CN215747657U - Full-automatic numerical control corner combining machine - Google Patents

Abstract

The utility model relates to a full-automatic numerical control corner combining machine, which comprises a rack, wherein a working table plate is arranged on the rack, an outer angle positioning mechanism, an inner angle positioning mechanism, a vertical pressing mechanism and a side positioning mechanism are arranged on the working table plate, and a two-stage corner combining structure is arranged on the rack; the grading corner combining structure comprises a horizontal adjusting mechanism, a pre-feeding guide rail is arranged on the horizontal adjusting mechanism, a pre-feeding sliding seat is arranged on the pre-feeding guide rail, the pre-feeding sliding seat is connected with a pre-feeding oil cylinder, a vertical adjusting guide rail is arranged on the pre-feeding sliding seat, two vertical adjusting sliding seats are arranged on the vertical adjusting guide rail, the vertical adjusting sliding seats are connected with a vertical adjusting mechanism, a corner combining tool apron is movably arranged on the vertical adjusting sliding seats, a corner combining tool is arranged at the front end of the corner combining tool apron, the rear end of the corner combining tool apron is connected with a corner combining oil cylinder, and the corner combining oil cylinder works in a full stroke manner; the control system is respectively connected with the outer angle positioning mechanism, the inner angle positioning mechanism and the grading corner combining structure. The angle assembling device has the advantages of reasonable structural design, high angle assembling adjusting efficiency, high angle assembling precision, high angle assembling efficiency and the like.

Description

Full-automatic numerical control corner combining machine

The technical field is as follows:

the utility model relates to the technical field of door and window processing equipment, in particular to a full-automatic numerical control corner combining machine.

Background art:

the corner combining machine is indispensable processing equipment in door and window processing, and is mainly used for splicing and processing two adjacent sectional materials. The existing window frames and door frames are mostly formed by splicing a plurality of section bars, for example, the existing window frames and door frames are mostly spliced in a quadrilateral way. When the corner is assembled, firstly, a corner connector is inserted into two adjacent sectional materials, then the two sectional materials are assembled, then the two assembled sectional materials are placed on a workbench of a corner assembling machine to be fixed, then the side faces of the two sectional materials are impacted by a hydraulic driving corner assembling cutter simultaneously, the side faces of the sectional materials are impacted into a corner connector groove, and the impact positions of the sectional materials are subjected to permanent cold deformation, so that the corner connector and the sectional materials are clamped together, and then the two adjacent sectional materials are spliced and fixed.

At present, the working principle of the angle assembling machine is relatively mature, the structure of the existing angle assembling machine product is also the same as or different from that of the existing angle assembling machine product, and the angle assembling machine mainly comprises a rack, an inner angle positioning mechanism, an outer angle positioning mechanism, a side positioning mechanism, an angle assembling cutter mechanism and a driving mechanism, wherein the inner angle positioning mechanism, the outer angle positioning mechanism, the side positioning mechanism and the angle assembling cutter mechanism are arranged on the rack, and the driving mechanism is used for driving the angle assembling cutter to feed. Although the existing corner combining machine can be used for processing the corner combining of door and window profiles, in the practical application process, some deep technical problems are still found to be urgently needed to be further researched and solved on the technical structure, and the following aspects are specifically shown: firstly, the height adjustment of the corner combining cutter is time-consuming and labor-consuming, the height of the corner combining cutter needs to be adjusted according to the design requirements of the sectional materials because the structural design of the sectional materials needing corner combining is different and the positions needing impact are different, the height adjustment of the existing corner combining cutter mainly depends on manual adjustment, the manual adjustment is time-consuming and labor-consuming, and the adjustment precision is difficult to guarantee; secondly, the existing angle knife assembly structure cannot meet the impact of a single knife or any point, the existing angle knife assembly structure is vertically aligned and arranged in a slide way, two angle knife assemblies are generally arranged in the slide way and work together, so that the impact and angle assembly of the single angle knife assembly cannot be realized, the existing angle knife assembly machine only customizes a cutter or detaches the angle knife assemblies to realize the angle assembly of the single knife assembly, the cost is increased and the processing time is prolonged undoubtedly, and along with the diversification of the structural design of the section bar and the design of the special-shaped angle code, the angle assembly requirement is increased; the feeding depth precision of the angle assembling knife of the existing angle assembling machine is low, the feeding driving of the existing angle assembling knife mainly adopts hydraulic driving (certainly, a driving mode adopting a servo motor and a lead screw is also adopted, but the lead screw is easy to wear and damage due to high impact strength, so that the maintenance cost is high, the mode is less used), a hydraulic cylinder directly drives a knife holder to perform feeding motion in actual work, the temperature of hydraulic oil rises after the hydraulic cylinder frequently works, the feeding precision of the hydraulic cylinder is reduced due to the influence of thermal expansion and cold contraction, and the angle assembling depths of different sectional materials are different (namely, the strokes of the hydraulic cylinder are adjusted according to the sectional material processing requirements), so that the angle assembling depth precision is finally reduced, and the angle assembling processing quality is directly influenced; fourthly, two inner angle positioning plates in the existing angle assembling machine are mainly adjusted or cannot be adjusted manually, and the inner angle positioning precision is low and the efficiency is low. Therefore, the structure of the existing angle assembling machine needs to be deeply and innovatively improved and designed, so that the angle assembling machine is faster and more convenient to adjust, high in angle assembling precision and high in angle assembling efficiency.

The above description is included in the technical recognition scope of the inventors, and does not necessarily constitute the prior art.

The utility model has the following contents:

the utility model aims to solve the problems in the prior art and provides a full-automatic numerical control corner combining machine which has the advantages of reasonable structural design, high corner combining adjustment efficiency, high corner combining precision, high corner combining efficiency and the like.

The utility model adopts the following technical scheme to realize the purpose:

full-automatic numerical control group angle machine includes:

the automatic angle-dividing machine comprises a machine frame, wherein a working table plate for placing sectional materials is arranged on the machine frame, an outer angle positioning mechanism and an inner angle positioning mechanism which are matched and positioned are arranged on the working table plate at intervals in the front-back direction, side positioning mechanisms are respectively arranged on two sides of the working table plate, and two grading angle-dividing structures for dividing angles of sectional materials are symmetrically arranged on the machine frame in the left-right direction;

a graded corner combining structure comprises a horizontal adjusting mechanism arranged on a rack, wherein a pre-feeding guide rail is arranged on the horizontal adjusting mechanism and is vertically arranged with the side surface of a sectional material, a pre-feeding sliding seat is arranged on the pre-feeding guide rail, a pre-feeding oil cylinder connected with a feeding sliding seat is arranged on the horizontal adjusting mechanism, a vertical adjusting guide rail is vertically arranged on the pre-feeding sliding seat, two vertical adjusting sliding seats are arranged on the vertical adjusting guide rail from top to bottom, each vertical adjusting sliding seat is independently adjusted and is connected with a vertical adjusting mechanism, a feeding sliding groove is arranged on the vertical adjusting sliding seat and is arranged vertical to the side surface of the sectional material, a corner combining tool apron is arranged in the feeding sliding groove, a corner combining tool is arranged at the front end of the corner combining tool apron, and the rear end of the corner combining tool apron is connected with a corner combining oil cylinder arranged on the vertical adjusting sliding seat, the group angle oil cylinder works in a full stroke;

and the control system is respectively connected with the outer angle positioning mechanism, the inner angle positioning mechanism and the grading corner combining structure.

The horizontal adjusting mechanism comprises a bottom plate, a horizontal adjusting guide rail is arranged on the bottom plate along the length direction of the sectional material, a horizontal adjusting sliding plate is arranged on the horizontal adjusting guide rail, a horizontal adjusting screw is arranged at the lower end of the horizontal adjusting sliding plate, a horizontal adjusting servo motor is arranged on the bottom plate, the horizontal adjusting servo motor is connected with a horizontal adjusting screw rod, the horizontal adjusting screw rod is connected with the horizontal adjusting screw, the horizontal adjusting sliding plate is provided with the pre-feeding guide rail, and the horizontal adjusting servo motor is connected with the control system.

The bottom plate is provided with a protective baffle along the length direction of the section bar, and the lower end of the horizontal adjusting sliding plate is provided with a limiting block which is matched with the protective baffle for protection.

The pre-feeding sliding seat is designed into an L-shaped structure.

Two vertical adjustment mechanism sets up on advancing for the slide along section bar length direction interval, vertical adjustment mechanism is including setting up the vertical regulation servo motor who advances for the slide upper end in advance, vertical regulation servo motor is connected with vertical regulation lead screw, vertical regulation lead screw is connected with the vertical regulation screw that sets up on vertical regulation slide, be equipped with the through-hole that supplies vertical regulation lead screw to pass on the vertical regulation slide, vertical regulation servo motor with control system connects.

The rack is provided with a plurality of supporting plates, and the working table plate is arranged on the supporting plates.

The outer angle positioning mechanism comprises an outer angle positioning guide rail longitudinally arranged on the working table plate, an outer angle positioning plate is arranged on the outer angle positioning guide rail, an outer angle positioning servo electric cylinder connected with the outer angle positioning plate is arranged on the working table plate, and the outer angle positioning servo electric cylinder is connected with the control system.

The side positioning mechanism comprises a rotating shaft arranged on the working table plate, a positioning disc is eccentrically arranged on the rotating shaft, and a locking handle for locking the positioning disc is arranged on the rotating shaft.

The vertical pressing mechanism is arranged on the working table plate and comprises a pressing support, a pressing cylinder is vertically arranged on the pressing support, a pressing block is arranged on the pressing cylinder, and the pressing cylinder is connected with the control system.

The interior angle positioning mechanism comprises an interior angle positioning guide rail longitudinally arranged on the frame, an interior angle positioning slide seat is arranged on the interior angle positioning guide rail, an interior angle positioning oil cylinder is arranged on the frame, the interior angle positioning oil cylinder is connected with the interior angle positioning slide seat, slide blocks are vertically arranged on the front side wall and the rear side wall of the interior angle positioning slide seat respectively, a slide plate is arranged on the slide block, an interior angle positioning plate is arranged at the upper end of the slide plate, the lower end of the slide plate is connected with an interior angle positioning adjusting servo electric cylinder arranged on the interior angle positioning slide seat, and the interior angle positioning oil cylinder and the interior angle positioning adjusting servo electric cylinder are respectively connected with a control system.

By adopting the structure, the utility model can bring the following beneficial effects:

(1) the feeding of the group angle is designed into two stages, namely, the feeding amount is adjusted by using a pre-feeding oil cylinder, and then the group angle is fed by using a group angle oil cylinder in a full stroke way, so that the design has the advantages that the group angle feeding variable is adjusted by using the pre-feeding oil cylinder, and the pre-feeding oil cylinder is not needed for adjustment when the same type of section bar is processed, so that the temperature rise of the hydraulic oil of the pre-feeding oil cylinder can not be generated, and the group angle feeding adjustment precision is ensured; although the frequent feeding action of the group angle oil cylinder is influenced by the oil temperature, the group angle feeding precision can be eliminated and cannot be influenced because the full-stroke operation is executed every time. (2) Based on the two-stage corner combining feed structural design, each corner combining cutter is separately controlled and adjusted by the servo motor and the lead screw, so that the quick and accurate adjustment of the corner combining cutters can be realized, and the corner combining cutters can be matched with the corner combining oil cylinder to feed the corner combining cutters to process corners, so that the corner combining machining of any corner combining position can be conveniently and quickly realized. (3) Realize servo motor and lead screw respectively through two interior angle locating plates and carry out altitude mixture control, make the interior angle location can carry out accurate regulation according to the section bar, the interior angle location is more accurate reliable, helps improving group's angle quality. (4) No matter be interior angle location, exterior angle location, vertical compress tightly, group angle action can all realize automated control in this application, is favorable to improving the operating efficiency and the precision of whole group angle machine.

Description of the drawings:

FIG. 1 is a schematic structural diagram of a fully automatic numerical control corner combining machine of the present invention;

FIG. 2 is a schematic diagram of a top view structure of the fully automatic numerical control corner combining machine of the present invention;

FIG. 3 is a schematic structural view of another view angle of the fully automatic numerical control corner combining machine of the present invention;

FIG. 4 is a schematic structural diagram of a hierarchical corner grouping structure according to the present invention;

FIG. 5 is a schematic diagram of another view of the hierarchical group corner structure of the present invention;

FIG. 6 is a schematic view of a structure of a part of the corner combining machine of the present invention;

FIG. 7 is a schematic view of the inner corner positioning mechanism of the present invention;

FIG. 8 is a schematic view of the internal structure of the internal corner positioning mechanism of the present invention;

FIG. 9 is a schematic view of the vertical hold-down mechanism of the present invention;

in the figure, 1, a machine frame, 2, a workbench plate, 3, an outer angle positioning mechanism, 301, an outer angle positioning guide rail, 302, an outer angle positioning plate, 303, an outer angle positioning servo electric cylinder, 4, an inner angle positioning mechanism, 401, an inner angle positioning guide rail, 402, an inner angle positioning slide seat, 403, an inner angle positioning oil cylinder, 404, a slide block, 405, a slide plate, 406, an inner angle positioning plate, 407, an inner angle servo electric cylinder, 5, a side positioning mechanism, 501, a rotating shaft, 502, a positioning disc, 503, a locking handle, 6, a vertical pressing mechanism, 601, a pressing bracket, 602, a pressing air cylinder, 603, a pressing block, 7, a grading angle-assembling structure, 701, a horizontal adjusting mechanism, 7011, a bottom plate, 7012, a horizontal adjusting guide rail, 7013, a horizontal adjusting slide plate, 7014, a horizontal adjusting screw nut, 7015, a horizontal adjusting slide seat, 7016, a horizontal adjusting screw rod, 702, a pre-feeding guide rail, 703, 704, a pre-feeding guide rail, a pre-feeding device, a device, the device comprises a pre-feeding oil cylinder, 705, a vertical adjusting guide rail, 706, a vertical adjusting sliding seat, 707, a vertical adjusting mechanism, 7071, a vertical adjusting servo motor, 7072, a vertical adjusting screw rod, 7073, a vertical adjusting nut, 7074, a through hole, 708, a feeding chute, 709, a corner combining tool apron, 710, a corner combining tool, 711, a corner combining oil cylinder, 8, a protective baffle, 9, a limiting block, 10 and a supporting plate.

The specific implementation mode is as follows:

in order to more clearly explain the overall concept of the utility model, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

Furthermore, the terms "lateral," "longitudinal," "front-back," "upper end," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the location of the technical feature indicated.

In the present invention, unless otherwise expressly stated or limited, the terms "provided", "disposed", "connected", and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1-9, the fully automatic numerical control corner combining machine comprises:

the device comprises a rack 1, wherein a working table plate 2 for placing sectional materials is arranged on the rack 1, an outer angle positioning mechanism 3 and an inner angle positioning mechanism 4 which are matched and positioned with each other are arranged on the working table plate 2 at intervals in the front-back direction, side positioning mechanisms 5 are respectively arranged on two sides of the working table plate 2, and two grading corner grouping structures 7 for grouping corners of sectional materials are symmetrically arranged on the rack 1 in the left-right direction;

the hierarchical corner combining structure 7 comprises a horizontal adjusting mechanism 701 arranged on a rack 1, wherein a pre-feeding guide rail 702 is arranged on the horizontal adjusting mechanism 701, the pre-feeding guide rail 702 is arranged perpendicular to the side surface of a section bar, a pre-feeding slide carriage 703 is arranged on the pre-feeding guide rail 702, a pre-feeding oil cylinder 704 connected with the feeding slide carriage 703 is arranged on the horizontal adjusting mechanism 701, a vertical adjusting guide rail 705 is vertically arranged on the pre-feeding slide carriage 703, two vertical adjusting slide carriages 706 are arranged on the vertical adjusting guide rail 705 from top to bottom, each vertical adjusting slide carriage 706 is independently adjusted, each vertical adjusting slide carriage 706 is connected with a vertical adjusting mechanism 707, a feeding chute 708 is arranged on each vertical adjusting slide carriage 706, the feeding chute 708 is arranged perpendicular to the side surface of the section bar, a corner combining cutter seat 709 is arranged in the feeding chute 708, and a corner combining cutter 710 is arranged at the front end of the corner combining cutter seat 709, the rear end of the angle tool apron 709 is connected with an angle assembling oil cylinder 711 arranged on the vertical adjusting sliding seat 706, and the angle assembling oil cylinder 711 works in a full stroke;

and the control system is respectively connected with the outer angle positioning mechanism 3, the inner angle positioning mechanism 4 and the grading angle combining structure 7. The control system can be directly purchased or customized, each structural design and drive in the application support electrical control, the control system can be directly accessed in actual use, and the control system can be realized by simply modifying a program according to the actual feeding amount or the adjustment amount. The group angle feeding is realized by designing the group angle feeding into two stages, namely, the group angle feeding amount is adjusted by the pre-feeding oil cylinder 704 (the group angle feeding amount of different sectional materials is different), and then the group angle feeding is performed by the group angle oil cylinder 711, the design has the advantages that the group angle feeding variable is adjusted by the pre-feeding oil cylinder 704, and the pre-feeding oil cylinder 704 is not needed to adjust when the same sectional material is processed, so that the temperature rise of the hydraulic oil of the pre-feeding oil cylinder 704 cannot be generated, and the group angle feeding adjustment precision is ensured; although the frequent feeding action of the group angle oil cylinder 711 is influenced by the oil temperature, the feeding precision is not influenced by the temperature rise of the hydraulic oil due to the fact that the full-stroke operation is executed every time, and the two-stage feeding scheme not only well solves the problem of adjustment of group angle feeding amount of different sectional materials, but also effectively eliminates the problem of group angle precision reduction caused by the temperature rise of the hydraulic oil, and obviously improves the group angle precision. Based on the design of the two-stage corner combining feeding structure, each corner combining cutter 710 is independently controlled and adjusted by the servo motor and the lead screw, so that the quick and accurate adjustment of the corner combining cutters 710 can be realized, and the corner combining cutters 710 can feed corner combining machining by being matched with the corner combining oil cylinder 711, so that the corner combining machining at any corner combining position can be conveniently and quickly realized.

The horizontal adjustment mechanism 701 includes the bottom plate 7011, be equipped with horizontal adjustment guide rail 7012 along section bar length direction on the bottom plate 7011, be equipped with horizontal adjustment slide 7013 on the horizontal adjustment guide rail 7012, horizontal adjustment slide 7013 lower extreme is equipped with horizontal adjustment screw 7014, be equipped with horizontal adjustment servo motor 7015 on the bottom plate 7011, horizontal adjustment servo motor 7015 is connected with horizontal adjustment lead screw 7016, horizontal adjustment lead screw 7016 is connected with horizontal adjustment screw 7014, be equipped with on the horizontal adjustment slide 7013 the guide rail 702 is fed in advance, horizontal adjustment servo motor 7015 with control system connects. For effecting adjustment along the length of the profile.

The bottom plate 7011 is provided with a protective baffle 8 along the length direction of the section bar, and the lower end of the horizontal adjusting sliding plate 7013 is provided with a limiting block 9 which is matched with the protective baffle 8 for protection. The horizontal adjustment guide rail 7012 is prevented from being damaged by impact generated in the corner assembling process, and the horizontal adjustment guide rail 7012 is effectively protected.

The pre-feed carriage 703 is designed in an L-shaped configuration. Vertical mounting of vertical adjustment slide 706 and vertical adjustment mechanism 707 is facilitated.

The two vertical adjusting mechanisms 707 are arranged on the pre-feeding sliding base 703 at intervals along the length direction of the profile, each vertical adjusting mechanism 707 comprises a vertical adjusting servo motor 7071 arranged at the upper end of the pre-feeding sliding base 703, each vertical adjusting servo motor 7071 is connected with a vertical adjusting lead screw 7072, each vertical adjusting lead screw 7072 is connected with a vertical adjusting screw 7073 arranged on the corresponding vertical adjusting sliding base 706, a through hole 7074 for the vertical adjusting lead screw 7072 to pass through is formed in the corresponding vertical adjusting sliding base 706, and each vertical adjusting servo motor 7071 is connected with the corresponding control system. Realize the vertical accurate regulation to group angle sword.

The frame 1 is provided with a plurality of supporting plates 10, and the working table plate 2 is arranged on the supporting plates 10. So that a mounting space is left between the working table plate and the frame, and the inner angle positioning mechanism 4 is convenient to mount.

The outer angle positioning mechanism 3 comprises an outer angle positioning guide rail 301 longitudinally arranged on the working table plate 2, an outer angle positioning plate 302 is arranged on the outer angle positioning guide rail 301, an outer angle positioning servo electric cylinder 303 connected with the outer angle positioning plate 302 is arranged on the working table plate 2, and the outer angle positioning servo electric cylinder 303 is connected with the control system. And realizing accurate positioning of the external angle.

The side positioning mechanism 5 comprises a rotating shaft 501 arranged on the workbench plate 2, a positioning disc 502 is eccentrically arranged on the rotating shaft 501, and a locking handle 503 for locking the positioning disc 502 is arranged on the rotating shaft 501. The accurate positioning of the side face of the profile is realized.

The vertical pressing mechanism 6 is arranged on the workbench plate 2, the vertical pressing mechanism 6 comprises a pressing support 601, a pressing cylinder 602 is vertically arranged on the pressing support 601, a pressing block 603 is arranged on the pressing cylinder 602, and the pressing cylinder 602 is connected with the control system. The vertical direction of the section bar is compressed.

Interior angle positioning mechanism 4 is including vertically setting up interior angle location guide rail 401 in frame 1, be equipped with interior angle location slide 402 on the interior angle location guide rail 401, be equipped with interior angle location hydro-cylinder 403 in the frame 1, interior angle location hydro-cylinder 403 with interior angle location slide 402 is connected, vertically be equipped with slider 404 respectively on the lateral wall around the interior angle location slide 402, be equipped with slide 405 on the slider 404, slide 405 upper end is equipped with interior angle location board 406, slide 405 lower extreme is connected with interior angle location regulation servo electric cylinder 407 that sets up on interior angle location slide 402, interior angle location hydro-cylinder 403 and interior angle location regulation servo electric cylinder 407 are connected with control system respectively. The height adjustment of two interior angle location boards 406 can be realized, and then can require accurate position of adjusting interior angle location board 406 according to section bar group angle, make it better with the cooperation of group angle sword 710, show improvement group angle processingquality.

The full-automatic numerical control corner assembling machine corner assembling method comprises the following steps:

(1) positioning and clamping the sectional materials, mounting an angle code at the splicing position of the two sectional materials, then placing the sectional materials on a working table plate 2, and positioning and clamping the sectional materials through an outer angle positioning mechanism 3, an inner angle positioning mechanism 4, a side positioning mechanism 5 and a vertical pressing mechanism 6;

(2) the tool setting is accurate and efficient, the position of the corner tool 710 is adjusted through the horizontal adjusting mechanism 701 and the vertical adjusting mechanism 707 to carry out tool setting according to the requirement of the corner of the section bar, the corner tool position is ensured to be accurate, the position data of the corner tool corresponding to the corner tool of the section bar in the corner processing is recorded through the control system, and the tool setting is not needed when the same section bar is processed next time;

(3) in the corner combining processing, firstly, the pre-feeding oil cylinder 704 acts to drive the pre-feeding sliding base 703 to feed, the pre-feeding sliding base 703 drives the corner combining knife 710 thereon to feed, and then the corner combining oil cylinder 711 acts in a full stroke to drive the corner combining knife 710 to perform corner combining processing on the section; when the same section bar is processed, the pre-feeding oil cylinder 704 is kept still after being fed in place; when different sectional materials are processed, the feeding stroke of the pre-feeding oil cylinder 704 is adjusted to meet the group angle feeding requirement of the different sectional materials, and the group angle oil cylinder 711 always performs full stroke group angle feeding;

(4) processing a single-blade corner combining tool, namely enabling the corner combining tool 710 positioned above to be positioned at the top through a vertical adjusting mechanism 707; when the tool is set, only the angle setting tool 710 positioned below is subjected to tool setting; during angle assembling processing, the angle assembling oil cylinder 711 corresponding to the upper angle assembling knife 710 does not operate, and the angle assembling oil cylinder 711 corresponding to the lower angle assembling knife 710 operates in a full stroke manner to perform single-knife angle assembling processing.

The above-described embodiments should not be construed as limiting the scope of the utility model, and any alternative modifications or alterations to the embodiments of the present invention will be apparent to those skilled in the art.

The present invention is not described in detail, but is known to those skilled in the art.

Claims (9)

1. Full-automatic numerical control group angle machine, its characterized in that includes:

the automatic angle-dividing machine comprises a machine frame, wherein a working table plate for placing sectional materials is arranged on the machine frame, an outer angle positioning mechanism and an inner angle positioning mechanism which are matched and positioned are arranged on the working table plate at intervals in the front-back direction, side positioning mechanisms are respectively arranged on two sides of the working table plate, and two grading angle-dividing structures for dividing angles of sectional materials are symmetrically arranged on the machine frame in the left-right direction;

a graded corner combining structure comprises a horizontal adjusting mechanism arranged on a rack, wherein a pre-feeding guide rail is arranged on the horizontal adjusting mechanism and is vertically arranged with the side surface of a sectional material, a pre-feeding sliding seat is arranged on the pre-feeding guide rail, a pre-feeding oil cylinder connected with a feeding sliding seat is arranged on the horizontal adjusting mechanism, a vertical adjusting guide rail is vertically arranged on the pre-feeding sliding seat, two vertical adjusting sliding seats are arranged on the vertical adjusting guide rail from top to bottom, each vertical adjusting sliding seat is independently adjusted and is connected with a vertical adjusting mechanism, a feeding sliding groove is arranged on the vertical adjusting sliding seat and is arranged vertical to the side surface of the sectional material, a corner combining tool apron is arranged in the feeding sliding groove, a corner combining tool is arranged at the front end of the corner combining tool apron, and the rear end of the corner combining tool apron is connected with a corner combining oil cylinder arranged on the vertical adjusting sliding seat, the group angle oil cylinder works in a full stroke;

and the control system is respectively connected with the outer angle positioning mechanism, the inner angle positioning mechanism and the grading corner combining structure.

2. The full-automatic numerical control corner combining machine according to claim 1, wherein the horizontal adjusting mechanism comprises a bottom plate, a horizontal adjusting guide rail is arranged on the bottom plate along the length direction of the profile, a horizontal adjusting sliding plate is arranged on the horizontal adjusting guide rail, a horizontal adjusting screw nut is arranged at the lower end of the horizontal adjusting sliding plate, a horizontal adjusting servo motor is arranged on the bottom plate, the horizontal adjusting servo motor is connected with a horizontal adjusting screw rod, the horizontal adjusting screw rod is connected with the horizontal adjusting screw nut, the horizontal adjusting sliding plate is provided with the pre-feeding guide rail, and the horizontal adjusting servo motor is connected with the control system.

3. The full-automatic numerical control corner combining machine according to claim 2, wherein a protective baffle is arranged on the bottom plate along the length direction of the profile, and a limiting block matched with the protective baffle for protection is arranged at the lower end of the horizontal adjusting sliding plate.

4. The fully automatic numerically controlled corner crimping machine according to claim 3, characterized in that the pre-feeding slide is designed in an L-shaped configuration.

5. The full-automatic numerical control corner combining machine according to claim 1 or 4, wherein two vertical adjusting mechanisms are arranged on the pre-feeding sliding seat at intervals along the length direction of the sectional material, each vertical adjusting mechanism comprises a vertical adjusting servo motor arranged at the upper end of the pre-feeding sliding seat, each vertical adjusting servo motor is connected with a vertical adjusting lead screw, each vertical adjusting lead screw is connected with a vertical adjusting screw nut arranged on the corresponding vertical adjusting sliding seat, each vertical adjusting sliding seat is provided with a through hole for the vertical adjusting lead screw to pass through, and each vertical adjusting servo motor is connected with the control system.

6. The full-automatic numerical control corner combining machine according to claim 5, wherein a plurality of supporting plates are arranged on the machine frame, the working table plate is arranged on the supporting plates, the outer corner positioning mechanism comprises an outer corner positioning guide rail longitudinally arranged on the working table plate, an outer corner positioning plate is arranged on the outer corner positioning guide rail, an outer corner positioning servo electric cylinder connected with the outer corner positioning plate is arranged on the working table plate, and the outer corner positioning servo electric cylinder is connected with the control system.

7. The full-automatic numerical control corner combining machine according to claim 6, wherein the side positioning mechanism comprises a rotating shaft arranged on the working table plate, a positioning disc is eccentrically arranged on the rotating shaft, and a locking handle for locking the positioning disc is arranged on the rotating shaft.

8. The full-automatic numerical control corner combining machine according to claim 7, wherein a vertical pressing mechanism is arranged on the working table plate, the vertical pressing mechanism comprises a pressing support, a pressing cylinder is vertically arranged on the pressing support, a pressing block is arranged on the pressing cylinder, and the pressing cylinder is connected with the control system.

9. The full-automatic numerical control corner combining machine according to claim 8, wherein the inner angle positioning mechanism comprises an inner angle positioning guide rail longitudinally arranged on the frame, an inner angle positioning slide is arranged on the inner angle positioning guide rail, an inner angle positioning oil cylinder is arranged on the frame, the inner angle positioning oil cylinder is connected with the inner angle positioning slide, sliding blocks are vertically arranged on the front side wall and the rear side wall of the inner angle positioning slide respectively, a sliding plate is arranged on each sliding block, an inner angle positioning plate is arranged at the upper end of each sliding plate, the lower end of each sliding plate is connected with an inner angle positioning adjusting servo electric cylinder arranged on the inner angle positioning slide, and the inner angle positioning oil cylinder and the inner angle positioning adjusting servo electric cylinder are respectively connected with the control system.

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