CN217371643U - Wire drawing equipment for anodic aluminum oxide strip production line - Google Patents

Abstract

A wire drawing device of an anodic alumina strip production line comprises a wire drawing device, a feeding conveying frame and a discharging conveying frame, wherein the wire drawing device comprises a machine base, an upper cover and a floating type conveying platform, a first installation space is arranged in the machine base, and a second installation space is arranged in the upper cover; a lifting device is arranged in the first installation space and connected with the floating type conveying platform; a wire drawing assembly is arranged in the second mounting space; the floating type conveying platform is respectively communicated with the feeding conveying frame and the discharging conveying frame in a butt joint mode, and the wire drawing assembly acts on the anodic aluminum oxide strip on the floating type conveying platform. The utility model discloses an automatic aluminium strip wire drawing function can long-time uninterrupted duty, reduces personnel operating pressure to accessible elevating gear carries out lift adjustment to floating conveying platform, thereby makes the interval between floating conveying platform and the wire drawing subassembly obtain the adjustment, handles with the wire drawing of the aluminium strip of the various different specifications of adaptation (thickness).

Description

Wire drawing equipment for anodic aluminum oxide strip production line

Technical Field

The utility model relates to an anodic aluminum oxide strip production line wire drawing equipment.

Background

With the improvement of living standard of people and the increasing development of domestic building industry, household appliance industry and the like, emerging decorative materials are continuously emerging. The demand of aluminum plate strips for high-quality indoor and outdoor decoration, household appliances, gift decoration and the like is increasing.

The traditional production process of the wire drawing aluminum plate is to process lines in different modes on the surface of the aluminum plate by adopting (physical treatment) mechanical friction or extrusion. The texture can be made into straight-line drawn wires, random-line drawn wires, thread drawn wires, ripple drawn wires and the like according to different decoration requirements, and the linear, spiral-line, ripple-like and irregular random-line-like drawn wires texture is formed on the surface of the aluminum plate by mainly adopting scouring pads, abrasive belts or stainless steel brushes through carrying out continuous horizontal linear friction, spiral friction, transverse moving friction and the like on the surface of the aluminum plate. The thickness of the lines can be changed by changing the thickness of the abrasive belt or the diameter of the steel wire brush. However, the traditional wire drawing surface aluminum processing technology is complicated in operation, high in labor intensity, long in processing period, and limited in realization of large-scale production, and the improvement of the working efficiency is influenced; meanwhile, the wire drawing aluminum plate produced by the traditional process falls behind due to the processing technology, the variety of the wire drawing product is few, the integral uniformity and consistency are poor, the definition of wire drawing lines is not high, and the metal texture is insufficient. Restricting the development of decorative products to the market with strong metal texture and various designs and varieties.

As another example, patent document CN212470801U discloses an anodic aluminum oxide strip production line wire drawing device, which includes a frame, two guide rollers a and B, guide roller C and D respectively form two guide roller pairs, which are symmetrically arranged at two sides of the frame, and are parallel to each other up and down, guide roller E and wire drawing roller form a guide roller pair, which is arranged in the middle of the frame, guide roller a, guide roller B, guide roller C, guide roller D and guide roller E are movably connected to the frame through a bearing a, one end of guide roller a, guide roller B, guide roller C, guide roller D and guide roller E is connected to a synchronous rotation driving mechanism, the wire drawing roller is movably connected to the frame through a hole shaft, one end of the wire drawing roller is connected to a stretching rotation driving mechanism, the guide roller A, the guide roller B, the guide roller E, the wire drawing roller, the guide roller C and the guide roller D form three guide roller pairs, so that when the aluminum strip is continuously conveyed horizontally through the guide roller pairs, S-shaped uneven structures are formed on the surfaces of the aluminum strip on the side of the wire drawing rollers through the wire drawing rollers.

The above-mentioned patented products have made it possible to achieve a certain degree of automation of the aluminium strip drawing process, but they have certain drawbacks. For example, since the specifications (thicknesses) of aluminum strips are various, but the existing equipment does not have the adjusting function, a single piece of equipment can only meet the wire drawing processing requirements of a single specification product, and manufacturers need to invest a larger amount of equipment and production fields and consume a large amount of manpower, material resources and financial resources to cover all series of products.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides an anodic aluminum oxide strip production line drawing equipment.

The technical proposal of the utility model for solving the technical problem is that: a wire drawing device for an anodic aluminum oxide strip production line comprises a wire drawing device, a feeding conveying frame arranged in front of the wire drawing device and a discharging conveying frame arranged in back of the wire drawing device, wherein the wire drawing device comprises a machine base, an upper cover and a floating type conveying platform arranged between the machine base and the upper cover, a first installation space is arranged in the machine base, and a second installation space is arranged in the upper cover;

a lifting device is arranged in the first installation space and is connected with the floating type conveying platform;

a wire drawing assembly is arranged in the second mounting space;

the floating type conveying platform is respectively communicated with the feeding conveying frame and the discharging conveying frame in a butt joint mode, and the wire drawing assembly acts on the anodic alumina belt on the floating type conveying platform to achieve wire drawing treatment of the anodic alumina belt.

The technical scheme is further set as follows: the lifting device comprises a plurality of vertically arranged nut screw rod assemblies, linkage chain discs sleeved on the nut screw rod assemblies, linkage chains wound between the linkage chain discs of the nut screw rod assemblies and a lifting driving assembly acting on any one of the nut screw rod assemblies.

The technical scheme is further set as follows: the nut and screw rod assembly comprises a vertically arranged screw rod, a nut seat and a connecting frame, wherein the nut seat is sleeved on the screw rod and can move up and down along the screw rod, and the connecting frame is connected between the nut seat and the floating type conveying platform.

The technical scheme is further set as follows: the lifting driving assembly comprises a lifting motor, a speed reducer, a first driving chain disc, a second driving chain disc and a driving chain, wherein the lifting motor is horizontally arranged, the speed reducer is in transmission connection with an output shaft of the lifting motor and is vertically arranged, the first driving chain disc is sleeved on the speed reducer, the second driving chain disc is sleeved on any one of the nut and screw rod assemblies, and the driving chain is wound between the first driving chain disc and the second driving chain disc.

The technical scheme is further set as follows: the floating type conveying platform comprises a plurality of conveying roller shafts, a conveying motor used for driving the conveying roller shafts and conveying belts sleeved on the conveying roller shafts.

The technical scheme is further set as follows: the wire drawing assembly comprises a wire drawing roller shaft assembly and a wire drawing belt wound on the wire drawing roller shaft assembly.

The technical scheme is further set as follows: the wire drawing roller shaft assembly comprises a fixed wire drawing roller shaft, a movable wire drawing roller shaft and a lifting cylinder acting on the movable wire drawing roller shaft.

The technical scheme is further set as follows: the upper cover in still be equipped with the mount, this mount is located between fixed wire drawing roller and the activity wire drawing roller, the lifting cylinder fix on the mount, and lifting cylinder's piston rod is connected with the transmission of activity wire drawing roller.

The technical scheme is further set as follows: the fixed frame is upwards provided with a supporting frame, the fixed wire drawing roller shaft is rotatably arranged on the supporting frame, and the supporting frame is connected with the fixed frame through an adjusting cylinder.

The technical scheme is further set as follows: the second installation space in still be equipped with the suction hood, the entry end of suction hood with the wire drawing subassembly counterpoint, the exit end of suction hood stretches out outside the upper shield and is connected with outside fan.

The utility model discloses a theory of operation does: the aluminum strip to be processed and just subjected to anodic oxidation treatment enters from the feeding conveying frame and is conveyed to the floating type conveying platform (wire drawing device) for wire drawing treatment, and the aluminum strip subjected to wire drawing realizes blanking along the discharging conveying frame.

The beneficial effects of the utility model reside in that: the automatic aluminum strip wire drawing function is realized, the aluminum strip wire drawing function can be continuously operated for a long time, the working pressure of personnel is greatly reduced, the efficiency is high, the stability is high, the lifting adjustment is carried out on the floating type conveying platform through the lifting device, the distance between the floating type conveying platform and the wire drawing assembly is adjusted, and the wire drawing processing is carried out on aluminum strips of various specifications (thicknesses) in a matching mode.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the drawing apparatus.

Fig. 3 is a sectional view of the drawing device.

Fig. 4 is a schematic view of the internal structure of the drawing apparatus.

Fig. 5 is an enlarged schematic view of a portion a in fig. 4.

Fig. 6 is an enlarged schematic view of a portion B in fig. 4.

Fig. 7 is a partial structural schematic view of a drawing assembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 7, an anodic aluminum oxide strip production line drawing apparatus comprises a drawing device 1, a feeding conveyor frame 2 arranged in front of the drawing device 1, and a discharging conveyor frame 3 arranged behind the drawing device 1, wherein the drawing device 1 comprises a machine base 4, an upper cover 5, and a floating type conveying platform 6 arranged between the machine base 4 and the upper cover 5, a first installation space 7 is arranged in the machine base 4, and a second installation space 8 is arranged in the upper cover 5;

a lifting device 9 is arranged in the first installation space 7, and the lifting device 9 is connected with the floating type conveying platform 6;

a wire drawing assembly 10 is arranged in the second installation space 8;

the floating type conveying platform 6 is respectively communicated with the feeding conveying frame 2 and the discharging conveying frame 3 in a butt joint mode, and the wire drawing assembly 10 acts on the anodic alumina belt on the floating type conveying platform 6 to achieve wire drawing treatment of the anodic alumina belt.

The technical content is the basic scheme of the utility model, during the use, the aluminium strip that waits to process and just had undergone anodic oxidation treatment gets into from feeding carriage 2, carries to the floating conveying platform 6 (wire drawing device 1) in and carries out the wire drawing processing again, and the aluminium strip after the wire drawing realizes the unloading along ejection of compact carriage 3. Particularly, the utility model discloses well accessible elevating gear 9 carries out lift adjustment to floating conveying platform 6 to make the interval between floating conveying platform 6 and the wire drawing subassembly 10 adjusted, handle with the wire drawing of the aluminum strip of the various different specifications of adaptation (thickness).

The structure of the commercial ascending and descending device 9 is various, and this embodiment provides a specific preferred combination scheme, specifically: referring to fig. 2 and 6, the lifting device comprises a plurality of vertically arranged nut screw assemblies 11, linkage chain discs 12 sleeved on the nut screw assemblies 11, linkage chains 13 wound between the linkage chain discs 12 of each nut screw assembly 11, and a lifting driving assembly 14 acting on any one of the nut screw assemblies 11. Through the cooperation of each linkage chain disc 12 and linkage chain 13, can realize the linkage effect of a plurality of nut lead screw subassemblies 11, also can reduce the quantity of lift drive assembly 14 simultaneously, can drive all relevant nut lead screw subassemblies 11 through single lift drive assembly 14, reduced the use amount of spare part, and then make upgrading device's structure simple more reasonable, reduce the assembly degree of difficulty and part cost.

Further, referring to fig. 5 and 6, the nut-screw assembly 11 includes a vertically disposed screw 15, a nut seat 16 sleeved on the screw 15 and capable of moving up and down along the screw 15, and a connecting frame 17 connected between the nut seat 16 and the floating conveying platform 6. When the floating type conveying platform is used, the screw rod 15 rotates, and the nut seat 16 is lifted along the screw rod 15 so as to drive the floating type conveying platform 6 to lift together through the connecting frame 17. In addition, the nut and screw assembly 11 with the structure in the lifting device 9 has the characteristics of high transmission efficiency, high positioning precision and repeated positioning precision, long service life, high rigidity and transmission reversibility, so that the floating type conveying platform 6 can run more stably.

The structure of the commercial ascending and descending driving assembly 14 is various, and the embodiment provides a specific preferred combination scheme, specifically: referring to fig. 5, the lifting driving assembly 14 includes a lifting motor 18 disposed horizontally, a speed reducer 19 connected to an output shaft of the lifting motor 18 in a transmission manner and disposed vertically, a first driving chain plate (not shown) sleeved on the speed reducer 19, a second driving chain plate 21 sleeved on any one of the nut-screw assemblies 11, and a driving chain 22 wound between the first driving chain plate and the second driving chain plate 21. Through the single lifting driving component 14 in the above content, any one of the associated nut-screw assemblies 11 can be driven, and then other nut-screw assemblies 11 are linked, so as to realize the upgrading function of the floating type conveying platform 6. And moreover, a chain transmission mode is adopted, so that the device has the advantages of no slipping phenomenon, high transmission accuracy and efficiency, high transmission power, large overload capacity, strong adaptability, capability of working in severe environment and the like.

Referring to fig. 3 to 4, in this embodiment, the floating type conveying platform 6 includes a plurality of conveying roller shafts 23, a conveying motor 24 for driving the conveying roller shafts 23, and a conveying belt 25 sleeved on each conveying roller shaft 23. In operation, the conveying motor 24 is started to drive the conveying roller shaft 23 to rotate, so that the conveying belt 25 sleeved on the conveying roller shaft 23 continuously operates to convey the aluminum strip placed thereon forward.

In the present invention, the wire drawing assembly 10 includes a wire drawing roller assembly and a wire drawing belt 26 wound around the wire drawing roller assembly. When the aluminum strip drawing device is used, at least part of the wire drawing belt 26 is in contact with an aluminum strip to be processed, and wire drawing treatment is carried out on the aluminum strip in the forward process of the aluminum strip.

The technical scheme of the wire drawing assembly 10 is preferably as follows: referring to fig. 7, the drawing roller assembly includes a fixed drawing roller shaft 27, a movable drawing roller shaft 28, and a lift cylinder 29 acting on the movable drawing roller shaft 28. More specifically, the upper cover 5 is further provided with a fixed frame 30, the fixed frame 30 is located between the fixed wire drawing roller shaft 27 and the movable wire drawing roller shaft 28, the lifting cylinder 29 is fixed on the fixed frame 30, and a piston rod of the lifting cylinder 29 is in transmission connection with the movable wire drawing roller shaft 28. The lifting cylinder 29 can adjust the position relation of the movable wire drawing roller shaft 28 relative to the fixed wire drawing roller shaft 27, and further has another adjusting function to adapt to aluminum strips of different specifications.

Wherein, still be equipped with wire drawing motor 34, refer to fig. 4, wire drawing motor 34 drives movable wire drawing roller 28 rotation work through driving belt subassembly 35.

The mounting structure for fixing the drawing roller shaft 27 is: the fixed frame 30 is upwards provided with a support frame 31, and the fixed wire drawing roll shaft 27 is rotatably arranged on the support frame 31. Furthermore, in order to make the whole wire drawing assembly 10 have more abundant adjusting functions, the supporting frame 31 is connected with the fixing frame 30 through the adjusting cylinder 32, and when the adjusting cylinder 32 is driven upwards or downwards, the fixed wire drawing roller shaft 27 arranged on the supporting frame 31 can be driven to move and adjust relative to the supporting frame 31.

When wire drawing subassembly 10 carries out the wire drawing processing to the aluminium strip, can constantly produce the aluminium bits, if not handle the aluminium bits in time, can lead to the aluminium bits to pile up, and then cause the damage to aluminium strip and equipment. The existing treatment mode is that a chip groove is generally formed in the lower end of equipment, so that an aluminum strip automatically enters the chip groove and is discharged to the lower side of the equipment, but the movement direction is unstable when the aluminum chips are generated, the aluminum chips are scattered everywhere, and part of the aluminum chips cannot enter the chip groove, so that the situation of aluminum chip accumulation still occurs during long-time operation. In order to eliminate the above drawbacks, the present embodiment provides a solution: a dust hood 33 is further arranged in the second mounting space 8, the inlet end of the dust hood 33 is opposite to the wire drawing assembly 10, and the outlet end of the dust hood 33 extends out of the upper cover 5 and is connected with an external fan. The aluminum scraps generated by the wire drawing process are sucked into the dust hood 33 and discharged to the outside of the upper hood 5 by a suction force provided by an external fan. Adopt above-mentioned structural scheme, effectively leading the discharge to the aluminium bits, the accumulational condition of aluminium bits also can not appear after long-time continuous use to ensure that whole equipment well operates.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to utility model technical entity to any simple modification, change and the equivalent structure change of doing above embodiment, all still belong to the utility model discloses technical scheme's within the scope of protection.

Claims (10)

1. The utility model provides an anodic aluminum oxide area production line wire drawing equipment, includes wire drawing device, sets up at the feeding carriage in wire drawing device the place ahead and sets up the ejection of compact carriage in wire drawing device rear, its characterized in that: the wire drawing device comprises a base, an upper cover and a floating type conveying platform arranged between the base and the upper cover, wherein a first installation space is arranged in the base, and a second installation space is arranged in the upper cover;

a lifting device is arranged in the first installation space and connected with the floating type conveying platform;

a wire drawing assembly is arranged in the second mounting space;

the floating type conveying platform is respectively communicated with the feeding conveying frame and the discharging conveying frame in a butt joint mode, and the wire drawing assembly acts on the anodic alumina belt on the floating type conveying platform to achieve wire drawing treatment of the anodic alumina belt.

2. The wire drawing apparatus for an anodic alumina strip production line according to claim 1, characterized in that: the lifting device comprises a plurality of vertically arranged nut screw rod assemblies, linkage chain discs sleeved on the nut screw rod assemblies, linkage chains wound between the linkage chain discs of the nut screw rod assemblies and a lifting driving assembly acting on any one of the nut screw rod assemblies.

3. The anodized aluminum strip production line wire drawing apparatus of claim 2, wherein: the nut and screw rod assembly comprises a vertically arranged screw rod, a nut seat and a connecting frame, wherein the nut seat is sleeved on the screw rod and can move up and down along the screw rod, and the connecting frame is connected between the nut seat and the floating type conveying platform.

4. The wire drawing apparatus for an anodic alumina strip production line according to claim 2, characterized in that: the lifting driving assembly comprises a lifting motor, a speed reducer, a first driving chain disc, a second driving chain disc and a driving chain, wherein the lifting motor is horizontally arranged, the speed reducer is in transmission connection with an output shaft of the lifting motor and is vertically arranged, the first driving chain disc is sleeved on the speed reducer, the second driving chain disc is sleeved on any one of the nut and screw rod assemblies, and the driving chain is wound between the first driving chain disc and the second driving chain disc.

5. The wire drawing apparatus for an anodic alumina strip production line according to claim 1, characterized in that: the floating type conveying platform comprises a plurality of conveying roller shafts, a conveying motor used for driving the conveying roller shafts and conveying belts sleeved on the conveying roller shafts.

6. The wire drawing apparatus for an anodic alumina strip production line according to claim 1, characterized in that: the wire drawing assembly comprises a wire drawing roller shaft assembly and a wire drawing belt wound on the wire drawing roller shaft assembly.

7. The wire drawing apparatus for an anodic alumina strip production line according to claim 6, characterized in that: the wire drawing roller shaft assembly comprises a fixed wire drawing roller shaft, a movable wire drawing roller shaft and a lifting cylinder acting on the movable wire drawing roller shaft.

8. The anodized aluminum strip production line wire drawing apparatus of claim 7, wherein: the upper cover in still be equipped with the mount, this mount is located between fixed wire drawing roller and the activity wire drawing roller, the lifting cylinder fix on the mount, and lifting cylinder's piston rod is connected with the transmission of activity wire drawing roller.

9. The wire drawing apparatus for an anodic alumina strip production line according to claim 8, characterized in that: the fixed frame is upwards provided with a supporting frame, the fixed wire drawing roller shaft is rotatably arranged on the supporting frame, and the supporting frame is connected with the fixed frame through an adjusting cylinder.

10. The wire drawing apparatus for an anodic alumina strip production line according to claim 1, characterized in that: the second installation space in still be equipped with the suction hood, the entry end of suction hood with wire drawing subassembly counterpoint, the exit end of suction hood stretches out to the upper shield outside and is connected with outside fan.

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