CN114619058A

CN114619058A - Wire rod machine of turning patterns for ornament

Info

Publication number: CN114619058A
Application number: CN202210330792.3A
Authority: CN
Inventors: 潘旭平
Original assignee: Hezhou Xuping Jewelry Co ltd
Current assignee: Hezhou Xuping Jewelry Co ltd
Priority date: 2022-03-30
Filing date: 2022-03-30
Publication date: 2022-06-14

Abstract

The invention discloses a wire rod turning machine for jewelry, and belongs to the field of jewelry processing equipment. The flower turning machine comprises a machine frame, a flower turning part and a material pulling part, wherein the flower turning part and the material pulling part are both arranged on the machine frame; the flower turning part comprises a first mounting seat, a first rotating shaft, a flower turning head, a first driving device, a rotating disc and a turning tool device; the material pulling part pulls out the cut wire rod from the first wire hole to the second wire hole. The technical problems that the traditional method for manually processing the surface of the wire rod into a pattern with a plurality of spiral surfaces is low in efficiency and poor in product consistency are solved.

Description

Wire rod machine of turning patterns for ornament

Technical Field

The invention relates to the field of jewelry processing equipment, in particular to a wire rod pattern turning machine for jewelry.

Background

The wire rod in the jewelry is a common raw material of the chain-shaped jewelry, and the finished chain-shaped jewelry is formed after a series of procedures such as cutting, welding, serial connection and the like after the surface structure of the wire rod is processed. In order to meet the requirement of decoration, the surface of the wire rod needs to be processed. A common process is to surface treat the wire in a pattern having a plurality of helical surfaces. At present, special equipment is not used for realizing the processing, the traditional manual processing efficiency is low, and the product quality consistency is poor. It is therefore necessary to invent a machine for surface treating a wire in a pattern having a plurality of helical surfaces to solve the above problems.

Disclosure of Invention

The invention aims to provide a wire rod turning machine for jewelry, aiming at solving the technical problems that the traditional method for manually processing the surface of a wire rod into a pattern with a plurality of spiral surfaces has low efficiency and poor consistency of product quality.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a wire rod embroidery machine for jewelry comprises a rack, an embroidery part and a material pulling part, wherein the embroidery part and the material pulling part are arranged on the rack at intervals; the flower turning part comprises a first mounting seat, a first rotating shaft, a flower turning head, a first driving device, a rotating disc and a turning tool device; the first mounting seat is mounted on the machine frame, the first rotating shaft is rotatably mounted on the first mounting seat, a first wire hole penetrating through the first rotating shaft is coaxially formed in the first rotating shaft, the turnbuckle head is coaxially and detachably mounted at one end of the first rotating shaft, the turnbuckle head is provided with a second wire hole coaxial and communicated with the first rotating shaft, a notch is formed in the peripheral wall of the turnbuckle head, and the notch is communicated with the second wire hole; the first driving device is arranged on the rack and drives the first rotating shaft to rotate; the turntable is coaxially and fixedly sleeved on the first rotating shaft; the turning tool device comprises a turning tool driving part and a turning tool, the turning tool driving part is arranged on the turntable and connected with the turning tool so as to drive the turning tool to rotate, and the turning tool can cut the wire rod positioned in the second wire hole from the notch; the material pulling part pulls out the cut wire rod from the first wire hole to the second wire hole.

Further, the spark portion further comprises an electric brush device, the electric brush device comprises an electric brush head and a conducting ring, the electric brush head is mounted on the first mounting seat and is in sliding contact with the conducting ring, and the conducting ring is coaxially mounted on the turntable; the turning tool driving part is connected with the conducting ring through a conducting wire to supply power.

Furthermore, the turning tool driving piece comprises a second mounting seat, a second rotating shaft, a turning tool disc and a second driving device, the second mounting seat is arranged on the turntable, the second rotating shaft is rotatably arranged on the second mounting seat, the turning tool disc is arranged at the end part of the second rotating shaft, the second driving device is arranged on the turntable, and the second driving device drives the second rotating shaft to rotate; the turning tool is arranged on the turning tool disc.

Further, the flower turning part further comprises a balancing weight, and the balancing weight is arranged on the turntable.

Furthermore, a turning amount adjusting groove is formed in the rotary table, and the second mounting seat is slidably mounted in the turning amount adjusting groove and can be locked relative to the rotary table in a sliding mode.

Furthermore, the second driving device drives the second rotating shaft to rotate through a synchronous belt transmission device.

Furthermore, the material pulling part comprises a first mounting frame, a first roller, an extrusion wheel and a third driving device, the first mounting frame is arranged on the rack, the first roller and the extrusion wheel are oppositely arranged and are rotationally arranged on the first mounting frame, and a first annular groove is formed in the periphery of the first roller; the third driving device is arranged on the first mounting frame and drives the first roller to rotate.

Further, a rubber layer is arranged on the peripheral surface of the extrusion wheel.

Furthermore, the jewelry wire knurling machine further comprises a wire guiding device, and a wire guiding structure located on the extension line of the axis of the first wire hole is arranged on the wire guiding device.

Further, the wire guiding device comprises a second mounting frame and a plurality of second rollers, the second rollers are rotatably mounted on the second mounting frame, and second annular grooves are formed in the peripheries of the second rollers; the plurality of second rollers are arranged in two rows, and second annular grooves of the two rows of second rollers form the wire guiding structure capable of accommodating a linear wire to pass through.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. when the wire rod is used, the wire rod moves in a one-way direction from the first wire hole to the second wire hole, and a plurality of spiral surfaces are lathed on the outer surface of the wire rod through the lathing part; when the wire rod is turned, the first driving device drives the first rotating shaft to rotate, and the turning head, the rotating disc and the turning tool device which are fixed on the first rotating shaft also rotate together, so that a turning tool of the turning tool device can move around the wire rod, and meanwhile, the turning tool driving piece drives the turning tool to rotate for cutting; by controlling the rotating speed of the first rotating shaft and the rotating speed ratio of the turning tool device to drive the turning tool, the turning tool can cut the surface of the wire for a plurality of times when the turning tool device rotates around the wire for one circle; and the rotating speed ratio of the first rotating shaft to the rotating speed ratio of the turning tool driven by the turning tool device is controlled, so that the cutting parts on two adjacent circles are staggered, and the effect of turning a plurality of spiral surfaces on the surface of the wire rod is realized by matching with the linear motion of the wire rod. Through the processing of special machine, it is inefficient to solve traditional manual style with a plurality of helicoids of wire rod surface treatment, and the product quality uniformity is poor technical problem.

2. The invention can realize uninterrupted power supply for the continuously rotating turning tool device by arranging the electric brush device, realizes long-time continuous work of the turning machine and further improves the production efficiency. Through being provided with the balancing weight, realize whole carousel and install the rotation balance of spare part on the carousel, improve the reliability of device.

3. According to the invention, the turning amount adjusting groove is arranged, so that the distance between the turning tool and the surface of the wire rod can be adjusted, and the effect of turning different turning amounts is achieved. Meanwhile, the turning heads can be replaced according to the sizes of the wires, the use requirements of the wires with different sizes are met, and the application range is widened.

4. The first annular groove is arranged, so that the drawn wire can be positioned, and the wire is prevented from being distorted and deformed or scraped. The rubber layer is arranged on the outer peripheral surface of the extrusion wheel, so that the cut wire can be prevented from being extruded and deformed. Through being provided with wire rod gatherer, improve the smooth and easy nature of feeding, take place the card material and lead to production to stop or machine damage when preventing that the wire rod from getting into first line hole.

Drawings

FIG. 1 is a three-dimensional block diagram of the present invention.

FIG. 2 is a three-dimensional structure view of the flower part of the present invention.

Fig. 3 is a three-dimensional view of the turntable mounting structure of the present invention.

FIG. 4 is a three-dimensional structure diagram of the drawing part of the present invention.

FIG. 5 is a three-dimensional structural view of the introducing apparatus of the present invention.

Fig. 6 is a three-dimensional block diagram of one of the finished products that can be processed by the present invention.

In the attached drawing, 1-a rack, 2-a flower turning part, 3-a material pulling part, 4-a wire guiding device, 5-a finished wire, 11-a protective cover, 21-a first mounting seat, 22-a first rotating shaft, 23-a flower head, 24-a first driving device, 25-a rotating disc, 26-a turning tool device, 27-an electric brush device, 28-a balancing weight, 31-a first mounting frame, 32-a first roller, 33-an extrusion wheel, 34-a third driving device, 35-a rubber layer, 41-a second mounting frame, 42-a second roller, 221-a first wire hole, 231-a second wire hole, 232-a notch, 251-a turning amount adjusting groove, 261-a turning tool, 262-a second mounting seat, 263-a second rotating shaft, 264-a turning cutter head, 261-a turning tool, 262-a second mounting seat, 263-a second rotating shaft, a turning cutter head, 265-a second drive, 266-a synchronous belt, 271-a brush head, 272-a conductive ring, 321-a first annular groove, 421-a second annular groove.

Detailed Description

The following further describes the embodiments of the present invention with reference to the drawings.

Referring to fig. 1, a wire threading machine for jewelry includes a frame 1, a threading part 2, a material pulling part 3 and a wire guiding device 4, wherein the wire guiding device 4, the threading part 2 and the material pulling part 3 are sequentially mounted on the frame 1.

In this embodiment, the protective cover 11 is further disposed on the frame 1, one side of the protective cover 11 is hinged to the frame 1 through a rotating shaft (not shown) and covers the turntable 25, a torsion spring (not shown) is sleeved on the rotating shaft, two free ends of the torsion spring are respectively connected with the protective cover 11 and the frame 1, under the elastic force action of the torsion spring, the protective cover 11 is in an open state in an initial state, one side of the protective cover 11, which is far away from the rotating shaft, can be connected with the frame 1 through a buckle (not shown) and the like in the prior art, so as to cover the frame 1 and protect the flower portion 2. The protective cover 11 is further connected to the frame 1 by a chain or a rope (not shown) to limit the maximum opening position of the protective cover 11, so that the center of gravity of the protective cover 11 is shifted to the outside of the hinge when the protective cover 11 is at the maximum opening position. Since the protective cover 11 has a tendency to move in the opening direction by the torsion spring, it can tighten a chain or rope (not shown) and does not open excessively to remain above the frame 1.

Referring to fig. 2 and 3, the turning part 2 includes a first mounting seat 21, a first rotating shaft 22, a turning head 23, a first driving device 24, a rotating disc 25 and a turning tool device 26. The first mounting seat 21 is mounted on the frame 1, the first rotating shaft 22 is rotatably mounted on the first mounting seat 21, and a first thread hole 221 penetrating through the first rotating shaft 22 is coaxially arranged in the first rotating shaft 22. The spline head 23 is coaxially and detachably mounted at one end of the first rotating shaft 22, specifically, the spline head 23 and the first rotating shaft 22 can be detachably connected through a bolt; the second thread hole 231 is coaxially arranged in the embroidery head 23, the second thread hole 231 is coaxial and communicated with the first thread hole 221, and the diameter of the second thread hole 231 is slightly larger than that of the thread. A notch 232 is provided on the peripheral wall of the turnbuckle head 23, and the notch 232 is communicated with the second line hole 231. The first driving device 24 is installed on the frame 1 and drives the first rotating shaft 22 to rotate, the first driving device 24 may employ a motor or the like in the prior art, and the first driving device 24 may be connected to the first rotating shaft 22 through a belt transmission mechanism or the like in the prior art to realize transmission. The rotary disk 25 is coaxially fixed on the first rotary shaft 22, and the rotary disk 25 is positioned between the first mounting seat 21 and the turning head 23. The turning tool device 26 includes a turning tool driving member and a turning tool 261, and the turning tool driving member is installed on the turntable 25 and connected to the turning tool 261 to drive the turning tool 261 to rotate. The turning tool 261 can cut the wire located in the second wire hole 231 from the notch 232. The drawing portion 3 draws out the cut wire rod in a direction from the first wire hole 221 to the second wire hole 231. The wire introducing device 4 is located outside an end of the first wire hole 221 facing away from the second wire hole 231 for introducing the wire into the first wire hole 221.

Referring to fig. 2 again, the flower portion 2 further includes a brush device 27, the brush device 27 includes a brush head 271 and a conductive ring 272, and the brush head 271 is in sliding contact with the conductive ring 272. The brush head 271 is mounted on the first mounting base 21, and the conductive ring 272 is coaxially mounted on the turntable 25. The turning tool drive is connected to the conductive ring 272 via a wire to provide power. Through being provided with electric brush device 27, can realize incessant for the lathe tool device 26 power supply of continuous rotation, realize the long-time continuous operation of car flower machine, further improve production efficiency.

In this embodiment, the turning tool driver includes a second mounting base 262, a second rotating shaft 263, a turning tool disk 264 and a second driving device 265. The second mounting base 262 is installed on the rotary table 25, the second rotating shaft 263 is installed on the second mounting base 262 in a rotating manner, the turning tool disk 264 is installed at the end of the second rotating shaft 263, the second driving device 265 is installed on the rotary table 25, and the second driving device 265 drives the second rotating shaft 263 to rotate; the second drive 265 is wired to the conductive ring 272 for power. The turning tool 261 is mounted on a tool head 264.

In the present embodiment, the flower portion 2 further includes a weight 28, the weight 28 is mounted on the turntable 25, and the weight 28, the second driving device 265 and the second mounting base 262 are disposed around the flower head 23 at intervals. The rotary disk 25 is further provided with a turning amount adjusting groove 251, and the second mounting seat 262 is slidably mounted in the turning amount adjusting groove 251 and can be slidably locked relative to the rotary disk 25, which specifically includes: the second mounting base 262 is provided with a long circular hole for mounting, a mounting screw hole is formed in the turning amount adjusting groove 251, and a bolt penetrates through the long circular hole to be connected with the mounting screw hole so as to lock the second mounting base 262. The second driving device 265 may adopt a motor and the like in the prior art, and the second driving device 265 drives the second rotating shaft 263 to rotate through a synchronous belt transmission. By arranging the balancing weight 28, the rotation balance of the whole turntable 25 and parts arranged on the turntable 25 is realized, and the reliability of the device is improved. By providing the turning amount adjusting groove 251, the distance between the turning tool 261 and the surface of the wire rod can be adjusted, and the effect of turning different turning amounts is achieved. Meanwhile, the turning heads 23 can be replaced according to the sizes of the wires, the use requirements of the wires with different sizes are met, and the application range is widened.

Referring to fig. 4, the drawing portion 3 includes a first mounting frame 31, a first roller 32, an extrusion wheel 33 and a third driving device 34, the first mounting frame 31 is mounted on the frame 1, the first roller 32 and the extrusion wheel 33 are disposed opposite to each other and rotatably mounted on the first mounting frame 31, a first annular groove 321 is disposed on the periphery of the first roller 32, and the cut wire can be extruded into the first annular groove 321 by the outer peripheral surface of the extrusion wheel 33. The outer peripheral surface of the extrusion wheel 33 is provided with a rubber layer 35. The third driving device 34 is mounted on the first mounting frame 31 and drives the first roller 32 to rotate, and the third driving device 34 can be a motor or the like in the prior art. By providing the first annular groove 321, the drawn wire can be positioned, and the wire is prevented from being pulled askew to cause deformation or scratching. By providing the rubber layer 35 on the outer peripheral surface of the extrusion wheel 33, the cut wire rod can be prevented from being extruded and deformed.

Referring to fig. 5, the wire guiding device 4 includes a second mounting frame 41 and two rows of second rollers 42, the two rows of second rollers 42 are disposed oppositely, each second roller 42 is rotatably mounted on the second mounting frame 41, a second annular groove 421 is disposed on an outer periphery of each second roller 42, and the second annular grooves 421 of the two rows of second rollers 42 form a wire guiding structure capable of accommodating a straight wire. By providing the wire introducing device 4, the smoothness of feeding can be improved, and the wire is prevented from being jammed when entering the first wire hole 231, thereby preventing production from being stopped or machine from being damaged.

Referring to fig. 6, fig. 6 shows a finished wire 5 produced in this embodiment, a plurality of spiral surfaces are formed on the outer peripheral wall of the finished wire 5, and the number of spiral surfaces, the pitch and the cutting depth of the finished wire 5 can be different according to different processing parameters, so as to obtain finished products with different flower surfaces.

When the wire is processed and used, the wire is enabled to move in a single direction from the first wire hole 221 to the second wire hole 231 through the wire guiding device 4, and a plurality of spiral surfaces are lathed on the outer surface of the wire through the lathing part 2; when in specific turning, the first driving device 24 drives the first rotating shaft 22 to rotate, and the turning head 23, the rotating disc 25 and the turning tool device 26 fixed on the first rotating shaft 22 also rotate together, so that the turning tool 261 of the turning tool device 26 can move around the wire rod, and meanwhile, the turning tool device 26 drives the turning tool 261 to rotate for cutting; by controlling the ratio of the rotation speed of the first rotating shaft 22 to the rotation speed of the turning tool device 26 driving the turning tool 261, the turning tool 261 can cut the surface of the wire rod for several times when the turning tool device 26 rotates around the wire rod for one circle; and the cutting parts on two adjacent circles are staggered by controlling the ratio of the rotating speed of the first rotating shaft 22 to the rotating speed of the turning tool device 26 for driving the turning tool 261, and the effect of turning a plurality of spiral surfaces on the surface of the wire rod is realized by matching the linear motion of the wire rod. Through the processing of special machine, it is inefficient to solve traditional manual style with a plurality of helicoids of wire rod surface treatment, and the product quality uniformity is poor technical problem.

The above description is intended to describe in detail the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the claims of the present invention, and all equivalent changes and modifications made within the technical spirit of the present invention should fall within the scope of the claims of the present invention.

Claims

1. The utility model provides a wire rod machine of turning patterns for ornament which characterized in that: the flower turning machine comprises a machine frame, a flower turning part and a material pulling part, wherein the flower turning part and the material pulling part are arranged on the machine frame at intervals; the flower turning part comprises a first mounting seat, a first rotating shaft, a flower turning head, a first driving device, a rotating disc and a turning tool device; the first mounting seat is mounted on the machine frame, the first rotating shaft is rotatably mounted on the first mounting seat, a first wire hole penetrating through the first rotating shaft is coaxially formed in the first rotating shaft, the turnbuckle head is coaxially and detachably mounted at one end of the first rotating shaft, the turnbuckle head is provided with a second wire hole coaxial and communicated with the first rotating shaft, a notch is formed in the peripheral wall of the turnbuckle head, and the notch is communicated with the second wire hole; the first driving device is arranged on the rack and drives the first rotating shaft to rotate; the turntable is coaxially and fixedly sleeved on the first rotating shaft; the turning tool device comprises a turning tool driving part and a turning tool, the turning tool driving part is arranged on the turntable and connected with the turning tool so as to drive the turning tool to rotate, and the turning tool can cut the wire rod positioned in the second wire hole from the notch; the material pulling part pulls out the cut wire rod from the first wire hole to the second wire hole.

2. The wire threading machine for jewelry of claim 1, wherein: the flower turning part further comprises an electric brush device, the electric brush device comprises an electric brush head and a conducting ring, the electric brush head is arranged on the first mounting seat and is in sliding contact with the conducting ring, and the conducting ring is coaxially arranged on the rotary disc; the turning tool driving part is connected with the conducting ring through a conducting wire to supply power.

3. The wire threading machine for jewelry of claim 1, wherein: the turning tool driving part comprises a second mounting seat, a second rotating shaft, a turning tool disc and a second driving device, the second mounting seat is arranged on the turntable, the second rotating shaft is rotatably arranged on the second mounting seat, the turning tool disc is arranged at the end part of the second rotating shaft, the second driving device is arranged on the turntable, and the second driving device drives the second rotating shaft to rotate; the turning tool is arranged on the turning tool disc.

4. The wire threading machine for jewelry of claim 3, wherein: the flower turning part further comprises a balancing weight which is arranged on the turntable.

5. The wire threading machine for jewelry of claim 3, wherein: the rotary table is provided with a turning amount adjusting groove, and the second mounting seat is arranged in the turning amount adjusting groove in a sliding mode and can be locked relative to the rotary table in a sliding mode.

6. The wire threading machine for jewelry of claim 5, wherein: the second driving device drives the second rotating shaft to rotate through a synchronous belt transmission device.

7. The wire threading machine for jewelry of claim 1, wherein: the material pulling part comprises a first mounting frame, a first roller, an extrusion wheel and a third driving device, the first mounting frame is arranged on the rack, the first roller and the extrusion wheel are oppositely arranged and are rotatably arranged on the first mounting frame, and a first annular groove is formed in the periphery of the first roller; the third driving device is arranged on the first mounting frame and drives the first roller to rotate.

8. The wire threading machine for jewelry of claim 7, wherein: the peripheral face of the extrusion wheel is provided with a rubber layer.

9. The wire threading machine for jewelry of claim 1, wherein: the wire rod embroidery machine for the jewelry further comprises a wire rod guiding device, and a wire rod guiding structure located on the extension line of the axis of the first wire hole is arranged on the wire rod guiding device.

10. The wire threading machine for jewelry of claim 9, wherein: the wire guiding device comprises a second mounting frame and a plurality of second rollers, the second rollers are rotatably mounted on the second mounting frame, and second annular grooves are formed in the peripheries of the second rollers; the plurality of second rollers are arranged in two rows, and second annular grooves of the two rows of second rollers form the wire guiding structure capable of accommodating a linear wire to pass through.