9) is formed in one end of the mounting column body (31), and the inner ring machining assembly (2) is used for limiting the noble metal bracelet (9) positioned in the mounting groove (33);

a pushing-out assembly (5) for pushing out the machined precious metal bracelets (9) from the mounting groove (33) is arranged in the mounting groove (33), and the pushing-out assembly (5) comprises a pushing-out rod (51), a rotating sleeve (52) and a driving piece (53) for driving the rotating sleeve (52) to rotate; the rotary sleeve (52) is coaxially and rotatably connected in the mounting groove (33), the push-out rod (51) is in threaded connection with the inner wall of the rotary sleeve (52), and the push-out rod (51) and the multi-jaw chuck (32) are clamped in the circumferential direction of the axis;

the inner ring machining assembly (2) comprises a machining column (21), a driving piece (23) for driving the machining column (21) to penetrate into the inner ring of the noble metal bracelet (9) and a moving piece (24) for driving the machining column (21) to collide with the inner ring of the noble metal bracelet (9), wherein the driving piece (23) is arranged on the frame (1), the moving piece (24) is arranged on the driving piece (23), and the machining column (21) is rotationally connected to the moving piece (24); the multi-jaw chuck (32) is rotatably connected to the frame (1); the machine frame (1) is provided with a driving assembly (4) for driving the multi-jaw chuck (32) to rotate;

the driving piece (53) comprises a driving gear (531), a driving rack (532), a driving rack (533), a reversing gear (534) and a disengaging structure for driving the driving rack (532) to disengage; the length direction of the driving rack (533) is parallel to the axis direction of the processing column (21), the driving rack (533) is arranged on the driving piece (23), the reversing gear (534) is rotationally connected to the rack (1), and the reversing gear (534) is meshed with the driving rack (533); the driving gear (531) is coaxially arranged at one end of the processing column (21); the driving rack (532) is connected to the frame (1) in a sliding manner through the disengaging structure, the driving rack (532) is meshed with the driving gear (531), a plurality of gear teeth (536) are arranged at one end, close to the reversing gear (534), of the driving rack (532), and the gear teeth (536) are meshed with the reversing gear (534).

2. The precious metal bracelet forming machine with a feeding structure according to claim 1, wherein: the disengaging structure comprises a disengaging rod, the disengaging rod is arranged at one end of the driving rack (532), and the driving gear (531) is positioned right above the disengaging rod after the pushing-out rod (51) pushes out the noble metal bracelet (9).

3. The precious metal bracelet forming machine with a feeding structure according to claim 2, wherein: the inclined groove body (71) is connected to the frame (1) in a sliding manner along the direction approaching or separating from the push-out rod (51), and a driving structure for driving the inclined groove body (71) to move is arranged on the frame (1); the feeding assembly (6) is arranged on the push-out rod (51), and the feeding assembly (6) comprises a penetrating rod (61) and a collision spring (63) for maintaining the penetrating rod (61) to penetrate out of the push-out rod (51); the penetrating rod (61) is rotatably arranged at one end of the pushing rod (51), one end of the penetrating rod (61) penetrates out of the pushing rod (51) and is used for penetrating into the noble metal bracelet (9), a guide chamfer (64) is formed at one end of the penetrating rod (61) penetrating out of the pushing rod (51), and the guide chamfer (64) is used for abutting against the groove side wall of the blocking groove body (72); the blocking groove body (72) is rotatably connected to one end of the inclined groove body (71), and a maintaining torsion spring for maintaining the blocking groove body (72) to block a plurality of noble metal bracelets (9) is arranged between the blocking groove body (72) and the inclined groove body (71).

4. A precious metal bracelet forming machine with a loading structure according to claim 3, characterized in that: the driving structure comprises a driving rod (73), one end of the driving rod (73) is arranged on the inclined groove body (71), and the other end of the driving rod (73) is arranged on the driving rack (532).

5. The precious metal bracelet forming machine with a feeding structure according to claim 1, wherein: the precious metal bracelet storage rack is characterized in that a storage box (8) used for storing the processed precious metal bracelets (9) is arranged on the rack (1), and a buffer sponge is arranged on the inner bottom wall of the storage box (8).

6. The precious metal bracelet forming machine with a feeding structure according to claim 5, wherein: the storage box (8) is arranged on the driving rack (532).