CN209983617U - Radium-shine lathe tool equipment of jewelry production usefulness - Google Patents

Abstract

The utility model relates to a laser lathe tool device for jewelry production, which comprises a frame, a feeding mechanism arranged on the frame, and a laser lathe tool mechanism arranged at the discharge end of the feeding mechanism; the feeding mechanism conveys the wire rods, and the laser turning tool arranged on the laser turning tool mechanism cuts and shapes the wire rods. This radium-shine lathe tool equipment rotates the wire rod at feed mechanism's rotating assembly to make the wire rod rotatory, feed assembly's reciprocating motion makes the wire rod feed, then fixed subassembly will move to the wire rod centre gripping of preset position fixed, radium-shine lathe tool mechanism starts, and radium-shine lathe tool is rotatory, just turns from wire rod one side, and continuous rotation or feed, in order to form required molding. The equipment has compact structure and small volume, can continuously work when processing the bead jewelry, has high production efficiency and reduces the production cost.

Description

Radium-shine lathe tool equipment of jewelry production usefulness

Technical Field

The utility model relates to a jewelry production facility, more specifically say and indicate a radium-shine lathe tool equipment of jewelry production usefulness.

Background

A lot of jewelry are made by hands at present, the production cycle is long, the efficiency is low, and the increasing requirements cannot be met. Many jewels are formed by connecting round beads of particles in series, but the prior production equipment of the round beads has lower efficiency and low qualification rate.

In the production process of the round beads, a strip-shaped round tube is made into a strip-shaped semi-finished round bead product through various working procedures, and then the semi-finished round bead product is cut to form a finished round bead product. In the whole process, after the long-strip round tube is subjected to hammering and pressing forming, the shape after hammering needs to be modified. The common lathe equipment can not meet the processing requirement of the ball.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a radium-shine lathe tool equipment of jewelry production usefulness.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a laser lathe tool device for jewelry production comprises a rack, a feeding mechanism arranged on the rack, and a laser lathe tool mechanism arranged at the discharge end of the feeding mechanism; the feeding mechanism conveys the wire rods, and the laser turning tool arranged on the laser turning tool mechanism cuts and shapes the wire rods.

The further technical scheme is as follows: the laser lathe tool mechanism comprises a laser lathe tool power part arranged on the rack, a transmission component in transmission connection with the laser lathe tool power part, and a laser lathe tool arranged at the power output end of the transmission component; the transmission assembly is arranged on the adjusting assembly.

The further technical scheme is as follows: the transmission assembly comprises a first transmission shaft and a second transmission shaft; the first transmission shaft and the second transmission shaft are arranged at the adjusting output end of the adjusting assembly; the laser turning tool is arranged at one end of the second transmission shaft; and power is transmitted between the first transmission shaft and the laser turning tool power piece and between the first transmission shaft and the second transmission shaft through the transmission belt.

The further technical scheme is as follows: a first driving wheel and a second driving wheel are arranged at two ends of the first driving shaft, and a third driving wheel is arranged at the other end of the second driving shaft; the first driving wheel is in transmission connection with the laser turning tool power part through the driving belt; the second driving wheel is in transmission connection with the third driving wheel through the transmission belt.

The further technical scheme is as follows: the rotating direction of the first transmission shaft is vertical to that of the second transmission shaft; the second driving wheel is in transmission connection with the third driving wheel through a transition driving wheel.

The further technical scheme is as follows: the laser turning tool is connected to the second transmission shaft through a tool apron; and a plurality of mounting grooves for mounting laser turning tools are uniformly distributed on the periphery of the tool apron.

The further technical scheme is as follows: the adjusting component comprises a fixed seat in sliding connection with the rack, a sliding seat in sliding connection with the fixed seat, and a rotating seat in rotating connection with the sliding seat; the laser turning tool is arranged on the rotating seat; the adjusting handle is arranged between the sliding seat and the fixed seat; and a locking handle is arranged between the rotating seat and the sliding seat.

The further technical scheme is as follows: the rotating seat is rotationally connected with the first transmission shaft, and the rotating direction of the rotating seat is the same as that of the first transmission shaft; and the second transmission shaft is rotationally connected to the rotating seat so that the height of the laser turning tool can be adjusted through the rotation of the rotating seat.

The further technical scheme is as follows: the feeding mechanism comprises a rotating assembly for rotating the wires, a feeding assembly for conveying the wires to and fro and a fixing assembly for clamping the wires; the rotating assembly, the feeding assembly and the fixing assembly are sequentially arranged. After the rotating assembly rotates the wire rod for a set angle, the feeding assembly conveys the wire rod for a set distance, then the fixing assembly clamps and fixes the wire rod, the laser turning tool mechanism with the adjusted position starts to process the wire rod, generally one side of the wire rod is processed, and then the wire rod is processed after rotating for a certain angle.

The further technical scheme is as follows: the laser turning tool mechanism is arranged on one side of the wire feeding direction, and a stop block assembly is arranged on the other side of the wire feeding direction; the stop block assembly comprises a mounting seat fixedly connected with the frame and a baffle plate adjustably connected to the mounting seat; the baffle is close to the laser lathe tool.

Compared with the prior art, the utility model beneficial effect be: this radium-shine lathe tool equipment rotates the wire rod at feed mechanism's rotating assembly to make the wire rod rotatory, feed assembly's reciprocating motion makes the wire rod feed, then fixed subassembly will move to the wire rod centre gripping of preset position fixed, radium-shine lathe tool mechanism starts, and radium-shine lathe tool is rotatory, just turns from wire rod one side, and continuous rotation or feed, in order to form required molding. The equipment has compact structure and small volume, can continuously work when processing the bead jewelry, has high production efficiency and reduces the production cost.

The invention is further described with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a front view of a laser turning tool device for jewelry production of the present invention;

FIG. 2 is a top view of the laser turning tool apparatus for jewelry production of the present invention;

fig. 3 is a front view of a laser turning tool mechanism of a laser turning tool device for jewelry production of the present invention;

fig. 4 is a top view of a laser turning tool mechanism of a laser turning tool device for jewelry production of the present invention;

fig. 5 is the utility model relates to a radium-shine lathe tool equipment's of jewelry production usefulness feed mechanism enlarged.

Detailed Description

In order to more fully understand the technical content of the present invention, the technical solution of the present invention will be further described and illustrated with reference to the following specific embodiments, but not limited thereto.

Fig. 1 to 5 show drawings according to embodiments of the present invention.

The utility model provides a radium-shine lathe tool equipment of jewelry production usefulness, includes frame 10, locates the feed mechanism 20 of frame 10, and locates radium-shine lathe tool mechanism 30 of 20 discharge ends of feed mechanism. The feeding mechanism 20 conveys the wire rods, and the laser turning tools 31 arranged on the laser turning tool mechanism 30 cut and form the wire rods. The equipment is used for turning a wire rod into bead-shaped particles meeting requirements through a laser turning tool 31. However, when the strand is turned into bead-like particles, the bead-like particles are not cut, but the individual particles are connected to each other to form a linear structure, and the bead-like particles can be cut into granular beads in the step of bead cutting equipment.

The laser lathe tool mechanism 30 comprises a laser lathe tool power part 32 arranged on the machine frame 10, a transmission component 33 in transmission connection with the laser lathe tool power part 32, and a laser lathe tool 31 arranged at the power output end of the transmission component 33. The transmission assembly 33 is provided with an adjustment assembly 34. The laser turning tool power part 32 can be a motor, an oil pump and the like.

The transmission assembly 33 includes a first transmission shaft 331 and a second transmission shaft 332. The first transmission shaft 331 and the second transmission shaft 332 are both disposed at the adjusting output end of the adjusting assembly 34. The laser lathe tool 31 is arranged at one end of the second transmission shaft 332. The power is transmitted between the first transmission shaft 331 and the laser turning tool power piece 32 and between the first transmission shaft 331 and the second transmission shaft 332 through the transmission belt 333.

A first driving wheel 334 and a second driving wheel 335 are arranged at two ends of the first driving shaft 331, and a third driving wheel 336 is arranged at the other end of the first driving shaft 331. The first driving wheel 334 is in transmission connection with the laser turning tool power member 32 through the driving belt 333. The second transmission wheel 335 is in transmission connection with a third transmission wheel 336 via the transmission belt 333. The laser turning tool 31 is fixed on the second transmission shaft 332 and is far away from one end of the third transmission wheel 336.

Specifically, the rotation direction of the first transmission shaft 331 and the rotation direction of the second transmission shaft 332 are perpendicular to each other, which can be understood as that the first transmission shaft 331 and the second transmission shaft 332 are perpendicular to each other, so that the mechanism of the device is more compact. The second driving wheel 335 is in transmission connection with the third driving wheel 336 through a transition driving wheel 337.

The diameters of the first driving wheel 334, the second driving wheel 335 and the third driving wheel 336 can be set according to the actual situation of the laser turning tool 31, so that the laser turning tool can be used as a speed reducing mechanism.

Wherein, the laser lathe tool 31 is coupled to the second transmission shaft 332 through a tool holder 338. The periphery of the tool apron 338 is uniformly provided with a plurality of mounting grooves 3381 for mounting the laser turning tool 31. The tool holder 338 can be provided with different laser turning tools 31 as required. The tool holder 338 is detachably mounted on one end of the second transmission shaft 332, and the height and the angle of the turning tool can be adjusted by rotating the holder 343 to adapt to different conditions.

The adjusting assembly 34 includes a fixed base 341 slidably coupled to the frame 10, a sliding base 342 slidably coupled to the fixed base 341, and a rotating base 343 rotatably coupled to the sliding base 342. The laser lathe tool 31 is arranged on the rotary seat 343. The handle 344 is adjusted between the sliding seat 342 and the fixed seat 341. A locking handle 345 is arranged between the rotating seat 343 and the sliding seat 342.

Since the laser turning tool 31 needs to feed a tool in the turning process, the fixing seat 341 is slidably connected with the frame, and the fixing seat 341 is in transmission connection with the feeding power, so that the adjusting assembly 34, the transmission assembly 33 and the laser turning tool 31 move back and forth together. The direction of the reciprocating motion is perpendicular to the feeding direction of the wire rod. After the laser turning tool 31 processes the wire rod, the wire rod returns to a certain distance under the action of the feeding power, and after the wire rod is fed to a certain distance, the laser turning tool 31 is fed again for processing. Preferably, the feeding power is obtained by the laser turning tool power piece 32 through a conversion mechanism.

The rotary seat 343 is rotatably coupled to the first transmission shaft 331, and the rotary seat 343 rotates in the same direction as the first transmission shaft 331. The second transmission shaft 332 is rotatably coupled to the rotary base 343, so that the height of the laser lathe tool 31 is adjusted by the rotation of the rotary base 343.

The feeding mechanism 20 comprises a rotating assembly 21 for rotating the wire, a feeding assembly 22 for reciprocating the wire, and a fixing assembly 23 for clamping the wire. The rotating assembly 21, the feeding assembly 22 and the fixing assembly 23 are sequentially arranged. After the rotating assembly 21 rotates the wire rod by a set angle, the feeding assembly 22 conveys the wire rod by a set distance, then the fixing assembly 23 clamps and fixes the wire rod, the laser turning tool mechanism 30 with the adjusted position starts to machine the wire rod, generally one side of the wire rod is machined, and then the wire rod is machined after rotating by a certain angle.

The feeding mechanism 20 is provided with a conveying shaft 24 penetrating through the rotating assembly 21 and the fixing assembly 23. The conveying shaft 24 is provided inside with a cavity for conveying the wire. A feed assembly 22 is provided at the feed end of the feed shaft 24 to provide a push feed of the wire. The feeding mechanism 20 is further provided with a feeding power part 25, wherein the feeding power part 25 is a laser turning tool power part 32 and is transmitted to the feeding mechanism 20 through a transmission part.

Radium-shine lathe tool mechanism 30 locates one side of wire rod feed direction, and the opposite side of feed direction is equipped with dog subassembly 11. The stop block assembly 11 includes a mounting seat 111 fixedly coupled to the frame 10, and a stop plate 112 adjustably coupled to the mounting seat. The baffle 112 is close to the laser lathe tool 31 so as to fix the wire when the ball is lathed.

In conclusion, the laser turning tool equipment rotates the wire rod at the rotating component of the feeding mechanism so as to rotate the wire rod, the reciprocating motion of the feeding component enables the wire rod to be fed, then the fixing component clamps and fixes the wire rod which moves to the preset position, the laser turning tool mechanism is started, the laser turning tool rotates, the wire rod is turned from one side, and the wire rod continuously rotates or feeds to form the required shape. The equipment has compact structure and small volume, can continuously work when processing the bead jewelry, has high production efficiency and reduces the production cost.

The technical content of the present invention is further described by the embodiments only, so that the reader can understand it more easily, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation according to the present invention is protected by the present invention. The protection scope of the present invention is subject to the claims.

Claims (10)

1. A laser lathe tool device for jewelry production is characterized by comprising a rack, a feeding mechanism arranged on the rack and a laser lathe tool mechanism arranged at the discharge end of the feeding mechanism; the feeding mechanism conveys the wire rods, and the laser turning tool arranged on the laser turning tool mechanism cuts and shapes the wire rods.

2. The laser turning tool equipment for jewelry production according to claim 1, wherein the laser turning tool mechanism comprises a laser turning tool power member arranged on the frame, a transmission assembly in transmission connection with the laser turning tool power member, and the laser turning tool arranged at a power output end of the transmission assembly; the transmission assembly is arranged on the adjusting assembly.

3. The laser turning tool equipment for jewelry production of claim 2, wherein the transmission assembly comprises a first transmission shaft, a second transmission shaft; the first transmission shaft and the second transmission shaft are arranged at the adjusting output end of the adjusting assembly; the laser turning tool is arranged at one end of the second transmission shaft; and power is transmitted between the first transmission shaft and the laser turning tool power piece and between the first transmission shaft and the second transmission shaft through the transmission belt.

4. The laser turning tool equipment for jewelry production according to claim 3, wherein a first driving wheel and a second driving wheel are arranged at two ends of the first transmission shaft, and a third driving wheel is arranged at the other end of the second transmission shaft; the first driving wheel is in transmission connection with the laser turning tool power part through the driving belt; the second driving wheel is in transmission connection with the third driving wheel through the transmission belt.

5. The laser turning tool equipment for jewelry production according to claim 4, wherein the rotation direction of the first transmission shaft is perpendicular to the rotation direction of the second transmission shaft; the second driving wheel is in transmission connection with the third driving wheel through a transition driving wheel.

6. The laser turning tool equipment for jewelry production of claim 5, wherein the laser turning tool is coupled to the second transmission shaft through a tool holder; and a plurality of mounting grooves for mounting laser turning tools are uniformly distributed on the periphery of the tool apron.

7. The laser turning tool equipment for jewelry production of claim 6, wherein the adjusting assembly comprises a fixed base slidably coupled with the frame, a sliding base slidably coupled with the fixed base, and a rotating base rotatably coupled with the sliding base; the laser turning tool is arranged on the rotating seat; the adjusting handle is arranged between the sliding seat and the fixed seat; and a locking handle is arranged between the rotating seat and the sliding seat.

8. The laser turning tool equipment for jewelry production of claim 7, wherein the rotary base is rotationally coupled to the first transmission shaft, and the rotary base rotates in the same direction as the first transmission shaft; and the second transmission shaft is rotationally connected to the rotating seat so that the height of the laser turning tool can be adjusted through the rotation of the rotating seat.

9. The laser turning tool equipment for jewelry production according to claim 1, wherein the feeding mechanism comprises a rotating assembly for rotating the wire, a feeding assembly for reciprocating the wire, and a fixing assembly for clamping the wire; the rotating assembly, the feeding assembly and the fixing assembly are sequentially arranged.

10. The laser turning tool equipment for jewelry production according to claim 1, wherein the laser turning tool mechanism is arranged on one side of a wire feeding direction, and a stop block assembly is arranged on the other side of the wire feeding direction; the stop block assembly comprises a mounting seat fixedly connected with the frame and a baffle plate adjustably connected to the mounting seat; the baffle is close to the laser lathe tool.

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