CN215845080U - Aluminum can necking device - Google Patents

Abstract

The utility model relates to an aluminum can necking device, which comprises a necking tool for positioning a workpiece, a rotating assembly for driving the necking tool to rotate, a pressing assembly, a lifting assembly for driving the pressing assembly to lift, an elastic pressing assembly, a necking wheel for necking the workpiece, a rotating driving assembly for driving the necking wheel to rotate and a transverse moving assembly, wherein the elastic pressing assembly is arranged on the necking wheel; add man-hour, place the aluminium bucket inversion and fix a position on the throat frock, lifting unit drives to press and holds the subassembly and down provide decurrent pressure to the aluminium bucket and hold the power, then sideslip subassembly drives elasticity and presses the outside surface of holding the subassembly to the aluminium bucket and carry out the elasticity side pressure, the rotation driving subassembly drives the throat wheel and rotates when carrying out throat processing to the opening of aluminium bucket the rotation assembly drive throat frock carry out with the rotation of throat wheel opposite direction, through this kind of mode, not only can realize that aluminium bucket throat processing is automatic, save artifically, the throat machining precision of aluminium bucket is high simultaneously, the product uniformity is good, machining efficiency has also obtained promotion by a wide margin.

Description

Aluminum can necking device

Technical Field

The utility model relates to the technical field of aluminum tank necking, in particular to an aluminum tank necking device.

Background

The aluminium can needs to carry out the throat processing to its opening after the reverse mould shaping usually, and traditional processing mode needs too much manual work to participate in and extrudes the throat, and workman intensity of labour is big, and the product uniformity is poor, and machining efficiency is also comparatively low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing an aluminum can necking device aiming at the defects in the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the aluminum can necking device comprises a necking tool for positioning a workpiece, a rotating assembly for driving the necking tool to rotate, a rotatable pressing assembly for applying downward pressing force to the workpiece on the necking tool, a lifting assembly for driving the pressing assembly to lift, an elastic pressing assembly for applying lateral pressing force to the workpiece on the necking tool, a necking wheel for necking the workpiece, a rotating driving assembly for driving the necking wheel to rotate, and a transverse moving assembly for driving the necking wheel and the elastic pressing assembly to transversely move.

The utility model relates to an aluminum can necking device, wherein a transverse moving component comprises a transverse moving bracket and a transverse moving driving component for driving the transverse moving bracket to transversely move; the necking wheel is rotatably arranged on the transverse moving support, and the elastic pressing and holding assembly is arranged on the transverse moving support.

The aluminum can necking device comprises a transverse moving assembly, a guide rail assembly and a guide rail assembly, wherein the guide rail assembly is used for guiding the transverse moving of a transverse moving support.

The aluminum can necking device comprises a transverse plate, wherein the transverse moving support comprises a rotating shaft and a bearing seat for rotatably mounting the rotating shaft; the rotating shaft is coaxially and fixedly connected with the necking wheel.

The aluminum tank necking device is characterized in that a driven wheel is coaxially fixed on a rotating shaft, a rotary driving assembly comprises a driving motor, and a driving wheel for driving the driven wheel is arranged at the movable end of the driving motor; and the transverse moving bracket is provided with a side plate for mounting the rotary driving assembly.

The aluminum tank necking device is characterized in that a sliding seat is arranged on the transverse plate, and the elastic pressing component comprises a sliding plate which is transversely arranged on the sliding seat in a sliding manner; one end of the sliding plate is rotatably connected with a pressing rotating wheel for pressing and holding a workpiece; the elastic pressing and holding assembly also comprises an elastic assembly for providing elastic force for the sliding plate.

The aluminum tank necking device comprises an elastic component, a sliding plate, a sliding seat and a control component, wherein the elastic component comprises a mounting block arranged on the sliding plate and a transverse rod arranged on the sliding seat; the mounting block is provided with a through hole for the transverse rod to pass through; one end of the transverse rod penetrating through the through hole is sleeved with a spring, and the end part of the transverse rod is provided with an elastic force adjusting knob for adjusting the elastic force of the spring.

The aluminum can necking device further comprises a mounting base, wherein a first mounting frame for mounting the lifting assembly and a second mounting frame for mounting the transverse moving assembly are arranged on the mounting base.

The aluminum tank necking device comprises a rotating assembly, a first guide rail, a second guide rail, a third guide rail, a fourth guide rail and a fourth guide rail; the movable end of the rotating motor is connected with the driving shaft through a coupler, and the driving shaft is fixedly connected with the necking tool.

The aluminum tank necking device comprises a pressing and holding assembly, a lifting assembly and a control assembly, wherein the pressing and holding assembly comprises a flattening rotating wheel, the lifting assembly comprises a flattening cylinder, and the movable end of the flattening cylinder is coaxially and rotatably connected with the flattening rotating wheel.

The utility model has the beneficial effects that: add man-hour, place the aluminium bucket inversion and fix a position on the throat frock, lifting unit drives to press and holds the subassembly and down provide decurrent pressure to the aluminium bucket and hold the power, then sideslip subassembly drives elasticity and presses the outside surface of holding the subassembly to the aluminium bucket and carry out the elasticity side pressure, the rotation driving subassembly drives the throat wheel and rotates when carrying out throat processing to the opening of aluminium bucket the rotation assembly drive throat frock carry out with the rotation of throat wheel opposite direction, through this kind of mode, not only can realize that aluminium bucket throat processing is automatic, save artifically, the throat machining precision of aluminium bucket is high simultaneously, the product uniformity is good, machining efficiency has also obtained promotion by a wide margin.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is a schematic structural view of an aluminum can necking apparatus according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the assembly of the traverse bracket and the driving motor of the aluminum can necking device according to the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

As shown in fig. 1 and also referring to fig. 2, the aluminum can necking device according to the preferred embodiment of the present invention includes a necking tool 2 for positioning a workpiece 1, a rotating assembly 3 for driving the necking tool 2 to rotate, a rotatable pressing assembly 4 for applying a downward pressing force to the workpiece 1 on the necking tool 2, a lifting assembly 5 for driving the pressing assembly 4 to lift, an elastic pressing assembly 6 for applying a lateral pressing force to the workpiece 1 on the necking tool 2, a necking wheel 7 for necking the workpiece 1, a rotation driving assembly 8 for driving the necking wheel 7 to rotate, and a traverse assembly for driving the necking wheel 7 and the elastic pressing assembly 6 to traverse;

during processing, the aluminum barrel is placed on the necking tool 2 in an inverted mode for positioning, the lifting assembly 5 drives the pressing assembly 4 to move downwards to provide downward pressing force for the aluminum barrel, then the transverse moving assembly drives the elastic pressing assembly 6 to perform elastic side pressing on the outer side surface of the aluminum barrel, the rotary driving assembly 8 drives the necking wheel 7 to rotate to perform necking processing on the opening of the aluminum barrel, and the rotary assembly 3 drives the necking tool 2 to rotate in the direction opposite to that of the necking wheel 7;

it should be noted that the device of the application not only can perform necking processing of the aluminum barrel, but also is applicable to other workpieces requiring extrusion necking processing, and simple transformation based on the processed object belongs to the protection scope of the application; it will be appreciated that, depending on the manner of processing, the reduction wheel may be replaced by another wheel, such as a cutting wheel, a knurling wheel, etc., and that simple replacement based on this principle is also within the scope of the present application.

Preferably, the traverse assembly comprises a traverse bracket and a traverse driving assembly 91 for driving the traverse bracket to traverse; the necking wheel 7 is rotatably arranged on the transverse moving bracket, and the elastic pressing and holding component 6 is arranged on the transverse moving bracket; reasonable structure and convenient assembly.

Preferably, the traversing assembly further comprises a guide rail assembly 92 for guiding the traversing of the traversing carriage; the motion stability is guaranteed.

Preferably, the traverse bracket comprises a transverse plate 900, and a rotating shaft 901 and a bearing seat 902 for rotatably mounting the rotating shaft are arranged on the transverse plate 900; the rotating shaft 901 is coaxially and fixedly connected with the necking wheel 7; reasonable structure, convenient assembly and good stability.

Preferably, a driven wheel 903 is coaxially fixed on the rotating shaft 901, the rotating driving assembly 8 comprises a driving motor 80, and a driving wheel 81 for driving the driven wheel 903 is arranged at the movable end of the driving motor 80; the traversing carriage is provided with side plates 904 on which the rotary drive assembly 8 is mounted.

Preferably, the transverse plate 900 is provided with a sliding seat 905, and the elastic pressing and holding assembly 6 comprises a sliding plate 60 which is transversely slidably arranged on the sliding seat 905; one end of the sliding plate 60 is rotatably connected with a pressing rotating wheel 61 for pressing and holding a workpiece; the elastic pressing member 6 further includes an elastic member for providing an elastic force to the sliding plate 60.

Preferably, the elastic assembly comprises a mounting block 62 provided on the sliding plate 60 and a transverse bar 63 provided on the sliding seat; the mounting block 62 is provided with a through hole for the transverse rod 63 to pass through; one end of the transverse rod 63 penetrating through the through hole is sleeved with a spring 64, and the end part is provided with an elastic force adjusting knob 65 for adjusting the elastic force of the spring 64; the structure is reasonable and compact, the compression amount of the spring can be quickly adjusted through the elastic force adjusting knob, and the reset force provided by the spring can be adjusted;

the assembly relationship between the elastic force adjusting knob and the transverse rod can be in threaded fit, and other existing position adjusting modes can also be adopted.

Preferably, the aluminum can necking device further comprises a mounting base 10, and a first mounting frame 100 for mounting the lifting assembly and a second mounting frame 101 for mounting the transverse moving assembly are arranged on the mounting base 10.

Preferably, the rotating assembly 3 comprises a rotating motor 30 fixed with the mounting base and a driving shaft 31 rotatably arranged on the mounting base in a penetrating way; the movable end of the rotating motor 30 is connected with a driving shaft 31 through a coupler 32, and the driving shaft 31 is fixedly connected with the necking tool 2; convenient assembly and good stability.

Preferably, the pressing and holding assembly 4 comprises a flattening rotating wheel, the lifting assembly 5 comprises a flattening cylinder, and the movable end of the flattening cylinder is coaxially and rotatably connected with the flattening rotating wheel; when the workpiece is pressed and held, the rotary wheel is leveled to rotate along with the workpiece, and the pressing and holding effect is good.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (10)

1. An aluminum can necking device is characterized by comprising a necking tool for positioning a workpiece, a rotating assembly for driving the necking tool to rotate, a rotatable pressing and holding assembly for applying downward pressing and holding force to the workpiece on the necking tool, a lifting assembly for driving the pressing and holding assembly to lift, an elastic pressing and holding assembly for applying lateral pressing and holding force to the workpiece on the necking tool, a necking wheel for necking the workpiece, a rotating driving assembly for driving the necking wheel to rotate, and a transverse moving assembly for driving the necking wheel and the elastic pressing and holding assembly to transversely move.

2. The aluminum can necking apparatus of claim 1, wherein the traverse assembly comprises a traverse support and a traverse driving assembly for driving the traverse support to traverse; the necking wheel is rotatably arranged on the transverse moving support, and the elastic pressing and holding assembly is arranged on the transverse moving support.

3. The aluminum can necking apparatus of claim 2, wherein the traverse assembly further comprises a guide rail assembly guiding the traverse of the traverse support.

4. The aluminum can necking device of claim 2, wherein the traverse bracket comprises a transverse plate on which a rotation shaft and a bearing seat rotatably mounted thereto are provided; the rotating shaft is coaxially and fixedly connected with the necking wheel.

5. The aluminum can necking device of claim 4, wherein a driven wheel is coaxially fixed on the rotating shaft, the rotary driving assembly comprises a driving motor, and a driving wheel for driving the driven wheel is arranged at the movable end of the driving motor; and the transverse moving bracket is provided with a side plate for mounting the rotary driving assembly.

6. The aluminum can necking device of claim 4, wherein the transverse plate is provided with a sliding seat, and the elastic pressing and holding assembly comprises a sliding plate which is transversely and slidably arranged on the sliding seat; one end of the sliding plate is rotatably connected with a pressing rotating wheel for pressing and holding a workpiece; the elastic pressing and holding assembly also comprises an elastic assembly for providing elastic force for the sliding plate.

7. The aluminum can necking apparatus of claim 6, wherein the elastic assembly comprises a mounting block provided on the sliding plate and a transverse bar provided on the sliding seat; the mounting block is provided with a through hole for the transverse rod to pass through; one end of the transverse rod penetrating through the through hole is sleeved with a spring, and the end part of the transverse rod is provided with an elastic force adjusting knob for adjusting the elastic force of the spring.

8. The aluminum can necking apparatus of any one of claims 1 to 7, further comprising a mounting base having a first mounting bracket for mounting the lifting assembly and a second mounting bracket for mounting the traverse assembly.

9. The aluminum can necking device of claim 8, wherein the rotating assembly comprises a rotating motor fixed with the mounting base and a driving shaft rotatably arranged on the mounting base; the movable end of the rotating motor is connected with the driving shaft through a coupler, and the driving shaft is fixedly connected with the necking tool.

10. The aluminum can necking device of any one of claims 1 to 7, wherein the pressing assembly comprises a patting rotating wheel, the lifting assembly comprises a patting cylinder, and the movable end of the patting cylinder is coaxially and rotatably connected with the patting rotating wheel.

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