CN212762397U - High-efficient aluminium bits recovery unit of finished product saw - Google Patents

Abstract

The utility model discloses a high-efficiency aluminum scrap recovery device of a finished product saw, which comprises a support frame connected with a saw table of the finished product saw, a scrap suction pipeline connected with the support frame, a first movable sliding sleeve and a second movable sliding sleeve connected with the scrap suction pipeline, a material pressing and scrap suction device connected with the second movable sliding sleeve, a first driving device for driving the first movable sliding sleeve, and a second driving device for driving the material pressing and scrap suction device; the pressing and chip-sucking device comprises a pressing plate connected with a second driving device, chip blocking parts arranged on two sides of the pressing plate and a driving cylinder for driving the chip blocking parts to rotate, and a first chip-sucking hole communicated with the second movable sliding sleeve is formed in the pressing plate; and a second chip suction hole is formed in the first movable sliding sleeve and faces the material pressing and chip sucking device. Implement the utility model discloses, can improve the sawdust recovery efficiency of finished product saw, it is effectual to retrieve.

Description

High-efficient aluminium bits recovery unit of finished product saw

Technical Field

The utility model relates to a finished product saw technical field especially relates to a high-efficient aluminium bits recovery unit of finished product saw.

Background

Extruded aluminum profiles are long and have different shapes, and when fixed-length sawing is carried out, saw dust splashes around in the sawing process of the profiles, particularly flies out from special-shaped sections, so that the problem that the saw dust is difficult to clean is solved. The existing finished saw comprises a saw table and a sawing device arranged on the saw table. Aluminium bits can disperse on the saw bench when the aluminium alloy saw cuts, and current finished product saw does not have the aluminium bits recovery unit that corresponds, and perhaps current aluminium bits recovery unit's recovery scope is limited, and cleaning efficiency is low, does not clear up for a long time and can influence saw cutting device normal operating.

Disclosure of Invention

The utility model aims to solve the technical problem that a high-efficient aluminium bits recovery unit of finished product saw is provided, can improve the saw dust recovery efficiency of finished product saw, it is effectual to retrieve.

In order to solve the technical problem, the utility model provides a high-efficiency aluminum scrap recovery device of a finished product saw, which comprises a support frame connected with a saw table of the finished product saw, a scrap suction pipeline connected with the support frame, a first movable sliding sleeve and a second movable sliding sleeve connected with the scrap suction pipeline, a material pressing and scrap suction device connected with the second movable sliding sleeve, a first driving device driving the first movable sliding sleeve, and a second driving device driving the material pressing and scrap suction device;

the pressing and chip-sucking device comprises a pressing plate connected with a second driving device, chip blocking parts arranged on two sides of the pressing plate and a driving cylinder for driving the chip blocking parts to rotate, and a first chip-sucking hole communicated with the second movable sliding sleeve is formed in the pressing plate;

and a second chip suction hole is formed in the first movable sliding sleeve and faces the material pressing and chip sucking device.

As an improvement of the above technical scheme, the first driving device comprises a first cylinder installed on the support frame, a mounting seat sleeved on the first movable sliding sleeve, and a first guide assembly arranged between the support frame and the mounting seat.

As an improvement of the above technical solution, the first cylinder includes a cylinder body connected to the support frame, and a piston rod connected to the mounting seat.

As an improvement of the above technical solution, the first guiding assembly includes a first sliding rail disposed on the supporting frame and a first sliding groove disposed on the mounting seat.

As an improvement of the above technical solution, the second driving device includes a second cylinder connected to the support frame and a second guiding assembly disposed between the support frame and the second movable sliding sleeve.

As an improvement of the above technical scheme, the second guiding assembly comprises a second sliding rail arranged on the second movable sliding sleeve and a second sliding groove arranged on the supporting frame.

As an improvement of the technical scheme, the chip blocking part is provided with a mounting plate hinged with the pressing plate, a mounting groove arranged on the mounting plate and a brush arranged in the mounting groove.

As an improvement of the technical scheme, the support frame comprises a vertical support frame, and the vertical support frame is fixed with the chip suction pipeline through a U-shaped hoop.

As an improvement of the technical scheme, the chip suction pipeline is provided with a first chip suction branch pipe and a second chip suction branch pipe which are branched;

the first scrap suction branch pipe is connected with the first movable sliding sleeve, and the second scrap suction branch pipe is connected with the second movable sliding sleeve.

Implement the utility model discloses, following beneficial effect has:

the first driving device drives the first movable sliding sleeve to move downwards until the first movable sliding sleeve is contacted with the saw table; the second driving device drives the second movable sliding sleeve and the pressing and scrap sucking device to move downwards, so that the pressing plate compresses the aluminum material, and the flatness of a cutting surface of the aluminum material is improved; when saw cutting, keep off bits portion and can block splashing of aluminium bits, after saw cutting is accomplished the actuating cylinder drive two keep off bits portion and rotate, scrape aluminium bits to the centre, through first inhale bits hole and second inhale the bits hole and inhale away the aluminium bits, thereby improve inhale bits reliability and efficiency of bits pipeline.

Drawings

FIG. 1 is a front view of the high efficiency aluminum scrap recycling device of the present invention;

FIG. 2 is a rear view of the high efficiency aluminum scrap recycling apparatus of the present invention;

FIG. 3 is a perspective view of the high efficiency aluminum scrap recycling device of the present invention;

fig. 4 is an enlarged view of a portion a in fig. 3.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

Referring to fig. 1, the utility model provides a high-efficient aluminum skimmings recovery unit of finished product saw, including the support frame 1 that is connected with the saw bench of finished product saw, inhale bits pipeline 2 connected with the support frame 1, with inhale first movable sliding sleeve 3 and second movable sliding sleeve 4 that bits pipeline 2 is connected, with the material pressing that second movable sliding sleeve 4 is connected inhale bits device 5, drive first drive arrangement 6 of first movable sliding sleeve 3, and drive second drive arrangement 7 of material pressing and inhale bits device 5;

the pressing and chip-sucking device 5 comprises a pressing plate 51 connected with a second driving device 7, chip blocking parts 52 arranged on two sides of the pressing plate 51 and a driving cylinder 53 for driving the chip blocking parts 52 to rotate, and a first chip-sucking hole 511 communicated with the second movable sliding sleeve 4 is formed in the pressing plate 51;

and a second chip suction hole 31 is formed in the first movable sliding sleeve 3, and the second chip suction hole 31 is arranged towards the material pressing and chip sucking device 5.

Specifically, the support frame 1 is used for fixing the chip suction pipeline 2, the first driving device 6 and the second driving device 7. The scrap suction pipeline 2 forms negative pressure in the scrap suction pipeline 2 through an external negative pressure device (not shown in the attached drawing), so that aluminum scraps are sucked away. The scrap suction pipeline 2 is connected with the first movable sliding sleeve 3 and the second movable sliding sleeve 4, the first movable sliding sleeve 3 is driven by the first driving device 6 to perform lifting movement, and the second movable sliding sleeve 4 is driven by the second driving device 7 to perform lifting movement; and the second driving device 7 is connected with a material pressing and chip sucking device 5. When the finished saw cuts materials, the first driving device 6 drives the first movable sliding sleeve 3 to move downwards until the first movable sliding sleeve 3 is contacted with a saw table; the second driving device 7 drives the second movable sliding sleeve 4 and the pressing and scrap-sucking device 5 to move downwards, so that the pressing plate 51 compresses the aluminum material, and the flatness of the cutting surface of the aluminum material is improved; the scrap blocking parts 52 can block aluminum scraps from splashing, the driving cylinder 53 drives the two scrap blocking parts 52 to rotate after the sawing is finished, the aluminum scraps are scraped towards the middle, and the aluminum scraps are sucked away through the first scrap sucking holes 511 and the second scrap sucking holes 31, so that the scrap sucking reliability and efficiency of the scrap sucking pipeline 2 are improved.

Referring to fig. 2, the first driving device 6 includes a first cylinder 61 installed on the supporting frame 1, a mounting seat 62 sleeved on the first movable sliding sleeve 3, and a first guiding assembly 63 disposed between the supporting frame 1 and the mounting seat 62. The first cylinder 61 is arranged along the vertical direction, the first cylinder 61 drives the first movable sliding sleeve 3 to move through the mounting seat 62, and the first guide assembly 63 can improve the stability of the movement of the first movable sliding sleeve 3.

Referring to fig. 3 and 4, the first cylinder 61 includes a cylinder body 611 connected to the support frame 1, and a piston rod 612 connected to the mounting seat 62. The first guiding assembly 63 includes a first sliding rail 631 disposed on the supporting frame 1 and a first sliding groove 632 disposed on the mounting base 62. The first slide rail 631 has two rails, and the first slide rail 631 is embedded in the first sliding groove 632 to slide.

The second driving device 7 comprises a second cylinder 71 connected with the support frame 1. The second cylinder 71 is disposed along a vertical direction, and the second cylinder 71 includes a second cylinder 711 connected to the support frame 1 and a second piston rod 712 connected to the pressing plate 51. The second driving device 7 further comprises a second guiding assembly 72, wherein the second guiding assembly 72 is disposed between the support frame 1 and the second movable sliding sleeve 4 to improve the moving stability of the second movable sliding sleeve 4.

The second guiding assembly 72 includes a second sliding rail 721 disposed on the second movable sliding sleeve 4 and a second sliding slot (not shown in the drawings) mounted on the supporting frame 1. The second slide 721 is embedded in the second slide slot to slide.

Referring to fig. 2 and 3, the dust stopper 52 includes a mounting plate 521 hinged to the pressing plate 51, a mounting groove 522 provided on the mounting plate 521, and a brush 523 mounted in the mounting groove 522. The mounting panel 521 through the hinge with the clamp plate 51 is articulated, be equipped with mounting groove 522 on the mounting panel 521, mounting groove 522 is followed the length direction of mounting panel 521 sets up, brush 523 the joint is in the mounting groove 522. The cylinder body of the driving cylinder 53 is connected with the pressure plate 51, the piston rod thereof is connected with the mounting plate 521, and the movement of the brush 523 is realized through the extension and contraction of the piston rod.

Inhale bits pipeline 2 and locate support frame 1's top is convenient for fix inhale bits pipeline 2, support frame 1 is including erecting support frame 11, it will to erect support frame 11 through U-shaped clamp 8 inhale bits pipeline 2 is fixed. In order to facilitate the connection of the chip suction pipeline 2 with the first movable sliding sleeve 3 and the second movable sliding sleeve 4 respectively, the chip suction pipeline 2 is provided with a first chip suction branch pipe 21 and a second chip suction branch pipe 22 which are branched; the first scrap suction branch pipe 21 is connected with the first movable sliding sleeve 3, and the second scrap suction branch pipe 22 is connected with the second movable sliding sleeve 4.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (9)

1. A high-efficiency aluminum scrap recovery device of a finished product saw is characterized by comprising a support frame connected with a saw table of the finished product saw, a scrap suction pipeline connected with the support frame, a first movable sliding sleeve and a second movable sliding sleeve connected with the scrap suction pipeline, a material pressing and scrap suction device connected with the second movable sliding sleeve, a first driving device for driving the first movable sliding sleeve, and a second driving device for driving the material pressing and scrap suction device;

the pressing and chip-sucking device comprises a pressing plate connected with a second driving device, chip blocking parts arranged on two sides of the pressing plate and a driving cylinder for driving the chip blocking parts to rotate, and a first chip-sucking hole communicated with the second movable sliding sleeve is formed in the pressing plate;

and a second chip suction hole is formed in the first movable sliding sleeve and faces the material pressing and chip sucking device.

2. The efficient aluminum scrap recycling device for the finished saw as claimed in claim 1, wherein the first driving device comprises a first cylinder mounted on the support frame, a mounting seat sleeved on the first movable sliding sleeve, and a first guiding assembly arranged between the support frame and the mounting seat.

3. The efficient aluminum scrap recycling apparatus for finishing saws as set forth in claim 2, wherein said first cylinder comprises a cylinder body connected to said support frame and a piston rod connected to said mounting seat.

4. The efficient aluminum scrap recycling apparatus for the finishing saw as recited in claim 2, wherein the first guiding assembly comprises a first sliding rail disposed on the supporting frame and a first sliding groove disposed on the mounting seat.

5. The efficient aluminum scrap recycling apparatus for finishing saws as set forth in claim 1, wherein said second driving means comprises a second cylinder connected to said support frame and a second guide assembly disposed between said support frame and a second movable slide.

6. The efficient aluminum scrap recycling apparatus for finishing saws as set forth in claim 5, wherein said second guiding assembly comprises a second slide rail mounted on said second movable slide sleeve and a second slide groove mounted on said support frame.

7. The efficient aluminum scrap recycling apparatus for finishing saws as set forth in claim 1, wherein said scrap stopper comprises a mounting plate hinged to said pressing plate, a mounting groove formed on said mounting plate, and a brush mounted in said mounting groove.

8. The efficient aluminum scrap recycling apparatus for finishing saws as set forth in claim 1, wherein said support frame comprises a vertical support frame, said vertical support frame securing said scrap suction conduit via a U-shaped clamp.

9. The efficient aluminum scrap recycling apparatus for the final saw as claimed in claim 8, wherein said scrap suction pipe is provided with a first scrap suction branch pipe and a second scrap suction branch pipe which are branched;

the first scrap suction branch pipe is connected with the first movable sliding sleeve, and the second scrap suction branch pipe is connected with the second movable sliding sleeve.

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