CN211277575U - Automatic framing device for aluminum profiles - Google Patents

Abstract

The utility model provides an automatic dress frame device of aluminium alloy belongs to aluminium alloy production facility technical field, include: section bar transfer chain, parting bead transfer chain, horizontal transfer chain, manipulator subassembly and platform truck, be provided with anchor clamps on the manipulator subassembly, horizontal transfer chain one end orientation section bar transfer chain and other end orientation the below of anchor clamps, the parting bead transfer chain is located the below of anchor clamps, the section bar transfer chain is used for passing through the aluminium alloy after cutting off horizontal transfer chain carries extremely the below of anchor clamps, the parting bead transfer chain is used for carrying the parting bead extremely the below of anchor clamps, the manipulator subassembly passes through anchor clamps drive aluminium alloy and parting bead extremely on the platform truck. The utility model has the advantages that: the cut aluminum profiles can be automatically framed, so that the labor intensity of workers is reduced, the waste of human resources is reduced, and the production efficiency is improved.

Description

Automatic framing device for aluminum profiles

Technical Field

The utility model belongs to the technical field of aluminium alloy production facility, a automatic dress frame device of aluminium alloy is related to.

Background

The aluminum profile is a material which is commonly applied in the fields of construction, decoration, storage and the like, has the advantages of light and handy structure, corrosion resistance, no environmental damage to raw materials, industrial mass production and the like, and is widely applied to the life of people.

In the aluminium alloy production process, adopt the dress frame mode of artifical material lift basically, the workman will deposit the material frame handling of section bar to the section bar saw cuts the department and pack into the material frame by the artifical section bar after saw cutting one by one, dress frame in-process, every fill one deck section bar, need the artifical section bar parting bead of putting, every frame section bar is filled the back and is transported to next process by artifical the accent again, in this type section bar handling, can great increase workman's intensity of labour, cause a large amount of manpower resources extravagant, production efficiency is lower.

Disclosure of Invention

The utility model aims at the above-mentioned problem that prior art exists, provide an automatic dress frame device of aluminium alloy.

The purpose of the utility model can be realized by the following technical proposal: an automatic framing device of aluminium alloy includes: section bar transfer chain, parting bead transfer chain, horizontal transfer chain, manipulator subassembly and platform truck, be provided with anchor clamps on the manipulator subassembly, horizontal transfer chain one end orientation section bar transfer chain and other end orientation the below of anchor clamps, the parting bead transfer chain is located the below of anchor clamps, the section bar transfer chain is used for passing through the aluminium alloy after cutting off horizontal transfer chain carries extremely the below of anchor clamps, the parting bead transfer chain is used for carrying the parting bead extremely the below of anchor clamps, the manipulator subassembly passes through anchor clamps drive aluminium alloy and parting bead extremely on the platform truck.

Preferably, a saw cutting machine is arranged on the section bar conveying line and used for cutting off the section bars on the section bar conveying line.

Preferably, the transverse conveying line comprises a primary conveying belt and a secondary conveying belt, one end of the primary conveying belt is located on the section bar conveying line, the other end of the primary conveying belt faces the secondary conveying belt, and the end portion of the secondary conveying belt is located above the parting strip conveying line.

Preferably, the primary conveyor belt is of a lifting structure, when the primary conveyor belt rises, the aluminum profile is transferred from the profile conveyor line to the primary conveyor belt, and when the aluminum profile is close to the secondary conveyor belt, the primary conveyor belt descends, so that the aluminum profile falls onto the secondary conveyor belt.

Preferably, the clamp comprises a fixing frame and a plurality of clamping cylinders, and the clamping cylinders are fixed on the fixing frame and used for clamping the parting beads.

Preferably, the number of the secondary conveyor belts is at least two, the secondary conveyor belts are arranged in parallel and at intervals, and the division bar is positioned below the secondary conveyor belts and between two adjacent secondary conveyor belts.

Preferably, the number of the trolleys is two and the trolleys are respectively positioned at two sides of the manipulator assembly.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the cut aluminum profiles can be automatically framed, so that the labor intensity of workers is reduced, the waste of human resources is reduced, and the production efficiency is improved.

2. The saw cuts the initiating terminal of machine setting at the section bar transfer chain, and the aluminium alloy gets into to the section bar transfer chain after through saw cuts the machine to after the section bar transfer chain transportation certain distance, cut off by saw cuts the machine, thereby obtain the aluminium alloy that needs length, just so can realize saw cutting dress frame integration's effect.

3. Horizontal transfer chain is second grade transport structure in fact, and what can be fine like this compensaties that the transport distance is not enough and the saw cut machine saw cuts the shortcoming that the section bar waited for, and the end of second grade conveyer belt is located the top of parting bead transfer chain, and anchor clamps can snatch the parting bead, then plays the aluminium alloy through the parting bead area at the in-process that rises, places it on the platform truck at last.

Drawings

Fig. 1 is the structure schematic diagram of the automatic framing device for aluminum profiles of the utility model.

Fig. 2 is a schematic structural view of the horizontal conveying line of the present invention.

Fig. 3 is a schematic structural view of the clamp of the present invention.

In the figure, 100, a section bar conveying line; 110. sawing and cutting machine; 200. a transverse conveying line; 210. a primary conveyor belt; 220. a secondary conveyor belt; 300. a parting strip conveying line; 400. a manipulator assembly; 500. a clamp; 510. a clamping cylinder; 520. a fixing frame; 600. an aluminum profile; 700. and (4) a parting strip.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1, an automatic framing device of aluminium alloy includes: the automatic framing device comprises a section bar conveying line 100, a parting bead conveying line 300, a transverse conveying line 200, a manipulator assembly 400 and a trolley (not shown in the figure), and can arrange and stack aluminum section bars, place parting beads 700 between upper and lower rows of aluminum section bars 600, and finally achieve the purpose of automatic framing.

It should be noted here that in the aluminum profile production process, basically, a frame installing mode of manually lifting materials is adopted, a worker hoists a material frame for storing the profiles to the profile sawing position and manually installs the sawed profiles into the material frame one by one, and in the frame installing process, when one layer of profiles is filled, the profile parting strips 700 need to be manually placed, so that the operation is very troublesome, and in the embodiment, the aluminum profiles can be automatically transported, and the parting strips 700 are placed in each layer of aluminum profiles.

The manipulator assembly 400 is provided with a clamp 500, one end of the transverse conveying line 200 faces the section conveying line 100, the other end of the transverse conveying line faces the lower portion of the clamp 500, and the parting bead conveying line 300 is located below the clamp 500.

Preferably, the robot assembly 400 is actually an industrial robot, and the end of the arm thereof is provided with the clamp 500, and the end point of the transverse conveyor line 200 and the end point of the spacer conveyor line 300 are both located below the clamp 500, so that the clamp 500 can clamp the spacer 700 below the aluminum profile and transfer the aluminum profile into the trolley.

The section bar conveying line 100 is used for conveying the cut aluminum section bars to the lower part of the clamp 500 through the transverse conveying line 200, the parting bead conveying line 300 is used for conveying the parting beads to the lower part of the clamp 500, and the manipulator assembly 400 drives the aluminum section bars 600 and the parting beads 700 to the trolley through the clamp 500.

Preferably, the both ends of horizontal transfer line 200 cooperate with section bar transfer line 100 and parting bead transfer line 300 respectively, and section bar transfer line 100 is used for carrying rectangular form section bar to when the aluminium alloy removes to horizontal transfer line 200 position, can be driven to parting bead transfer line 300 one side by horizontal transfer line 200, thereby be cliied by anchor clamps 500, and parting bead transfer line 300 can be used for carrying parting bead 700, and parting bead 700 is used for placing between the aluminium alloy of adjacent upper and lower floor.

Preferably, the parting strip conveying line 300 actually comprises a bin, a feeding chain plate and a conveying belt, the parting strip 700 is located in the bin, is conveyed to the feeding chain plate through the conveying belt, and is conveyed to the conveying belt through the feeding chain plate, and the conveying belt is located below the clamp 500.

Through foretell automatic dress frame device, can adorn the frame with the aluminium alloy that cuts is automatic to reduce workman's intensity of labour, reduce manpower resources's waste, and improve production efficiency.

As shown in fig. 1, on the basis of the above embodiment, a saw 110 is provided on the profile conveying line 100, and the saw 110 is used for cutting the profile on the profile conveying line 100.

Preferably, the saw cutting machine 110 is arranged at the starting end of the section bar conveying line 100, the aluminum profile enters the section bar conveying line 100 after passing through the saw cutting machine 110, and after the section bar conveying line 100 is conveyed for a certain distance, the aluminum profile is cut off by the saw cutting machine 110, so that the aluminum profile with the required length is obtained, and the sawing and framing integrated effect can be realized.

As shown in fig. 1 and 2, based on the above embodiment, the transverse conveyor line 200 includes a primary conveyor belt 210 and a secondary conveyor belt 220, one end of the primary conveyor belt 210 is located on the profile conveyor line 100, and the other end of the primary conveyor belt is directed toward the secondary conveyor belt 220, and an end of the secondary conveyor belt 220 is located above the parting strip conveyor line 300.

Preferably, horizontal transfer chain 200 is second grade transport structure in fact, and the shortcoming that the distance of compensation was not enough and the saw cutting machine saw cut the section bar and waits for that can be fine like this, and the section bar that saw cuts can wait for the dress frame on the one-level conveyer belt, and the end of second grade conveyer belt 220 is located the top of parting bead transfer chain 300, and anchor clamps 500 can snatch parting bead 700, then takes up the section bar through parting bead 700 at the in-process that rises, places it on the platform truck at last.

As shown in fig. 1 and 2, based on the above embodiment, the primary conveyor belt 210 is of a lifting structure, and when the primary conveyor belt 210 rises, the aluminum profile is transferred from the profile conveyor line to the primary conveyor belt 210, and when the aluminum profile approaches the secondary conveyor belt 220, the primary conveyor belt falls, so that the aluminum profile falls onto the secondary conveyor belt 220.

Preferably, the first-level conveying belt can be lifted and lifted, and when the aluminum profile is conveyed to the upper part of the second-level conveying belt, the aluminum profile is lifted and lowered, so that the aluminum profile falls on the second-level conveying belt. And then the aluminum profile is conveyed to the upper part of the parting strip by a secondary conveyor belt.

It is worth mentioning here that such a liftable conveyor belt structure is in fact prior art and is available commercially.

Preferably, the primary driving wheel and the secondary driving wheel are respectively and independently controlled and can independently move, so that the primary conveying belt can be conveniently and temporarily parked.

As shown in fig. 1 and 3, in the above embodiment, the clamp 500 includes a fixing frame 520 and a plurality of clamping cylinders 510, and the clamping cylinders 510 are fixed to the fixing frame 520 and clamp the division bars 700.

Preferably, press from both sides and get cylinder 510 and be prior art in fact, belong to a cylinder anchor clamps, press from both sides and get cylinder 510 and can clip parting bead 700, and in actual structure, the quantity of anchor clamps 500 cylinder is a plurality of, and fall into two rows of settings on fixed frame 520 in front and back, just so can clip the front and back both ends of parting bead 700 to better drive the aluminium alloy and remove.

As shown in fig. 1 and fig. 2, on the basis of the above embodiment, the number of the secondary conveyor belts 220 is at least two, and each of the secondary conveyor belts 220 is arranged in parallel and at an interval, and the division bar 700 is located below the secondary conveyor belt 220 and between two adjacent secondary conveyor belts 220.

Preferably, in order to better bear and transport the aluminium alloy, can set for a plurality ofly, preferably 8 here with the quantity of primary conveyor 210 and secondary conveyor 220, primary conveyor all becomes parallel arrangement with secondary conveyor 220, and the terminal of primary conveyor 210 and the initiating terminal of secondary conveyor 220 are adjacent setting to make a plurality of primary conveyor 210 and second conveyor crisscross together, so can be better transport the aluminium alloy to anchor clamps 500 below.

As shown in fig. 1, in addition to the above embodiment, the two carriages are preferably located at both sides of the robot assembly 400, so that the framing efficiency can be improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (7)

1. The utility model provides an automatic dress frame device of aluminium alloy which characterized in that includes: section bar transfer chain, parting bead transfer chain, horizontal transfer chain, manipulator subassembly and platform truck, be provided with anchor clamps on the manipulator subassembly, horizontal transfer chain one end orientation section bar transfer chain and other end orientation the below of anchor clamps, the parting bead transfer chain is located the below of anchor clamps, the section bar transfer chain is used for passing through the aluminium alloy after cutting off horizontal transfer chain carries extremely the below of anchor clamps, the parting bead transfer chain is used for carrying the parting bead extremely the below of anchor clamps, the manipulator subassembly passes through anchor clamps drive aluminium alloy and parting bead extremely on the platform truck.

2. The automatic framing device of aluminum profiles as claimed in claim 1, characterized in that: the section bar conveying line is provided with a sawing machine, and the sawing machine is used for cutting off the section bars on the section bar conveying line.

3. The automatic framing device of aluminum profile as claimed in claim 2, characterized in that: horizontal transfer chain includes one-level conveyer belt and second grade conveyer belt, the one end of one-level conveyer belt is located on the section bar transfer chain, and the other end orientation the second grade conveyer belt, the tip of second grade conveyer belt is located the top of parting bead transfer chain.

4. The automatic framing device of aluminum profile as claimed in claim 3, characterized in that: the one-level conveyer belt is elevation structure, works as the aluminium alloy is followed when the one-level conveyer belt rises the section bar transfer is to on the one-level conveyer belt, and works as the aluminium alloy is close to when the secondary conveyor belt the one-level conveyer belt descends to make the aluminium alloy fall on the secondary conveyor belt.

5. The automatic framing device of aluminum profiles as claimed in claim 4, characterized in that: the clamp comprises a fixing frame and a plurality of clamping cylinders, and the clamping cylinders are fixed on the fixing frame and used for clamping the parting beads.

6. The automatic framing device of aluminum profiles as claimed in claim 5, characterized in that: the quantity of secondary conveyer belt is two at least to each the secondary conveyer belt is parallel and the interval sets up, and the parting bead is located the secondary conveyer belt below and be located two adjacent between the secondary conveyer belt.

7. The automatic framing device of aluminum profiles as claimed in claim 1, characterized in that: the number of the trolleys is two and the trolleys are respectively positioned on two sides of the manipulator assembly.

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