CN117446268A - Aluminum profile packaging equipment - Google Patents

Abstract

The application relates to the technical field of aluminum profile packaging, in particular to aluminum profile packaging equipment. The technical problems of the invention are as follows: when the pearl foam is wound, the burrs can cut the pearl foam, so that the protection function of the pearl foam on the aluminum profile is affected. The technical implementation scheme of the invention is as follows: an aluminum profile packaging device comprises a first mounting frame, a first mounting plate, a discharging roller and the like; a first mounting plate is arranged in front of and behind the first mounting frame respectively; the upper parts of the two mounting plates are connected with a discharging roller. According to the invention, the aluminum profile is placed on the supporting plate, the position of the aluminum profile is limited and fixed through the corresponding limiting plate, then the aluminum profiles are stacked and placed together, the pearl foam is wound in an S shape in the placing process, and the pearl foam cannot rub with the lower surface of the aluminum profile due to the separation effect of the supporting plate and the first pushing plate, so that burrs on the surface of the aluminum profile are prevented from scratching the pearl foam.

Description

Aluminum profile packaging equipment

Technical Field

The application relates to the technical field of aluminum profile packaging, in particular to aluminum profile packaging equipment.

Background

The aluminum alloy section is widely applied to the fields of construction, industry and the like, a plurality of aluminum sections are stacked and bundled together to be transported, in order to prevent the aluminum sections from being scratched and damaged in the transportation process, pearl foam is generally utilized to separate the aluminum sections, the pearl foam is generally wound between the aluminum sections in an S shape by staff, the winding speed of the staff is low, in addition, burrs exist on the surface of the aluminum sections due to the problem of production technology, when the pearl foam is wound, the burrs on the surfaces of the pearl foam and the aluminum sections are subjected to relative displacement, the burrs can cut the pearl foam, so that the protection function of the pearl foam on the aluminum sections is influenced, the cut pearl foam can lead to more risks including damage, displacement, environmental influence and the like of packaged articles in the transportation and use processes. When in use, the pearl foam should be prevented from being cut as much as possible, and the integrity of the package should be checked to ensure that the pearl foam can normally play a role in protection and buffering.

Disclosure of Invention

In order to overcome the defect that burrs exist on the surface of some aluminum profiles due to the production process, and the burrs can cut the pearl foam when the pearl foam is wound, so that the protection function of the pearl foam on the aluminum profiles is affected, the invention provides aluminum profile packaging equipment.

The technical implementation scheme of the invention is as follows: an aluminum profile packaging device comprises a first mounting frame, a fixing unit, a first mounting plate, a discharging roller, a packaging unit and a supporting unit; a first mounting plate is arranged in front of and behind the first mounting frame respectively; the upper parts of the two mounting plates are connected with a discharging roller together; the first mounting frame is connected with a fixing unit for fixing the end part of the pearl foam; the left and right sides of the mounting frame are respectively provided with a packing unit for packing the aluminum profile; the two mounting plates I are respectively connected with a supporting unit for supporting the aluminum profile, and the two supporting units are symmetrically arranged in front and back; the left packing unit comprises a second mounting frame, a first power unit, a first cylinder, a supporting plate, a limiting plate and a first push plate; a second mounting frame is arranged on the left side of the first mounting frame; the right side of the second mounting frame is connected with a first power unit; the first power unit is connected with a plurality of first cylinders; the first power unit is used for driving all the first cylinders to move up and down; the telescopic ends of all the cylinders are fixedly connected with a supporting plate; a limiting plate is fixedly connected to the upper side of the supporting plate; the right part of the supporting plate is connected with two first push plates.

More preferably, the right portion of the push plate is provided in an arc shape.

More preferably, the fixing unit comprises a mounting plate II, an electric push rod I and a clamping plate; a second mounting plate is arranged on the left side of the first mounting frame; a plurality of first electric push rods are fixedly connected to the lower part of the mounting frame; a clamping plate is fixedly connected with one telescopic end of all the electric push rods.

More preferably, the upper side of the second mounting plate is inclined.

More preferably, the front supporting unit comprises an electric sliding rail II, an electric sliding block II, an air cylinder II, a mounting plate III and a plug rod; an electric sliding rail II is fixedly connected to the rear side of the first mounting plate in front; the second electric sliding rail is connected with the second electric sliding block in a sliding way; the rear side of the second electric sliding block is fixedly connected with a second air cylinder; the telescopic end of the second cylinder is fixedly connected with a third mounting plate; the three rear sides of the mounting plates are fixedly connected with a plurality of inserted bars.

More preferably, the end of the plunger remote from the mounting plate III is tapered.

More preferably, the device further comprises an anti-wrinkling unit; the fold prevention unit comprises a first spring telescopic rod, a second power unit, a third cylinder, a fourth mounting plate and a second push plate; the supporting plate is in sliding connection with the first pushing plate; two first spring telescopic rods are fixedly connected in each supporting plate respectively; each push plate I is connected with the telescopic end of one spring telescopic rod I respectively; the opposite sides of the first mounting plates are respectively connected with a second power unit; the second power units are distributed in a rectangular shape; each second power unit is connected with a third air cylinder respectively, and the second power units are used for driving the third air cylinders to move up and down; the three telescopic ends of each cylinder are fixedly connected with a mounting plate IV respectively; and each mounting plate IV is respectively connected with a second push plate.

More preferably, the two ends of the push plate are arranged in an arc shape.

More preferably, the device further comprises a scratch-resistant unit; the scraping prevention unit comprises a mounting plate five and a spring telescopic rod two; each mounting plate IV is in sliding connection with the push plate II; each mounting plate IV is fixedly connected with a mounting plate V respectively; a spring telescopic rod II is fixedly connected to each mounting plate V respectively; the telescopic end of each spring telescopic rod II is in sliding connection with the push plate II.

More preferably, the device further comprises a collapse prevention unit; the collapse prevention unit comprises an electric push rod II, a mounting plate VI and a convex plate; a cavity is formed in each second push plate, and a plurality of through grooves are formed in each second push plate respectively; each second push plate is fixedly connected with an electric push rod II respectively; the telescopic end of each electric push rod is fixedly connected with a mounting plate six respectively; each mounting plate six is fixedly connected with a plurality of convex plates respectively, and convex rods are arranged on the convex plates and used for increasing friction force with the pearl foam; each convex plate is in sliding connection with the second push plate.

The beneficial effects are that: 1. according to the invention, the aluminum profile is placed on the supporting plate, the position of the aluminum profile is limited and fixed through the corresponding limiting plate, then the aluminum profiles are stacked and placed together, the pearl foam is wound in an S shape in the placing process, and the pearl foam cannot rub with the lower surface of the aluminum profile due to the separation effect of the supporting plate and the first pushing plate, so that burrs on the surface of the aluminum profile are prevented from scraping the pearl foam, and the protection function of the pearl foam on the aluminum profile is affected.

2. According to the invention, the second pushing plate is propped against the end part of the turning part of the pearl foam, and then the supporting plate, the limiting plate and the first pushing plate are controlled to be separated from the aluminum profile.

3. According to the invention, the convex plate is controlled to extend out of the push plate II to prop the pearl foam on the push plate I, the convex rod is arranged on the convex plate and used for increasing friction force with the pearl foam, then the push plate II is controlled to be separated from the push plate I, the convex plate can move along with the push plate II to pull the pearl foam, the pearl foam is pulled to be flat towards two sides, and the problem that the pearl foam can be concave towards the middle part and cannot cover two sides of an aluminum profile is prevented.

Drawings

Fig. 1 is a schematic perspective view of an aluminum profile packaging device of the present invention;

fig. 2 is a schematic view of a first partial perspective structure of the aluminum profile packing apparatus of the present invention;

fig. 3 is a schematic view of a second partial perspective structure of the aluminum profile packing apparatus of the present invention;

fig. 4 is a schematic perspective view of a fixing unit of the aluminum profile packaging device of the present invention;

FIG. 5 is a schematic view showing a first combined perspective structure of a supporting plate and a pushing plate of the aluminum profile packaging device of the present invention;

FIG. 6 is a schematic view showing a second combined perspective structure of a supporting plate and a pushing plate of the aluminum profile packaging apparatus of the present invention;

fig. 7 is a schematic perspective view of an anti-wrinkling unit of the aluminum profile packaging device;

fig. 8 is a schematic view of a combined perspective structure of a scratch-proof unit and a collapse-proof unit of the aluminum profile packaging equipment of the present invention;

fig. 9 is a schematic perspective view showing a first working state of the aluminum profile packaging apparatus of the present invention;

fig. 10 is a schematic perspective view showing a second working state of the aluminum profile packaging apparatus of the present invention;

fig. 11 is a schematic perspective view showing a third working state of the aluminum profile packaging apparatus of the present invention.

Wherein the above figures include the following reference numerals: the device comprises a first mounting frame, a second mounting plate, a first 3-electric push rod, a 4-clamping plate, a first 5-mounting plate, a 6-discharging roller, a 6 a-redundant part, a second 7-mounting frame, a first 8-electric slide rail, a first 9-electric slide block, a first 10-cylinder, a first 11-support plate, a second 12-limiting plate, a first 13-push plate, a second 14-electric slide rail, a second 15-electric slide block, a second 16-cylinder, a third 17-mounting plate, a third 18-inserting rod, a 19-aluminum profile, a first 21-spring telescopic rod, a third 22-electric slide rail, a third 23-electric slide block, a third 24-cylinder, a fourth 25-mounting plate, a second 26-push plate, a fifth 31-mounting plate, a second 32-spring telescopic rod, a second 41-electric push rod, a sixth 42-mounting plate and a sixth 43-convex plate.

Detailed Description

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Example 1

An aluminum profile 19 packing device, as shown in fig. 1-6, comprises a first mounting frame 1, a fixing unit, a first mounting plate 5, a discharging roller 6, a packing unit and a supporting unit; a mounting plate I5 is arranged in front of and behind the mounting frame I1 respectively; the upper parts of the two mounting plates I5 are connected with a discharging roller 6; the first mounting frame 1 is connected with a fixing unit for fixing the end part of the pearl foam; the left and right sides of the first mounting frame 1 are respectively provided with a packing unit for packing the aluminum profile 19; the two mounting plates I5 are respectively connected with a supporting unit for supporting the aluminum profile 19, and the two supporting units are symmetrically arranged in front and back;

the left packing unit comprises a second installation frame 7, a first power unit, a first cylinder 10, a supporting plate 11, a limiting plate 12 and a first push plate 13; a second mounting frame 7 is arranged on the left side of the first mounting frame 1; the right side of the second mounting frame 7 is connected with a first power unit; the first power unit is connected with two first cylinders 10; the first power unit is used for driving all the first cylinders 10 to move up and down; the telescopic ends of all the first cylinders 10 are fixedly connected with a supporting plate 11; a limiting plate 12 is welded on the upper side of the supporting plate 11; the right part of the supporting plate 11 is connected with two first pushing plates 13, and the right part of each first pushing plate 13 is arranged into an arc shape to prevent the pearl foam from being scratched.

The right part of the first push plate 13 is arranged in an arc shape.

The fixing unit comprises a mounting plate II 2, an electric push rod I3 and a clamping plate 4; the left side of the first mounting frame 1 is provided with a second mounting plate 2, and the upper side of the second mounting plate 2 is inclined, so that the end part of the pearl foam is convenient to descend to the right side of the second mounting plate 2; the lower part of the first mounting frame 1 is fixedly connected with two first electric push rods 3; the telescopic ends of all the electric push rods 3 are fixedly connected with a clamping plate 4.

The front supporting unit comprises an electric sliding rail II 14, an electric sliding block II 15, an air cylinder II 16, a mounting plate III 17 and an inserting rod 18; the rear side of the first mounting plate 5 in front is connected with a second electric slide rail 14 through bolts; the second electric sliding rail 14 is connected with a second electric sliding block 15 in a sliding manner; the rear side of the second electric sliding block 15 is fixedly connected with a second air cylinder 16; the telescopic end of the second cylinder 16 is fixedly connected with a third mounting plate 17; two inserted bars 18 are welded on the rear side of the mounting plate III 17, and one end, away from the mounting plate III 17, of each inserted bar 18 is arranged in a conical shape, so that the inserted bars can be conveniently inserted into aluminum profiles 19.

The first power unit comprises a first electric slide rail 8 and a first electric slide block 9; the right side of the second mounting frame 7 is connected with two first electric slide rails 8 through bolts; the two electric sliding rails I8 are respectively connected with an electric sliding block I9 in a sliding way; two first electric sliding blocks 9 are fixedly connected with a first cylinder 10 respectively; the telescopic ends of the first two cylinders 10 are fixedly connected with the supporting plate 11.

Before working, firstly, sleeving the pearl foam roll on a discharging roller 6 by a worker, then, pulling down the end part of the pearl foam roll between a mounting plate II 2 and a clamping plate 4, then, controlling two electric push rods I3 to drive the clamping plate 4 to move towards the mounting plate II 2, so that the clamping plate 4 presses the end part of the pearl foam on the mounting plate to fix, then, placing an aluminum profile 19 on a left supporting plate 11, limiting and fixing the position of the aluminum profile 19 through a corresponding limiting plate 12, and positioning a corresponding first push plate 13 on the right of the aluminum profile 19; when the device works, the first cylinder 10 at the left side is controlled to drive the supporting plate 11, the limiting plate 12, the first push plate 13 and the aluminum profile 19 to move rightwards, the first push plate 13 is firstly contacted with pearl foam and then pushes the pearl foam to move when the supporting plate 11 is positioned right above the first mounting frame 1, in the process, the pearl foam roll continuously releases the pearl foam, and finally the pearl foam is in a bending state, as shown in fig. 9, due to the separation effect of the supporting plate 11 and the first push plate 13, the pearl foam cannot rub the lower surface of the aluminum profile 19, burrs on the surface of the aluminum profile 19 are prevented from scraping the pearl foam, and therefore the protection function of the pearl foam on the aluminum profile 19 is affected; then controlling two cylinders II 16 to drive corresponding mounting plates III 17 and inserting rods 18 to move in opposite directions, moving the inserting rods 18 into side holes of aluminum profiles 19, so that the inserting rods 18 support the aluminum profiles 19, then controlling a left cylinder I10 to drive a support plate 11, a limit plate 12, a push plate I13 and the aluminum profiles 19 to move leftwards for resetting, enabling the left support plate 11, the limit plate 12 and the push plate I13 to be separated from the aluminum profiles 19, then controlling an electric sliding rail II 14 to drive an electric sliding block II 15 to move downwards, and then controlling the electric sliding block II 15 to drive the cylinders II 16 and the mounting plates III 17 to move downwards, and driving the inserting rods 18 and the aluminum profiles 19 supported by the inserting rods to move downwards, so that the aluminum profiles 19 press pearl foam on the mounting frame I1, so that the placement of the aluminum profiles 19 is completed;

then the right electric slide rail I8 is controlled to drive the electric slide block I9 to move upwards, the electric slide block I9 drives the air cylinder I10 and the related parts thereof to move upwards, the air cylinder I10 and the push plate I13 are moved to a position slightly higher than the first aluminum profile 19, then the other aluminum profile 19 is placed on the right support plate 11, the position of the aluminum profile 19 is limited and fixed through the corresponding limiting plate 12, the corresponding push plate I13 is positioned on the left side of the aluminum profile 19, then the air cylinder I10 on the right is controlled to drive the support plate 11, the limiting plate 12, the push plate I13 and the aluminum profile 19 to move leftwards, the push plate I13 is contacted with pearl foam when the support plate 11 is moved to be positioned right above the placed aluminum profile 19, then the pearl foam is pushed to move, in the process, the pearl foam roll continuously releases the pearl foam, finally the pearl foam is in an S-shaped bending state, then the electric slide rail II 14 is controlled to drive the electric slide block II 15 and the related parts thereof to move upwards, the inserting rod 18 is equal to the second aluminum profile 19, and the aluminum profile 19 is positioned on the side hole of the second aluminum profile 19 repeatedly, and then the aluminum profile 19 is placed on the second aluminum profile 19;

then, the left electric slide rail I8 is controlled to drive the electric slide block I9 to move upwards, the electric slide block I9 drives the air cylinder I10 and related parts thereof to move upwards, the air cylinder I10 and the push plate I13 are slightly higher than the second aluminum profile 19, then, the third aluminum profile 19 is placed on the left support plate 11, the first aluminum profile 19 is placed repeatedly, so that the third aluminum profile 19 is stacked on the second aluminum profile 19, the fourth aluminum profile 19 is placed on the principle and the second aluminum profile 19 are placed, if the aluminum profiles are still required to be stacked, the aluminum profiles 19 are stacked together, the pearl foam is wound between the aluminum profiles 19 in an S shape, direct contact between the aluminum profiles 19 is prevented, and then, in the subsequent transportation process, the aluminum profiles 19 are rubbed with each other to cause scratch; in the stacking process, due to the action of the supporting plate 11 and the first pushing plate 13, the pearl foam cannot rub the lower surface of the aluminum profile 19, burrs on the surface of the aluminum profile 19 are prevented from cutting the pearl foam, and therefore the protection function of the pearl foam on the aluminum profile 19 is affected; then two electric putter one 3 drive splint 4 to keeping away from the direction removal of mounting panel two 2 for splint 4 and mounting panel separation are loosened pearl bubble cotton lower extreme, then insert the side tank internal fixation of aluminium alloy 19 with pearl bubble cotton lower extreme, cut off the pearl bubble cotton by the workman afterwards, make pearl bubble cotton one section more after cutting off, then insert the side tank internal fixation of aluminium alloy 19 with the one section pearl bubble cotton that will go beyond, then utilize the adhesive tape to fix aluminium alloy 19 and pearl bubble cotton that stacks together by the staff, take off from mounting bracket one 1 at last.

Example 2

Based on the embodiment 1, as shown in fig. 7-11, the anti-wrinkling device further comprises an anti-wrinkling unit; the wrinkle-preventing unit comprises a first spring telescopic rod 21, a second power unit, a third cylinder 24, a fourth mounting plate 25 and a second push plate 26; the supporting plate 11 is in sliding connection with the first pushing plate 13; two first spring telescopic rods 21 are fixedly connected to each supporting plate 11 respectively; each push plate I13 is connected with the telescopic end of a spring telescopic rod I21 respectively; the opposite sides of the first mounting plates 5 are respectively connected with a second power unit; the second power units are distributed in a rectangular shape; each second power unit is connected with a third air cylinder 24 respectively, and the second power units are used for driving the third air cylinders 24 to move up and down; the telescopic end of each cylinder III 24 is fixedly connected with a mounting plate IV 25 respectively; and a second push plate 26 is connected to each fourth mounting plate 25, and the end part of the second push plate 26 is arc-shaped to prevent the pearl foam from being scratched.

The power unit II comprises an electric sliding rail III 22 and an electric sliding block III 23; an electric sliding rail III 22 is connected to the first mounting plate 5 through bolts; an electric sliding block III 23 is connected on the electric sliding rail III 22 in a sliding way; the third electric slide block 23 is fixedly connected with the third air cylinder 24.

The device also comprises an anti-scratch unit; the scraping prevention unit comprises a mounting plate five 31 and a spring telescopic rod two 32; each mounting plate IV 25 is in sliding connection with the push plate II 26; each mounting plate IV 25 is fixedly connected with a mounting plate V31 respectively; a second spring expansion link 32 is fixedly connected to each fifth mounting plate 31; the telescopic end of each second spring telescopic rod 32 is in sliding connection with the second push plate 26.

The first cylinder 10 at the left side is controlled to drive the supporting plate 11, the limiting plate 12, the first push plate 13 and the aluminum profile 19 to move leftwards for resetting, so that the supporting plate 11, the limiting plate 12 and the first push plate 13 can drag pearl foam at the lower side of the supporting plate 11 and the first push plate 13 in the process of separating the supporting plate from the aluminum profile 19, the pearl foam is folded below the aluminum profile 19, the pearl foam can be excessively used, meanwhile, the pearl foam at the folded position can be embedded into a side groove of the aluminum profile 19, burrs in the side groove are more, the burrs can hook the pearl foam, in the process of dismantling the pearl foam, the burrs can hook some scraps, the working environment is polluted, the pearl foam is damaged, the pearl foam can be recycled later, and the recycling value of the pearl foam can be reduced after the pearl foam is damaged; therefore, before the control support plate 11, the limiting plate 12 and the first push plate 13 are separated from the aluminum profile 19, the control cylinder three 24 drives the mounting plate four 25 and the second push plate 26 to move towards the first push plate 13, the second push plate 26 is moved to be in contact with the first push plate 13, the first push plate 13 is immediately driven to move the first extension spring telescopic rod 21, finally the second push plate 26 is propped against the end part of the turning part of the pearl foam, and then the control support plate 11, the limiting plate 12 and the first push plate 13 are separated from the aluminum profile 19, and as the second push plate 26 is propped against the end part of the turning part of the pearl foam, the lower sides of the support plate 11 and the first push plate 13 can not drag the pearl foam at the lower side of the support plate, so that the pearl foam is wrinkled;

in the process of placing the second aluminum profile 19, the first push plate 13 on the right contacts the pearl foam, then the pearl foam is pushed to move, in the process, the pearl foam roll continuously releases the pearl foam, finally the pearl foam is in an S-shaped bending state, in the process, the part of the pearl foam, which is positioned on the right of the first aluminum profile 19, of the redundant part 6a, as shown in fig. 9, slides on the right side of the first aluminum profile 19, and burrs on the right side of the first aluminum profile 19 cut the pearl foam; therefore, before the right push plate 13 is controlled to move leftwards, the electric slide rail III 22 is controlled to drive the electric slide block III 23 to move upwards, the electric slide block III 23 drives the air cylinder III 24, the mounting plate IV 25 and the push plate II 26 to move upwards until the push plate II 26 is at the same height as the push plate I13, then the right push plate I13 is controlled to move leftwards, the push plate I13 cooperates with the push plate II 26 to clamp the top of the redundant part 6a, as shown in fig. 10, then the push plate I13 and the push plate II 26 together drive the redundant part 6a to be abutted against the right side of the first aluminum profile 19, as shown in fig. 11, the redundant part 6a of pearl foam does not rub the right side of the aluminum profile 19 in the abutting process, so that the burrs on the right side can cut the pearl foam, and in the process, the push plate II 26 slides in the mounting plate IV 25 to compress the spring telescopic rod II 32; then the third control cylinder 24 drives the fourth mounting plate 25 and the second push plate 26 to move and reset, so that the second push plate 26 is separated from the first push plate 13, and then the first push plate 13 on the right is controlled to move leftwards.

Example 3

On the basis of the embodiment 2, as shown in fig. 8, the anti-collapse device further comprises an anti-collapse unit; the collapse prevention unit comprises a second electric push rod 41, a sixth mounting plate 42 and a convex plate 43; a cavity is formed in each second push plate 26, and three through grooves are formed in each second push plate 26; each second push plate 26 is fixedly connected with a second electric push rod 41 respectively; the telescopic end of each second electric push rod 41 is fixedly connected with a six mounting plate 42 respectively; three convex plates 43 are fixedly connected to each mounting plate six 42 respectively, and convex rods are arranged on the convex plates 43 and used for increasing friction force with pearl foam; each of the convex plates 43 is slidably connected to the second push plate 26.

After the electric sliding rail III 22 is controlled to drive the electric sliding block III 23 to move upwards, the electric sliding block III 23 drives the air cylinder III 24, the mounting plate IV 25 and the push plate II 26 to move upwards, the push plate II 26 is moved to be equal to the push plate I13, the aluminum profile 19 is long, the width of the corresponding used pearl foam is wide, the push plate II 26 only abuts against the end part of the pearl foam, under the gravity action of the middle part of the pearl foam, the pearl foam can be concave towards the middle part, so that the pearl foam cannot cover two sides of the aluminum profile 19, the air cylinder III 24 is controlled to drive the mounting plate IV 25 and the push plate II 26 to move and reset, the push plate II 26 is enabled to be separated from the push plate I13, the electric push rod II 41 is controlled to drive the mounting plate VI 42 and the convex plate 43 to move towards the pearl foam, the convex plate II 43 extends out of the push plate II 26 to abut against the push plate I13, the convex rod is arranged on the convex plate 43 and is used for increasing the friction force with the pearl foam, then the push plate II 26 is controlled to be separated from the push plate I13, the convex plate 43 can follow the push plate II 26 to move towards the middle part, the pearl foam cannot cover two sides of the pearl foam, and the two sides of the pearl foam cannot cover the two sides of the pearl foam, and the problem that the pearl foam cannot cover the two sides of the flat foam can be prevented from being pulled towards the concave side.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (10)

1. An aluminum profile packaging device comprises a first mounting frame (1), a fixing unit, a first mounting plate (5), a discharging roller (6), a packaging unit and a supporting unit; a first mounting plate (5) is arranged in front of and behind the first mounting frame (1) respectively; the upper parts of the two mounting plates I (5) are connected with a discharging roller (6) together; the first mounting frame (1) is connected with a fixing unit for fixing the end part of the pearl foam; the left and right sides of the first mounting frame (1) are respectively provided with a packing unit for packing the aluminum profile (19); the two mounting plates I (5) are respectively connected with a supporting unit for supporting the aluminum profile (19), and the two supporting units are symmetrically arranged in front and back; the left packing unit is characterized by comprising a second installation frame (7), a first power unit, a first cylinder (10), a supporting plate (11), a limiting plate (12) and a first push plate (13); a second mounting frame (7) is arranged on the left side of the first mounting frame (1); the right side of the second mounting frame (7) is connected with a first power unit; the first power unit is connected with a plurality of first cylinders (10); the first power unit is used for driving all the first cylinders (10) to move up and down; the telescopic ends of all the first air cylinders (10) are fixedly connected with a supporting plate (11) together; a limiting plate (12) is fixedly connected to the upper side of the supporting plate (11); the right part of the supporting plate (11) is connected with two first push plates (13).

2. An aluminum profile packaging apparatus as claimed in claim 1, wherein the right portion of the first push plate (13) is provided in an arc shape.

3. An aluminum profile packaging device according to claim 2, wherein the fixing unit comprises a mounting plate II (2), an electric push rod I (3) and a clamping plate (4); a mounting plate II (2) is arranged on the left side of the mounting frame I (1); the lower part of the first installation frame (1) is fixedly connected with a plurality of first electric push rods (3); the telescopic ends of all the first electric push rods (3) are fixedly connected with clamping plates (4) together.

4. An aluminium profile packaging apparatus according to claim 3, wherein the upper side of the second mounting plate (2) is inclined.

5. An aluminum profile packaging device according to claim 3, wherein the front supporting unit comprises an electric sliding rail II (14), an electric sliding block II (15), an air cylinder II (16), a mounting plate III (17) and a plug-in rod (18); an electric sliding rail II (14) is fixedly connected to the rear side of the front mounting plate I (5); the second electric sliding rail (14) is connected with the second electric sliding block (15) in a sliding way; a second cylinder (16) is fixedly connected to the rear side of the second electric sliding block (15); the telescopic end of the second air cylinder (16) is fixedly connected with a third mounting plate (17); the rear side of the mounting plate III (17) is fixedly connected with a plurality of inserted bars (18).

6. An aluminium profile packaging apparatus according to claim 5, wherein the end of the spigot (18) remote from the mounting plate III (17) is tapered.

7. An aluminum profile packaging apparatus as in claim 5, further comprising an anti-wrinkling unit; the fold prevention unit comprises a first spring telescopic rod (21), a second power unit, a third cylinder (24), a fourth mounting plate (25) and a second push plate (26); the supporting plate (11) is in sliding connection with the first pushing plate (13); two first spring telescopic rods (21) are fixedly connected with each supporting plate (11) respectively; each push plate I (13) is connected with the telescopic end of a spring telescopic rod I (21) respectively; two power units II are respectively connected to the opposite sides of the first mounting plates (5); the second power units are distributed in a rectangular shape; each second power unit is respectively connected with a third air cylinder (24), and the second power units are used for driving the third air cylinders (24) to move up and down; the telescopic end of each third cylinder (24) is fixedly connected with a fourth mounting plate (25) respectively; and each mounting plate IV (25) is respectively connected with a push plate II (26).

8. An aluminum profile packaging apparatus as in claim 7, wherein the second push plate (26) end is configured in an arc shape.

9. An aluminum profile packaging apparatus as in any one of claims 7-8, further comprising a scratch resistant unit; the scraping prevention unit comprises a mounting plate five (31) and a spring telescopic rod two (32); each mounting plate IV (25) is in sliding connection with the push plate II (26); each mounting plate IV (25) is fixedly connected with a mounting plate V (31) respectively; a spring telescopic rod II (32) is fixedly connected to each mounting plate III (31) respectively; the telescopic end of each second spring telescopic rod (32) is in sliding connection with the second push plate (26).

10. An aluminum profile packaging apparatus as in claim 9, further comprising an anti-collapse unit; the collapse prevention unit comprises an electric push rod II (41), a mounting plate VI (42) and a convex plate (43); a cavity is formed in each second push plate (26), and a plurality of through grooves are formed in each second push plate (26) respectively; each second push plate (26) is fixedly connected with a second electric push rod (41) respectively; the telescopic end of each second electric push rod (41) is fixedly connected with a sixth mounting plate (42) respectively; a plurality of convex plates (43) are fixedly connected to each mounting plate six (42) respectively, and convex rods are arranged on the convex plates (43) and used for increasing friction force with the pearl foam; each convex plate (43) is in sliding connection with the second pushing plate (26).