CN218657745U - Bridge cut-off aluminium door and window frame material processing lines - Google Patents

Abstract

The utility model relates to the technical field of door and window frame material processing equipment, in particular to a bridge cut-off aluminum door and window frame material processing production line, which is characterized by comprising a conveying line, wherein a feeding section, a cutting section, a drilling section, a first discharging section, a drilling and milling section and a second discharging section are sequentially arranged on the conveying line; the conveying line comprises a conveying platform, a horizontal roller conveying line and a vertical roller conveying line which are arranged on the conveying platform in a matched mode; a plurality of traction manipulators corresponding to all sections are arranged above the conveying line in a matched manner; the cutting section comprises a cutting device; the drilling section Bao Kuozhu rubber hole and angle code screw pin hole machining unit, the mullion angle code positioning hole machining unit and the mounting hole machining unit; the drilling and milling section comprises a drilling and milling device; the cutting device, the drilling and milling device and each processing unit are provided with corresponding positioning devices, and each processing unit further comprises a drilling device matched with the positioning devices. The utility model discloses can high-efficient, the high quality processing of accomplishing bridge cut-off aluminium door and window frame material.

Description

Bridge cut-off aluminium door and window frame material processing lines

Technical Field

The utility model relates to a door and window frame material processing equipment spare technical field, concretely relates to bridge cut-off aluminium door and window frame material processing lines.

Background

The information disclosed in the background of the invention is only for the purpose of increasing an understanding of the general background of the invention and is not necessarily to be construed as an admission or any form of suggestion that this information forms the prior art that is already known to a person of ordinary skill in the art.

The door and window frame material is provided with a plurality of holes, such as glue injection holes, angle code pin holes, drain holes and mullion connecting holes (or mullion angle code positioning holes); a cutting procedure is required before drilling, and drilling and milling are required after drilling of part of the door and window frame materials; because the automation degree of the existing door and window equipment is not high, the processing of the window frame component can be completed only by the cooperation of a plurality of pieces of equipment and a plurality of personnel; the processing defective products and the labor efficiency of the components are low easily caused in the processing process. The problem of wasting raw materials and labor is how to efficiently finish the processing of the window frame member with high quality.

In the prior art, for example, a patent document 202110249931.5 discloses a mullion drilling and punching production line, which can complete continuous machining of a mullion pin hole, a screw connecting hole and a water tank hole. A mullion drilling and punching production line comprises a rack, a traction mechanical arm, a mullion positioning hole drilling mechanism, a mullion connecting hole drilling mechanism, a water trough hole punching mechanism, a labeling mechanism and a discharging mechanism, wherein the traction mechanical arm, the mullion positioning hole drilling mechanism, the mullion connecting hole drilling mechanism, the water trough hole punching mechanism and the labeling mechanism are arranged on the rack.

Although the processing of the pin hole, the screw connecting hole and the water tank hole of the mullion is completed in the mullion drilling and punching production line, before the mullion drilling and punching production line, the production line needs to cut on another cutting line, and after the drilling is completed, the drilling and milling processing is carried out on another drilling and milling line device; due to the lack of a proper production line conveying device and a proper positioning tool, all the procedures are difficult to unify on the same production line, the window frame material is frequently processed and transported, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide a bridge cut-off aluminium door and window frame material processing lines.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the processing production line for the broken bridge aluminum door and window frame materials is characterized by comprising a conveying line, wherein a feeding section, a cutting section, a drilling section, a first discharging section, a drilling and milling section and a second discharging section are sequentially arranged on the conveying line;

the conveying line comprises a conveying platform, a horizontal roller conveying line and a vertical roller conveying line which are arranged on the conveying platform in a matched mode; the horizontal roller conveying line is used for supporting a workpiece, and the vertical roller conveying line is used for limiting the workpiece;

a plurality of traction manipulators corresponding to all sections are arranged above the conveying line in a matched mode and used for driving the workpieces to move along the conveying line;

wherein the cutting section comprises a cutting device;

the drilling section Bao Kuozhu rubber hole and angle code screw pin hole machining unit, the mullion angle code positioning hole machining unit and the mounting hole machining unit;

the drilling and milling section comprises a drilling and milling device;

the cutting device, the drilling and milling device and each processing unit are provided with corresponding positioning devices, and each processing unit further comprises a drilling device matched with the positioning devices.

Preferably, the feeding section is provided with a feeding conveyer belt, and the first discharging section and the second discharging section are both provided with a discharging conveyer belt.

Preferably, the mullion corner brace positioning hole processing unit further comprises a laser scribing device used for processing the mullion installation mark line.

Preferably, the drilling device comprises a mounting slide fitted on the X-axis guide rail; a Y-axis guide rail is arranged on the mounting slide seat, and a feeding slide seat is matched on the Y-axis guide rail; a Z-axis guide rail is arranged on the feeding sliding seat, and a working sliding seat is matched on the Z-axis guide rail; a drilling machine head and a drilling motor for driving the drilling machine head are arranged on the working sliding seat; the laser scribing device comprises a laser scribing head and a laser generator, wherein the laser scribing head is installed on a working sliding seat.

Preferably, the working sliding seat is provided with a balance cylinder; the work slide is connected with the flexible end of balance cylinder, balance cylinder installs on feeding the slide.

Preferably, the mounting slide is driven by an X-axis motor; the feeding sliding seat is driven by a Y-axis motor fixed on the mounting sliding seat; the working sliding seat is driven by a Z-axis motor arranged at the end part of the Z-axis guide rail fixing frame.

Preferably, the positioning device comprises a horizontal workbench and a vertical workbench; the horizontal workbench is used for placing a workpiece and is correspondingly matched with the horizontal roller conveying line; a horizontal clamping plate is arranged on the horizontal workbench; the vertical working table is arranged on one side of the horizontal working table, is arranged opposite to the drilling device and is correspondingly matched with the vertical roller conveying line; the transverse sliding seat is arranged on the vertical mounting seat in a linear sliding manner along the vertical direction behind the vertical workbench; a vertical clamping plate is arranged on the transverse sliding seat in a transverse sliding manner; the vertical clamping plate is matched with the horizontal workbench to clamp the workpiece in the vertical direction; the horizontal clamping plate and the vertical workbench are matched to clamp the workpiece in the horizontal direction.

Preferably, the horizontal clamping plate is driven by a horizontal clamping telescopic device, the horizontal clamping telescopic device is horizontally arranged on the horizontal workbench, and the telescopic end of the horizontal clamping telescopic device is connected with the horizontal clamping plate; the vertical clamping plate is driven by the vertical clamping telescopic device, the vertical clamping telescopic device is installed on the vertical installation seat or on the side face of the horizontal workbench, the telescopic end of the vertical clamping telescopic device is connected with the transverse sliding seat, and the vertical clamping plate is driven by driving the transverse sliding seat.

Preferably, the transverse sliding seat is provided with a transverse guide rail and a transverse telescopic device, and the vertical clamping plate is driven by the transverse telescopic device to move along the transverse guide rail; the vertical type mounting seat is provided with a vertical guide rail, and the transverse sliding seat is driven by the vertical clamping telescopic device to move along the vertical guide rail.

Preferably, the transverse sliding seat is connected with the vertical clamping plate through a connecting plate, and a transverse sliding block matched with the transverse guide rail is arranged on the connecting plate; the horizontal sliding seat is provided with a vertical sliding block matched with the vertical guide rail.

Has the beneficial effects that: the utility model integrates the feeding, cutting, glue injection hole and angle code screw pin hole processing, mullion angle code positioning hole processing, mounting hole processing, drilling and milling processing and blanking on a production line; the processed sections can exist on each station without mutual interference, so that the transfer is avoided, and the production efficiency of processing the broken bridge aluminum door and window frame material is effectively improved;

when the mullion corner brace positioning hole is machined, the laser scribing device is used for scribing the installation mark line, so that the efficient assembly and installation of the bridge-cut-off aluminum door and window frame component are facilitated, and the production efficiency is further improved;

the automation is high, the influence caused by personnel operation is reduced, and the production quality of the bridge-cut-off aluminum door and window frame material processing is higher.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of the positioning device;

FIG. 3 is a schematic structural view of a drilling apparatus;

in the figure, a conveying line 1, a horizontal roller 11, a vertical roller 12, a feeding section 2, a feeding conveyer belt 21, a cutting section 3, a drilling section 4, an installation slide carriage 401, a Y-axis motor 402, an X-axis motor 403, an X-axis guide rail 404, a Y-axis guide rail 405, a feeding slide carriage 406, a laser scribing head 407, a drilling head 408, a drilling motor 409, a Z-axis guide rail 410, a Z-axis motor 411, a laser generator 412, a first discharging section 5, a second discharging section 6, a drilling and milling section 61, a traction manipulator 7, a positioning device 8, a horizontal clamping plate 801, a horizontal workbench 802, a vertical clamping plate 803, a vertical workbench 804, a vertical installation seat 805, a connecting plate 806, a horizontal slide carriage 807, a horizontal telescopic device 808, a vertical clamping telescopic device 809 and a horizontal clamping telescopic device 810 are arranged on the conveying line.

Detailed Description

The invention will be further described with reference to the following specific embodiments and the accompanying drawings.

Fig. 1 to 2 show a processing production line for a broken bridge aluminum door and window frame material, which is characterized by comprising a conveying line 1, wherein a feeding section 2, a cutting section 3, a drilling section 4, a first discharging section 5, a drilling and milling section 61 and a second discharging section 6 are sequentially arranged on the conveying line 1;

the conveying line 1 comprises a conveying platform, wherein a horizontal roller 11 material conveying line and a vertical roller 12 material conveying line are installed on the conveying platform in a matched mode; the horizontal roller 11 conveying line is used for supporting a workpiece, and the vertical roller 12 conveying line is used for limiting the workpiece; a plurality of traction manipulators 7 corresponding to all sections are arranged above the conveying line 1 in a matched mode and used for driving the workpieces to move along the conveying line 1;

wherein the cutting section 3 comprises cutting means; the specific structure of the cutting device can be as in patent application No. 202210057630.7, and is easy to implement on the basis, and the detailed description is not repeated herein.

The drilling section 4 comprises a glue injection hole and angle code screw pin hole processing unit, a mullion angle code positioning hole processing unit and a mounting hole processing unit; the drilling and milling section 61 comprises drilling and milling means; the cutting device, the drilling and milling device and each processing unit are provided with corresponding positioning devices 8, and each processing unit further comprises a drilling device matched with the positioning devices 8.

Wherein, the drilling and milling device is a three-axis vertical mill and is mainly used for finishing the processing of the drain hole of the molding material; x, Y, Z three servo motors act to drive racks or lead screws to be positioned at corresponding positions for hole site processing, and after the processing is finished, all shafts return to preparation positions; the method can be easily implemented on the basis of the patent with the application number of 202122004979.8, and the details are not repeated herein.

The utility model integrates the feeding, cutting, glue injection hole and angle code screw pin hole processing, mullion angle code positioning hole processing, mounting hole processing, drilling and milling processing and blanking on a production line; the processed sections can exist on each station at the same time without mutual interference, thereby avoiding the transfer and effectively improving the production efficiency of processing the broken bridge aluminum door and window frame material;

the automation is high, and the influence caused by personnel operation is reduced, so that the production quality of the bridge-cut-off aluminum door and window frame material processing is higher.

In another preferred embodiment, the feeding section 2 is provided with a feeding conveyer belt 21, and the first discharging section 5 and the second discharging section 6 are both provided with a discharging conveyer belt, and can adopt manual feeding and discharging or adopt a manipulator feeding and discharging; if the drilling and milling processing is not needed, discharging from the first discharging section 5; if the drilling and milling processing is needed, the material is discharged from the second discharging section 6.

In another preferred embodiment, as shown in fig. 3, the mullion corner code positioning hole processing unit further comprises a laser scribing device for processing the mullion installation mark line. When the mullion corner brace positioning hole is machined, the laser scribing device is used for scribing the installation mark line, so that efficient assembly and installation of the bridge-cut-off aluminum door and window frame component are facilitated, and the production efficiency is further improved.

In a preferred further embodiment, as shown in fig. 3, the drilling device comprises a mounting slide 401 fitted on an X-axis rail 404; a Y-axis guide rail 405 is arranged on the mounting slide carriage 401, and a feeding slide carriage 406 is matched on the Y-axis guide rail 405; a Z-axis guide rail 410 is arranged on the feeding slide carriage 406, and a working slide carriage is matched on the Z-axis guide rail 410; the working slide seat is provided with a drilling machine head 408 and a drilling motor 409 for driving the drilling machine head 408; the laser scribing apparatus includes a laser scribing head 407 and a laser generator 412, the laser scribing head 407 being mounted on a work slide.

In another preferred embodiment, as shown in fig. 3, the working slide is provided with a balancing cylinder; the working slide is connected to the telescopic end of a balancing cylinder which is mounted on the feed slide 406. The work slide and the weight of equipping on it make Z axle servo motor atress unbalanced when vertical motion, and influence drive mechanism's life, set up balanced cylinder for offset or some offset Z axle drive part gravity, make the ascending atress of vertical direction relatively even when its transmission system moves, improve transmission system life.

In another preferred embodiment, as shown in fig. 3, the mounting carriage 401 is driven by an X-axis motor 403; the feeding slide carriage 406 is driven by a Y-axis motor 402 fixed on the mounting slide carriage 401 in cooperation with a lead screw; the working slide seat is driven by matching a lead screw through a Z-axis motor 411 arranged at the end part of the Z-axis guide rail fixing frame.

In another preferred embodiment, as shown in fig. 2, the positioning device 8 comprises a horizontal workbench 802 and a vertical workbench 804; the horizontal workbench 802 is used for placing workpieces and is correspondingly matched with the horizontal roller 11 conveying line; a horizontal clamping plate 801 is arranged on the horizontal workbench 802; the vertical workbench 804 is arranged on one side of the horizontal workbench 802, is opposite to the drilling device and is correspondingly matched with the vertical roller 12 conveying line, and the vertical workbench 804 is matched with the drilling device to perform drilling processing, so that the interference on the traction manipulator 7 is avoided; behind the vertical work table 804, a lateral slide 807 is mounted on the vertical mount 805 so as to be linearly slidable in the vertical direction; a vertical clamping plate 803 is transversely slidably mounted on the transverse sliding seat 807, and the transverse sliding is used for retracting the vertical clamping plate 803 so as to avoid interference with the traction manipulator 7; the vertical clamping plate 803 is matched with the horizontal workbench 802 to clamp a workpiece in the vertical direction; the horizontal clamping plate 801 and the vertical workbench 804 cooperate to clamp the workpiece in the horizontal direction. The drilling equipment can drill the workpiece in multiple directions above the horizontal workbench 802 and at one side opposite to the vertical workbench 804, so that the utility model is suitable for drilling complicated and various section workpieces; the clamping action is simple, the control is simple and convenient, and the clamping is automatic; the interference to the traction manipulator 7 on the production line can be avoided, so that the production line with multiple punching stations can be equipped with the traction manipulator.

In another preferred embodiment, as shown in fig. 2, the horizontal clamping plate 801 is driven by a horizontal clamping telescopic device 810, the horizontal clamping telescopic device 810 is horizontally mounted on the horizontal workbench 802, and the telescopic end of the horizontal clamping telescopic device is connected with the horizontal clamping plate 801; the vertical clamping plate 803 is driven by a vertical clamping telescopic device 809, the vertical clamping telescopic device 809 is installed on the vertical installation seat 805 or the side surface of the horizontal workbench 802, the telescopic end of the vertical clamping telescopic device 809 is connected with the transverse sliding seat 807, and the vertical clamping plate 803 is driven by driving the transverse sliding seat 807.

Specifically, a transverse guide rail and a transverse telescopic device 808 are arranged on the transverse sliding seat 807, and the vertical clamping plate 803 is driven by the transverse telescopic device 808 so as to be capable of moving along the transverse guide rail; the vertical mounting seat 805 is provided with a vertical guide rail, and the horizontal sliding seat 807 is driven by a vertical clamping telescopic device 809 so as to enable the horizontal sliding seat to move along the vertical guide rail. The horizontal clamping telescopic device 810, the vertical clamping telescopic device 809 and the transverse telescopic device 808 can be cylinders.

In a preferred further embodiment, as shown in fig. 2, the lateral sliding base 807 is connected to the vertical clamping plate 803 by a connecting plate 806, and the connecting plate 806 is Z-shaped and includes two right-angled corners, so as to better match the lateral sliding base 807 and the vertical workbench 804; the connecting plate 806 is provided with a transverse sliding block matched with the transverse guide rail; the transverse slide 807 is provided with vertical slides cooperating with vertical rails.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The processing production line for the broken bridge aluminum door and window frame materials is characterized by comprising a conveying line, wherein a feeding section, a cutting section, a drilling section, a first discharging section, a drilling and milling section and a second discharging section are sequentially arranged on the conveying line;

the conveying line comprises a conveying platform, a horizontal roller conveying line and a vertical roller conveying line which are arranged on the conveying platform in a matched mode; the horizontal roller conveying line is used for supporting a workpiece, and the vertical roller conveying line is used for limiting the workpiece;

a plurality of traction manipulators corresponding to all sections are arranged above the conveying line in a matched mode and used for driving the workpieces to move along the conveying line;

wherein the cutting section comprises a cutting device;

the drilling section Bao Kuozhu rubber hole and angle code screw pin hole machining unit, the mullion angle code positioning hole machining unit and the mounting hole machining unit;

the drilling and milling section comprises a drilling and milling device;

the cutting device, the drilling and milling device and each processing unit are provided with corresponding positioning devices, and each processing unit further comprises a drilling device matched with the positioning devices.

2. The bridge-cut-off aluminum door and window frame material processing production line of claim 1, wherein the feeding section is provided with a feeding conveyer belt, and the first discharging section and the second discharging section are both provided with a discharging conveyer belt.

3. The bridge-cut aluminum door and window frame material processing production line of claim 1, wherein the mullion corner brace positioning hole processing unit further comprises a laser scribing device for processing a mullion installation marking line.

4. The bridge-cut aluminum door and window frame material processing production line of claim 3, wherein the drilling device comprises a mounting slide seat matched on an X-axis guide rail; a Y-axis guide rail is arranged on the mounting slide seat, and a feeding slide seat is matched on the Y-axis guide rail; a Z-axis guide rail is arranged on the feeding sliding seat, and a working sliding seat is matched on the Z-axis guide rail; the working slide seat is provided with a drilling machine head and a drilling motor for driving the drilling machine head;

the laser scribing device comprises a laser scribing head and a laser generator, wherein the laser scribing head is installed on a working sliding seat.

5. The bridge-cut aluminum door and window frame material processing production line of claim 4, wherein the working slide is provided with a balance cylinder; the work slide is connected with balance cylinder's flexible end, balance cylinder installs on feeding the slide.

6. The bridge-cut aluminum door and window frame material processing production line of claim 4, wherein the mounting slide is driven by an X-axis motor; the feeding sliding seat is driven by a Y-axis motor fixed on the mounting sliding seat; the working sliding seat is driven by a Z-axis motor arranged at the end part of the Z-axis guide rail fixing frame.

7. The bridge-cut-off aluminum door and window frame material processing production line as claimed in claim 1, wherein the positioning device comprises a horizontal workbench and a vertical workbench; the horizontal workbench is used for placing a workpiece and is correspondingly matched with the horizontal roller conveying line; a horizontal clamping plate is arranged on the horizontal workbench; the vertical working table is arranged on one side of the horizontal working table, is arranged opposite to the drilling device and is correspondingly matched with the vertical roller conveying line; the transverse sliding seat is arranged on the vertical mounting seat in a linear sliding manner along the vertical direction behind the vertical workbench; a vertical clamping plate is arranged on the transverse sliding seat in a transverse sliding manner; the vertical clamping plate is matched with the horizontal workbench to clamp the workpiece in the vertical direction; the horizontal clamping plate and the vertical workbench are matched to clamp the workpiece in the horizontal direction.

8. The bridge-cut-off aluminum door and window frame material processing production line of claim 7, wherein the horizontal clamping plate is driven by a horizontal clamping telescopic device, the horizontal clamping telescopic device is horizontally arranged on a horizontal workbench, and a telescopic end of the horizontal clamping telescopic device is connected with the horizontal clamping plate; the vertical clamping plate is driven by the vertical clamping telescopic device, the vertical clamping telescopic device is installed on the vertical installation seat or on the side face of the horizontal workbench, the telescopic end of the vertical clamping telescopic device is connected with the transverse sliding seat, and the vertical clamping plate is driven by driving the transverse sliding seat.

9. The bridge-cut-off aluminum door and window frame material processing production line of claim 8, wherein the transverse sliding base is provided with a transverse guide rail and a transverse expansion device, and the vertical clamping plate is driven by the transverse expansion device to move along the transverse guide rail; the vertical type mounting seat is provided with a vertical guide rail, and the transverse sliding seat is driven by the vertical clamping telescopic device to move along the vertical guide rail.

10. The bridge-cut-off aluminum door and window frame material processing production line of claim 9, wherein the transverse sliding seat is connected with the vertical clamping plate through a connecting plate, and a transverse sliding block matched with the transverse guide rail is arranged on the connecting plate; the horizontal sliding seat is provided with a vertical sliding block matched with the vertical guide rail.

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