CN218694441U - Aluminum alloy processing equipment - Google Patents

Abstract

The utility model discloses an aluminum alloy processing equipment relates to the aluminum alloy processing field, the utility model discloses an equipment principal and roof-rack are provided with the unloading subassembly in the equipment principal, and the unloading subassembly includes the ball, and equipment principal surface runs through there is the push pedal, is connected with the torsional spring in the push pedal, and the push pedal surface runs through respectively has first gyro wheel and second gyro wheel, installs the pneumatic cylinder on the roof-rack, and the pneumatic cylinder output is connected with the clamp splice through the piston rod. The utility model discloses a setting of unloading subassembly, when drawing structure or straight line actuating mechanism with the aluminium alloy ex-trusions material loading, thereby the aluminium alloy ex-trusions can exert pressure to the push pedal and make the push pedal rotate compression torsional spring, reduce the wearing and tearing between aluminium alloy ex-trusions and the push pedal through the setting of first gyro wheel and second gyro wheel simultaneously, output drive clamp splice moves down and cliies the aluminium alloy ex-trusions after the pneumatic cylinder starts, can not pushed away immediately after making the aluminium alloy ex-trusions cutting, need not extra electric drive section bar unloading energy saving, simple structure low cost simultaneously.

Description

Aluminum alloy processing equipment

Technical Field

The utility model relates to an aluminum alloy processing field specifically is an aluminum alloy processing equipment.

Background

The aluminum alloy is a composite material which is light in structure and simultaneously uses steel, particularly, the special properties such as heat conductivity and the like are far superior to those of steel, the aluminum alloy is usually used for manufacturing aluminum alloy sections to be used as structural frames, the aluminum alloy sections are required to be cut off by cutting equipment after being heated and extruded, and the length of each section of the aluminum alloy section is mainly in accordance with the requirements of customers.

Application number is 201922054337.1's an aluminum alloy template isometric cutting device relates to cutting device, the utility model provides an aluminum alloy template isometric cutting device can fixed length cutting and reduce the piece injury people among the aluminum alloy template cutting process.

According to the technical scheme, the cutting structure for the aluminum alloy section is usually long in size, particularly the aluminum alloy section which is just discharged from the aluminum alloy section extrusion forming machine, so that the aluminum alloy section needs to be pulled by a traction structure or a hydraulic, pneumatic and other linear driving structure to convey the cut section for blanking after being cut, and although the operation is simple and convenient, the cost is high and the energy consumption of equipment is increased.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing an aluminum alloy processing equipment to solve the technical problem that blanking structure is with high costs.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an aluminum alloy processing equipment, includes equipment principal and roof-rack, be provided with the unloading subassembly in the equipment principal, the unloading subassembly includes the ball, equipment principal surface runs through there is the push pedal, be connected with the torsional spring in the push pedal, the push pedal surface runs through first gyro wheel and second gyro wheel respectively, install the pneumatic cylinder on the roof-rack, the pneumatic cylinder output is connected with the clamp splice through the piston rod.

Through adopting above-mentioned technical scheme, when traction structure or sharp actuating mechanism material loading with the aluminum alloy ex-trusions, thereby the aluminum alloy ex-trusions can apply pressure to the push pedal and make the push pedal rotate compression torsional spring, simultaneously through the setting of first gyro wheel and second gyro wheel reduce the wearing and tearing between aluminum alloy ex-trusions and the push pedal, the pneumatic cylinder starts the back output drive clamp splice and moves down and carry the aluminum alloy ex-trusions, can not immediately pushed away when making the aluminum alloy ex-trusions cutting and after cutting off.

Further, the roof-rack is connected in the equipment main part top, install motor lead screw displacement mechanism under the roof-rack, install the rotating electrical machines on the motor lead screw displacement mechanism, the cutter is connected with in the motor lead screw displacement mechanism, install hydraulic fixture under the roof-rack, be provided with the aluminium alloy ex-trusions in the equipment main part.

By adopting the technical scheme, the output end of the rotary motor drives the cutter to rotate through the synchronous wheel and the synchronous belt after being started, and the motor lead screw displacement mechanism drives the rotary motor and the cutter to move back and forth to cut off the aluminum alloy section after being started.

Further, push pedal and equipment main part swing joint, just first gyro wheel and second gyro wheel all with push pedal swing joint.

Through adopting above-mentioned technical scheme, the pneumatic cylinder output passes through the piston rod drive clamp splice and shifts up the spacing of finishing to the aluminium alloy ex-trusions, thereby the torsional spring loses pressure drive push pedal and resets and exert pressure to the aluminium alloy ex-trusions to in push down the aluminium alloy ex-trusions from the equipment main part.

Further, ball, first gyro wheel and second gyro wheel all adopt stainless steel material to make and form, just ball, first gyro wheel and the equal surface coating of second gyro wheel have a layer of thin rubber.

Through adopting above-mentioned technical scheme, through the setting of first gyro wheel and second gyro wheel reduce the wearing and tearing between aluminum alloy ex-trusions and the push pedal, the ball rotates no angle restriction simultaneously and can effectively reduce the wearing and tearing between aluminum alloy ex-trusions and the equipment main part.

Furthermore, the second gyro wheel is provided with a plurality ofly, and is a plurality of the second gyro wheel equidistance distributes.

Through adopting above-mentioned technical scheme, thereby the aluminum alloy ex-trusions can exert pressure to the push pedal and make the push pedal rotate the compression torsional spring, simultaneously through the setting up of first gyro wheel and second gyro wheel reduce the wearing and tearing between aluminum alloy ex-trusions and the push pedal.

Furthermore, the ball is provided with a plurality of, and is a plurality of the ball is the distribution of rectangle array form.

Through adopting above-mentioned technical scheme, thereby the torsional spring loses pressure drive push pedal and resets and exert pressure to aluminium alloy ex-trusions to in push down aluminium alloy ex-trusions from equipment main part, thereby accomplish automatic unloading, the ball rotates not have the angle restriction can effectively reduce the wearing and tearing between aluminium alloy ex-trusions and the equipment main part simultaneously.

To sum up, the utility model discloses mainly have following beneficial effect:

the utility model discloses a setting of unloading subassembly, when traction structure or straight line actuating mechanism material loading with the aluminum alloy ex-trusions, the aluminum alloy ex-trusions can exert pressure to the push pedal thereby make the push pedal rotate compression torsional spring, reduce the wearing and tearing between aluminum alloy ex-trusions and the push pedal through the setting of first gyro wheel and second gyro wheel simultaneously, output drive clamp splice moves down and cliies the aluminum alloy ex-trusions after the pneumatic cylinder starts, can not immediately be pushed away when making the aluminum alloy ex-trusions cutting and after cutting off, pneumatic cylinder output shifts up through piston rod drive clamp splice when needs unloading and finishes spacingly to the aluminum alloy ex-trusions, thereby later the torsional spring loses the reset of pressure drive push pedal and exerts pressure to the aluminum alloy ex-trusions, so that push down the aluminum alloy ex-trusions from the equipment main part, thereby accomplish automatic unloading, ball rotates the no angle restriction simultaneously and can effectively reduce the wearing and tearing between aluminum alloy ex-trusions and the equipment main part, the combination of pneumatic cylinder and clamp splice are the variety of original hydraulically operated fixture, need not extra electric drive ex-trusions unloading energy saving, simple structure low cost simultaneously.

Drawings

FIG. 1 is a schematic structural view of the aluminum alloy section of the present invention during cutting;

FIG. 2 is a schematic structural diagram of the aluminum alloy profile of the present invention after blanking;

FIG. 3 is a schematic view of the push plate structure of the present invention;

FIG. 4 is a schematic view of the structure of the clamping block of the present invention;

fig. 5 is the utility model discloses an equipment main part structural diagram that cuts open downwards.

In the figure: 1. an apparatus main body; 2. a top frame; 3. an aluminum alloy profile; 4. a motor lead screw displacement mechanism; 5. a rotating electric machine; 6. a cutter; 7. a hydraulic clamp; 8. a blanking assembly; 801. a hydraulic cylinder; 802. a clamping block; 803. a ball bearing; 804. pushing the plate; 805. a torsion spring; 806. a first roller; 807. a second roller.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Next, an embodiment of the present invention will be described with reference to the overall structure thereof.

An aluminum alloy processing device is shown in figures 1, 2, 3, 4 and 5 and comprises a device body 1 and a top frame 2, wherein a blanking assembly 8 is arranged on the device body 1.

Specifically, unloading subassembly 8 is including running through ball 803 at 1 top of equipment principal, a resistance when being used for reducing 3 lateral shifting of aluminium alloy ex-trusions and longitudinal movement, thereby be convenient for push pedal 804 drive 3 unloading of aluminium alloy ex-trusions, equipment principal 1 surface one side is run through there is the push pedal 804 that is used for automatic unloading, push pedal 804 top and bottom all are connected with the torsional spring 805, push pedal 804 surface has run through first gyro wheel 806 and second gyro wheel 807 respectively, a wear and tear for reducing aluminium alloy ex-trusions 3 between push pedal 804, pneumatic cylinder 801 is installed to 2 bottom one side of roof-rack, pneumatic cylinder 801 output is connected with the clamp splice 802 that is used for cliping aluminium alloy ex-trusions through the piston rod, need not extra electric drive section unloading energy saving, simple structure low cost simultaneously.

Referring to fig. 1, 2 and 5, in the above embodiment, the top frame 2 is connected to the top of the device main body 1, the motor lead screw displacement mechanism 4 is installed in the middle of the bottom of the top frame 2, the rotating motor 5 is installed at the top of the motor lead screw displacement mechanism 4, the cutter 6 is connected inside the motor lead screw displacement mechanism 4, the rotating motor 5 and the cutter 6 are driven by the synchronizing wheel and the synchronizing belt, the hydraulic clamp 7 is installed on the other side of the bottom of the top frame 2, the top of the device main body 1 is provided with the aluminum alloy profile 3, and the aluminum alloy profile 3 is conveniently cut to the specified length.

Referring to fig. 1, 2, 3 and 5, in the above embodiment, the push plate 804 is rotatably connected to the apparatus main body 1 through a rotating shaft, the first roller 806 and the second roller 807 are rotatably connected to the push plate 804 through a rotating shaft, the balls 803, the first roller 806 and the second roller 807 are made of stainless steel material, the surfaces of the balls 803, the first roller 806 and the second roller 807 are coated with a layer of thin rubber, the second roller 807 is provided with a plurality of rollers, the plurality of second rollers 807 are equidistantly distributed, the balls 803 are provided with a plurality of balls 803, and the plurality of balls 803 are distributed in a rectangular array shape, so that additional power is not needed to drive the section blanking to save energy.

The implementation principle of the embodiment is as follows: firstly, a clamp block on one hydraulic clamp 7 in the two hydraulic clamps 7 in the prior art is changed into a clamp block 802, and the hydraulic clamp is a variety of the original hydraulic clamp 7, so that extra electric drive is not needed, and the blanking assembly is mainly suitable for aluminum alloy sections 3, mainly has the advantages of being hollow in the aluminum alloy sections 3 and light in weight, and is convenient to push, and if the blanking assembly 8 is used for materials such as steel and the like, the material is possibly too heavy, so that the blanking assembly cannot work normally;

when the traction structure or the linear driving mechanism is used for feeding the aluminum alloy section 3, the aluminum alloy section 3 applies pressure to the push plate 804, so that the push plate 804 rotates to compress the torsion spring 805, meanwhile, the abrasion between the aluminum alloy section 3 and the push plate 804 is reduced through the arrangement of the first roller 806 and the second roller 807, after the hydraulic cylinder 801 is started, the output end drives the clamping block 802 to move downwards to clamp the aluminum alloy section 3, and meanwhile, the hydraulic clamp 7 is started to press the aluminum alloy section 3;

cutting the section, after measuring the cutting length of the aluminum alloy section 3, a worker starts a motor lead screw displacement mechanism 4 and a rotating motor 5, after the rotating motor 5 is started, an output end drives a cutter 6 to rotate through a synchronous wheel and a synchronous belt, and after the motor lead screw displacement mechanism 4 is started, the rotating motor 5 and the cutter 6 are driven to move back and forth to cut the aluminum alloy section 3;

blanking, cut off aluminium alloy ex-trusions 3 back staff and close hydraulically operated fixture 7 and pneumatic cylinder 801 and end the centre gripping to aluminium alloy ex-trusions 3, thereby torsional spring 805 loses pressure drive push pedal 804 and resets and exert pressure to aluminium alloy ex-trusions 3 later, thereby in order to push off the aluminium alloy ex-trusions 3 that cut off from equipment main part 1, thereby accomplish automatic blanking, ball 803 rotates no angle restriction simultaneously and can effectively reduce the wearing and tearing between aluminium alloy ex-trusions 3 and the equipment main part 1.

Although embodiments of the present invention have been shown and described, it is intended that the present embodiments be illustrative only and not limiting to the invention, and that the particular features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples, and that modifications, substitutions, variations, and the like, which are not inventive in light of the above teachings, may be made to the embodiments by those skilled in the art without departing from the principles and spirit of the present invention, but are to be construed as broadly as the following claims.

Claims (6)

1. The utility model provides an aluminum alloy processing equipment, includes equipment main part (1) and roof-rack (2), its characterized in that: be provided with unloading subassembly (8) on equipment main part (1), unloading subassembly (8) include ball (803), equipment main part (1) surface runs through there is push pedal (804), be connected with torsional spring (805) on push pedal (804), first gyro wheel (806) and second gyro wheel (807) have been run through respectively on push pedal (804) surface, install pneumatic cylinder (801) on roof-rack (2), pneumatic cylinder (801) output is connected with clamp splice (802) through the piston rod.

2. The aluminum alloy processing apparatus of claim 1, wherein: roof-rack (2) are connected in equipment main part (1) top, install motor lead screw displacement mechanism (4) down roof-rack (2), install rotating electrical machines (5) on motor lead screw displacement mechanism (4), motor lead screw displacement mechanism (4) in-connection has cutter (6), install hydraulically operated fixture (7) down roof-rack (2), be provided with aluminum alloy ex-trusions (3) on equipment main part (1).

3. The aluminum alloy processing apparatus of claim 1, wherein: the push plate (804) is movably connected with the equipment main body (1), and the first roller (806) and the second roller (807) are both movably connected with the push plate (804).

4. The aluminum alloy processing apparatus of claim 3, wherein: the rolling ball (803), the first roller (806) and the second roller (807) are all made of stainless steel materials, and a layer of thin rubber is wrapped on the surfaces of the rolling ball (803), the first roller (806) and the second roller (807).

5. The aluminum alloy processing apparatus of claim 4, wherein: the second rollers (807) are provided in plurality, and the plurality of second rollers (807) are distributed at equal intervals.

6. The aluminum alloy processing apparatus of claim 4, wherein: the number of the balls (803) is multiple, and the balls (803) are distributed in a rectangular array.

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