CN210648787U - Aluminium alloy breaks saw swager constructs - Google Patents

Abstract

The utility model relates to an aluminium alloy breaks saw swager constructs, it is including pressing material cover (2.5.1), it is provided with opening (2.5.2) to press material cover (2.5.1) bottom, it is provided with fixed block (2.5.3) to press material cover (2.5.1) front side or rear side, fixed block (2.5.3) are located opening (2.5.2) top, one row of perforation (2.5.4) have been seted up on fixed block (2.5.3), be provided with minor axis (2.5.5) in perforation (2.5.4). The utility model relates to an aluminium alloy interrupts saw swager constructs, it carries out the centre gripping through the self gravity of a plurality of minor axes to the section bar and fixes, and the centre gripping stability is good, has effectively guaranteed the quality of saw cutting of section bar.

Description

Aluminium alloy breaks saw swager constructs

Technical Field

The utility model relates to an aluminium alloy breaks saw swager constructs belongs to aluminium alloy production facility technical field.

Background

In the process of extruding and producing the aluminum alloy section, each time one aluminum bar is extruded, the section needs to be interrupted, and the purpose is to facilitate the subsequent processes such as conveying, straightening and the like. In addition, the traction assistance is very important in the extrusion process, and particularly for the current popular porous die extrusion and some profiles which are difficult to extrude, the traction assistance is good and effective, so that the discharging of the profiles can be ensured, and the production efficiency and the yield can be improved.

When the aluminum profile is cut off, the aluminum profile can be sawed or otherwise processed after being clamped and fixed. At present, the sectional material pressing mechanism of the interrupted saw can only clamp and fix one sectional material at a time, and the production efficiency is low. Moreover, the existing pressing mechanism is not matched with the shape of the section bar, so that the clamping is easy to be unstable in the clamping process, the section bar is easy to move when being sawed, the size accuracy of the section bar is influenced, and unnecessary damage to the surface of the section bar is also caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an aluminium alloy interrupts saw swager constructs is provided to above-mentioned prior art, and it carries out the centre gripping through the self gravity of a plurality of minor axes to the section bar and fixes, and the clamping stability is good, has effectively guaranteed the quality of saw cutting of section bar.

The utility model provides a technical scheme that above-mentioned problem adopted does: the utility model provides an aluminium alloy breaks saw swager constructs, it is including pressing the material cover, it is provided with the opening to press material cover bottom, press material cover front side or rear side to be provided with the fixed block, the fixed block is located the opening top, a row of perforation has been seted up on the fixed block, be provided with the minor axis in the perforation.

Preferably, the upper end of the short shaft is provided with a limiting block, and the limiting block is placed on the through hole of the fixing block.

Compared with the prior art, the utility model has the advantages of:

1. the utility model clamps and fixes the section bar by the self gravity of a plurality of short shafts, the clamping stability is good, and the sawing quality of the section bar is effectively ensured;

2. the material pressing cover of the utility model is arranged above the sawing mechanism, so that the splashing of aluminum scraps can be effectively reduced in the sawing process;

3. the utility model discloses do not influence each other between a plurality of minor axes, can adapt to the different multiple section bars of cross section, and can a plurality of section bars of centre gripping simultaneously, improved production efficiency greatly.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of the aluminum profile interrupted saw of the present invention.

FIG. 2 is a perspective view of the saw head of FIG. 1 engaged with two moving roller assemblies.

Fig. 3 is a front view of fig. 2.

Fig. 4 is a top view of fig. 3.

Fig. 5 is a schematic perspective view of the sawing head of fig. 1.

Fig. 6 is a front view of fig. 5.

Fig. 7 is a side view of fig. 6.

Fig. 8 is a schematic perspective view of the pressing mechanism in fig. 5.

Wherein:

frame 1

Sawing head 2

Sawing platform 2.1

Pressing support 2.2

First lifting slide rail 2.3

First lifting slide 2.4

Material pressing mechanism 2.5

Pressing cover 2.5.1

Opening 2.5.2

Fixed block 2.5.3

Perforation 2.5.4

Short shaft 2.5.5

Limit block 2.5.6

Pressing cylinder 2.6

Second lifting slide rail 2.7

Second lifting slide 2.8

Saw cutting mechanism 2.9

Motor base 2.9.1

Sawing motor 2.9.2

Alloy saw blade 2.9.3

Sawing cylinder 2.10

Second slide 2.11

Second roller 2.12

Roller shaft 2.13

Fixed cylinder 2.14

Sawing support 2.15

Scrap collecting box 2.16

Moving roller assembly 3

Moving cylinder 3.1

First chain 3.2

Slide block 3.3

Roller 3.4

Second chain 4

Drive motor 5

First chain wheel 6

Tensioning mechanism 7

Second chain wheel 8

Drive chain 9

Damper mounting plate 10

Buffer 11

A slide rail 12.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 8, the aluminum profile interrupted saw in the embodiment includes a frame 1, a sawing head 2 is disposed on the frame 1, the sawing head 2 can move back and forth on the frame 1, moving roller assemblies 3 are disposed on both front and rear sides of the sawing head 2, each moving roller assembly 3 includes a plurality of moving rollers 3.1 arranged in parallel in front and rear, two adjacent moving rollers 3.1 are connected by a first chain 3.2, and a moving roller 3.1 closest to the sawing head 2 in the moving roller assemblies 3 is connected with the sawing head 2 by a second chain 4;

a driving motor 5 and a tensioning mechanism 7 are respectively arranged at the front end and the rear end of the frame 1, a first chain wheel 6 is arranged at the output end of the driving motor 5, a second chain wheel 8 is arranged on the tensioning mechanism 7, a transmission chain 9 is arranged between the first chain wheel 6 and the second chain wheel 8, and the bottom of the sawing head 2 is connected with the transmission chain 9;

the front end and the rear end of the frame 1 are respectively provided with a buffer mounting plate 10, the buffer mounting plate 10 is provided with a buffer 11, and the front buffer 11 and the rear buffer 11 are respectively matched with the front moving roller assembly 3 and the rear moving roller assembly 3;

a slide rail 12 is arranged on one side of the rack 1, a first slide block 3.3 is arranged on one side of the slide rail 12 of the movable roller 3.1, the first slide block 3.3 is matched with the slide rail 12, and a second roller 3.4 is arranged on the other side of the movable roller 3.1;

the moving roller 3.1 adopts a felt roller;

the sawing head 2 comprises a sawing platform 2.1, a material pressing support 2.2 and a sawing support 2.15 are arranged on the sawing platform 2.1, a left first lifting slide rail 2.3 and a right first lifting slide rail 2.3 are arranged on the material pressing support 2.2 along the vertical direction, a first lifting slide block 2.4 is arranged on the first lifting slide rail 2.3, a material pressing mechanism 2.5 is arranged between the left first lifting slide block 2.4 and the right first lifting slide block 2.4, a material pressing cylinder 2.6 is arranged between the left first lifting slide rail 2.3 and the right first lifting slide rail 2.3, and the lower end of the material pressing cylinder 2.6 is connected with a material pressing device 2.5; the sawing support 2.15 is located on the rear side of the material pressing support 2.2, a left second lifting slide rail 2.7 and a right second lifting slide rail 2.7 are vertically arranged on the sawing support 2.15, a second lifting slide block 2.8 is arranged on the second lifting slide rail 2.7, a sawing mechanism 2.9 is arranged between the left second lifting slide block 2.8 and the right second lifting slide block 2.8, the sawing mechanism 2.9 is located below the sawing platform 2.1, a sawing cylinder 2.10 is arranged between the left second lifting slide rail 2.7 and the right second lifting slide rail 2.7, and the lower end of the sawing cylinder 2.10 is connected with the sawing mechanism 2.9;

the material pressing mechanism 2.5 comprises a material pressing cover 2.5.1, the lower end of the sawing cylinder 2.10 is connected with the material pressing cover 2.5.1, the bottom of the material pressing cover 2.5.1 is provided with an opening 2.5.2 for a section bar to pass through, the front side or the rear side of the material pressing cover 2.5.1 is provided with a fixed block 2.5.3, the fixed block 2.5.3 is positioned above the opening 2.5.2, the fixed block 2.5.3 is provided with a row of through holes 2.5.4, short shafts 2.5.5 are arranged in the through holes 2.5.4, a row of short shafts 2.5.5 covers the whole area of the opening 2.5.2, the upper end of each short shaft 2.5.5 is provided with a limit block 2.5.6, and the limit block 2.5.6 is placed on the through holes 2.5.4 of the fixed block 2.5.3;

the sawing mechanism 2.9 comprises a motor base 2.9.1, the lower end of the sawing cylinder 2.10 is connected with the motor base 2.9.1, a driving motor 2.9.2 is arranged on the motor base 2.9.1, an alloy saw blade 2.9.3 is arranged at the output end of the driving motor 2.9.2, a chip collecting box 2.16 is arranged outside the alloy saw blade 2.9.3, and the chip collecting box 2.16 is fixedly arranged at the bottom of the sawing platform 2.1;

a second sliding block 2.11 is arranged on one side of the sawing platform 2.1, the second sliding block 2.11 is matched with a sliding rail 12, and a second roller 2.12 is arranged on the other side of the sawing platform 2.1;

the front side and the rear side of the sawing platform 2.1 are respectively provided with a roller shaft 2.13, and the roller shafts 2.13 are provided with fixed rollers 2.14.

The working principle is as follows:

saw cut the head around both sides all be provided with removal cylinder subassembly, remove cylinder subassembly including front and back parallel arrangement's removal cylinder, be connected through first chain between two adjacent removal cylinders, saw cut the head and be connected through the second chain between the removal cylinder that is rather than the nearest, saw cut the head back-and-forth movement under the effect of driving chain, the removal cylinder subassembly of its one side is pulled open gradually at the removal in-process, form a plurality of removal cylinders of interval arrangement, and the removal cylinder subassembly of opposite side is cut the head extrusion and is contracted together, make a round trip alternately. The structural form can meet the requirement for supporting the section bar, avoids the bending deformation of the section bar in the traction process, greatly reduces the number of supporting rollers compared with a ring chain form, and reduces the production and manufacturing cost.

A material pressing mechanism is arranged on the sawing head and comprises a material pressing cover, and the material pressing cover is arranged above the sawing mechanism, so that splashing of aluminum scraps can be effectively reduced in the sawing process; press material cover one side to be provided with the fixed block, be provided with one row of minor axis on the fixed block, the minor axis is all cartridge in the perforation of fixed block during initial position, presses material cover to push down after the section bar scale is accomplished, and a plurality of minor axes are pressed and are arranged in on the section bar, carry out the centre gripping to the section bar through the gravity of a plurality of minor axes self, have improved the stability of pressing the material greatly, and a plurality of minor axes do not influence each other, consequently can satisfy the material demand of pressing to the section bar homoenergetic of different cross sectional shapes.

In addition to the above embodiments, the present invention also includes other embodiments, and all technical solutions formed by equivalent transformation or equivalent replacement should fall within the protection scope of the claims of the present invention.

Claims (2)

1. The utility model provides an aluminium alloy breaks saw swager constructs which characterized in that: the novel metal wire pressing cover comprises a pressing cover (2.5.1), an opening (2.5.2) is formed in the bottom of the pressing cover (2.5.1), a fixing block (2.5.3) is arranged on the front side or the rear side of the pressing cover (2.5.1), the fixing block (2.5.3) is located above the opening (2.5.2), a row of through holes (2.5.4) are formed in the fixing block (2.5.3), and short shafts (2.5.5) are arranged in the through holes (2.5.4).

2. The aluminum profile interrupted sawing and pressing mechanism is characterized in that: the upper end of the short shaft (2.5.5) is provided with a limit block (2.5.6), and the limit block (2.5.6) is placed on the through hole (2.5.4) of the fixed block (2.5.3).

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