CN216298317U - High-efficient laser divides cup machine - Google Patents

Abstract

The utility model discloses a high-efficiency laser cup separating machine which comprises a rack, a laser cutting assembly, a pressing assembly, a slag sucking assembly and a fixed rotating assembly, wherein the laser cutting assembly comprises a laser working head capable of longitudinally and transversely moving, the fixed rotating assembly comprises a clamping and fixing mechanism, a rotating barrel and a first driving device, a bearing is pressed and mounted outside the rotating barrel and connected with the rack, the rotating barrel is provided with a synchronous belt pulley and connected with a driving synchronous belt pulley of the first driving device through a conveying belt, a cavity is arranged in the fixed rotating assembly, and the slag sucking assembly is arranged in the cavity. The laser head can transversely and longitudinally move to cut at different positions, the cutting effect is good, and the slag suction assembly reciprocates up and down in the workpiece to recycle dust and waste slag generated by cutting.

Description

High-efficient laser divides cup machine

Technical Field

The utility model relates to the field of cup separating machines, in particular to a high-efficiency laser cup separating machine.

Background

The manufacture of circular tube products in the existing industrial production is more and more common, for example, circular tube cups are manufactured in a circular tube cup industrial production process, and the circular tube cups are integrally formed by two circular tube cups after a forming process, so that a process of separating the two integrally formed cups is needed.

In the existing separation process, the cutter is used for cutting the circular tube cup by the existing equipment, the cutting speed is low due to the fact that the cutter is used for cutting the circular tube cup in a physical contact mode, the product quality of the circular tube cup can be abraded, the cutter can be abraded after the circular tube cup is used for a long time, the cutter needs to be frequently replaced, and the working efficiency of the equipment is affected; in the process of cutting the circular tube cup, dust can be generated, dust slag generated in the process of cutting the circular tube cup needs to be cleaned through the dust extraction process, the process is multiple, and the production cost is high.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the efficient laser cup separating machine which is high in cutting efficiency, good in quality of cut products and capable of recycling dust and slag generated by cutting.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a high-efficient laser divides cup machine, includes frame, laser cutting subassembly, compresses tightly the subassembly, inhales sediment subassembly and fixed rotating assembly, but the laser cutting subassembly is including vertical transverse motion's laser working head, fixed rotating assembly includes clamping fixed establishment, rotatory bucket and first drive arrangement, rotatory bucket outside pressure equipment bearing with the frame is connected, set up the cavity in the fixed rotating assembly, it arranges in the cavity to inhale the sediment subassembly, it includes second drive arrangement, rolling disc, connecting block, fixed block, inhales sediment pipe and dust extraction to inhale the sediment subassembly, the connecting block with the rolling disc reaches the fixed block is articulated, the fixed block passes through the locating part to be fixed inhale on the sediment pipe, second drive arrangement drives thereby the rolling disc realizes inhale sediment pipe reciprocating motion.

In the above technical solution, further, the laser cutting assembly includes a first linear guide fixed on the working table and a second linear guide arranged on the first linear guide and moving along the length direction of the first linear guide, the first linear guide and the second linear guide are arranged perpendicular to each other, and the laser working head is mounted on the second linear guide and moves along the length direction of the second linear guide.

In the above technical solution, further, the compressing assembly includes a power element, a guiding assembly, a guiding link plate and a fixing cap, the guiding link plate and the fixing cap move on the guiding assembly, the fixing cap is connected to the guiding link plate through an elastic component, the fixing cap and the guiding link plate move synchronously, the rotating barrel is provided with a synchronous pulley and is connected with a driving synchronous pulley of the first driving device through a conveyor belt,

among the above-mentioned technical scheme, furtherly, fixed rotating assembly still includes the swivel sleeve, clamping fixed establishment includes a plurality of clamping jaws, swivel sleeve inside be provided with the screw thread with clamping jaw external screw-thread fit realizes through rotatory that the clamping jaw inwards removes inside and outside.

In the technical scheme, further, the dust suction device is connected to the lower end of the slag suction pipe, and negative pressure is generated in the dust suction device to suck the dust and the waste slag generated by cutting.

The utility model has the beneficial effects that: through compressing tightly subassembly and fixed rotating assembly, realize fixed and rotatory to the work piece, but the laser head horizontal longitudinal movement is in order to realize the cutting of different positions, and cutting effect is good, inhales the sediment subassembly and is reciprocating motion about the work piece is inside to realize the recovery to the dust and the waste residue that the cutting produced.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the combination of the present invention.

FIG. 2 is a schematic structural view of the slag sucking assembly and the rotating and fixing assembly of the present invention.

Fig. 3 is a schematic structural diagram of the laser cutting assembly of the present invention.

Fig. 4 is a schematic view of the construction of the hold-down assembly of the present invention.

Fig. 5 is a schematic view of the internal structure of the fixed rotation mechanism of the present invention.

In the figure, 1, a machine frame, 2, a laser cutting assembly, 21, a first linear guide rail, 22, a second linear guide rail, 23, a laser working head, 3, a pressing assembly, 31, a power element, 32, a guide assembly, 33, a guide connecting plate, 34, a fixing cap, 4, a slag suction assembly, 41, a second driving device, 42, a rotating disc, 43, a connecting block, 44, a fixing block, 45, a slag suction pipe, 46, a dust suction device, 5, a fixed rotating assembly, 51, a clamping and fixing mechanism, 511, a clamping jaw, 52, a rotating barrel, 53, a first driving device, 54, a bearing, 55, a synchronous belt wheel, 56, a driving synchronous belt wheel, 57, a cavity and 58 are arranged.

Detailed Description

Referring to fig. 1-5, a high-efficiency laser cup separating machine comprises a frame 1, a laser cutting assembly 2, a compacting assembly 3, a slag sucking assembly 4 and a fixed rotating assembly 5, the laser cutting component 2 comprises a laser working head 23 which can move longitudinally and transversely, the fixed rotating component 5 comprises a clamping and fixing mechanism 51, a rotating barrel 52 and a first driving device 53, a plurality of bearings 54 are pressed outside the rotary barrel 52 and connected with the frame 1, a cavity 57 is arranged in the fixed rotary component 5, the slag suction assembly 4 is arranged in the cavity 57, the slag suction assembly 4 comprises a second driving device 41, a rotating disc, a connecting block 43, a fixed block 44, a slag suction pipe 45 and a dust suction device 46, the connecting block 43 is hinged with the rotating disc 42 and the fixed block 44, the fixed block 44 is fixed on the slag suction pipe 45 through a limiting piece, the second driving device 41 drives the rotating disc 42 to realize the reciprocating motion of the slag suction pipe 45.

The laser cutting assembly 2 comprises a first linear guide rail 21 fixed on the working table surface and a second linear guide rail 22 arranged on the first linear guide rail 21 and moving along the length direction of the first linear guide rail 21, the first linear guide rail 21 and the second linear guide rail 22 are arranged perpendicular to each other, and the laser working head 23 is installed on the second linear guide rail 22 and moves along the length direction of the second linear guide rail 22.

The pressing assembly 3 comprises a power element 31, a guide assembly 32, a guide connecting plate 33 and a fixing cap 34, the guide connecting plate 33 moves on the guide assembly, the fixing cap 34 is connected to the guide connecting plate 33 through an elastic component, the fixing cap 34 moves synchronously with the guide connecting plate 33, and the rotating barrel 52 is provided with a synchronous belt wheel 55 which is connected with a driving synchronous belt wheel 56 of the first driving device 53 through a conveying belt.

The fixed rotating assembly 5 further comprises a rotating sleeve 58, the clamping fixing mechanism 51 comprises a plurality of clamping jaws 511, threads are arranged inside the rotating sleeve 58 and matched with the external threads of the clamping jaws 511, and the clamping jaws 511 move inwards and outwards through rotation.

The dust suction device 46 is connected to the lower end of the slag suction pipe 45, and negative pressure generated inside the dust suction device 46 sucks the cut waste slag.

The working process of the utility model is as follows: arrange the pipe cup in clamping fixed establishment 51 on fixed rotating assembly 5 fixed, the locking cap 34 that compresses tightly subassembly 3 compresses tightly the other end of pipe cup fixed, starts fixed rotating assembly 5, and the pipe cup is rotatory, and laser cutting subassembly 2 transmission laser accomplishes the cutting, inhales the sediment pipe 45 among the sediment subassembly 4 and is reciprocating motion in the pipe cup to the realization is to the dust and the recovery of waste residue that the cutting produced.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and simple modifications, equivalent changes and modifications may be made without departing from the technical scope of the present invention.

Claims (6)

1. The utility model provides a high-efficient laser divides cup machine, includes frame, laser cutting subassembly, compresses tightly the subassembly, inhales sediment subassembly and fixed rotating assembly, a serial communication port, but the laser cutting subassembly is including vertical transverse motion's laser working head, fixed rotating assembly includes clamping fixed establishment, rotatory bucket and first drive arrangement, rotatory bucket outside pressure equipment bearing with the frame is connected, set up the cavity in the fixed rotating assembly, it arranges the cavity in to inhale the sediment subassembly, it includes second drive arrangement, rolling disc, connecting block, fixed block, inhales sediment pipe and dust extraction to inhale the sediment subassembly, the connecting block with the rolling disc reaches the fixed block is articulated, the fixed block passes through the locating part to be fixed inhale on the sediment pipe, second drive arrangement drives thereby the rolling disc realizes inhale sediment pipe reciprocating motion.

2. The efficient laser cup dispenser as claimed in claim 1, wherein the laser cutting assembly comprises a first linear guide rail fixed on the working table and a second linear guide rail arranged on the first linear guide rail and moving along the length direction of the first linear guide rail, the first linear guide rail and the second linear guide rail are arranged perpendicular to each other, and the laser working head is mounted on the second linear guide rail and moves along the length direction of the second linear guide rail.

3. The high-efficiency laser cup dividing machine according to claim 1, wherein the compressing assembly comprises a power element, a guide assembly, a guide connecting plate and a fixing cap, the guide connecting plate moves on the guide assembly, the fixing cap is connected to the guide connecting plate through an elastic component, and the fixing cap moves synchronously with the guide connecting plate.

4. The efficient laser cup separating machine as claimed in claim 1, wherein the dust suction device is connected to the lower end of the residue suction pipe, and negative pressure generated inside the dust suction device sucks the dust and the residue generated by cutting.

5. The high-efficiency laser cup dispenser according to claim 1, wherein the rotating barrel is provided with a synchronous pulley which is connected with a driving synchronous pulley of the first driving device through a conveyor belt.

6. The efficient laser cup dispenser according to claim 1, wherein the fixed rotating assembly further comprises a rotating sleeve, the clamping and fixing mechanism comprises a plurality of clamping jaws, threads are arranged inside the rotating sleeve and are matched with the external threads of the clamping jaws, and the clamping jaws move inwards and outwards through rotation.

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