CN209998473U - Disconnect-type aluminium alloy cutting equipment - Google Patents

Abstract

The utility model relates to an aluminium alloy processing technology field, specifically disclose disconnect-type aluminium alloy cutting equipment, which comprises a frame, the delivery sheet, processing platform and cutting device, the side that the delivery sheet activity was located in the frame and was located the processing platform, cutting device is located the side of processing platform, the end of delivery sheet is equipped with the flange that can imbed the processing platform, the processing platform includes the backup pad and installs fixed plate and fly leaf in the backup pad, the backup pad is close to the end of delivery sheet and opens and has the spread groove with flange assorted, the fixed plate forms the cutting opening with the fly leaf, the bottom of fly leaf is equipped with and is used for driving the fly leaf and makes the separation and reunion drive assembly of back and forth motion for the fixed plate.

Description

Disconnect-type aluminium alloy cutting equipment

Technical Field

The utility model relates to an aluminium alloy processing technology field especially relates to disconnect-type aluminium alloy cutting equipment.

Background

The existing aluminum profile cutting equipment mainly has the following two defects that (1) a processing table top cannot be separated, a cut workpiece and an uncut workpiece are not separated after a sawing machine generates a large amount of scraps, and the cut workpiece and the uncut workpiece are hooked and connected, so that the cut workpiece is troublesome to discharge, and (2) when tailings are processed, the distance between a feeding plate of a feeding mechanism and the processing table top is too long, the shorter tailings cannot be cut, the tailings cannot be fully utilized, and waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide disconnect-type aluminium alloy cutting equipment to existing technical current situation.

In order to achieve the purpose, the utility model adopts the following technical scheme that the separating type aluminum profile cutting equipment comprises a rack, a feeding plate, a processing table and a cutting device, wherein the feeding plate is movably arranged on the rack and positioned at the side of the processing table, and the cutting device is positioned at the side of the processing table, and is characterized in that a convex plate capable of being embedded into the processing table is arranged at the end of the feeding plate, the processing table comprises a supporting plate, a fixed plate and a movable plate which are arranged on the supporting plate, a connecting groove matched with the convex plate is formed at the end of the supporting plate close to the feeding plate, the fixed plate and the movable plate form a cutting opening, and a clutch driving component for driving the movable plate to reciprocate relative to the fixed.

The feeding plate is provided with an th pressing device, and the th pressing device comprises a th pressing mechanism arranged above the feeding plate and a th side pressing mechanism arranged on the feeding plate side.

And a feeding driving assembly for driving the feeding plate to perform reciprocating feeding motion to the fixed plate is arranged beside the feeding plate.

The left side and the right side of the cutting opening are respectively provided with a second pressing mechanism and a third pressing mechanism, the second pressing mechanism is located above the movable plate, and the third pressing mechanism is located above the fixed plate.

The movable plates comprise a plane movable plate and a longitudinal movable plate which are vertically connected with each other, and the plane movable plate and the fixed plate are located on the same horizontal plane.

And a second lateral pressing mechanism matched with the second pressing mechanism is arranged on the side of the plane movable plate.

The clutch driving assembly comprises a plane translation unit and a longitudinal translation unit, wherein the plane movable plate is arranged on the plane translation unit in a sliding mode and comprises an th translation guide rail and a th translation sliding block, the longitudinal movable plate is arranged on the longitudinal translation unit in a sliding mode and comprises a second translation guide rail and a second translation sliding block.

The clutch driving assembly further comprises a clutch driving cylinder, and the clutch driving cylinder is located at the bottom of the plane movable plate.

The cutting device comprises a cutting motor and a saw blade arranged on the cutting motor, a cutting driving assembly used for driving the saw blade to do reciprocating cutting motion at a cutting opening is connected and arranged at the bottom of the cutting motor, and the motion direction of the saw blade is perpendicular to the moving direction of the movable plate.

The below of cutting opening is equipped with the chip removal chute of the number that is used for discharging the cutting sweeps, the outside of saw bit is equipped with the second chip removal chute that is used for partly parcel saw bit and discharges the sweeps.

The beneficial effects of the utility model reside in that: the separation of the processing table is realized by arranging a fixed plate, a movable plate and a clutch driving assembly for driving the movable plate to reciprocate relative to the fixed plate; the connecting groove matched with the convex plate of the feeding plate is formed in the supporting plate, so that the tailings can enter the processing table to be cut as far as possible, and the loss of the tailings is reduced.

Drawings

Fig. 1 is a plan view of a divided aluminum profile cutting apparatus.

Fig. 2 is a perspective view of the separating type aluminum profile cutting equipment.

Fig. 3 is a schematic structural diagram of the feeding plate, an th pressing mechanism and a second pressing mechanism.

Fig. 4 is a schematic structural diagram of the cutting device.

Fig. 5 is a schematic view of the processing station and clutch drive assembly.

Fig. 6 is a second schematic structural diagram of the processing table and the clutch driving assembly.

Fig. 7 is a schematic structural view of a positioning plate assembly and a roller assembly.

In the drawing, 1, a frame, 2, a feeding plate, 3, a convex plate, 4, a processing table, 41, a supporting plate, 42, a fixing plate, 43, a movable plate, 431, a planar movable plate, 432, a longitudinal movable plate, 44, a connecting groove, 5, a cutting opening, 6, a clutch driving assembly, 61, a planar translation unit, 611, a translation guide rail, 612, a translation slider, 62, a longitudinal translation unit, 621, a second translation guide rail, 622, a second translation slider, 63, a clutch driving cylinder, 7, a pressing device, 71, a pressing mechanism, 711, a pressing cylinder, 712, a pressing plate, 72, a pressing mechanism, 721, a pressing cylinder, 493, a 2 pressing plate, 8, a feeding driving assembly, 81, a feeding motor, 82, a feeding screw rod, 9, a second pressing mechanism, 91, a second pressing cylinder, 92, a second pressing plate, 10, a third pressing mechanism, 101, a third pressing mechanism, a cutting mechanism, a chute pressing mechanism, a cutting cylinder, a discharging pipe, a cutting mechanism, a discharging pipe, a positioning mechanism, a chute, a discharging pipe, a discharging mechanism, a discharging pipe, a chute, a discharging mechanism, a discharging pipe, a discharging mechanism, a chute, a discharging mechanism, a discharging pipe.

Detailed Description

The present invention is further described in with reference to the following drawings and examples:

please refer to fig. 1-2, the utility model discloses an disconnect-type aluminium alloy cutting equipment, which comprises a frame 1, feed plate 2, processing platform 4 and cutting device 12, feed plate 2 activity is located on frame 1 and is located the side of processing platform 4, cutting device 12 is located the side of processing platform 4, the end of feed plate 2 is equipped with the flange 3 that can imbed processing platform 4, processing platform 4 includes backup pad 41 and installs fixed plate 42 and fly leaf 43 on backup pad 41, the end that backup pad 41 is close to feed plate 2 is opened has the spread groove 44 with flange 3 assorted, fixed plate 42 forms cutting opening 5 with fly leaf 43, the bottom of fly leaf 43 is equipped with the separation and reunion drive assembly 6 that is used for driving fly leaf 43 to make reciprocating motion for fixed plate 42.

As shown in FIG. 3, the feeding plate 2 is provided with an th pressing device 7, the th pressing device 7 comprises a 0 th pressing mechanism 71 arranged above the feeding plate 2 and a 2 th pressing mechanism 72 arranged on the feeding plate 2 1 side, the 3 th pressing mechanism 71 comprises an 4 th pressing cylinder 711 and a th pressing plate 712, the th pressing plate 712 is connected with the extending end of the th pressing cylinder 711, the th pressing mechanism 72 comprises a th pressing cylinder 721 and a th pressing plate 722, and the th pressing plate 722 is connected with the extending end of the th pressing cylinder 721.

A feeding driving assembly 8 for driving the feeding plate 2 to perform reciprocating feeding motion to the fixing plate 42 is arranged beside the feeding plate 2, the feeding driving assembly 8 comprises a feeding motor 81 and a feeding screw rod 82, and the feeding motor 81 is connected with the feeding screw rod 82 through a coupler.

During feeding, the -th pressing mechanism 71 and the -th side pressing mechanism 72 respectively press the upper end face and the side end face of the profile, so that the profile is fixed, then the feeding motor 81 drives the feeding screw rod 82 to drive the feeding plate 2 to feed the processing table 4 in a reciprocating manner, the convex plate 3 of the feeding plate 2 is matched with the connecting groove 44 on the supporting plate 41, the distance between the feeding plate 2 and the processing table 4 is reduced, tailings can enter the processing table 4 to be cut as far as possible, and the loss of the tailings is reduced.

As shown in fig. 5 to 6, a second pressing mechanism 9 and a third pressing mechanism 10 are respectively disposed on the left and right sides of the cutting opening 5, the second pressing mechanism 9 is located above the movable plate 43, the second pressing mechanism 9 includes a second pressing cylinder 91 and a second pressing plate 92, and the second pressing plate 92 is connected to an extending end of the second pressing cylinder 91. The third pressing mechanism 10 is located above the fixing plate 42 and includes a third pressing cylinder 101 and a third pressing plate 102, and the third pressing plate 102 is connected to an extending end of the third pressing cylinder 101.

The movable plate 43 comprises a planar movable plate 431 and a longitudinal movable plate 432 which are vertically connected with each other, and the planar movable plate 431 and the fixed plate 42 are located at the same horizontal plane .

The side of the planar movable plate 431 is provided with a second lateral pressing mechanism 11 used in cooperation with the second pressing mechanism 9, the second lateral pressing mechanism 11 includes a second lateral pressing cylinder 111 and a second lateral pressing plate 112, and the second lateral pressing plate 112 is connected with the extending end of the second lateral pressing cylinder 111.

The clutch driving assembly 6 comprises a plane translation unit 61 and a longitudinal translation unit 62, wherein the plane movable plate 431 is slidably disposed on the plane translation unit 61, the plane translation unit 61 comprises a -th translation guide rail 611 and a -th translation slide block 612, the longitudinal movable plate 432 is slidably disposed on the longitudinal translation unit 62, and the longitudinal translation unit 62 comprises a second translation guide rail 621 and a second translation slide block 622.

The clutch driving assembly 6 further comprises a clutch driving cylinder 63, and the clutch driving cylinder 63 is located at the bottom of the planar movable plate 431.

As shown in fig. 4, the cutting device 12 includes a cutting motor 121 and a saw blade 122 mounted on the cutting motor 121, a cutting driving assembly 13 for driving the saw blade 122 to reciprocate in the cutting opening 5 is connected to the bottom of the cutting motor 121, the cutting driving assembly 13 includes a cutting slide carriage 131, a cutting slide rail 132, a cutting driving motor 133 and a cutting screw 134, the cutting slide carriage 131 is movably mounted on the cutting slide rail 132, the cutting screw 134 is connected to the cutting motor 121 through the cutting slide carriage 131, the cutting driving motor 133 is connected to the cutting screw 134 through a coupling, and the moving direction of the saw blade 122 is perpendicular to the moving direction of the movable plate 43.

The second side pressing mechanism 11 presses the side end face of the profile, the second pressing mechanism 9 and the third pressing mechanism 10 located on the left side and the right side of the cutting opening 5 respectively press the upper end face of the profile to be processed, and then the cutting driving assembly 13 drives the saw blade 122 and the cutting motor 121 to cut and saw the profile.

After cutting, when the cut profile is separated from the unprocessed profile, the second lateral pressing mechanism 11 and the second pressing mechanism 9 are kept in a pressed state, and the profile at this time is the cut profile, the clutch driving cylinder 63 drives the planar movable plate 431 and the longitudinal movable plate 432 to respectively slide on the -th translation guide rail 611 and the second translation guide rail 621 and move towards the side far away from the cutting opening 5, so that the cut profile and the unprocessed profile are completely separated, the hooking phenomenon is avoided, and the separated movable plate 43 returns to be engaged with the fixed plate 42 under the re-driving of the clutch driving assembly 6, and the next times of processing are carried out.

A th chip-removal chute 14 used for discharging cutting waste chips is arranged below the cutting opening 5, the end of the th chip-removal chute 14 close to the cutting opening 5 is an inclined surface, the tail end of the th chip-removal chute 14 is connected with a th discharge pipe 15, waste chips entering the th chip-removal chute 14 are discharged from the th discharge pipe 15 along the inclined surface, a second chip-removal chute 16 used for partially wrapping the saw blade 122 and discharging the waste chips is arranged on the outer side of the saw blade 122, a second discharge pipe 17 is connected with the tail end of the second chip-removal chute 16, and waste chips entering the second chip-removal chute 16 are discharged from the second discharge pipe 17. the arrangement of the th chip-removal chute 14 and the second chip-removal chute 16 can discharge waste chips generated by cutting equipment in a large amount.

As shown in fig. 7, a liftable positioning plate assembly 18 is arranged between the processing table 4 and the feeding plate 2, the positioning plate assembly 18 comprises a positioning plate 181, the orientation of the positioning plate 181 is perpendicular to the advancing direction of the feeding plate 2, and a positioning cylinder 182 is connected to the bottom of the positioning plate 181.

The two sides of the positioning plate assembly 18 are respectively provided with a liftable roller assembly 19, the roller assembly 19 comprises a roller 191 and a roller cylinder 192 for driving the roller 191 to ascend and descend, the upper end surface of the roller 191 is matched to form a conveying surface, and the conveying surface is flush with the table surface of the processing table 4.

The separation of the processing table is realized by arranging a fixed plate, a movable plate and a clutch driving assembly for driving the movable plate to reciprocate relative to the fixed plate; the connecting groove matched with the convex plate of the feeding plate is formed in the supporting plate, so that the tailings can enter the processing table to be cut as far as possible, and the loss of the tailings is reduced.

Of course, the above illustration is only a preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, so all equivalent changes made in the principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a disconnect-type aluminium alloy cutting equipment, includes frame, delivery sheet, processing platform and cutting device, and the delivery sheet activity is located the side of processing platform in the frame, and cutting device is located the side of processing platform, and characterized in that the end of delivery sheet is equipped with the flange that can imbed the processing platform, the processing platform includes the backup pad and installs fixed plate and the fly leaf in the backup pad, and the end that the backup pad is close to the delivery sheet is opened has the spread groove with the flange assorted, and the fixed plate forms the cutting opening with the fly leaf, the bottom of fly leaf is equipped with the separation and reunion drive assembly that is used for driving the fly leaf and makes reciprocating motion relative to the fixed.
2. 2. The separating aluminum profile cutting equipment as claimed in claim 1, wherein the feeding plate is provided with a th pressing device, and the th pressing device comprises a th pressing mechanism arranged above the feeding plate and a th side pressing mechanism arranged on the feeding plate side.
3. 3. The separate type aluminum profile cutting apparatus according to claim 2, wherein: and a feeding driving assembly for driving the feeding plate to perform reciprocating feeding motion to the fixed plate is arranged beside the feeding plate.
4. 4. The divided aluminum profile cutting apparatus according to claim 1, wherein: the left side and the right side of the cutting opening are respectively provided with a second pressing mechanism and a third pressing mechanism, the second pressing mechanism is located above the movable plate, and the third pressing mechanism is located above the fixed plate.
5. 5. The separate type aluminum profile cutting machine as claimed in claim 4, wherein the movable plate comprises a planar movable plate and a longitudinal movable plate which are vertically connected with each other, and the planar movable plate and the fixed plate are located at the same horizontal plane.
6. 6. The separating type aluminum profile cutting equipment according to claim 5, wherein a second side pressing mechanism matched with the second pressing mechanism is arranged on the side of the plane movable plate.
7. 7. The separating type aluminum profile cutting equipment according to claim 5, wherein the clutch driving assembly comprises a plane translation unit and a longitudinal translation unit, the plane movable plate is slidably arranged on the plane translation unit, the plane translation unit comprises an -th translation guide rail and a -th translation sliding block, the longitudinal movable plate is slidably arranged on the longitudinal translation unit, and the longitudinal translation unit comprises a second translation guide rail and a second translation sliding block.
8. 8. The divided aluminum profile cutting apparatus according to claim 5, wherein: the clutch driving assembly further comprises a clutch driving cylinder, and the clutch driving cylinder is located at the bottom of the plane movable plate.
9. 9. The divided aluminum profile cutting apparatus according to claim 1, wherein: the cutting device comprises a cutting motor and a saw blade arranged on the cutting motor, a cutting driving assembly used for driving the saw blade to do reciprocating cutting motion at a cutting opening is connected and arranged at the bottom of the cutting motor, and the motion direction of the saw blade is perpendicular to the moving direction of the movable plate.
10. 10. The separating type aluminum profile cutting device according to claim 9, wherein a th chip discharge chute for discharging cutting scraps is arranged below the cutting opening, and a second chip discharge chute for partially wrapping the saw blade and discharging scraps is arranged outside the saw blade.

Images