CN216828726U - Multifunctional drilling and milling machining center for curtain wall - Google Patents

Abstract

The utility model relates to a multi-functional brill of curtain mills machining center, which comprises a frame, be equipped with slide rail and rack in the frame, be equipped with the portal frame on the slide rail, be equipped with servo motor on the portal frame, servo motor passes through gear and rack toothing, be equipped with the location clamping mechanism who is used for the location to press from both sides tight section bar in the frame of portal frame below, be equipped with the side drill that drills and mills the processing to the section bar side and mill the mechanism, portal frame one side is equipped with and drills and mills mechanism A on the processing to the section bar, and the opposite side is equipped with and drills and mills mechanism B on the processing to the section bar. Have structural design reasonable, can bore mill processing, bore mill processing efficiency height, bore advantages such as milling process quality height to a plurality of faces simultaneously.

Description

Multifunctional drilling and milling machining center for curtain wall

The technical field is as follows:

the utility model relates to a curtain bores mills processing equipment technical field, concretely relates to multi-functional brill of curtain mills machining center.

The background art comprises the following steps:

the drilling and milling processing is an essential process in the processing of the curtain wall profile, the traditional curtain wall drilling and milling processing equipment can only drill and mill one surface at a time, when different surfaces need to be processed, the drilling and milling processing of a plurality of surfaces can be completed only by increasing the movement freedom of the drilling and milling space or turning over the curtain wall profile, and the processing efficiency of the curtain wall profile is severely restricted.

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 problem that prior art exists, provide the multi-functional brill of curtain and mill machining center, have structural design reasonable, can bore to a plurality of faces simultaneously and mill processing, bore and mill advantages such as machining efficiency height, bore and mill processingquality height.

The utility model discloses an adopt following technical scheme to realize above-mentioned purpose:

the multifunctional drilling and milling machining center for the curtain wall comprises a frame, wherein a slide rail and a rack are arranged on the frame, a portal frame is arranged on the slide rail, a servo motor is arranged on the portal frame, the servo motor is meshed with the rack through a gear, a positioning clamping mechanism used for positioning and clamping a profile is arranged on the frame below the portal frame, a side drilling and milling mechanism used for drilling and milling the side face of the profile is arranged on the portal frame, an upper drilling and milling mechanism A used for drilling and milling the upper face of the profile is arranged on one side of the portal frame, and an upper drilling and milling mechanism B used for drilling and milling the upper face of the profile is arranged on the other side of the portal frame.

The portal frame comprises two bottom plates, vertical beams are arranged on the bottom plates, a cross beam is arranged between the two vertical beams, and the servo motor is arranged on the bottom plates.

And each vertical beam is provided with one sidetracking milling mechanism, and the two sidetracking milling mechanisms are symmetrically arranged.

The sidetracking milling mechanism comprises a guide rail A vertically arranged on a vertical beam, a sliding seat A is arranged on the guide rail A, a servo motor A is arranged on the vertical beam, the servo motor A is connected with a lead screw A, the lead screw A is connected with a nut A arranged on the sliding seat A, a guide rail B is transversely arranged on the sliding seat A, a sliding seat B is arranged on the guide rail B, a spindle motor A is transversely arranged on the sliding seat B, the spindle motor A is connected with a drilling and milling cutter A, a driving air cylinder A is arranged on the sliding seat A, and the driving air cylinder A is connected with the sliding seat B.

And an upper drilling and milling mechanism A is arranged on one side of the cross beam, and an upper drilling and milling mechanism B is arranged on the other side of the cross beam.

Go up to bore and mill mechanism A including horizontal guide rail C that sets up on the crossbeam, be equipped with slide C on the guide rail C, be equipped with servo motor C on the crossbeam, servo motor C passes through lead screw C and is connected with the screw C of setting on slide C, be equipped with slider C on the slide C, the vertical guide rail D that is equipped with on the slider C, be equipped with slide D on the guide rail D, be equipped with servo motor D on the slide C, servo motor D passes through lead screw D and is connected with the screw D of setting on slide D, the vertical guide rail E that is equipped with on the slide D, be equipped with slide E on the guide rail E, the vertical spindle motor C that is equipped with on the slide E, be equipped with on the spindle motor C and mill brill cutter C, be equipped with on the slide D and drive actuating cylinder C, drive actuating cylinder C with slide E connects.

Go up to bore and mill mechanism B including transversely setting up the dovetail guide rail on the crossbeam, be equipped with slide F on the dovetail guide rail, be equipped with lead screw F on the dovetail guide rail, lead screw F is connected with the screw F of setting on slide F, lead screw F one end is equipped with adjusting hand wheel, be equipped with slider G on the slide F, be equipped with guide rail G on the slider G, be equipped with slide G on the guide rail G, be equipped with servo motor G on the slide F, servo motor G passes through lead screw G and is connected with the screw G of setting on slide G, the vertical spindle motor G that is equipped with on the slide G, be equipped with on the spindle motor G and bore milling cutter G.

The positioning and clamping mechanism comprises an end positioning plate and two adjusting slide rails arranged on the rack at intervals, a plurality of clamps are arranged on the adjusting slide rails at intervals, and the distance between every two adjacent clamps is adjustable.

The fixture comprises an adjusting slide block arranged on an adjusting slide rail, a locking handle is arranged on the adjusting slide block, a bottom positioning plate is arranged on the adjusting slide block, a side positioning plate is arranged at one end of the bottom positioning plate, an installation plate is arranged at the other end of the bottom positioning plate, a clamping cylinder is arranged on the installation plate, and a clamping block is arranged on the clamping cylinder.

The utility model adopts the above structure, following beneficial effect can be brought:

(1) the portal frame structure is designed on the rack, so that the integrated design of a plurality of drilling and milling machine heads is facilitated, the profile can pass through the lower part of the portal frame, the drilling and milling processing on a plurality of surfaces of the profile is finally completed, and the drilling and milling processing efficiency is obviously improved; (2) the side drilling and milling mechanism and the upper drilling and milling mechanism A are designed to be mechanically adjusted and controlled, so that the machining position can be accurately and quickly adjusted, and the machining requirements of different sectional materials are met; (3) the upper drilling and milling mechanism B can be matched with the upper drilling and milling mechanism B for use through design, and reasonable distribution and processing are realized.

Description of the drawings:

FIG. 1 is a left side view structural diagram of the multifunctional drilling and milling center for curtain walls of the present invention;

FIG. 2 is a schematic diagram of a right-view structure of the multifunctional drilling and milling center for curtain walls of the present invention;

fig. 3 is a schematic view of the curtain wall multifunctional drilling and milling center without a side drilling and milling mechanism;

fig. 4 is a schematic structural view of the positioning and clamping mechanism of the present invention;

FIG. 5 is an enlarged view of part A of FIG. 3;

fig. 6 is a schematic view of the mounting structure of the nut a in the sidetracking milling mechanism of the present invention;

fig. 7 is a schematic view of the mounting structure of the nut C in the upper drilling and milling mechanism a of the present invention;

fig. 8 is a schematic view of the mounting structure of the nut D in the upper drilling and milling mechanism a of the present invention;

fig. 9 is a schematic view of the mounting structure of the nut F in the upper drilling and milling mechanism B of the present invention;

fig. 10 is a schematic view of the mounting structure of the nut G in the upper drilling and milling mechanism B of the present invention;

in the figure, 1, a rack, 2, a slide rail, 3, a rack, 4, a portal frame, 401, a bottom plate, 402, a vertical beam, 403, a cross beam, 5, a servo motor, 6, a gear, 7, a positioning and clamping mechanism, 701, an end positioning plate, 702, an adjusting slide rail, 703, a clamp, 7031, an adjusting slide block, 7032, a locking handle, 7033, a bottom positioning plate, 7034, a side positioning plate, 7035, a mounting plate, 7036, a clamping cylinder, 7037, a clamping block, 8, a side drilling and milling mechanism, 801, a guide rail A, 802, a slide seat A, 803, a servo motor A, 804, a lead screw A, 805, a nut A, 806, a guide rail B, 807, a slide seat B, 808, a spindle motor A, 809, a drilling and milling cutter A, 810, a driving cylinder A, 9, a drilling and milling mechanism A, a guide rail, 901C, 902, a slide seat C, 903, a servo motor C, 904, a lead screw C, a 906, 905, a slider C, 907, a guide rail D, 908, a guide rail C, a, Slide D, 909, servo motor D, 910, lead screw D, 911, nut D, 912, guide rail E, 913, slide E, 914, spindle motor C, 915, drilling and milling cutter C, 916, driving cylinder C, 10, upper drilling and milling mechanism B, 1001, dovetail guide rail, 1002, slide F, 1003, lead screw F, 1004, nut F, 1005, adjusting hand wheel, 1006, slide G, 1007, guide rail G, 1008, slide G, 1009, servo motor G, 1010, lead screw G, 1011, nut G, 1012, spindle motor G, 1013, drilling and milling cutter G, 11 and section bar.

The specific implementation mode is as follows:

in order to more clearly explain the overall concept of the present invention, 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 "transverse," "longitudinal," "vertical," "upper," "lower," "a," "B," 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 a fixed connection, a detachable connection, or an integral part; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1-10, the multifunctional drilling and milling machining center for curtain walls comprises a frame 1, a slide rail 2 and a rack 3 are arranged on the frame 1, a portal frame 4 is arranged on the slide rail 2, a servo motor 5 is arranged on the portal frame 4, the servo motor 5 is meshed with the rack 3 through a gear 6, a positioning and clamping mechanism 7 for positioning and clamping a profile is arranged on the frame 1 below the portal frame 4, a side drilling and milling mechanism 8 for drilling and milling the side surface of the profile 11 is arranged on the portal frame 4, an upper drilling and milling mechanism a9 for drilling and milling the upper surface of the profile 11 is arranged on one side of the portal frame 4, and an upper drilling and milling mechanism B10 for drilling and milling the upper surface of the profile 11 is arranged on the other side of the portal frame. Through design portal frame 4 structure on frame 1, be favorable to with the side drill milling mechanism, go up to bore milling mechanism A and bore milling mechanism B integrated design, and can realize that section bar 11 passes from portal frame 4 below, the drilling and milling processing to 11 many faces of section bar of final completion is showing and is improving and bores milling machining efficiency.

The gantry 4 comprises two bottom plates 401, vertical beams 402 are arranged on the bottom plates 401, a cross beam 403 is arranged between the two vertical beams 402, and the servo motor 5 is arranged on the bottom plates 401. The portal frame structure comprises a bottom plate, a vertical beam and a cross beam, is simple in structure and high in structural strength, and is beneficial to integrated design.

Each vertical beam 402 is provided with one sidetracking milling mechanism 8, and the two sidetracking milling mechanisms 8 are symmetrically arranged. The two side surfaces of the section bar can be drilled and milled simultaneously.

The sidetracking milling mechanism 8 comprises a vertical guide rail A801 arranged on a vertical beam 402, a sliding seat A802 is arranged on the guide rail A801, a servo motor A803 is arranged on the vertical beam 402, the servo motor A803 is connected with a lead screw A804, the lead screw A804 is connected with a screw A805 arranged on the sliding seat A802, a guide rail B806 is transversely arranged on the sliding seat A802, a sliding seat B807 is arranged on the guide rail B806, a spindle motor A808 is transversely arranged on the sliding seat B807, the spindle motor A808 is connected with a drilling and milling cutter A809, a driving air cylinder A810 is arranged on the sliding seat A802, and the driving air cylinder A810 is connected with the sliding seat B807. And the accurate and rapid adjustment of the side drilling and milling position is realized.

An upper drilling and milling mechanism A9 is arranged on one side of the cross beam 403, and an upper drilling and milling mechanism B10 is arranged on the other side of the cross beam. The two upper drilling and milling mechanisms can be used in a matched mode so as to achieve optimal drilling and milling distribution on the section.

The upper drilling and milling mechanism A9 comprises a guide rail C901 which is transversely arranged on a cross beam 403, a sliding seat C902 is arranged on the guide rail C901, a servo motor C903 is arranged on the cross beam 403, the servo motor C903 is connected with a nut C905 arranged on the sliding seat C902 through a lead screw C904, a sliding block C906 is arranged on the sliding seat C902, a guide rail D907 is vertically arranged on the sliding block C906, a sliding seat D908 is arranged on the guide rail D907, a servo motor D909 is arranged on the sliding seat C902, the servo motor D909 is connected with a nut D911 arranged on the sliding seat D908 through a lead screw D910, a guide rail E912 is vertically arranged on the sliding seat D908, a sliding seat E913 is arranged on the guide rail E912, a spindle motor C914 is vertically arranged on the sliding seat E913, a drilling and milling cutter C914 is arranged on the spindle motor C914, a driving cylinder C916 is arranged on the sliding seat D908, and the sliding seat driving cylinder C916 is connected with the sliding seat E913. And realizing accurate and quick adjustment according to the drilling and milling position on the section.

Go up to bore and mill mechanism B10 including transversely setting up dovetail guide rail 1001 on crossbeam 403, be equipped with slide F1002 on dovetail guide rail 1001, be equipped with lead screw F1003 on dovetail guide rail 1001, lead screw F1003 is connected with screw F1004 of setting on slide F1002, lead screw F1004 one end is equipped with adjusting handle 1005, be equipped with slider G1006 on the slide F1002, be equipped with guide rail G1007 on the slider G1006, be equipped with slide G1008 on guide rail G1007, be equipped with servo motor G1009 on the slide F1002, servo motor G1009 is connected with the screw G1011 of setting on slide G1008 through lead screw G1010, the vertical spindle motor G1012 that is equipped with on slide G1008, be equipped with on the spindle motor G1012 and bore milling cutter G1013.

The positioning and clamping mechanism 7 comprises an end positioning plate 701 and two adjusting slide rails 702 arranged on the frame 1 at intervals, a plurality of clamps 703 are arranged on the adjusting slide rails 702 at intervals, and the distance between every two adjacent clamps 703 is adjustable.

The clamp 703 comprises an adjusting sliding block 7031 arranged on the adjusting sliding rail 702, a locking handle 7032 is arranged on the adjusting sliding block 7031, a bottom positioning plate 7033 is arranged on the adjusting sliding block 7032, one end of the bottom positioning plate 7033 is provided with a side positioning plate 7034, the other end of the bottom positioning plate 7033 is provided with a mounting plate 7035, a clamping cylinder 7036 is arranged on the mounting plate 7035, and a clamping block 7037 is arranged on the clamping cylinder 7036. The positioning and clamping of the section bar 11 are realized.

The multifunctional drilling and milling machining center for the curtain wall has the working process that:

when the clamping device is used, firstly, the curtain wall section bar is conveyed from one end, then the end positioning plate 701 is used for positioning, and then the clamping cylinder 7036 is used for positioning and clamping the curtain wall section bar. When drilling and milling, according to the drilling and milling requirements of the curtain wall profile, the drilling and milling processing efficiency of the curtain wall profile is obviously improved by adjusting the position of the portal frame 4, the side drilling and milling mechanism 8, the upper drilling and milling mechanism A9 and the upper drilling and milling mechanism B10 to perform drilling and milling processing on multiple surfaces of the curtain wall profile.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are known to those skilled in the art.

Claims (9)

1. The multifunctional drilling and milling machining center for the curtain wall is characterized by comprising a frame, wherein a slide rail and a rack are arranged on the frame, a portal frame is arranged on the slide rail, a servo motor is arranged on the portal frame and is meshed with the rack through a gear, a positioning clamping mechanism used for positioning and clamping a profile is arranged on the frame below the portal frame, a side drilling and milling mechanism used for drilling and milling the side face of the profile is arranged on the portal frame, an upper drilling and milling mechanism A used for drilling and milling the profile is arranged on one side of the portal frame, and an upper drilling and milling mechanism B used for drilling and milling the profile is arranged on the other side of the portal frame.

2. The curtain wall multifunctional drilling and milling machining center according to claim 1, wherein the portal frame comprises two bottom plates, vertical beams are arranged on the bottom plates, a cross beam is arranged between the two vertical beams, and the servo motor is arranged on the bottom plates.

3. The curtain wall multifunctional drilling and milling machining center according to claim 2, wherein each vertical beam is provided with one side drilling and milling mechanism, and the two side drilling and milling mechanisms are symmetrically arranged.

4. The curtain wall multifunctional drilling and milling machining center according to claim 3, wherein the side drilling and milling mechanism comprises a guide rail A vertically arranged on a vertical beam, a slide seat A is arranged on the guide rail A, a servo motor A is arranged on the vertical beam, the servo motor A is connected with a lead screw A, the lead screw A is connected with a screw nut A arranged on the slide seat A, a guide rail B is transversely arranged on the slide seat A, a slide seat B is arranged on the guide rail B, a spindle motor A is transversely arranged on the slide seat B, the spindle motor A is connected with a drilling and milling cutter A, a driving air cylinder A is arranged on the slide seat A, and the driving air cylinder A is connected with the slide seat B.

5. The curtain wall multifunctional drilling and milling machining center as claimed in claim 4, wherein the cross beam is provided with an upper drilling and milling mechanism A on one side and an upper drilling and milling mechanism B on the other side.

6. The curtain wall multifunctional drilling and milling machining center according to claim 5, wherein the upper drilling and milling mechanism A comprises a guide rail C transversely arranged on a cross beam, a slide seat C is arranged on the guide rail C, a servo motor C is arranged on the cross beam, the servo motor C is connected with a screw nut C arranged on the slide seat C through a screw rod C, a slide block C is arranged on the slide seat C, a guide rail D is vertically arranged on the slide block C, a slide seat D is arranged on the guide rail D, the sliding seat C is provided with a servo motor D, the servo motor D is connected with a screw nut D arranged on the sliding seat D through a screw rod D, a guide rail E is vertically arranged on the sliding seat D, a sliding seat E is arranged on the guide rail E, a spindle motor C is vertically arranged on the sliding seat E, the spindle motor C is provided with a drilling and milling cutter C, the sliding seat D is provided with a driving cylinder C, and the driving cylinder C is connected with the sliding seat E.

7. The curtain wall multifunctional drilling and milling machining center according to claim 6, wherein the upper drilling and milling mechanism B comprises a dovetail groove guide rail transversely arranged on a cross beam, a slide seat F is arranged on the dovetail groove guide rail, a lead screw F is arranged on the dovetail groove guide rail and connected with a nut F arranged on the slide seat F, an adjusting hand wheel is arranged at one end of the lead screw F, a slide block G is arranged on the slide seat F, a guide rail G is arranged on the slide block G, a slide seat G is arranged on the guide rail G, a servo motor G is arranged on the slide seat F and connected with the nut G arranged on the slide seat G through the lead screw G, a spindle motor G is vertically arranged on the slide seat G, and a drilling and milling cutter G is arranged on the spindle motor G.

8. The multifunctional drilling and milling machining center for the curtain wall as claimed in claim 7, wherein the positioning and clamping mechanism comprises an end positioning plate and two adjusting slide rails arranged on the frame at intervals, a plurality of clamps are arranged on the adjusting slide rails at intervals, and the distance between every two adjacent clamps is adjustable.

9. The curtain wall multifunctional drilling and milling machining center as claimed in claim 8, wherein the clamp comprises an adjusting slide block arranged on an adjusting slide rail, a locking handle is arranged on the adjusting slide block, a bottom positioning plate is arranged on the adjusting slide block, a side positioning plate is arranged at one end of the bottom positioning plate, a mounting plate is arranged at the other end of the bottom positioning plate, a clamping cylinder is arranged on the mounting plate, and a clamping block is arranged on the clamping cylinder.

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