CN113568388A - Automatic production line for processing curtain wall aluminum profile - Google Patents

Abstract

The invention relates to the technical field of curtain wall aluminum profile production equipment, and discloses an automatic production line for processing curtain wall aluminum profiles, which comprises a truss unit, and a feeding line system unit, a cutting unit, a semi-finished product caching unit, a processing unit and a discharging line system unit which are sequentially arranged, wherein the feeding line system unit comprises a feeding conveying line, a feeding jacking roller module and a feeding overturning module, the cutting unit comprises a plurality of tool jigs, a robot cutting module and a chip removal module, the semi-finished product caching unit comprises a ground rail conveying module, a caching jacking module and a plurality of clamping modules, the discharging line system unit comprises a discharging conveying line, a discharging jacking module and a discharging overturning module, the truss unit comprises a truss rail, an upright post moving module and a lifting clamping module, the automatic production line has the advantages of no need of manual fork turnover, reduction of conveying time and ordered caching of semi-finished products, the quality of the product is ensured, and the production efficiency is improved.

Description

Automatic production line for processing curtain wall aluminum profile

Technical Field

The invention relates to the technical field of curtain wall aluminum profile production equipment, in particular to an automatic production line for processing curtain wall aluminum profiles.

Background

Along with the rapid rise of labor cost and the aggravation of market competition in the industry, the traditional curtain wall aluminum profile processing production flow is also influenced, so that the production cost is reduced, the product quality is improved, and the production efficiency is improved. The existing curtain wall aluminum profile processing production mainly comprises the steps of aluminum profile feeding, size cutting, machining center forming, finished product blanking and the like, and has the following defects during production:

(1) need rely on manpower or fork truck to have enough to meet the need in adjacent process, the turnover process volume of carrying is big, easily causes the damage to aluminium alloy, the semi-manufactured goods after cutting, the finished product after the processing to the turnover time is long, greatly reduced production efficiency.

(2) Because the cutting process needs shorter time and the processing process needs longer time, the cut semi-finished products are retained, the semi-finished products are easily damaged in the stacking process, the product quality is influenced, and the production efficiency is low.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the automatic production line for processing the curtain wall aluminum profile, which is free of manual forking and turnover, reduces the damage to the aluminum profile, reduces the carrying time, and caches the semi-finished products in order, so that the damage caused by stacking of the semi-finished products is avoided, the product quality is ensured, and the production efficiency is improved.

The purpose of the invention is realized by adopting the following technical scheme:

an automatic production line for processing curtain wall aluminum profiles comprises a truss unit, and a feeding line system unit, a cutting unit, a semi-finished product caching unit, a processing unit and a discharging line system unit which are sequentially arranged;

the feeding line system unit comprises a feeding conveying line, a feeding jacking roller module and a feeding overturning module, wherein the feeding jacking roller module and the feeding overturning module are sequentially arranged at the tail end of the feeding conveying line;

the cutting unit comprises a plurality of tool fixtures, a robot cutting module and a chip removal module, the tool fixtures are arranged side by side, the robot cutting module is arranged on one side of each tool fixture, and the chip removal module is arranged below the tool fixtures;

the semi-finished product caching unit comprises a ground rail conveying module, a caching jacking module and a plurality of clamping modules, wherein the caching jacking module is arranged on the ground rail conveying module, and the clamping modules are uniformly distributed along the length direction of the ground rail conveying module;

the processing unit comprises a plurality of CNC processing centers which are arranged side by side;

the blanking line system unit comprises a blanking conveying line, a blanking jacking module and a blanking overturning module, wherein the blanking jacking module and the blanking overturning module are arranged at the starting end of the blanking conveying line;

the truss unit comprises a truss track, an upright post moving module and a lifting clamping module, wherein two ends of the truss track are respectively arranged on one side of the feeding line system unit and one side of the discharging line system unit, the upright post moving module is arranged on the truss track in a sliding mode, and the lifting clamping module is arranged on the upright post moving module.

Further, the following steps: the starting end of the feeding conveying line and the tail end of the discharging conveying line are both provided with cranes.

Furthermore, storage racks are arranged below the cranes.

Further, a baffle plate is arranged between the cutting unit and the feeding line system unit.

Further, a protection room is arranged outside the cutting unit, an inlet end and an outlet end are arranged on two sides of the protection room respectively, the inlet end is used for accommodating the tail end of the feeding line system unit, the outlet end is used for accommodating the starting end of the semi-finished product cache unit, and a safety door is arranged on one side of the inlet end and one side of the outlet end.

Further, the protection house lateral wall is provided with the control subassembly.

Further, the stand removes the module with 2 groups, at least one set are no less than to the quantity of lift centre gripping module the stand removes the module and sets up with lift centre gripping module in the protection room.

Furthermore, one side of the truss unit is provided with a plurality of electric control cabinets arranged side by side.

Furthermore, a fence is arranged on one side, away from the truss unit, of the semi-finished product caching unit and the processing unit, and a fence door is arranged on the fence.

Further, the number of the clamping modules is consistent with that of the CNC machining centers.

Compared with the prior art, the invention has the beneficial effects that:

(1) be provided with the truss unit, wherein the truss track is established ties in proper order and is gone up stockline system unit, cutting unit, semi-manufactured goods buffer memory unit, processing unit and baiting line system unit, and the stand removes the module and drives lift centre gripping module and carry out the centre gripping along truss track removal to one side of corresponding unit and carry, need not artifical fork transport turnover, reduces the damage to the aluminium alloy, has reduced handling time simultaneously, has improved production efficiency.

(2) Be provided with semi-manufactured goods buffer memory unit, wherein the ground rail is carried the module and is accepted the semi-manufactured goods that are carried through the truss unit by the cutting unit, and cooperation buffer memory jacking module removes to each presss from both sides tight module and presss from both sides tight buffer memory, carries out the buffer memory in order to semi-manufactured goods, avoids semi-manufactured goods to pile up and leads to the damage, has guaranteed the quality of product, cooperates a plurality of CNC machining center simultaneously, can press from both sides the semi-manufactured goods on the tight module to each and process, improves production efficiency.

The invention not only needs no manual fork transportation and turnover, reduces the damage to the aluminum profile, reduces the transportation time, but also carries out ordered buffer storage on the semi-finished products, avoids the damage caused by semi-finished product stacking, ensures the product quality and improves the production efficiency.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a top view of an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a system unit of a loading line according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a cutting unit according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a semi-finished product cache unit according to an embodiment of the present disclosure;

FIG. 6 is a schematic structural diagram of a system unit of a blanking line according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a truss unit according to an embodiment of the present invention.

In the figure: 1. a feed line system unit; 11. a feeding conveying line; 12. a feeding jacking roller module; 13. a feeding overturning module; 2. a cutting unit; 21. tooling a fixture; 22. a robot cutting module; 23. a chip removal module; 201. a baffle plate; 3. a semi-finished product caching unit; 31. a ground rail conveying module; 32. caching the jacking module; 33. a clamping module; 4. a processing unit; 5. a blanking line system unit; 51. a blanking conveying line; 52. a blanking jacking module; 53. a blanking overturning module; 6. a crane; 61. a storage rack; 7. an electric control cabinet; 8. a truss unit; 81. a truss track; 82. an upright post moving module; 83. a lifting clamping module; 9. a fence; 91. a fence door; 10. a protection house; 101. a safety door; 102. and a monitoring component.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

As shown in fig. 1-7, an automatic production line for processing curtain wall aluminum profiles comprises a truss unit 8, and a feeding line system unit 1, a cutting unit 2, a semi-finished product caching unit 3, a processing unit 4 and a discharging line system unit 5 which are arranged in sequence;

the feeding line system unit 1 comprises a feeding conveying line 11, a feeding jacking roller module 12 and a feeding overturning module 13, wherein the feeding jacking roller module 12 and the feeding overturning module 13 are sequentially arranged at the tail end of the feeding conveying line 11, in the embodiment, the feeding conveying line 11 adopts a double-track conveying line and comprises two groups of chain plate conveying lines which are arranged in parallel, POM engineering plastics are arranged on each chain plate to prevent the surface of a product from being abraded, the conveying is more stable due to the fact that two ends of an aluminum profile are synchronously conveyed through the two groups of conveying lines, the length range of the product is 3000 plus 6000mm, the feeding angle irons are arranged on every 13 chain plates which need to be noticed, the interval between every two groups of feeding angle irons is a product conveying station, and only one product can be placed on each conveying station; furthermore, the double-track type conveying line runs intermittently, a sensor is installed at the bottom of the line body, the material distribution angle iron can be detected when passing over the sensor every time, and the starting and stopping of the motor are controlled through signal transmission, so that the gap feeding of products is completed; in this embodiment, the number of the loading jacking roller modules 12 is 3, two of the 3 loading jacking roller modules are respectively installed at the tail ends of corresponding lines, one of the two loading jacking roller modules is arranged in the middle of a double-track line, after a product runs from the double-track conveying line to the loading jacking roller module 12, the line stops running and the loading jacking roller module 12 rises at the same time through the induction of a sensor, the product is jacked up and leaves the conveying line, and then the roller line starts running, and the product is transversely conveyed to the loading overturning module 13; in this embodiment, material loading upset module 13 is total 3 sets, and the aluminium alloy that connects material loading jacking cylinder module 12 to carry out the centre gripping at first and realize the upset of product 90 through the cylinder drive after, waits for truss unit 8 to get the material at last.

The cutting unit 2 comprises a plurality of tool jigs 21, a robot cutting module 22 and a chip removal module 23, the tool jigs 21 are arranged side by side, the robot cutting module 22 is arranged on one side of the tool jigs 21, and the chip removal module 23 is arranged below the tool jigs 21; the robot cutting module 22 comprises an ABB IRB6700-200/2.60 six-axis industrial robot and a precise and efficient saw cutting machine, and further, a lubricator is arranged on a cutting main shaft of the saw cutting machine, lubricating oil can be atomized by high-pressure air and then sprayed on a bearing for lubricating, so that the robot cutting module has a lubricating function and has good effect on cooling the bearing; chip removal module 23 includes chip removal machine, guide plate and transport trolley, and on clout, the aluminium bits of excision can fall the guide plate of below at the during operation, directly on the conveying line of chip removal machine of landing, collect by transport trolley at last, because of each product cutting clout after the volume size differs, if the clout can't fall the transport trolley, need the manual work to sweep.

Semi-manufactured goods buffer memory unit 3 includes ground rail transport module 31, buffer memory jacking module 32 and a plurality of press from both sides tight module 33, buffer memory jacking module 32 sets up on ground rail transport module 31, press from both sides tight module 33 along ground rail transport module 31's length direction evenly distributed, carry the semi-manufactured goods after cutting unit 2 cutting to the centre gripping on buffer memory jacking module 32 through truss unit 8, buffer memory jacking module 32 is moved to the position that corresponds tight module 33 by ground rail transport module 31 drive, carry out the semi-manufactured goods and place, wait that truss unit 8 snatchs corresponding product from pressing from both sides tight module 33, carry to processing unit 4 and process, in this embodiment, the quantity that presss from both sides tight module 33 is 3 groups, every group presss from both sides tight module 33 and includes 3 tight modules of clamp, set up respectively in ground rail transport module 31's both sides.

The machining unit 4 includes a plurality of CNC machining centers arranged side by side, and in this embodiment, the number of the CNC machining centers is 3, which provides the machining efficiency.

Unloading line system unit 5 includes unloading transfer chain 51, unloading jacking module 52 and unloading upset module 53 all set up the initiating terminal at unloading transfer chain 51, in this embodiment, unloading transfer chain 51 chooses the double track formula transfer chain the same with material loading transfer chain 11 for use equally, truss unit 8 places the product after processing on unloading jacking module 52, as the support through unloading upset module 53, carry out slow turn-over to the product, prevent that the product from carrying out strong collision with the transfer chain under the state that does not have external force, cause the damage of equipment and product. The unloading jacking module 52 descends the height this moment for the product falls to unloading transfer chain 51 and carries, and in this embodiment, the quantity of unloading jacking module 52 is 3 sets, and wherein 2 sets set up respectively at the initiating terminal of unloading transfer chain 51, and wherein 1 set sets up between two unloading transfer chains 51, and the quantity of unloading upset module 53 is 2 sets.

The truss unit 8 comprises a truss track 81, an upright post moving module 82 and a lifting clamping module 83, two ends of the truss track 81 are respectively arranged at one side of the feeding line system unit 1 and one side of the feeding line system unit 5, the upright post moving module 82 is arranged on the truss track 81 in a sliding mode, the lifting clamping module 83 is arranged on the upright post moving module 82, the upright post moving module 82 drives the lifting clamping module 83 to move along the truss track 81 during working, and aluminum profiles of corresponding units are clamped and conveyed.

In a preferred embodiment, the crane 6 is arranged at the starting end of the feeding conveyor line 11 and the tail end of the discharging conveyor line 51, and further, the crane 6 is a KBK double-beam type monorail crane 6 used for assisting manual feeding and discharging, and the length, width and height specifications are 7500 x 5000 x 5100 mm.

In a preferred embodiment, storage racks 61 are arranged below the cranes 6 for stacking and storing the aluminum profiles to be loaded and the products after being unloaded.

In a preferred embodiment, a baffle 201 is provided between the cutting unit 2 and the feed line system unit 1 to prevent sparks generated during cutting from being splashed on the feed line system unit 1, thereby improving safety.

As preferred embodiment, be provided with protection house 10 outside cutting unit 2, protection house 10 both sides set up entry end and exit end respectively, and the entry end is used for holding the end of material loading line system unit 1, and the exit end is used for holding the initiating terminal of semi-manufactured goods buffer unit 3, and entry end and exit end one side all are provided with emergency exit 101, and cutting unit 2 is isolated, avoids irrelevant personnel to walk and leads to dangerous condition, further improves the security.

As a preferred embodiment, the monitoring assembly 102 is disposed on the sidewall of the protection room 10, and the monitoring assembly 102 can monitor the images inside and outside the protection room 10 in real time to know the operation condition of the equipment in time.

As preferred embodiment, 2 groups are no less than to the quantity of stand removal module 82 and lift centre gripping module 83, and at least a set of stand removal module 82 and lift centre gripping module 83 set up in protection house 10, adopt a plurality of stands to remove module 82 and lift centre gripping module 83 and carry the aluminium alloy to improve transport efficiency.

As a preferred embodiment, one side of the truss unit 8 is provided with a plurality of electric control cabinets 7 arranged side by side, so that different electric control cabinets 7 can be distributed to different units by workshop personnel, and the quick maintenance and overhaul are facilitated.

As an optimal implementation manner, a fence 9 is arranged on one side of the semi-finished product buffer unit 3, which is far away from the truss unit 8, of the processing unit 4, and a fence door 91 is arranged on the fence 9, so that the situation that when the truss unit 8 takes materials from the semi-finished product buffer unit and conveys the materials to the processing unit 4 for processing, personnel enter a corresponding area to cause danger is avoided, and the workshop safety is further ensured.

As an optimal implementation mode, the number of the clamping modules 33 is consistent with that of the CNC machining centers, and the semi-finished products cached on the clamping modules 33 can be timely conveyed to the corresponding CNC machining centers, so that a new batch of cut semi-finished products can be cached in sequence, the resource allocation is more reasonable, and the production is more compact.

The working principle of the invention is as follows:

during production, aluminum profiles are manually fed to a feeding line system unit 1, the aluminum profiles are conveyed to a feeding jacking module by a feeding conveying line 11, the aluminum profiles are conveyed to a feeding overturning module 13 after the height of the feeding jacking module is raised, the aluminum profiles are overturned by 90 degrees by the feeding overturning module 13, the aluminum profiles after being clamped and overturned by a truss unit 8 are conveyed to a cutting unit 2, the aluminum profiles are clamped and clamped by a tool 21, then the aluminum profiles are cut by a robot cutting module 22 to form semi-finished products, the semi-finished products are clamped by the truss unit 8 and conveyed to a semi-finished product caching unit 3, the semi-finished products are conveyed to the position corresponding to a clamping module 33 by a ground rail conveying module 31 after being received by a caching jacking module 32, the semi-finished products are clamped and cached, then the semi-finished products are clamped by the truss unit 8 and conveyed to a corresponding CNC (computerized numerical control) processing center to form finished products, the finished products are clamped and conveyed to a discharging line system unit 5 by the truss unit 8, after the finished product is received by the blanking jacking module 52, the finished product is overturned by matching with the blanking overturning module 53, and finally the height is lowered to enable the finished product to contact with the blanking conveying line 51 for conveying, and finally, the production is completed through manual blanking.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. The utility model provides a satisfy curtain aluminum profile processing and use automatic production line which characterized in that: the device comprises a truss unit, and a feeding line system unit, a cutting unit, a semi-finished product caching unit, a processing unit and a discharging line system unit which are sequentially arranged;

the feeding line system unit comprises a feeding conveying line, a feeding jacking roller module and a feeding overturning module, wherein the feeding jacking roller module and the feeding overturning module are sequentially arranged at the tail end of the feeding conveying line;

the cutting unit comprises a plurality of tool fixtures, a robot cutting module and a chip removal module, the tool fixtures are arranged side by side, the robot cutting module is arranged on one side of each tool fixture, and the chip removal module is arranged below the tool fixtures;

the semi-finished product caching unit comprises a ground rail conveying module, a caching jacking module and a plurality of clamping modules, wherein the caching jacking module is arranged on the ground rail conveying module, and the clamping modules are uniformly distributed along the length direction of the ground rail conveying module;

the processing unit comprises a plurality of CNC processing centers which are arranged side by side;

the blanking line system unit comprises a blanking conveying line, a blanking jacking module and a blanking overturning module, wherein the blanking jacking module and the blanking overturning module are arranged at the starting end of the blanking conveying line;

the truss unit comprises a truss track, an upright post moving module and a lifting clamping module, wherein two ends of the truss track are respectively arranged on one side of the feeding line system unit and one side of the discharging line system unit, the upright post moving module is arranged on the truss track in a sliding mode, and the lifting clamping module is arranged on the upright post moving module.

2. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 1, is characterized in that: the starting end of the feeding conveying line and the tail end of the discharging conveying line are both provided with cranes.

3. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 2, is characterized in that: and storage racks are arranged below the cranes.

4. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 1, is characterized in that: and a baffle is arranged between the cutting unit and the feeding line system unit.

5. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 1, is characterized in that: the cutting unit is provided with the protection room outward, protection room both sides set up entry end and exit end respectively, the entry end is used for holding the end of material loading line system unit, the exit end is used for holding semi-manufactured goods buffer memory unit's initiating terminal, the entry end with exit end one side all is provided with the emergency exit.

6. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 5, is characterized in that: the protection house lateral wall is provided with the control subassembly.

7. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 5, is characterized in that: the stand removes the module with 2 groups, at least one set of are no less than to the quantity of lift centre gripping module the stand removes the module and sets up with lift centre gripping module in the protection room.

8. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 1, is characterized in that: and a plurality of electric control cabinets arranged side by side are arranged on one side of the truss unit.

9. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 1, is characterized in that: one side of the semi-finished product caching unit and one side of the processing unit, which are far away from the truss unit, are provided with fences, and fence doors are arranged on the fences.

10. The automatic production line for processing curtain wall aluminum profiles as claimed in claim 1, is characterized in that: the number of the clamping modules is consistent with that of the CNC machining centers.

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