CN108057792B

CN108057792B - Assembly angle sign indicating number device of aluminium alloy frame production line

Info

Publication number: CN108057792B
Application number: CN201711496161.4A
Authority: CN
Inventors: 钱德林; 罗宿; 黎雄; 钱小鹏
Original assignee: Suzhou Tongjin Precision Industry Joint-Stock Co ltd
Current assignee: Suzhou Tongjin Precision Industry Joint-Stock Co ltd
Priority date: 2017-12-31
Filing date: 2017-12-31
Publication date: 2024-04-23
Anticipated expiration: 2037-12-31
Also published as: CN108057792A

Abstract

The utility model provides an assembly angle sign indicating number device of aluminium alloy frame production line, includes a frame (1), is equipped with section bar on frame (1) and puts position (2), and section bar (3) tip on corresponding section bar is put position (2) is equipped with presses and rivets unit (4), its characterized in that: a plug angle code unit (5) is further arranged on the frame (1), and the plug angle code unit (5) comprises an angle code carrier (51), a vertical angle code guide groove (52), an angle code carrier translation driving device (53) and a plug angle code pushing device (54); the corner code carrier (51) is provided with a corner code placing position (515), and the corner code (6) is placed in the corner code placing position (515) with an included angle upwards in the working state; the corner brace carrier (51) is movably arranged relative to the frame (1) along the length direction of the V-shaped groove (511), and the corner brace carrier translation driving device (53) drives the corner brace, so that the corner brace carrier (51) has a material receiving working position and a plug corner brace working position.

Description

Assembly angle sign indicating number device of aluminium alloy frame production line

Technical Field

The invention relates to automatic assembly equipment, in particular to an assembly angle code device of an aluminum profile frame production line.

Background

For industrial aluminum profiles (such as frame profiles of photovoltaic modules), the processing is usually performed by a general processing center, manual cooperation operation is needed, and the production efficiency is low.

The processing of the aluminum profile frame takes the assembly line for producing the photovoltaic module frame profile as an example, and basically the working procedures are that firstly the profile is sawed into the required length, then the profile is drilled and the like, then the end part of the profile is assembled with the press riveting corner connector, and finally a plurality of profiles are assembled into the frame shape. The process for assembling the corner connector has the highest automation difficulty, and according to the knowledge of the applicant, no equipment for assembling the corner connector capable of being automatically and continuously produced is currently available in the market, and most of the equipment is manually inserted into the end part of the profile and then moved to a riveting press for riveting and fixing.

Disclosure of Invention

The invention aims to provide an assembly corner brace device of an aluminum profile frame production line, which realizes continuous and full-automatic production of an aluminum profile end assembly corner brace and fills the market blank.

In order to achieve the above purpose, the invention adopts the following technical scheme: the assembly angle code device of the aluminum profile frame production line comprises a rack, wherein a profile placing position is arranged on the rack, a press riveting unit is arranged at the end part of the profile corresponding to the profile placing position, a press riveting head of the press riveting unit is positioned above the end part of the profile on the profile placing position, and the press riveting head moves from top to bottom to perform press riveting; the machine frame is also provided with a plug angle code unit, and the plug angle code unit comprises an angle code carrier, a vertical angle code guide groove, an angle code carrier translation driving device and a plug angle code pushing device;

The corner bracket carrier comprises a base body, wherein a V-shaped groove is formed in the top surface of the base body, the V-shaped groove is a groove with a V-shaped section, a corner bracket positioning groove matched with the corner bracket in size is formed in one side wall of the V-shaped groove, a first notch is formed in the middle of the corner bracket positioning groove, and the width of the first notch is smaller than that of the corner bracket; the other side wall of the V-shaped groove is provided with a second notch, the width of the second notch is larger than that of the corner connector, the first notch and the second notch are aligned and communicated, so that a corner connector placing position is formed on the corner connector carrier, and the corner connector is placed in the corner connector placing position upwards by an included angle in a working state;

the pushing angle code device comprises a pushing rod and a pushing driving device, wherein the pushing rod is aligned with the end part of the section bar on the section bar placing position at a distance, and is movably arranged relative to the frame along the length direction of the section bar on the section bar placing position; the width of the acting end of the pushing rod is smaller than that of the first notch;

The angle code carrier is arranged in a way that the length direction of the V-shaped groove is perpendicular to the length direction of the section bar on the placement position, the angle code carrier is movably arranged relative to the frame along the length direction of the V-shaped groove, and the angle code carrier translation driving device drives the angle code carrier to translate along the length direction of the V-shaped groove, so that the angle code carrier has a material receiving working position and a material plugging working position; when the corner brace carrier is positioned at the material receiving working position, the corner brace placing position on the corner brace carrier is butted with the lower end blanking port of the vertical corner brace guide chute; when the corner brace carrier is positioned at the plug corner brace working position, the corner brace carrier is positioned between a pushing rod of the plug corner brace device and the end part of the section bar on the section bar placing position, the corner brace placing position is opposite to the pushing rod through the first notch, and is opposite to the end part of the section bar on the section bar placing position through the second notch;

Under the operating condition, the pushing driving device drives the pushing rod, so that the pushing rod pushes the corner connector in the corner connector arrangement position through the first notch, the corner connector is forced to overturn inwards towards the second notch, one end of the corner connector is aligned with the section end on the section arrangement position, and the pushing of the corner connector is continued until the corner connector is inserted into the section end on the section arrangement position.

The technical scheme includes that the corner code feeding unit comprises a corner code placing platform for placing a row of stacked corner codes, and a turnover platform is arranged at the edge of one side of a table top of the corner code placing platform; the corner code guide groove corresponds to the overturning platform, and a corner code placing notch is vertically formed in one side, facing the overturning platform, of the corner code guide groove; the overturning platform is provided with an overturning driving device, so that the overturning platform is in a horizontal working state and a vertical working state, and when the overturning platform is in the horizontal working state, the overturning platform is in flush butt joint with the corner code placing platform; when the overturning platform is in a vertical working state, the overturning platform is in butt joint with the corner code imbedding notch of the corner code guide groove, a material blocking block is arranged on the overturning platform, which is close to the lower end of the overturning platform and corresponds to the vertical working state, the material blocking block is arranged in a telescopic way relative to the overturning platform, and a telescopic driving device acts on the material blocking block, so that the material blocking block has a blocking working state and a retraction working state protruding out of the table top of the overturning platform; and, the corner brace is put and is equipped with on the side opposite to the side of establishing the upset platform and moves material mechanism, should move material mechanism and push the piece and move material drive arrangement including moving the material, move the material and push the piece and put the platform along the direction looks corner brace that is close to the upset platform and slide, move the material drive arrangement drive and move the material and push the piece, push the corner brace that the platform was put to the upset platform through moving the material and push the piece.

In the above scheme, a plurality of sectional materials are placed on the sectional material placing position, and a plurality of press riveting heads of the press riveting unit are used for acting on the plurality of sectional materials; the corner brace carriers are provided with a plurality of corner brace placing positions at intervals corresponding to the number and the intervals of the sectional materials on the sectional material placing positions; the number of the action ends of the pushing rods of the pushing angle code device is also a plurality of corresponding angle code placing positions; and the corner brace carrier is provided with a plurality of work positions for receiving materials, and each work position for receiving materials refers to that one corner brace placing position of the corner brace carrier is butted with a lower end blanking port of the corner brace guide chute.

In the scheme, the press riveting unit and the plug angle code unit are two sets, and are respectively arranged at two ends of the section bar on the section bar placing position so as to act on two ends of the section bar simultaneously.

The invention realizes continuous and full-automatic section bar end corner plugging operation, and the whole machine has high working reliability and low cost.

Drawings

FIG. 1 is a schematic perspective view of a structure of an embodiment of the present invention;

Fig. 2 is a schematic perspective view of a second embodiment of the present invention, in which the clinching unit is removed, mainly to show the structure of the corner connector unit, and the figure shows a state that the corner connector is not plugged into the end of the profile;

Fig. 3 is a schematic perspective view of an embodiment of the present invention, in which the clinching unit is removed, mainly to show the structure of the corner key unit, and shows a state in which the corner key has been inserted into the end of the profile.

Fig. 4 is a schematic perspective view of a corner connector loading unit according to an embodiment of the present invention, where the corner connector loading unit shows a top surface structure of a corner connector placing platform and a turnover plane, and a turnover driving device is not shown;

Fig. 5 is a second perspective view of the corner connector loading unit according to the embodiment of the present invention, where the corner connector loading unit shows a corner connector placement platform and a bottom structure of a turnover plane, and the turnover driving device is not shown;

Fig. 6 is a schematic perspective view of a corner brace carrier according to an embodiment of the invention.

In the above figures: 1. a frame; 2. the section bar placing position; 3. a section bar; 4. a press riveting unit; 41. pressing the rivet head; 42. a press riveting driving device; 5. a corner plug unit; 51. a corner brace carrier; 511. a V-shaped groove; 512. the corner connector positioning groove; 513. a first notch; 514. a second notch; 515. the corner code placing position; 52. an angle code guide groove; 521. the corner connector is placed in the notch; 53. the corner brace carrier translation driving device; 54. a push angle code device; 541. a pushing rod; 542. a pushing driving device; 6. an angle code; 7. the corner connector feeding unit; 71. the corner code placing platform; 711. a material moving mechanism; 7111. a material moving pushing block; 7112. a material moving driving device; 72. a turnover platform; 721. a material blocking block; 722. a telescopic driving device; 73. and a turnover driving device.

Description of the embodiments

The invention is further described below with reference to the accompanying drawings and examples:

Examples: see fig. 1-6:

The utility model provides an assembly angle sign indicating number device of aluminium alloy frame production line, see the fig. 1-3 and shows, includes a frame 1, is equipped with section bar on the frame 1 and puts the position 2, and the section bar 3 tip that corresponds on the section bar and put the position 2 is equipped with presses the riveting unit 4, and presses the die 41 that the riveting unit 4 is located the section bar 3 tip on the position 2 and put, press the die 41 from the top down motion and press and rivet, concrete press riveting unit 4 mainly includes a press riveting drive arrangement 42 except pressing the die 41, and as exemplified in the figure presses riveting drive arrangement 42 to adopt the servo motor of finished product to add screw nut mechanism, actual middling pressure is riveted drive arrangement 42 and is adopted the servo motor that divides to add the lead screw nut mechanism, even adopts the pneumatic cylinder also feasible. Specifically, as two profiles 3 are placed in parallel on the profile placement position 2 in the drawing to simultaneously assemble the two profiles 3, two pressing heads 41 of the pressing and riveting unit 4 are required to simultaneously act on the two profiles.

Referring to fig. 1-3, the frame 1 is further provided with a plug angle unit 5, and the plug angle unit 5 includes an angle carrier 51, a vertical angle guide groove 52, an angle carrier translation driving device 53, and a plug angle device 54.

Referring to fig. 1-3, referring to fig. 6 in detail, the corner bracket carrier 51 includes a base, a V-shaped groove 511 is provided on a top surface of the base, the V-shaped groove 511 is a V-shaped groove, a corner bracket positioning groove 512 matching the corner bracket 6 is provided on a side wall of the V-shaped groove 511, a first notch 513 is provided in a middle portion of the corner bracket positioning groove 512, and a width of the first notch 513 is smaller than a width of the corner bracket 6; the other side wall of the V-shaped groove 511 is provided with a second notch 514, the width of the second notch 514 is larger than the width of the corner connector 6, and the first notch 513 and the second notch 514 are aligned and communicated, so that a corner connector placing position 515 is formed on the corner connector carrier 51, that is, a positioning groove 512, a first notch 513 and a second notch 514 form a corner connector placing position 515. In the working state, the corner brace 6 is placed in the corner brace placement position 515 with its included angle facing upwards, see the state of the corner brace carrier 51 in fig. 2.

Specifically, as illustrated in fig. 6, two corner bracket placement positions 515 are provided on the corner bracket carrier 51.

Referring to fig. 1-3, the pushing angle device 54 includes a pushing rod 541 and a pushing driving device 542, where the pushing rod 541 is aligned with an end of the profile 3 on the profile placement position 2, and the pushing rod 541 is movably disposed along a length direction of the profile 3 on the profile placement position 2 relative to the frame 1; the width of the active end of the pushing rod 541 is smaller than the width of the first notch 513. The pushing driving device 542 is an air cylinder as illustrated in the figure, and can be replaced by an existing linear driving device, such as a motor and a screw nut mechanism.

Referring to fig. 1-3, the length direction of the V-shaped groove 511 of the corner brace carrier 51 is perpendicular to the length direction of the profile 3 on the profile placing position 2, the corner brace carrier 51 is movably arranged relative to the frame 1 along the length direction of the V-shaped groove 511, and the corner brace carrier translation driving device 53 drives the corner brace carrier 51 to translate along the length direction of the V-shaped groove 511, so that the corner brace carrier 51 has a receiving working position and a plugging working position; when the corner brace carrier 51 is positioned at the material receiving working position, the corner brace placing position 515 on the corner brace carrier is in butt joint with the lower end blanking port of the corner brace guide chute 52; when the corner key carrier 51 is in the plug corner key working position, the corner key carrier 51 is located between the pushing rod 541 of the plug corner key device 54 and the end of the profile 3 on the profile placing position 2, and the corner key placing position 515 is opposite to the pushing rod 541 with the first notch 513, and opposite to the end of the profile 3 on the profile placing position 2 with the second notch 514. Since two corner bracket placing positions 515 are provided on the corner bracket carrier 51 in the drawing, two working positions for receiving materials are required for the corresponding corner bracket carrier 51, and the two-stroke cylinder group is required for the corner bracket carrier translation driving device 53 in the drawing.

Referring to fig. 2 and 3, in the working state, the process of pushing the plug angle device 54 is: the pushing driving device 542 drives the pushing rod 541, so that the pushing rod 541 pushes the corner brace 6 in the corner brace placing position 515 through the first notch 513, forces the corner brace 6 to tip inwards towards the second notch 514, and makes one end of the corner brace 6 align with the end of the section bar 3 on the section bar placing position 2, and continues pushing the corner brace 6 until the corner brace 6 is inserted into the end of the section bar 3 on the section bar placing position 2. Since two corner positioning positions 515 are provided on the corner carrier 51 in the drawing, two active ends are required for driving the pushing rod 541 by the pushing driving device 542, and one active end corresponds to one corner positioning position 515.

Referring to fig. 1, the present example further includes an angle code feeding unit 7, where the angle code feeding unit 7 includes an angle code placing platform 71 for placing a row of stacked angle codes, a turning platform 72 is disposed at a side edge of a table top of the angle code placing platform 71, and a turning driving device 73 is applied to the turning platform 72, so that the turning platform 72 has a horizontal working state and a vertical working state, and when the turning platform 72 is in the horizontal working state, the turning platform 72 is flush with the angle code placing platform 71; when the turning platform 72 is in a vertical working state, the turning platform 72 is in butt joint with the corner code placing notch 521 of the corner code guide groove 52, namely, as shown in the figure, the corner code placing notch 521 is vertically formed on one side of the corner code guide groove 52 facing the turning platform 72, when the turning platform 72 is turned to a vertical state, the corner code placing notch 521 is spliced, and the turning platform 72 turns to be in a vertical column shape with the corner code 6 on the plane of the turning platform 72 in the corner code guide groove 52.

Referring to fig. 1, the turning driving device 73 is illustrated as a diagonal bracing cylinder, which is disposed below the turning platform 72, the cylinder body of the diagonal bracing cylinder is hinged with the frame 1, and the extending acting end of the diagonal bracing cylinder is hinged with the turning platform 72, so that the diagonal bracing cylinder supports the turning platform 72 like a diagonal bracing rod. The flip drive 73 may be any other drive device, such as a motor, and is not limited to the above-described diagonal cylinder.

Referring to fig. 1, and referring to fig. 4 and 5 in detail, a blocking block 721 is disposed on the turning platform 72 near the lower end thereof in a vertical working state, the blocking block 721 is telescopically disposed relative to the turning platform 72, and a telescopic driving device 722 acts on the blocking block 721 to enable the blocking block 721 to have a blocking working state and a retraction working state protruding from the table surface of the turning platform 72. The telescopic drive 722 is exemplified by a cylinder, and in practice other drives may be used. The function of the baffle block 721 is: under normal state, the baffle block 721 is kept in a blocking working state protruding out of the table top of the turnover platform 72, in the transition process of the turnover platform 72 from the horizontal working state to the vertical working state, the baffle block 721 blocks the corner connector on the turnover platform 72 from falling down, and when the turnover platform 72 completely reaches the vertical working state and is in butt joint with the corner connector placing notch 521 of the corner connector guide groove 52, the baffle block 721 is controlled to retract and convert to a retracting working state, so that the corner connector on the turnover platform 72 can be smoothly transferred into the corner connector guide groove 52 in a row shape.

Referring to fig. 1, and referring to fig. 4 and 5 in detail, a material moving mechanism 711 is disposed on a side of the corner placing platform 71 opposite to the side on which the turning platform 72 is disposed, the material moving mechanism 711 includes a material moving pushing block 7111 and a material moving driving device 7112, the material moving pushing block 7111 slides on the corner placing platform 71 along a direction close to the turning platform 72, and the material moving driving device 7112 drives the material moving pushing block 7111 to push the corner 6 on the corner placing platform 71 to the turning platform 72 through the material moving pushing block 7111. The material moving driving device 7112 is also exemplified by a cylinder.

Referring to fig. 1-3, the press riveting unit 4 and the plug angle code unit 5 are two sets, and are respectively arranged at two ends of the section bar 3 on the section bar placing position 2, so that the two ends of the section bar 3 are simultaneously assembled with angle codes. The design efficiency is high, but in practice, the riveting unit 4 and the plug angle code unit 5 can be only one set, one end of the profile 3 is assembled with the angle code, then the profile is turned 180 degrees to be assembled with the other end, or the profile 3 can only require one end to be assembled with the angle code, and the other end is not required to be provided with the device, so that the design is selected according to practical requirements.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. The assembly angle code device of the aluminum profile frame production line comprises a frame (1), wherein a profile placing position (2) is arranged on the frame (1), a press riveting unit (4) is arranged at the end part of a profile (3) corresponding to the profile placing position (2), a press riveting head (41) of the press riveting unit (4) is positioned above the end part of the profile (3) on the profile placing position (2), and the press riveting head (41) moves from top to bottom to perform press riveting; the method is characterized in that: a plug angle code unit (5) is further arranged on the frame (1), and the plug angle code unit (5) comprises an angle code carrier (51), a vertical angle code guide groove (52), an angle code carrier translation driving device (53) and a plug angle code pushing device (54);

The corner bracket carrier (51) comprises a base body, wherein a V-shaped groove (511) is formed in the top surface of the base body, the V-shaped groove (511) is a groove with a V-shaped section, a corner bracket positioning groove (512) matched with the corner bracket (6) in size is formed in one side wall of the V-shaped groove (511), a first notch (513) is formed in the middle of the corner bracket positioning groove (512), and the width of the first notch (513) is smaller than that of the corner bracket (6); a second notch (514) is arranged on the other side wall of the V-shaped groove (511), the width of the second notch (514) is larger than that of the corner connector (6), the first notch (513) is aligned and communicated with the second notch (514), so that a corner connector placing position (515) is formed on the corner connector carrier (51), and the corner connector (6) is placed in the corner connector placing position (515) upwards at an included angle in a working state;

The pushing angle code device (54) comprises a pushing rod (541) and a pushing driving device (542), the pushing rod (541) is aligned with the end part of the section bar (3) on the section bar placing position (2), and the pushing rod (541) is movably arranged relative to the frame (1) along the length direction of the section bar (3) on the section bar placing position (2); the width of the acting end of the pushing rod (541) is smaller than the width of the first notch (513);

The angle code carrier (51) is arranged in a way that the length direction of the V-shaped groove (511) is perpendicular to the length direction of the section bar (3) on the section bar placing position (2), the angle code carrier (51) is movably arranged relative to the frame (1) along the length direction of the V-shaped groove (511), and the angle code carrier translation driving device (53) drives the angle code carrier (51) to translate along the length direction of the V-shaped groove (511) so that the angle code carrier (51) has a material receiving working position and a material plugging working position; when the corner brace carrier (51) is positioned at the material receiving working position, the corner brace placing position (515) on the corner brace carrier is in butt joint with the lower end blanking port of the corner brace guide groove (52); when the corner brace carrier (51) is positioned at the plug corner brace working position, the corner brace carrier (51) is positioned between a pushing rod (541) of the plug corner brace device (54) and the end part of the profile (3) on the profile placing position (2), the corner brace placing position (515) is opposite to the pushing rod (541) through the first notch (513), and opposite to the end part of the profile (3) on the profile placing position (2) through the second notch (514);

Under the operating condition, the pushing driving device (542) drives the pushing rod (541), so that the pushing rod (541) pushes the corner brace (6) in the corner brace placing position (515) through the first notch (513), the corner brace (6) is forced to overturn inwards towards the second notch (514), one end of the corner brace (6) is aligned to the end of the section bar (3) on the section bar placing position (2), and the corner brace (6) is pushed continuously until the corner brace (6) is inserted into the end of the section bar (3) on the section bar placing position (2).

2. The assembly corner brace apparatus of an aluminum profile frame production line according to claim 1, wherein: the automatic feeding device also comprises an angle code feeding unit (7), wherein the angle code feeding unit (7) comprises an angle code placing platform (71) for placing a row of stacked angle codes, and a turnover platform (72) is arranged at the edge of one side of a table top of the angle code placing platform (71); the corner code guide groove (52) corresponds to the overturning platform (72), and a corner code placing notch (521) is vertically formed in one side, facing the overturning platform (72), of the corner code guide groove (52); the overturning platform (72) is provided with an overturning driving device (73) in a function mode, so that the overturning platform (72) is in a horizontal working state and a vertical working state, and when the overturning platform (72) is in the horizontal working state, the overturning platform (72) is in flush butt joint with the corner code placing platform (71); when the overturning platform (72) is in a vertical working state, the overturning platform (72) is in butt joint with the corner code placing notch (521) of the corner code guide groove (52), a baffle block (721) is arranged on the overturning platform (72) corresponding to the position close to the lower end in the vertical working state, the baffle block (721) is arranged in a telescopic way relative to the overturning platform (72), and a telescopic driving device (722) acts on the baffle block (721) to enable the baffle block (721) to have a blocking working state and a retraction working state protruding out of the table top of the overturning platform (72); and, be equipped with on the angle sign indicating number platform (71) and establish the side that turns over the platform (72) on the side that is on the back, this move material mechanism (711) is including moving material pushing block (7111) and moving material drive arrangement (7112), move material pushing block (7111) along being close to the direction of turning over the platform (72) and put platform (71) relatively angle sign indicating number and slide, move material drive arrangement (7112) drive and move material pushing block (7111), through moving material pushing block (7111) with angle sign indicating number (6) on angle sign indicating number platform (71) push to turn over platform (72).

3. The assembly corner brace apparatus of an aluminum profile frame production line according to claim 1, wherein: a plurality of sectional materials (3) are placed on the sectional material placing position (2) in parallel, and a plurality of pressing riveting heads (41) of the pressing riveting unit (4) are used for acting on the plurality of sectional materials (3); corresponding to the number and the spacing of the section bars (3) on the section bar placing positions (2), a plurality of corner code placing positions (515) are arranged on the corner code carrier (51) at intervals; the number of the action ends of the pushing rods (541) of the pushing angle code device (54) corresponding to the angle code placing positions (515) is multiple; and, the angle code carrier (51) has a plurality of gears of receiving working positions, and each gear of receiving working position is that one angle code placing position (515) of the angle code carrier (51) is in butt joint with a lower end blanking port of the angle code guide groove (52).

4. The assembly corner brace apparatus of an aluminum profile frame production line according to claim 1, wherein: the two riveting units (4) and the two corner plugging units (5) are respectively arranged at two ends of the profile (3) on the profile placing position (2) so as to act on two ends of the profile (3) simultaneously.